KR101289396B1 - supply unit to transfer justly ink volume in printer head - Google Patents

Abstract

The present invention relates to an ink supply unit that delivers an accurate amount of ink at a suitable pressure to accurately supply an appropriate amount of ink to a large printer (plotter) as well as a small printer. In particular, in the case of a supply unit or a system for supplying a large ink, an external container for storing and supplying a large amount of ink is formed, and a cartridge or a damper for communicating with the head is separately provided to supply ink. The damper and the cartridge are formed integrally to accommodate the difference in suction pressure that sucks ink according to the type of printer and the installation environment.In the ink supply, the reservoir tank and the ink supply chamber are separately separated and the ink is stored in the reservoir chamber. The present invention relates to an ink supply unit that delivers an accurate amount of ink at an appropriate pressure to properly supply an amount of ink required according to an interlocking action of an opening / closing valve to a supply chamber.

Description

Supply unit to transfer justly ink volume in printer head

The present invention relates to an ink supply unit that delivers an accurate amount of ink at a suitable pressure to accurately supply an appropriate amount of ink to a large printer (plotter) as well as a small printer. In particular, in the case of a supply unit or a system for supplying a large ink, an external container for storing and supplying a large amount of ink is formed, and a cartridge or a damper for communicating with the head is separately provided to supply ink. The damper and the cartridge are formed integrally to accommodate the difference in suction pressure that sucks ink according to the type of printer and the installation environment.In the ink supply, the reservoir tank and the ink supply chamber are separately separated and the ink is stored in the reservoir chamber. The present invention relates to an ink supply unit that delivers an accurate amount of ink at an appropriate pressure to properly supply an amount of ink required according to an interlocking action of an opening / closing valve to a supply chamber.

In addition, the present invention is mainly the technical matters for the pressure control damper and its cartridge to smoothly supply the ink used in the printer (plotter) including a large-scale photo output printer, a small color printer to the cartridge or the head of the printer, more More specifically, the overall structure relates to an ink supply unit consisting of a very simple one-piece cartridge or a separate cartridge and a damper while allowing ink to be smoothly supplied to the head of the printer. This ink supply unit is easy to manufacture and the cost is reduced compared to the conventional one, and it is possible to install the ink supply unit to facilitate the installation work according to the structure of various inkjet printers as well as large and small printers. It is about.

In general, a printer (plotter) used for printing is equipped with other ancillary devices such as a cartridge for supplying ink or a continuous ink supply device. The head for printing directly for printing to help the supply of ink by fastening the cartridge or the damper is fastened, in order to supply the ink to the damper or cartridge is installed an external ink loaded with a large amount of ink.

Of course, the above is general, and there exists an ink supply apparatus of the type especially without a damper, and there exists an ink supply apparatus provided with a damper and a cartridge separately. By the way, all of these conventional ink supply apparatuses and their means come with many problems. In order to explain this, the ink supply apparatus and its means, which have been manufactured and used in the related art, will be described sequentially.

First, an ink supply device in which only a cartridge and an external ink bottle existed will be described. In general ink supply apparatus, the cartridge external ink container is separated, and an ink supply tube (= tube, hose) is used to connect both parts. In this case, the level of the external ink container is installed higher than that of the cartridge so that ink can be easily supplied from the external ink container to the cartridge, which may cause a problem depending on the installation environment.

If the height of installation of the outer ink container is too high or the amount of ink remaining inside the outer ink container is large, the pressure is increased and the amount of ink delivered to the cartridge is large. On the other hand, if the installation height of the external ink container is too low, or if the amount of ink remaining in the external ink container is too small, the pressure applied to the ink is low so that a proper amount of ink cannot be supplied in a timely manner. There are many variations in pressure depending on the environment. This creates a problem that cannot be overlooked, which degrades the printed material.

In order to solve this problem, conventionally, a damper for lowering the pressure between the external ink container and the cartridge is adopted. It supplies the ink to the head by first filtering the installation position of the external ink container and the pressure deviation of the ink generated from the remaining ink through the damper.

