JP2007296701A - Waste ink tank - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To increase the degree of freedom in the installation of a waste ink tank while ensuring the absorbing performance of the waste ink tank which absorbs and stores a waste ink. <P>SOLUTION: The waste ink tank is used to store the waste ink of an inkjet recording device. In the waste ink tank, the absorbing performance is ensured by ensuring a ventilation in such a manner that a space (s) in which absorbing foam 204 for absorbing the waste ink does not exist may be formed in a vicinity of the outlet 231h of an introduction port 231 which guides the waste ink into the waste ink tank. In concrete, the absorbing foam 204 in the vicinity of the outlet 231h may be deformed by a protruding member 232 which is provided in the cabinet of the waste ink tank. Since the protruding member 232 can be provided at any position, the introduction port 231 may be provided in any position, and the flexibility in the installation of the waste ink tank is increased. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a waste ink tank that is used in an ink jet recording apparatus and stores waste ink.

  Conventionally, in an ink jet recording apparatus that records an image on a recording medium by discharging the ink from the nozzle onto the recording medium, the ink in the nozzle dries and solidifies due to factors such as long-term non-use. As a result, it is known that the nozzles are clogged and the ink cannot be ejected (that is, a non-ejection state), which is a problem. Therefore, in order to prevent a non-ejection state from occurring in advance or to recover from a non-ejection state to a normal state in which ink can be ejected in the case of a non-ejection state, the following maintenance is generally performed. Measures are adopted.

  First, for example, when the power of the ink jet recording apparatus is turned off, the tip of the nozzle is covered with a cap member. Thereby, the tip of the nozzle is shielded from outside air as much as possible, and the ink in the nozzle (especially near the tip) is prevented from drying.

  Second, the tip of the nozzle is covered with a cap member and negative pressure is applied to suck the ink in the nozzle. That is, in the case of a non-ejection state, the dried and solidified ink in the nozzle is forcibly sucked and removed. Further, if the ink in the nozzles is sucked regularly, it is possible to prevent the ink in the nozzles from drying out.

In this type of ink jet recording apparatus, unnecessary ink dropped on the cap member or unnecessary ink sucked from the nozzle (hereinafter referred to as waste ink) is, for example, a waste ink tank provided inside the ink jet recording apparatus. It is made to store in (tank for storing waste ink) (for example, refer patent document 1, 2).
JP-A-4-364960 JP-A-8-132640

  By the way, some waste ink tanks have an absorber for absorbing ink and a housing for housing the absorber. In the ink jet recording apparatus provided with such a waste ink tank, the waste ink is discharged to the absorber from the ink discharge opening provided on the upper wall of the waste ink tank casing. For example, there is a method in which waste ink is guided to an ink discharge opening on the upper wall by a tube or the like. According to this method, since the ink discharge opening provided on the upper wall of the casing of the waste ink tank is always exposed to the atmosphere, the waste ink is smoothly absorbed by the absorber.

  On the other hand, in recent years, with the downsizing of the ink jet recording apparatus, there is a problem that the installation space for the waste ink tank is limited. In particular, in an inkjet recording apparatus, it is necessary to preferentially secure an installation space for a recording unit that records an image on a recording medium and a maintenance unit that performs the above-described maintenance measures in preference to an installation space for a waste ink tank. The problem is remarkable.

  Therefore, in a waste ink tank having a limited installation space, it is difficult to always provide an ink discharge opening on the upper wall of the casing, and as a result, it is difficult to ensure sufficient absorption performance. There was a problem.

  The present invention has been made in view of these problems, and can improve the degree of freedom of installation of the waste ink tank while ensuring the absorption performance of the waste ink tank that absorbs and stores the waste ink. For the purpose.

  The invention according to claim 1, which has been made in order to solve such a problem, includes an ink absorber that absorbs ink and a housing that houses the ink absorber, and stores waste ink of an inkjet recording apparatus. An opening is provided in the upper wall of the casing, and the side wall of the casing is connected to the tip of a discharge pipe provided in the waste ink discharge path of the ink jet recording apparatus. An introduction port for introducing the waste ink to the inside of the housing is provided, and further, a space exists at the outlet on the side opposite to the connection side with the discharge pipe of the introduction port. It is a waste ink tank.

  The waste ink tank according to claim 1 is configured such that there is a space at the outlet of the introduction port that guides waste ink to the inside of the housing. In other words, the outlet of the introduction port is blocked by the ink absorber. Not to be. For this reason, there is no possibility that the ventilation performance is deteriorated and the waste ink absorption performance is not lowered.

