JPH06198913A - Waste ink recovery device - Google Patents

Abstract

PURPOSE:To certainly avoid an ink leakage phenomenon by enhancing the absorbing capacity of waste ink to a large extent without complicating device constitution. CONSTITUTION:In the waste ink recovery device recovering the waste ink 2 discharged from an ink jet head 1, a waste ink tank 3 having an ink introducing port 4 opened to a part thereof and the waste ink absorbing member 5 received in the waste ink tank 3 and having density gradient becoming high as separating from the position of the ink introducing port 4 are provided. If necessary, an evaporation port 6 is provided to the top part of the waste ink tank 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste ink collecting apparatus for collecting waste ink generated in an ink jet recording apparatus.

[0002]

2. Description of the Related Art Generally, in an ink jet recording apparatus, it is necessary to collect not all ink supplied from an ink tank to an ink jet head for printing but a part of it as waste ink. In other words, there are two major ways to collect the waste ink, one of which is the case where the nozzle of the inkjet head is clogged due to drying or the like, which is inevitable when the dried portion is sucked and removed from the outside. The other is that waste ink is collected at the same time, and the other one is when bubbles are mixed in the ink supply path from the ink tank to the inkjet head, and ink containing bubbles may cause printing failure. Due to the connection, it is necessary to forcibly discharge the discharged ink containing bubbles outside the ink supply path. Under such a demand, the ink jet recording apparatus is usually provided with a waste ink collecting device.

As a conventional waste ink recovery device,
There has already been provided a structure in which a waste ink absorber is housed in a waste ink tank with an ink inlet partly opened, and the waste ink collected from the ink inlet is absorbed by the waste ink absorber. . In this type, when the ink absorption capacity of the waste ink absorber has reached a saturated state and further waste ink is supplied to the waste ink absorber, the waste ink is not absorbed and ink leaks from the waste ink absorber. Therefore, the size of the waste ink absorber is determined to be an appropriate size based on the amount of waste ink generated, so that the ink absorbing ability of the waste ink absorber does not reach a saturated state. In a normal exchange type waste ink recovery device, the waste ink absorber is replaced before it reaches a saturated state, and in a non-replaceable waste ink recovery device, for example, an ink drying hole is provided in the waste ink tank. Is opened and the discharged ink is dried so that the saturated state is not reached (for example, JP-A-3-2).
91256). Further, the required properties of the waste ink absorber are that it can quickly absorb the waste ink, and that it can effectively prevent the once-absorbed waste ink from seeping out. As a means for doing so, it has already been known to accommodate a waste ink absorber having a high absorption speed and a waste ink absorber having a high ink holding power in the waste ink tank (for example, Japanese Laid-Open Patent Publication No. HEI-3- 227658).

[0004]

However, in the conventional waste ink collecting apparatus, the generated amount of waste ink is often very small in a short time, but the waste ink is discharged over the entire waste ink absorber. In many cases, the ink is not uniformly absorbed, but stays near the ink introduction port of the waste ink absorber. In this case, the ink absorption capacity of the waste ink absorber cannot be said to be saturated in the entire waste ink absorber, but if the waste ink absorber near the ink inlet is viewed locally, the ink absorption capacity has reached a saturation state. The situation occurs. In such a situation, in the replaceable waste ink recovery device, there is a high probability that the waste ink will be present in the vicinity of the ink introduction port without being absorbed by the waste ink absorber. There is a technical problem that ink leakage easily occurs. Further, in the non-exchange type waste ink recovery device, it is more likely that the waste ink dries near the ink inlet of the waste ink absorber, and the solid component in the waste ink is the ink of the waste ink absorber. There is a concern that the ink will accumulate near the inlet and the discharged ink absorber will become clogged. In this case, the ink absorbing capacity of the waste ink absorber is lowered, the probability of ink leakage is increased, and the technical problem is that the ink discharge pipe cannot communicate with the waste ink absorber.

The present invention has been made in order to solve the above technical problems, and it greatly improves the absorbing performance of the discharged ink without complicating the structure of the apparatus and ensures the ink leakage phenomenon. The present invention provides a waste ink recovery device that can be avoided.

[0006]

That is, the present invention is
As shown in FIG. 1, in the waste ink collecting device that collects the waste ink 2 discharged from the inkjet head 1,
A waste ink tank 3 with an ink inlet 4 opened in part
And a waste ink absorber 5 having a density gradient that is housed in the waste ink tank 3 and has a density that increases as the distance from the position of the ink introduction port 4 increases.