However, such a problem also arises. The known dampers have not been able to supply ink smoothly when ink supply is required, and when the supply of ink is not necessary, the damper must be satisfied to reduce the pressure to some extent without completely blocking the pressure.

In order to cover the ink required for printing, the farther the damper and ink cartridge are located, the greater the suction force, but the power of the head is determined for each printer.

To explain more precisely why each print head is designed to suck as much ink as he needs for printing, the suction power is different. Some printer heads draw a large amount of ink and some ink draw a small amount of ink. At this time, if the amount of control is primarily generated through the damper, and ink is delivered by the suction force of a long distance, it is difficult to accurately receive the ink required by the print head. This is because a weak suction force causes a leak in the transmission of the force.

In addition, a larger problem caused by the conventional damper occurs when the damper and the ink cartridge are far from each other. If the distance between the damper and the ink cartridge is significant, the ink supply time is also delayed, and the suction force of the head is dissipated during the supply, and the ink supply is stopped. As a result, such a problem is that a sufficient amount of ink is not supplied to the connected cartridge, and this phenomenon is repeated, causing the head to be damaged or insufficient ink inside the head, resulting in a serious defect in output quality.

The present invention is to provide an ink supply unit that delivers the correct amount of ink at a suitable pressure to accurately supply an appropriate amount of ink to a large printer (plotter) as well as a small printer.

In particular, in the case of a supply unit or a system for supplying a large ink, an external container for storing and supplying a large amount of ink is formed, and a cartridge or a damper for communicating with the head is separately provided to supply ink. The damper and the cartridge are formed integrally to accommodate the difference in suction pressure that sucks ink according to the type of printer and the installation environment.In the ink supply, the reservoir tank and the ink supply chamber are separately separated and the ink is stored in the reservoir chamber. An ink supply unit for delivering an accurate amount of ink at an appropriate pressure to properly supply the required amount of ink according to the interlocking action of the on / off valve to the supply chamber is provided.

The ink supply unit for delivering the correct amount of ink at an appropriate pressure according to the present invention, the ink supply unit consisting of an outer container 200, a cartridge 100, a damper 50 for supplying ink to the print head 300 A reservoir (10) and an ink supply chamber (20) for dividing through a partition (12) having a flow hole (11) formed at the center thereof to control a supply pressure of printing ink; An ink injection hole 13 formed to penetrate the reservoir chamber 10 at an upper end of the reservoir chamber 10; An ink supply hole 21 formed at one side of the ink supply chamber 20 so as to communicate with the printer head 300 to supply the amount of ink required for the head 300; And an ink injection hole 13 through a damper 50 interposed into and interlocked with the flow hole 11 and including an opening and closing valve 30 for moving ink from the reservoir chamber 10 to the ink supply chamber 20. The ink in the outer container 200 to be supplied) is supplied to the inside of the head 300 by the suction pressure of the printer via the reservoir chamber 10 and the ink supply chamber 20.

In addition, the opening and closing valve 30 according to the ink supply unit for delivering the correct amount of ink at an appropriate pressure of the present invention by turning the outer circumferential surface to be fitted into the flow hole 11 formed in the partition 12, the gap between the gaps. A gasket 34 made of a flexible material having two cover films 32 having 31 and a valve hole 33 formed to penetrate the central portion of the cover film 32; The shaft 35 is formed to penetrate the gasket 34, and the cock part 36 for opening and closing the valve hole 33 in the direction of the reservoir chamber 10 among the ends of the shaft 35, and an ink supply chamber. A valve body 38 for fastening the interlocking plate 37 in the direction of (20); And an elastic spring 39 positioned between the cover film 32 of the gasket 34 and the interlocking plate 37 and wound around the outer circumferential surface of the shaft 35. ) Is interlocked inside the valve hole 33 of the gasket 34, ink is supplied to the inside of the ink supply chamber 20 only when the cock part 36 opens the valve hole 33 on the reservoir chamber 10 side. Supply to the reservoir: The reservoir chamber 10 and the ink supply chamber 20 completely blocks contact with external air through the film, but the first film 51 on the reservoir chamber 10 side is loose and shrinkable and expandable. The interlocking plate interlocked with the outer portion of the ink supply chamber 20 in a state in which the outer portion is fused to the water tank chamber 10 in the entire state, and the second film 52 of the ink supply chamber 20 is also loose and shrinkable and expandable. (37) and the entire surface is fused to form a closed water tank (10) and the ink supply chamber 20: to form a valve body (38) Shaft 35 is fitted so that they can be coupled through the projection 54 and the groove 55 to an integrally formed or kokbu 36 and the interlock plate 37 to be fastened to each other.