  Further, in this waste ink tank, an introduction port is provided on the side wall of the casing. For example, in the waste ink tank, if an introduction port is provided on the side wall closest to the side from which the waste ink comes out (such as the nozzle of the ink jet recording apparatus), the side from which the waste ink comes out to the waste ink tank This is advantageous because the discharge route of the gas can be shortened. That is, if the discharge path is short, the flow path resistance can be reduced, and occurrence of problems such as waste ink being stored in the discharge path can be suppressed. On the other hand, instead of simply providing the inlet on the side wall, as described above, since there is a space at the outlet of the inlet, the absorption performance of the waste ink is ensured.

  According to such a waste ink tank of claim 1, the introduction port may be provided at any position on the side wall of the housing, and the degree of freedom in designing the waste ink tank is improved. It becomes easy to install the tank in the ink jet recording apparatus. In addition, for example, even if the installation space for the waste ink tank is limited, if there is a space in which a part of the side wall of the housing can provide the introduction port, the introduction port can be provided in that space. This prevents the waste ink tank from being installed.

  By the way, in order to make a space exist at the outlet of the inlet, it is conceivable to configure as in claim 2. In other words, the waste ink tank according to claim 2 is the waste ink tank according to claim 1, wherein the casing is provided with a protruding member on the wall surface inside the casing on the side wall around the introduction port. On the other hand, the ink absorber is made of an elastically deformable material. The space is formed by deforming the ink absorber into a protruding member.

  According to such a waste ink tank of claim 2, the waste ink is formed in such a simple structure that the protruding member is provided on the wall surface inside the housing on the side wall so that there is a space at the outlet of the introduction port. It is possible to obtain an effect that the absorber is smoothly absorbed.

The protruding member may be formed integrally with the side wall or may be bonded to the side wall.
Furthermore, it is more preferable that the space is provided as in the third aspect.

That is, the waste ink tank according to claim 3 is characterized in that, in the waste ink tank according to claim 1, the space is communicated from the outlet of the introduction port to the opening.
According to the waste ink tank of the third aspect, the air passage through which the air discharged together with the waste ink from the inlet and the air around the outlet of the inlet flows from the outlet of the inlet to the opening is secured by the space. The For this reason, the waste ink is more smoothly absorbed by the ink absorber, and it is possible to reliably prevent the waste ink absorption performance from being deteriorated.

  And in this case, what is necessary is just to comprise like Claim 4, for example. That is, the waste ink tank according to claim 4 is the waste ink tank according to claim 3, wherein the casing forms a space communicating from the outlet to the opening of the introduction port by deforming the ink absorber. A member is provided.

  According to the waste ink tank of claim 4, since the ink absorber is deformed by the path forming member, a space communicating from the inlet port to the opening is reliably formed, so that the waste ink is smoother. Thus, the above effect of being absorbed by the ink absorber can be reliably obtained.

  For example, as the path forming member, it is conceivable to provide a member (a member protruding from the wall surface) connected from the outlet of the introduction port to the opening along the wall surface inside the housing. Further, the path forming member may be formed integrally with the housing or may be configured to be bonded to the housing.

Preferred embodiments of the present invention will be described below with reference to the drawings.
In this embodiment, the present invention is applied to an ink jet recording apparatus that constitutes a so-called multi-function apparatus having a printer function, a scanner function, a copy function, a facsimile function, and the like.

First, FIG. 1 is an external view of the multi-function device 1 of the present embodiment, and FIG. 2 is a cross-sectional view of the multi-function device 1.
As shown in FIGS. 1 and 2, the multi-function device 1 is provided with a scanner 2 at an upper part of a case 1 a and a recording unit 7 at a lower part (upper part in the case 1 a). As shown in FIG. 2, a paper feeding device 30 is provided in the lower part of the case 1 a, and the recording unit 7 records (image formation) on the recording paper 32 supplied from the paper feeding device 30. Do.

  Further, a box-shaped metal frame 5 is disposed behind the case 1 a and above the paper feeding device 30. The frame 5 has a substantially rectangular parallelepiped shape that is long in the left-right direction, and is fixed inside the case 1a.

