JP2004276250A - Ink discharge structure and inkjet type recording device using the ink discharge structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ink discharge structure which prevents an ink absorbing member from floating to contact a printing object, and an inkjet type recording device. <P>SOLUTION: The ink discharge structure 11 has a dented structure 33 which supports the printing object 15 and flows a liquid such as ink not adhered to the printing object 15 into the supporting face side. The ink discharge structure 11 includes a platen 30 with through holes 43 formed at the dented structure 33, and a liquid absorbing structure 50 which is fitted in the dented structure 33 and receives to stop the liquid such as ink droplets from an inkjet head 16. Partitioning members 39a and 39b for partitioning the liquid absorbing structure 50 fitted in the dented structure 33 are set at the platen 30. Moreover, the liquid absorbing structure 50 has tongue piece parts 63 to be inserted in the through holes 43, and slits 64 and 73 are provided corresponding to positions where the partitioning members 39a and 39b are formed at the time when the liquid absorbing structure 50 is fitted into the dented structure 33. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ink discharge structure and an ink jet recording apparatus using the ink discharge structure.
[0002]
[Prior art]
2. Description of the Related Art In recent years, multifunctionality of an ink jet printer (hereinafter, referred to as an ink jet recording apparatus) has been advanced. As one of such multi-functions, there is a so-called borderless printing function for printing over the entire surface of a printing target such as recording paper. In the borderless printing, ink droplets are ejected to the edge of a printing target such as paper, so that the ink drops also adhere to a platen that supports the passing printing target. For this reason, in the ink jet recording apparatus capable of borderless printing, a concave portion is formed in the platen, and an ink droplet that has not adhered to the printing target is dropped into the concave portion, so that the ink droplet adhered to the platen passes thereafter. It is configured not to adhere to the printing object.
[0003]
FIG. 17 shows a main portion of the ink discharge structure 100 in the ink jet recording apparatus for performing such borderless printing. The platen 101 shown in FIG. 1 has a concave structure 102 formed therein. The concave structure 102 has a horizontal concave portion 102a extending in the horizontal direction (perpendicular to the paper surface) and a vertical direction perpendicular to the horizontal direction. And has a longitudinally recessed portion 102b extending to the right side. The lateral concave portion 102a is for collecting ink droplets that have not adhered during borderless printing at the upper and lower ends of the print object 110. In addition, the vertical concave portion 102b collects the ink droplets that are not attached during the borderless printing on the left and right edges of the printing target 110 according to the size (for example, A4, B5, etc.) of each printing target 110. It is for doing.
[0004]
The recessed structure 102 is an integrated recessed portion by connecting the lateral recessed portion 102a and the vertical recessed portion 102b. Further, a through hole 103 penetrating the platen 101 is formed at a predetermined position of the concave structure 102. A plurality of through holes 103 are formed at appropriate positions in the recess structure 102. Further, an ink absorbing member 104 made of sponge or the like is fitted into the concave structure 102. The ink absorbing member 104 has an integral absorbing structure made of one member of the same material. Further, the ink absorbing member 104 has a tongue piece 105, and the tongue piece 105 is configured to pass through the through hole 103.
[0005]
In the above-described platen 101, a main absorbing member 106 capable of holding ink droplets is provided on a lower surface of the platen 101 opposite to the paper feeding portion. The lower end of the tongue piece 105 contacts the main absorbing member 106. Thus, when the ink droplet adheres to the ink absorbing member 104, the ink droplet is guided to the main absorbing member 106 via the tongue piece 105. In this way, borderless printing of the printing object can be performed.
[0006]
Japanese Patent Application Laid-Open No. 2001-105583 discloses a platen structure for receiving ejected ink regardless of the width of roll paper, although it is not related to borderless printing.
[0007]
[Patent Document 1]
JP-A-2001-105583 (see the paragraphs after paragraph number 0038 and FIGS. 2 and 11)
[0008]
[Problems to be solved by the invention]
By the way, in the above-described ink discharge structure 100, the interval between the platen 101 and the main absorbing member 106 may deviate from the prescribed dimensional value depending on the assembling situation and the like. For example, the gap between the platen 101 and the main absorbing member 106 may be entangled more than a specified value. In this case, as shown in FIG. 18, the ink absorbing member 104 near the base of the tongue piece 105 is lifted by the tongue piece 105 in contact with the main absorbing member 106.