In addition, the cock portion 36 of the valve body 38 according to the ink supply unit for delivering the correct amount of ink at an appropriate pressure, the semi-circular shape or the shape of the garden shape so that the opening and closing action can be performed accurately. The ink supply hole 21 of the ink supply chamber 20 communicates with the negative pressure sponge 60 to control the pressure of the ink supplied to the head 300 by incorporating the sponge 61 into the head 300. In communication with: formed with a cartridge 100 having a cartridge case 70 on an integral rectangular parallelepiped combining the negative pressure sponge unit 60 and the damper unit 50, the reservoir tank 10 and the ink supply chamber 20 is separate Through the cover panel 71 to be detachably fastened.

In addition, the present invention according to the ink supply unit for delivering the correct amount of ink at an appropriate pressure, the left and right ends of the cartridge case 70 is formed with the engaging projection 72 and the elastic engaging bar 73 to the head coupling portion 120 Detachable: The ink injection hole 13 formed on the upper end of the reservoir chamber 10 is connected through the outer container 200 and the hose 101, or the outer container 200 can be fitted directly.

According to the present invention there is an advantage that the quality of the printed matter can be brought to provide a damper that can supply ink accurately in proportion to the suction force of the head.

In addition, according to the present invention, since the cartridge is formed integrally with the damper portion and the negative pressure sponge portion, it solves the problem caused by the difference in head suction force caused by the distance between the cartridge and the damper, improves the durability of the print head and improves the printing quality. It has the advantage of being improved.

In addition, according to the present invention, there is an advantage that the negative pressure sponge prevents the ink flow of the nozzle portion generated by applying unnecessary pressure to the head due to the fluctuation of the ink when the print head is operating left and right during output, it is possible to maintain accurate printing .

In addition, the built-in valve of the damper that operates by the amount of time and the suction force of the head in the direction of the ink supply hole of the ink supply chamber of the present invention can be controlled quickly and accurately the amount of ink required by the fine force of the head There is this.

Finally, according to the present invention, while the ink is smoothly supplied to the head of the printer for printing a large promotional material such as a banner or to print a photo or image, the overall structure is very simple to facilitate the production of the ink supply device and the cost is reduced On the other hand, by completely adjusting the ink flow, a print of desired quality can be obtained, and the installation work can be easily made according to the structure of each printer.

1 is a view showing a state in which the present invention is installed,
Figure 2 is an exploded perspective view showing in detail the cartridge of the present invention and the damper portion,
3 is an exploded perspective view showing the cartridge of the present invention and its damper part at different angles,
4 is an overall view of the cartridge of the present invention;
5 shows the cartridge of the invention at a different angle,
Figure 6 is a cut perspective view showing the upper end of the cartridge of the present invention,
7 is a cross-sectional view showing a cross-sectional view of the cartridge of Figure 4 CC line;
8 is a cross-sectional view showing another embodiment of the valve body of the damper of the present invention;
9 is a cross-sectional view showing a cross-sectional view of the cartridge BB line BB;
10 is a cross-sectional view showing a cross-sectional view taken along the line AA of the cartridge of FIG.
11 is a view showing the operation of the cartridge damper unit of the present invention.

The present invention relates to an ink supply unit for supplying ink to various printers. Conventional ink supply devices, supply means and supply units have generally been made up of cartridges, external ink bottles and other ancillary equipment. In addition, there has been an invention in which the damper is provided in addition to the cartridge and the external ink container to adjust the pressure applied in the external ink container (= external container; hereinafter referred to as external container) as described in the prior art.