  A recording unit 7 is disposed in the upper part of the frame 5, and a conveyance path 5 a for guiding the recording paper 32 from the rear of the paper feeding device 30 to the recording unit 7 is formed behind the frame 5. The recording unit 7 includes a conveyance roller 7a at a position adjacent to the exit of the conveyance path 5a, and a discharge roller 7b at a position where the recording paper 32 on which an image is recorded is discharged. The transport roller 7a rotates in response to the rotational driving force of a paper transport motor (not shown).

  The paper feeding device 30 includes a paper feeding cassette 3 that is inserted and set from the opening 1b of the case 1a. The paper feed cassette 3 is provided with a paper storage portion 3a for storing the stacked recording paper 32. When the paper feed cassette 3 is inserted into the case 1a, the recording paper 32 in the paper storage portion 3a is stored in the case 1a. It is arranged in the back.

  Then, the recording paper 32 stacked on the uppermost layer of the paper storage unit 3a is sent to the recording unit 7 through the conveyance path 5a as the paper feed roller 8 rotates. The paper feed roller 8 is rotatably held at the distal end portion of a long arm 31 that is pivotally supported by the drive shaft 9, and the drive shaft 9 receives the rotational driving force of a paper feed motor (not shown). By rotating, the rotation is transmitted and rotated.

  An operation panel 6 including various operation buttons and a liquid crystal panel is provided on the upper front surface of the multi-function device 1. With this operation panel 6, the user can set various setting items for various functions of the multi-function device 1, enter necessary items such as a facsimile number, and check the operation status, communication history, and the like. it can.

  As described above, the multi-function device 1 of the present embodiment is configured to discharge the recording paper into the cylinder in spite of the extremely small size of the device housing, and therefore, for performing various functions as described above. The mechanism is incorporated in the device housing without any gaps.

Note that the rear side is the side opposite to the side where the paper feed cassette 3 and the operation panel 6 are provided, and the left-right direction is the moving direction of the carriage 4 described later.
Next, FIG. 3 is a plan view of the recording unit 7, and FIG. 4 is a perspective view of the recording unit 7.

  As shown in FIG. 3, in the recording unit 7, two plate-like guide members 23 and 24 (see also FIG. 4) provided above the frame 5 are conveyed by a conveying roller 7a and the like (see FIG. 2). A carriage 4 (see also FIG. 4) on which the recording head 10 and the valve case 16 are mounted is slidably mounted on the plate-shaped guide members 23 and 24. Is placed. The recording head 10 ejects ink supplied from the ink tank 70 through the ink supply tube 72 (see also FIG. 4) as droplets from each nozzle (not shown) of the recording head 10 to the recording paper 32. Recording.

  The carriage 4 is configured to reciprocate in the width direction of the recording paper 32 along the plate-shaped guide members 23 and 24 by a driving force of a carriage motor (not shown) transmitted via the endless belt 25. As shown in the figure, the area where the carriage 4 reciprocates is divided into two areas: a printing area where recording is performed on the recording paper 32 and a maintenance area where recording is not performed.

  Of these, the maintenance area is set in the vicinity of the pulley 26 side of the plate-like guide members 23 and 24, and is the same as when wiping the opening surface of each nozzle, which is one of the maintenance operations, or actually recording on the recording paper 32. When the recording head 10 has no ink, the recovery operation that removes ink from each nozzle, removes dried ink or foreign matter mixed in each nozzle, and performs normal ink ejection, or the recording head 10 has no ink, the recording head 10 This is a region where an ink suction operation or the like for filling ink is performed.

  A maintenance unit 100 is installed below the maintenance area. The maintenance unit 100 has a nozzle cap 60 and performs the above-described recovery operation. Here, FIG. 5 is a diagram illustrating the nozzle cap 60.

  In FIG. 5, the recording head 10 is mounted on the carriage 4 as described above. A buffer tank 11 is provided on the upper surface of the recording head 10. The buffer tank 11 has a bubble storage chamber 12 in the upper part and an ink flow chamber 13 connected to the recording head 10 in the lower part. Ink is supplied from the ink tank 70 (see FIG. 3) to the bubble storage chamber 12 through the ink supply tube 72. The ink supplied into the bubble storage chamber 12 passes through the filter 15 and flows into the ink flow chamber 13 and reaches the recording head 10.