In such a technical means, the present invention is applicable to both the exchange type and the non-exchange type. However, when the non-exchange type is constructed,
A proper number of evaporation ports 6 may be provided at the top of the waste ink tank 3. Further, the ink introduction port 4 may be opened at one side of the waste ink tank 3 or may be opened at an appropriate position such as at the center.

The material of the waste ink absorber 5 is
A porous material such as a sponge, a fibrous material, a felt, or the like can be appropriately selected as long as it has a property of absorbing the discharged ink. As a method of giving a density gradient to the waste ink absorber 5, for example, the waste ink absorber 5 having a non-cuboid shape is preformed on the waste ink tank 3 having a rectangular parallelepiped shape, and the waste ink absorber 5 is formed. May be forcibly accommodated in the waste ink tank 3, or
A material whose material density changes so as to have a predetermined density gradient can be appropriately selected by, for example, preforming it into a rectangular parallelepiped shape by press molding or the like.

[0009]

According to the technical means described above, the waste ink 2 introduced into the waste ink absorber 5 in the waste ink tank 3 from the ink introduction port 4 has a low density of the waste ink absorber 5 due to the capillary phenomenon. Side to high density side. Further, if the evaporation port 6 is opened at the top of the waste ink tank 3,
The waste ink 2 absorbed from the low density side to the high density side of the waste ink absorber 5 evaporates through the evaporation port 6.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below based on the embodiments shown in the accompanying drawings. Example 1 FIG. 2 shows an example of an ink ejection performance recovery device incorporating Example 1 of the waste ink recovery device to which the present invention is applied. In FIG. 1, the ink discharge performance recovery device is provided with a cap 12 that covers the surface of the nozzle 11 of the inkjet head 10.
A negative pressure suction pump 14 which is connected to the cap 12 via a tube 13, and a negative pressure suction pump 14
And a waste ink recovery device 16 that is communicatively connected via a tube 15. In this ink ejection performance recovery device, for example, when the nozzle 11 of the inkjet head 10 is clogged, the surface of the nozzle 11 of the inkjet head 10 is covered with the cap 12 and the suction operation by the negative pressure suction pump 14 is performed for a predetermined time. Then, the waste ink generated at this time is collected in the waste ink collecting device 16.

A waste ink recovery device according to this embodiment is shown in FIGS. In the figure, the waste ink recovery device 16
The waste ink absorber 30 is housed in the waste ink tank 20. In this embodiment, the waste ink tank 2
Reference numeral 0 is composed of a substantially rectangular parallelepiped-shaped waste ink tank case 21 and a lid 22 that closes the top opening of the waste ink tank case 21. Then, the lid 22
Has a rectangular ink introduction port 23 formed at one end thereof and an appropriate number of evaporation ports 24. When the waste ink absorber 30 is accommodated in the waste ink tank case 21, the waste ink is discharged. It is attached to the tank case 21 by ultrasonic welding or the like. The waste ink absorber 30 is made of, for example, urethane sponge, and the cross section shape of the waste ink absorber 30 is the waste ink tank case 2.
1 is formed in a rectangular shape substantially corresponding to the cross-sectional shape of 1.
In the vertical cross-sectional shape of the waste ink absorber 30 in the natural state, the height dimension is proportional to the height dimension h0 to h1 of the waste ink tank case 21 with respect to the longitudinal direction of the waste ink tank case 21 (direction m in FIG. 3). It is formed in a trapezoidal shape that increases.
The waste ink absorber 30 is housed in the waste ink tank case 21 so that the side having a lower height is located on the ink introduction port 23 side, and is pressed when the lid 22 is attached to the waste ink tank case 21. By force, the ink is forcibly accommodated in the waste ink tank case 21 while being crushed into a substantially rectangular parallelepiped shape. Therefore, the waste ink absorber 30 has a uniform density in the natural state, but the waste ink absorber 30 forcibly accommodated in the waste ink tank 20 has a density gradient as shown in FIG. .

Next, the operation of the waste ink collecting apparatus according to this embodiment will be described. That is, the waste ink 17 collected from the tube 15 is introduced into the waste ink absorber 30 in the waste ink tank 20 through the ink introduction port 23. At this time, the density of the waste ink absorber 30 in the waste ink tank 20 is the lowest near the ink inlet 23, and the density increases as the distance from the ink inlet 23 increases. Due to a phenomenon, the discharged ink absorber 30 shifts from the low density side to the high density side, and the ink introduction port 2
The waste ink 17 does not collect in the vicinity of 3. Then, the waste ink 17 that has moved to the high density side of the waste ink absorber 30 evaporates through the evaporation port 24.