However, this invention solves the problem of the supply unit which supplies ink to all these conventional printers. Therefore, before describing the present invention, a brief description of the prior art will be described.

In general, since a small printer connected to a home computer (PC) uses less ink, it is preferable that ink be embedded in the cartridge. However, with the spread of multimedia products such as digital cameras, the penetration rate of photo printers has increased dramatically, and the output volume of small printers for printing documents such as photo printers is also increasing.

In the case of a large-format printer (plotter), since the amount of ink used for output is large, when ink is embedded in the cartridge and ink is supplied to the head of the printer, the ink is easily attached and the cartridge must be replaced at all times. However, in the past printers, when ink is supplied to the print head through an ink pack or an opaque plastic compact cartridge, the amount of ink remaining is not known accurately. Therefore, the ink supply is not continuously performed during printing, and the printing itself is interrupted. In addition to causing a delay in replacement of the cartridge, there were various problems such as poorly printed output itself.

Therefore, as a solution for solving the problems caused in this way, an ink continuous supply device, a supply means or a supply unit was used to continuously supply ink to the head of the printer. However, the conventional ink continuous supply device (= supply unit, supply means) has a complicated structure, which makes ink supply not smooth, and the manufacturing cost of the ink supply device is high. There are also various difficulties in maintaining the ink supply.

Therefore, it is time to come up with a proposal to simplify the structure of the ink continuous supply device for supplying ink while making it possible to continuously supply the ink to the head of the printer smoothly and accurately. The present invention is such an invention.

The present invention will be described. The present invention, in the ink supply unit consisting of an outer container 200, a cartridge 100, a damper 50 for supplying ink to the printer head 300, as shown in the figure, the flow hole 11 is formed in the center There is a reservoir chamber 10 and an ink supply chamber 20 which are divided through the partition 12 to control the supply pressure of printing ink. In addition, there is an ink injection hole 13 formed to penetrate the reservoir chamber 10 at an upper end of the reservoir chamber 10, and is formed at one side of the ink supply chamber 20 so as to communicate with the printer head 300 and the head 300. There is an ink supply hole 21 for supplying as much ink as necessary, and is interlocked with the inside of the flow hole 11, the opening and closing valve for moving the ink from the reservoir chamber (10) to the ink supply chamber (20) There is 30). All of these are referred to as damper 50.

These are coupled to each other to supply the ink in the outer container 200 supplied to the ink injection hole 13 through the reservoir chamber 10 and the ink supply chamber 20 to the inside of the head 300 by the suction pressure of the printer. . The core of the present invention was to manufacture the damper integrally with the cartridge to solve the problems caused in the prior art.

In the prior art, first, there was a variation in the pressure generated due to the external ink container (= external container) and the cartridge is located at a distance. Second, there was an embodiment equipped with a separate damper to solve this problem, but the problem caused by the conventional damper it is difficult to completely compensate for the difference in suction force that the head sucks for printing. This is usually caused by the distance between the damper and the cartridge.

As a result, the present invention seeks to provide an integrated cartridge in which the damper and the cartridge are completely eliminated from the distance, and even if the damper is located far from the cartridge, the damper may be located at a distance from the head. The ink is properly supplied according to the suction force to provide a damper that does not interfere with the print. The biggest technical feature of the present invention lies in the damper, which is excellent in the performance of the damper, so that any amount of ink can be supplied in a timely manner in any environment. Furthermore, such a damper is integrated with the cartridge to further enhance the effect.