  The nozzle cap 60 is made of butyl rubber, has a substantially rectangular parallelepiped shape, has a concave portion opened on the upper surface side, and a spacer 62 is accommodated in the concave portion. In the nozzle cap 60, the lip portion at the upper end edge of the nozzle cap 60 is tightly adhered to the lower surface of the recording head 10. Due to this close contact, the upper surface of the spacer 62 of the nozzle cap 60 and the lower surface of the recording head 10 simultaneously form a sealed space 63 communicating with the nozzles of the recording head 10.

  An intake port 64 is opened at the right end of the bottom wall of the recess of the nozzle cap 60, and the intake port 64 is connected to the switching mechanism 36 via an ink suction tube 73b. The switching mechanism 36 is connected to the pump 38 via the ink suction tube 73c.

  The switching mechanism 36 has a function of switching the sealed space 63 formed by the nozzle cap 60 to a state in which the sealed space 63 is communicated with the pump 38 and a state in which the sealed space 63 is disconnected from the pump 38 and in other words is communicated to the tube 73e. I have. Accordingly, ink leaking from the recording head 10 flows into the tube 73e in a state where the nozzle cap 60 is in close contact with the lower surface of the recording head 10, and ink sucked from the recording head 10 by the pump 38 flows into the tube 73d. The tubes 73d and 73e are connected to a waste ink tank 200 for storing waste ink, respectively. The ink flowing through the tubes 73d and 73e (hereinafter also referred to as waste ink) is finally It is led out to the waste ink tank 200.

  Here, FIG. 6 is a perspective view showing the maintenance unit 100 and the waste ink tank 200. As shown in FIG. 6, the waste ink tank 200 is installed on the front side of the maintenance unit 100 and adjacent to the maintenance unit 100. Further, as shown in FIG. 4, the waste ink tank 200 is installed so as not to interfere with the carriage 4. Although the maintenance unit 100 is not shown in FIG. 4, it is actually arranged in the maintenance area as shown in FIG. 3, and is therefore arranged below the carriage 4.

  The waste ink tank 200 is specifically composed of a housing 202 and an absorbent foam 204 that is accommodated in the housing 202 and absorbs waste ink. However, in FIG. 6, the illustration of the absorbent foam 204 is omitted.

  The casing 202 exposes a part of the absorbent foam 204 to the atmosphere to dry the absorbent foam 204, or communicates the space near the inlets 230 and 231 (or outlet holes 230h and 231h) described later with the atmosphere. It has an opening 206h for making it. The housing 202 is connected to the tube 73d on the side wall 212 closest to the maintenance unit 100, and an introduction port 230 (so-called ink introduction port) for guiding waste ink flowing through the tube 73d to the inside of the housing 202. Yes, the details will be described later), and an inlet 231 (which is a so-called air inlet, which will be described later in detail) that is connected to the tube 73e and guides the waste ink flowing through the tube 73e into the housing 202. have.

  By the way, in the apparatus in which various mechanisms are incorporated in the apparatus housing without a gap like the multi-function apparatus 1 described in the present embodiment, when the carriage 4 is in the maintenance area (see FIGS. 3 and 4), A part of the carriage 4 may be close to the side wall 208 and the upper wall 210 of the casing 202 of the waste ink tank 200. For this reason, it is difficult to arrange the tubes 73d and 73e near the side wall 208 and the upper wall 210. Moreover, it is preferable to provide the inlets 230 and 231 as close to the maintenance unit 100 as possible. This is because the path from the nozzle cap 60 (see FIG. 5) of the maintenance unit 100 to the inlets 230 and 231 (that is, the length of the tubes 73d and 73e) can be shortened. This is because if the path is short, the flow path resistance can be reduced, and occurrence of problems such as waste ink being stored in the path can be suppressed.

  Therefore, it is conceivable that the inlets 230 and 231 are provided on the side wall 212 of the housing 202. However, if simply configured as such, the outlets of the inlets 230 and 231 are blocked by the absorbent foam 204 and there is a space. Therefore, the waste ink is not smoothly introduced into the housing 202 and is not absorbed by the absorbent foam 204.

  In this regard, in the waste ink tank 200 of the present embodiment, the waste ink flowing from the tubes 73d and 73e to the inlets 230 and 231 provided in the side wall 212 is smoothly absorbed by the absorbent foam 204 inside the housing 202. The idea to make is made.

  Hereinafter, the device will be described based on FIGS. 7 to 11 together with the specific configuration of the waste ink tank 200. In the following description, the vertical direction refers to the vertical direction when the waste ink tank 200 is mounted on the multi-function device 1.