Example 2 FIGS. 5 and 6 show an exhausted ink recovery apparatus according to Example 2. In the figure, the basic configuration of the waste ink recovery device 16 is the same as that of the first embodiment, but unlike the first embodiment, the ink introduction port 23 is opened in the central portion of the lid body 22 and evaporated on both sides thereof. While the mouth 24 is opened, the waste ink absorber 3
In the vertical sectional shape of 0 in the natural state, the central portion corresponding to the ink introduction port 23 substantially corresponds to the height dimension h0 of the waste ink tank case 21, and the longitudinal direction of the waste ink tank case 21 (see FIG.
The shape is such that it increases proportionally up to h2 toward both sides (in the middle m direction), and the waste ink absorber 30 is forcibly accommodated in the waste ink tank 20 in a flat state in the same manner as in the first embodiment. At this time, the waste ink absorber 30 has a density gradient as shown in FIG. Therefore, according to this embodiment, when the waste ink 17 is introduced from the ink introduction port 23 into the waste ink absorber 30 in the waste ink tank 20,
The waste ink 17 moves from the low density side of the waste ink absorber 30 to the high density side in two separate states, and the waste ink 17 that has moved to the high density side evaporates via the evaporation port 24.

[Third Embodiment] FIGS. 7 and 8 show a waste ink recovery apparatus according to a third embodiment. In the figure, the basic configuration of the waste ink recovery device 16 is substantially the same as that of the first embodiment, but since the replacement type waste ink recovery device 16 is targeted in this embodiment, the evaporation port as in the first embodiment is used. 24 is unnecessary. Therefore, according to this embodiment, as in the first embodiment, the waste ink 17 introduced into the waste ink absorber 30 in the waste ink tank 20 from the ink introduction port 23 has a low density. Side to the high density side, and within the range of the ink absorbing capacity of the waste ink absorber 30, the waste ink
7 is effectively absorbed.

[0015]

As described above, according to the first aspect of the invention, the waste ink introduced from the ink introduction port to the waste ink absorber in the waste ink tank is discharged by the capillary phenomenon. Since the low density side is naturally shifted to the high density side, the waste ink does not stay near the ink inlet of the waste ink absorber and the ink absorbing ability of the entire area of the waste ink absorber can be effectively used. In addition, it is possible to avoid the situation where the solid component after the discharged ink is dried is accumulated in the vicinity of the ink introduction port. For this reason, it becomes possible to reliably collect the waste ink introduced from the ink introduction port in the waste ink absorber, and it is possible to greatly improve the waste ink absorption performance by that amount. The harmful effect of can be effectively avoided. Further, according to the present invention, since the above-described effect can be obtained only by providing the waste ink absorber with a predetermined density gradient, there is no concern that the device configuration will be complicated and the cost will be increased. Further, according to the second aspect of the invention, the waste ink that is reliably absorbed by the waste ink absorber in the waste ink tank is evaporated from the evaporation port.
The life of the non-replaceable waste ink recovery device can be greatly extended.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a configuration of a waste ink recovery device according to the present invention.

FIG. 2 is an explanatory diagram showing an overall configuration of an ink ejection performance recovery device in which the waste ink recovery device according to the first embodiment is incorporated.

FIG. 3 is an exploded perspective view of the waste ink recovery device according to the first embodiment.

FIG. 4 is a cross-sectional explanatory diagram of the waste ink recovery device according to the first embodiment.

FIG. 5 is an exploded perspective view of a waste ink recovery device according to a second embodiment.

FIG. 6 is an explanatory cross-sectional view of the waste ink recovery device according to the second embodiment.

FIG. 7 is an exploded perspective view of a waste ink recovery device according to a third embodiment.

FIG. 8 is an explanatory cross-sectional view of the waste ink recovery device according to the third embodiment.

[Explanation of symbols]

1 ... Inkjet head, 2 ... Waste ink, 3 ... Waste ink tank, 4 ... Ink inlet, 5 ... Waste ink absorber, 6
… Evaporation port

Claims (2)

[Claims] 1. A waste ink recovery device for recovering waste ink (2) discharged from an inkjet head (1), and a waste ink tank (3) having an ink introduction port (4) partially formed, A waste ink recovery device comprising: a waste ink absorber (5) housed in a waste ink tank (3) and having a density gradient in which the density increases as the distance from the position of the ink introduction port (4) increases. . 2. The waste ink recovery device according to claim 1, wherein an appropriate number of evaporation ports (6) are opened at the top of the waste ink tank (3).