The damper 50 of the present invention proposed for this purpose is divided into the reservoir chamber 10 and the ink supply chamber 20 which are formed in both the left and right directions through the partition 12, as described above. The partition 12 has a flow hole 11 shown in the center thereof, and the ink inside the outer container 200 entering the reservoir chamber 10 is secondarily loaded. In general, the outer container 200, which is installed at a higher position than the damper 50, and is installed at a distance, moves downward along the pipe or the hose 101 and rides through the ink injection hole 13 to hold the reservoir tank ( 10) to enter. Ink entering the reservoir chamber 10 moves to the ink supply chamber 20 in accordance with the opening and closing action of the opening and closing valve 30 fitted in the flow hole (11). This movement moves the ink by the amount necessary according to the intermittent interlocking action of the on-off valve 30, more precisely by the amount of suction force generated in the head of the printer. The operation of the on-off valve 30, which is an important part of the present invention, is that the head 300 operates only to move the ink from the reservoir chamber 10 to the ink supply chamber 20 by the amount of suction force sucked by each head 300. It is a method of filling ink into the ink supply chamber 20 by opening only the space for a time to be refilled by a sucked amount different from the check valve.

More detailed technical matters of the damper 50 will be described later, but the damper 50 of the present invention mounted as described above may be manufactured and used separately from the cartridge 100, so that ink supply is sufficient. However, in order to improve the quality of the printing more surely, it is desirable to be manufactured integrally with the cartridge.

Then look at more specific features of such a damper (50). As shown in the figure, the opening and closing valve 30, and two cover membrane 32 having a fitting gap 31 is turned by turning the outer circumferential surface to be fitted to the flow hole 11 formed in the partition wall 12 and There is a gasket 34 of a flexible material having a valve hole 33 formed to penetrate the central portion of the cover film 32, the shaft 35 is formed to penetrate the gasket 34, the shaft 35 There is a cock portion 36 for opening and closing the valve hole 33 in the direction of the reservoir chamber 10, and the valve body 38 for fastening the interlocking plate 37 in the ink supply chamber 20 direction. Is located between the cover film 32 of the gasket 34 and the interlocking plate 37, there is an elastic spring 39 is installed on the outer circumferential surface of the shaft 35. Therefore, when the shaft 35 is interlocked inside the valve hole 33 of the gasket 34, ink is supplied to the ink supply chamber only when the cock part 36 opens the valve hole 33 on the reservoir chamber 10 side. It supplies to the inside of (20).

That is, the on-off valve 30 described in the present invention has a gasket 34 fitted into the flow hole 11 formed in the center of the partition 12. The gasket 34 is connected to the valve hole 33, which is the central portion thereof, and interlocks with each other, so that no gap is provided except when space is provided in the valve hole 33, so that ink is unnecessary in the water storage chamber. (10) and the ink supply chamber 20 can not be moved. The material is made of rubber or elastic and flexible material to enhance the sealing effect. It consists of two cover films 32 to be tightly fitted to the inner circumferential surface and the peripheral portion of the flow hole 11, the fitting gap 31 is naturally formed between the cover film (32). Flow hole 11 is caught in this fitting interval 31 and the two cover membranes 32 seal the left and right directions of the flow hole 11, respectively. Correspondingly, the valve element 38 has a shaft 35 having a thickness that can be fitted into the flow hole 11 and has cock portions 36 and an interlocking plate 37 at both left and right ends thereof. It has a larger diameter than (33). In addition, the elastic spring 39 is fitted to the interlocking plate 37 side, and the interlocking plate 37 pushes the interlocking plate 37 toward the ink supply chamber 20 because it is fastened in a manner surrounding the outer circumferential surface of the shaft 35. Is located in a state of always blocking the valve hole 33 on the reservoir 10 side. However, if the head 300 of the printer exerts suction force and sucks ink into the ink supply hole 21 of the ink supply chamber 20, the valve body 38 is interlocked by the suction amount, and the reservoir chamber 10 is connected. To refill the ink into the ink supply chamber (20).

Then look at the great features of the present invention to achieve such quantitative accuracy. 2 and 3, the reservoir chamber 10 and the ink supply chamber 20 completely block contact with external air through the film, but the first film 51 on the reservoir chamber 10 side is loose. The outer portion of the ink supply chamber 20 is fusion-bonded to the water storage chamber 10 in a state where shrinkage expansion is possible, and the second film 52 of the ink supply chamber 20 is also loose and shrinkable and expands in the outer portion of the ink supply chamber 20. It is fused to the entire surface with the interlocking plate 37 to interlock to form a closed reservoir tank 10 and the ink supply chamber 20.