7A is a plan view of the waste ink tank 200, and FIG. 7B is a front view of the waste ink tank 200. FIG.
As shown in FIGS. 7A and 7B, the housing 202 has a substantially rectangular parallelepiped shape, and includes a first housing portion 202 a having side walls 212, 213, 214, and 215 and upper end edges of the side walls 212 to 215. And a second housing portion 202b that is welded to the first housing portion 202a at the upper end edges of the side walls 212 to 215 so as to cover an opening (not shown). The

  The second housing portion 202b forms an L shape with the upper wall 206 provided with the opening 206h described above, side walls 208, 218, 219, and 220 that form a substantially rectangular parallelepiped shape together with the upper wall 206, and the side wall 208. And an upper wall 210 provided with a rim portion 203 for welding to the upper end edges of the side walls 212 to 215. And in the state which the 1st housing | casing part 202a and the 2nd housing | casing part 202b were welded, the integral space 204a is formed inside (refer FIG. 8, 10 mentioned later). And the above-mentioned absorption foam 204 is accommodated in the housing | casing 202 so that the space 204a in the housing | casing 202 may be occupied.

Further, the introduction ports 230 and 231 described above are provided in the side wall 212 on the maintenance unit 100 side of the first housing unit 202a.
8 is a cross-sectional view taken along the line AA in FIG. 7B, FIG. 9 is a cross-sectional view taken along the line BB in FIG. 7A, and FIG. 10 is a cross-sectional view taken along the line CC in FIG. It is. 11A is a cross-sectional view taken along the line DD in FIG. 7B, and FIG. 11B is a cross-sectional view taken along the line EE in FIG.

  As shown in FIGS. 7, 8, and 10, the introduction ports 230 and 231 each have a circular tube shape, and protrude from the side wall 212 so that the introduction port 230 and the introduction port 231 are aligned in the vertical direction. Is provided. Depending on the installation location of the waste ink tank 200 in the multi-function device 1, the inlets 230 and 231 may be provided at any position on the side wall 212, and further provided on the side walls 213 to 215. Also good. The side wall 212 has a lead-out hole 230h (see FIGS. 9 and 10) for communicating the introduction port 230 and the inside of the housing 202, and a lead-out hole 231h for communicating the introduction port 231 and the inside of the housing 202. (See FIGS. 9 and 10).

  Next, as shown in FIGS. 8 to 10, a protruding member 232 is formed on the inner wall surface 210 a of the upper wall 210 facing the inside of the casing 202 so as to protrude downward in the vertical direction. Here, FIG. 9B is a partially enlarged view of a portion X in FIG. 9A including the lead-out holes 230 h and 231 h and the protruding member 232. As shown in FIGS. 9 (a) and 9 (b), the protruding member 232 specifically has the lead-out holes 230h and 231h in a state where the first housing portion 202a and the second housing portion 202b are welded. (See also FIG. 10) and when the outlet holes 230h and 231h and the protruding member 232 are projected perpendicularly to the surface formed by the side wall 212, the outer edges of the outlet holes 230h and 231h and the protruding member 232 are projected. It is provided on the inner wall surface 210a so as not to overlap with the outer edge. Further, the protruding member 232 is provided such that one end of the protruding member 232 opposite to the inner wall surface 210a reaches the lower end of the outer edge of the lead-out hole 231h.

  Further, as shown in FIGS. 8 to 10, in the second housing portion 202 b, along the inner wall surface 210 a of the upper wall 210, the inner wall surface 208 a of the side wall 208, and the inner wall surface 206 a of the upper wall 206, Ventilation path forming members 233 and 234 are provided so as to protrude from the wall surfaces 206a to 210a. More specifically, the ventilation path forming members 233 and 234 are formed in a vertical direction along the inner wall surface 210a, formed in a direction perpendicular to the inner wall surface 210a along the inner wall surface 208a, and further, the inner wall surface 206a. Along the vertical direction.

  Each of the ventilation path forming members 233 and 234 is formed integrally with the second housing portion 202b, and is configured such that the protruding amount from the inner wall surfaces 206a to 210a is constant in each of the inner wall surfaces 206a to 210a. ing. Moreover, the cross-sectional shape of the protrusion part from the inner wall surfaces 206a-210a of the left-right direction has comprised the substantially rectangular shape (refer FIG.11 (b)).