The installation of this film will be described with reference to the drawings. There is a first film 51 that covers one side of the reservoir chamber 10 but is fused to maintain a completely closed state. An important matter when fusion of the first film 51 is not fused in a perfectly tight state. . It is fused in a loose state to some extent, and the volume of the water storage chamber 10 is fused in a linkable state. In addition, in the case of the second film 52 fused to the ink supply chamber 20 is also loosely fused it is possible to link the volume. The reason why these films are important is that they supply ink through swelling and shrinking of the volume while interlocking with each other.

The operation will be described in detail with reference to FIG. First, the first film 51 covering the reservoir tank 10 in a completely intimate state is expanded to accommodate ink flowing down from the outer container 200 to fill the ink. Then, when the head 300 sucks ink through the ink supply hole 21 of the ink supply chamber 20 by using the suction force, the ink supply chamber 20 surrounded by the second film 52 has a large volume. Is reduced. Since the second film 52 is not fused only to the outer portion of the ink supply chamber 20 but is also fused with the interlocking plate 37 of the on / off valve 30, the second film 52 moves after the ink moves toward the head 300. This is because the volume is reduced by the amount. By the reduced volume, the second film 52 narrows the gap toward the partition 12, and the force overcomes the elastic force of the elastic spring 39 and causes the cock 36 to fall from the valve hole 33. That is, the reservoir tank 10 and the ink supply chamber 20 are opened to the valve hole 33. At this time, since the ink on the reservoir chamber 10 side is full, the ink moves from the reservoir chamber 10 to the ink supply chamber 20 until the cock part 36 blocks the valve hole 33 again. Of course, when the movement is completed and the valve hole 33 is closed by the cock part 36, the reservoir chamber 10 is in a state in which the volume is reduced by the amount of ink moved, so that the ink which is going to descend from the outer container 200 Pressure and deviation occurs. By this deviation, the ink flows down the hose 101 or the tube to refill the reservoir chamber 10, and when the volume is expanded and there is no pressure variation, the injection of the ink stops. The above-described operation is always repeated as much as the amount of ink to be printed and the amount of ink to be sucked by the head 300, and supplies ink more accurately.

The important point here is the amount of ink according to the suction force sucked by the head 300 and the amount of ink escaping from the ink supply chamber 20, and thus the amount of ink moved from the reservoir chamber 10 to the ink supply chamber 20. And the amount of ink flowing down from the outer container 200 to the reservoir chamber 10 is the same. This is a technical effect that the damper 50 of the present invention can always supply accurate and appropriate ink, even if the damper 50 and the cartridge 100 are not integrated.

In addition, the shaft 35 forming the valve body 38 described in the present invention is formed integrally with the projections 54 and the grooves (36) to enable the cock portion 36 and the interlocking plate 37 to be fastened to each other. It is preferable to be able to fit through 55).

7, 8, the valve body 38 of the present invention is interlocked in the lateral direction about the shaft 35. In order to facilitate assembly, the protrusion 54 and the groove 55 may be used in a state in which they can be fitted together.

However, the diameter of the flow hole 11 may be integrally manufactured as in FIG. 8 in size compared to the cock portion 36. The integral type is more preferable for the durability and the accuracy of the interlocking action.

In addition, the cock portion 36 of the valve body 38 according to the present invention has a semi-circular shape or a garden shape so that the opening and closing action can be performed accurately.

That is, the cock 36 is interlocked together according to the left and right interlocking action of the second film 52. At this time, the outer circumferential surface of the cock portion 36 is fitted to the inner circumferential surface of the valve hole 33 to maintain a completely closed state at the required time and to block the movement of ink. To this end, the cock portion 36 of the present invention has a semicircular shape (shown in FIG. 7) or a circular shape (shown in FIG. 8) so as to be accurately fitted to the inner circumferential surface of the valve hole 33. In fact, in the process of fusing the interlocking plate 37 to the second film 52, it is difficult for the valve body 38 to be fused in a perfectly horizontal state with respect to the flow hole 11. It may be fused at an oblique angle to some extent, and the factor that allows the cock part 36 to completely seal the valve hole 33 even in this poor work is most preferably in the form of a garden or a semicircular outer surface.

Meanwhile, in the present invention, as described above, ink may be supplied to the head 300 of the printer via the cartridge 100 in addition to the damper 50. That is, the ink supply hole 21 of the ink supply chamber 20 communicates with the negative pressure sponge 60 to control the pressure of ink supplied to the head 300 by incorporating the sponge 61 and then the head 300. To communicate with.

The negative pressure sponge unit 60 using the negative pressure sponge 61 refers to the cartridge 100 and supplies the amount of the head 300 sucked in the state where the ink is absorbed in the negative pressure sponge 61. If the suction force is not applied also serves to keep the ink from flowing to the inside of the head (300). The damper 50 of the present invention and the negative pressure sponge portion 60 can communicate with each other to maintain a more reliable printing.

Next, the present invention is formed of a cartridge 100 having a cartridge case 70 on an integral rectangular parallelepiped combining the negative pressure sponge unit 60 and the damper unit 50, and the reservoir chamber 10 and the ink supply chamber 20 are Through a separate cover panel 71 to be detachably fastened.

As described above, the present invention could solve the conventional problems only by the systematic installation configuration. However, by eliminating the distance between the damper 50 and the cartridge 100 is to solve the conventional problem more reliably. To this end, the present invention proposes a cartridge 100 in which the damper 50 and the negative pressure sponge unit 60 are integrally combined. The negative pressure sponge unit 60 is provided on one side of the damper 50, and the negative pressure sponge unit 60 is connected to the ink supply hole 21 of the ink supply chamber 20 of the damper unit 50 and the damper unit 50. Of course, the cover panel 71 is also mounted to the outside of the first film 51 and the second film 52 forming the damper 50 to achieve a perfect sealing.

In addition, as shown in Figures 1, 4, 5 of the present invention, the left and right ends of the cartridge case 70 to form a locking projection 72 and the elastic locking bar 73 to be detachable to the head coupling portion 120.

In order to be easily fastened to the various heads 300, the cartridge case 70 has a structure that can be fastened by a one-click click with the head coupling part 120. When pressing the elastic projection bar (73) side down in the state in which the locking projection (72) is first inserted into the head coupling portion 120, the elastic locking bar (73) clicks to complete the fastening firmly, and to dismantle again When pressing the elastic catching bar 73, the cartridge case 70 may be peeled off while the elastic force is released.

Finally, in the present invention, the ink injection hole 13 formed at the upper end of the reservoir chamber 10 is connected through the outer container 200 and the hose 101 or the outer container 200 can be directly fitted.

As shown in FIG. 1, the present invention can supply ink of any suitable pressure through the damper 50. Therefore, no large pressure deviation between the outer container 200 and the cartridge 100 is required. In the installation environment where a large pressure exists between the outer container 200 and the cartridge 100, that is, even when the outer container is located at a substantially high position in the cartridge 100, the reservoir chamber 10 and the ink supply chamber 20 of the damper 50. And the on-off valve 30 can be controlled to properly maintain the pressure. In addition, an installation environment in which a small pressure exists between the outer container 200 and the cartridge 100, that is, even when the outer container 200 is directly fastened to the upper end of the cartridge 100, the ink is always supplied primarily through the damper 50. In accordance with the suction force of the head 300 can be appropriately supplied.

In this relationship, the outer container 200 of the present invention may be in communication with the ink injection hole 13 of the reservoir chamber 10 through the hose 101, the outer container 200 is immediately the top of the cartridge 100, , May be coupled in close contact with the ink injection hole 13 of the reservoir chamber 10. When the outer container 200 is fastened only so that the outer container 200 can be positioned at the upper end, it can solve all the conventional problems and supply ink accurately.