  Further, the ventilation path forming member 233 and the ventilation path forming member 234 are formed so that a groove-like space (see FIG. 11B) is formed between the ventilation path forming member 233 and the ventilation path forming member 234. They are provided so as to be parallel to each other.

  Here, the ventilation path forming member 234 is integrally provided continuously from the end of the inner wall surface 210a on the side wall 212 side to the outer edge of the opening 206h. And especially the part provided in the inner wall surface 210a among the ventilation | gas_flowing path formation members 234 is made to bend. The end of the ventilation path forming member 233 on the side wall 212 side is configured to be in contact with or adjacent to the outer edge of the protruding member 232.

  The ventilation path forming member 233 is also provided continuously and integrally so that one end thereof reaches the outer edge of the opening 206h, and is bent corresponding to the bent portion of the ventilation path forming member 234. On the other hand, in this case, the end of the ventilation path forming member 233 opposite to the end on the opening 206h side comes into contact with the inner wall of the side wall 213. In other words, the ventilation path forming member 233 is continuously provided from the contact portion of the inner wall of 213 to the outer edge of the opening 206h.

  Note that the ventilation path forming member 233 and the ventilation path forming member 234 are provided integrally so as to be continuous from the end on the side wall 212 side of the inner wall surface 210a to the outer edge of the opening 206h and have the shortest path. You may be made to do.

  In the waste ink tank 200 configured as described above, the space 204 a inside the housing 202 is occupied by the absorbent foam 204 as described above. On the other hand, the protruding member 232 and the ventilation path forming members 233 and 234 included in the waste ink tank 200 are deformed so as to push the absorbent foam 204 inside the housing 202 (see FIG. 11).

  As shown in FIG. 11 (a), the protruding member 232 is deformed so as to push away the absorbent foam 204, and at the outlet of the outlet hole 231h, in other words, on the side of the protruding member 232 on the outlet hole 231h side. A space s in which no exists is formed. Further, since the lead-out hole 230h is provided above the lead-out hole 231h in the vertical direction, a space s is similarly formed at the outlet of the lead-out hole 230h. Since air is present in the space s, ventilation is ensured. Then, the waste ink that has flowed from the inlet 231 quickly flows into the housing 202 without staying in the inlet 231 and the outlet hole 231h. For this reason, the waste ink is smoothly absorbed by the absorbent foam 204.

  Further, as shown in FIG. 11B, the ventilation path forming members 233 and 234 are also deformed so as to push away the absorbent foam 204, and the absorbent foam 204 is interposed between the ventilation path forming member 233 and the ventilation path forming member 234. A space u in which the absorbent foam 204 does not exist, on the opposite side of the space t sandwiching the ventilation path forming member 233 and on the opposite side of the space t sandwiching the ventilation path forming member 234, respectively, is formed. A space v is formed. As described above, the ventilation path forming member 233 and the protruding member 232 are configured to be in contact with each other or adjacent to each other, whereby the space s and the space t are continuous. The ventilation path forming members 233 and 234 are formed up to the outer edge of the opening 206h. That is, a space where the absorbent foam 204 does not exist is continuously formed from the outlet of the outlet hole 231h to the opening 206h.

  Therefore, the air introduced into the housing 202 together with the waste ink from the inlets 230 and 231 and the air pushed out from the absorbent foam 204 when the waste ink is absorbed by the absorbent foam 204 are secured. Waste ink from the ports 230 and 231 quickly flows into the housing 202, and the waste ink is smoothly absorbed by the absorbent foam 204.

  As described above, according to the waste ink tank 200 of the present embodiment, the waste ink flowing from the tubes 73d and 73e to the inlets 230 and 231 provided on the side wall 212 has poor ventilation at the outlets of the inlets 230 and 231. It will not be absorbed smoothly. Therefore, it does not stay in the tubes 73d and 73e, and as a result, it is possible to suppress the occurrence of problems such as waste ink being stored in the path.

In this embodiment, the inlets 230 and 231 correspond to the inlets, the protruding member 232 corresponds to the protruding member, and the ventilation path forming members 233 and 234 correspond to the path forming member.
As described above, according to the waste ink tank 200 of the present embodiment, the absorbent foam 204 is pushed away by the protruding member 232 and the ventilation path forming members 233 and 234 so that a space is formed and ventilation is ensured. Waste ink that flows from the maintenance unit 100 side to the ports 230 and 231 (hereinafter simply referred to as the introduction port) quickly flows into the housing 202 and is smoothly absorbed by the absorbent foam 204. Further, the absorption performance is maintained regardless of the position of the introduction port provided in the housing 202 of the waste ink tank 200.