Referring to the reference numerals omitted in the drawings, the upper cover of the cartridge case 70, that is, the cover covering the negative pressure sponge 60, the reference numeral B, the negative pressure sponge 60 in communication with the ink supply hole 21 Is the symbol D of the discharge port which exits to the print head 300 in the.

10; Reservoir 11; Flow ball
12; Bulkhead 13; Ink injection hole
20; Ink supply chamber 21; Ink supply hole
30; On-off valve 31; Spacing
32; Cover plate 33; Valve ball
34; Gasket 35; shaft
36; Cock part 37; Interlocking Plate
38; Valve body 39; Elastic spring
50; Damper 51; First film
52; Second film 60; Negative pressure sponge
61; Negative pressure sponge 70; Cartridge case
71; Cover panel 72; Obstacle
73; Elastic locking bar 100; cartridge

Claims (9)

delete It consists of an outer container 200, a cartridge 100, a damper 50 for supplying ink to the printer head 300,
A reservoir chamber 10 and an ink supply chamber 20 which are divided through a partition 12 having a flow hole 11 formed at a center thereof to control a supply pressure of printing ink;
An ink injection hole 13 formed to penetrate the reservoir chamber 10 at an upper end of the reservoir chamber 10;
An ink supply hole 21 formed at one side of the ink supply chamber 20 so as to communicate with the printer head 300 to supply the amount of ink required for the head 300; And
The ink injection hole 13 is interposed into the flow hole 11 and interlocked with a damper 50 including an opening / closing valve 30 for moving ink from the reservoir chamber 10 to the ink supply chamber 20. By supplying the ink in the outer container 200 supplied to the inside of the head 300 through the reservoir chamber 10 and the ink supply chamber 20 by the suction pressure of the printer to the correct amount of ink at an appropriate pressure In the ink supply unit for delivering,
On-off valve 30,
A valve formed to penetrate the center of the cover film 32 and the two cover film 32 having the fitting gap 31 is turned by turning the outer peripheral surface so as to fit into the flow hole 11 formed in the partition wall 12 A gasket 34 of a flexible material having a ball 33;
The shaft 35 is formed to penetrate the gasket 34, and the cock part 36 for opening and closing the valve hole 33 toward the water storage chamber 10 among the ends of the shaft 35 and the ink supply chamber. A valve body 38 for fastening the interlocking plate 37 in the direction of (20); And
An elastic spring (39) positioned between the cover film (32) of the gasket (34) and the interlocking plate (37) and wound around the outer circumferential surface of the shaft (35); When interlocking with the valve hole 33 of the gasket 34, the ink moves to the inside of the ink supply chamber 20 only when the cock part 36 opens the valve hole 33 on the reservoir chamber 10 side. An ink supply unit for delivering the correct amount of ink at an appropriate pressure, characterized in that for supplying.
The method of claim 2,
The reservoir chamber 10 and the ink supply chamber 20 completely block contact with external air through the film, but the first film 51 on the reservoir chamber 10 side is loose and shrinkable and expandable in its outer part. The interlock plate 37 is fused to the water tank chamber 10 on the entire surface, and the second film 52 of the ink supply chamber 20 also interlocks with the outer portion of the ink supply chamber 20 in a state in which the shrinkage and expansion of the ink supply chamber 20 are possible. An ink supply unit that delivers the correct amount of ink at an appropriate pressure, characterized in that the entire surface is fused to form a closed reservoir tank (10) and the ink supply chamber (20).
The method of claim 2,
The shaft 35 forming the valve body 38 may be integrally formed or fitted through the protrusion 54 and the groove 55 to fasten the cock 36 and the interlocking plate 37 to each other. An ink supply unit for delivering the correct amount of ink at an appropriate pressure, characterized in that to enable.
The method of claim 2,
The cock part 36 of the valve body 38 is
An ink supply unit that delivers the correct amount of ink at an appropriate pressure, characterized in that the outer shape is semi-circular or garden-shaped to enable the opening and closing action accurately.
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