  For this reason, the introduction port may be provided at any location of the casing of the waste ink tank 200, and the degree of freedom of installation of the waste ink tank 200 is improved. That is, the degree of freedom in design is improved and the installation of the waste ink tank 200 is facilitated. Further, even if the installation space for the waste ink tank 200 is limited, if there is a space in which a part of the side walls 212 to 215 of the housing 202 can be provided with an introduction port, the introduction port is provided in that space. Therefore, it can be avoided that the waste ink tank 200 cannot be installed.

As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various form can be taken within the technical scope of this invention.
For example, even when only one introduction port for leading the waste ink into the housing is provided, such as the introduction ports 230 and 231, or a plurality (three or more) are provided. The present invention can be applied.

  In the above embodiment, the protruding member 232 for forming the space around the outlets of the outlet holes 230h and 231h is formed integrally with the second casing portion 202b. The structure formed integrally with the body part 202a may be sufficient.

Instead of the projecting member 232, the ventilation path forming members 233 and 234 may be formed along the inner wall surface 212a up to the lower end of the outer edge of the outlet hole 231h.
Further, the protruding member 232 and the ventilation path forming members 233 and 234 may be configured to be welded to the inner wall of the housing 202.

  The protruding member 232 and the ventilation path forming members 233 and 234 may have any shape as long as they form a space from the periphery of the outlets of the outlet holes 230h and 231h to the opening 206h. Furthermore, the protruding member 232 and the ventilation path forming members 233 and 234 may not be provided continuously as long as they form a space from the vicinity of the outlets of the outlet holes 230h and 231h to the opening 206h.

1 is an external view illustrating an example of a multi-function device 1. 2 is a cross-sectional view of the multi-function device 1. FIG. 3 is a plan view of a recording unit 7. FIG. 7 is a perspective view of a recording unit 7. FIG. FIG. 5 is an explanatory diagram illustrating a nozzle cap 60. FIG. 2 is a perspective view of a waste ink tank 200 and a maintenance unit 100 according to the present embodiment. It is the top view and front view of the waste ink tank 200 of this embodiment. It is a right sectional view of the waste ink tank 200 of the present embodiment. It is sectional drawing of the waste ink tank 200 of this embodiment (the 1). It is a left sectional view of waste ink tank 200 of this embodiment. It is sectional drawing of the waste ink tank 200 of this embodiment (the 2).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Multifunctional device, 2 ... Scanner, 3 ... Paper feed cassette, 4 ... Carriage, 5 ... Frame, 6 ... Operation panel, 7 ... Recording part, 10 ... Recording head, 30 ... Paper feed device, 31 ... Arm, 32 ... Recording paper, 36 ... Switching mechanism, 38 ... Pump, 60 ... Nozzle cap, 70 ... Ink tank, 73d, e ... Tube, 100 ... Maintenance unit, 200 ... Waste ink tank, 202 ... Housing, 204 ... Absorbing foam, 206 ... upper wall, 206h ... opening, 208 ... side wall, 210 ... upper wall, 212 to 215 ... side wall, 230, 231 ... inlet, 230h, 231h ... outlet hole, 232 ... projecting member, 233, 234 ... ventilation path forming member .

Claims (4)

An ink absorber that absorbs the ink;
A waste ink tank for storing waste ink of an ink jet recording apparatus, comprising a housing for housing the ink absorber.
An opening is provided in the upper wall of the casing, and waste ink from the discharge pipe is connected to a tip of a discharge pipe provided in a waste ink discharge path of the inkjet recording apparatus on the side wall of the casing. There is an introduction port that leads to the inside of the housing,
Further, the waste ink tank is characterized in that a space exists at the outlet of the introduction port opposite to the connection side with the discharge pipe. The waste ink tank according to claim 1,
The casing is provided with a protruding member on the inner wall surface of the casing around the introduction port, and the ink absorber is made of an elastically deformable material,
The waste ink tank, wherein the space is formed by deforming the ink absorber into the projecting member. The waste ink tank according to claim 1,
The waste ink tank, wherein the space communicates from an outlet of the introduction port to the opening. The waste ink tank according to claim 3,
The waste ink tank, wherein the housing includes a path forming member that forms the space communicating from the outlet of the introduction port to the opening by deforming the ink absorber.

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