[0009]
As a result, the upper surface of the raised protrusion 104a of the ink absorbing member 104 may protrude above the paper feeding surface 101a of the platen 101. In this case, the ink absorbing member 104 Contact. When such contact occurs, there is a problem that the print target 110 is soiled.
[0010]
Further, when the ink absorbing member 104 is displaced inside the concave structure 102, the ink absorbing member 104 is greatly bent, and the floating of the ink absorbing member 104 becomes large. This also causes a problem that the ink absorbing member 104 comes into contact with the print target 110 and stains the print target 110.
[0011]
The present invention has been made based on the above circumstances, and an object of the present invention is to provide an ink discharge structure for preventing an ink absorbing member from floating and coming into contact with a printing target, and an ink jet type using the ink discharge structure. It is intended to provide a recording device.
[0012]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention provides a recessed structure for supporting a printing target, and for pouring a liquid such as ink that has not adhered to the printing target on a support surface side thereof, The platen is provided with a through hole, and a liquid absorbing structure that is fitted into the concave structure and receives a liquid such as an ink droplet from the recording head body. The platen has a concave structure. A partition member for partitioning the liquid absorbing structure to be fitted is provided. The liquid absorbing structure includes a tongue piece inserted into the through hole when the liquid absorbing structure is fitted into the concave structure, A slit is provided in correspondence with the position where the partition member is formed at the time of fitting.
[0013]
With this configuration, when the liquid absorbing structure is fitted into the recessed structure, the partition member is located in the slit of the liquid absorbing structure. Thus, when the friction generated between the partition member and the slit causes the liquid absorbing structure to be lifted up through the tongue piece, the liquid absorbing structure can be prevented from floating.
[0014]
Further, when the liquid absorbing structure is fitted into the concave structure, the liquid absorbing structure is finely partitioned (partitioned) by the partition member. By partitioning the liquid absorbing structure in this way, even when the liquid absorbing structure is pushed up, the liquid absorbing structure can be prevented from being integrally lifted. That is, even if it is lifted, the finely partitioned portion is lifted as one unit, and the liquid absorbing structure cannot be lifted as a whole, so that the floating height can be reduced.
[0015]
Further, since the partition member is located in the slit, the liquid absorbing structure is prevented from shifting inside the concave structure. Here, if the liquid absorbing structure is displaced, the liquid absorbing structure will bend and cause a large lifting. However, the displacement is prevented by preventing the displacement of the liquid absorbing structure by the presence of the partition member. It becomes. This also prevents the liquid absorbing structure from being lifted. Further, by preventing the liquid absorbing structure from rising, even when a dimensional error occurs in which the dimensional interval between the platen and the main absorbing member is reduced, it is possible to absorb the reduced dimensional error.
[0016]
According to another aspect of the present invention, in addition to the above-described aspect, the platen is provided so that a longitudinal direction thereof is orthogonal to a paper feeding direction of the printing target. On the near side and the back side in the direction, it has a pair of horizontal concave portions, and has a plurality of vertical concave portions along the paper feed direction of the printing target, and the horizontal concave portion has a longitudinal concave portion. A plurality of through holes are formed along the direction, and a certain one of the plurality of vertical recesses is formed with a through hole, and the partition member has a small rib and a longer rib than the small rib. There is a large rib provided with a long rib, and the small rib and the large rib are formed in the horizontal concave portion, and the large rib is a portion of the horizontal concave portion where the vertical concave portion is formed. It exists in.
[0017]
By doing so, the liquid absorbing structure is partitioned by the small ribs and the large ribs along the direction in which the lateral recess is formed. In addition, since the large rib is formed in the portion where the vertical recess is formed in the horizontal recess, the length can be longer than that of the small rib. Thereby, in the large rib, the rib length can be increased in a state where the integrity of the liquid absorbing structure is not impaired, and the function as the partition member can be exhibited well.
[0018]
Further, in another invention, in addition to the above-described inventions, the depression structure further includes a holding portion on the open side thereof for preventing the liquid absorbing structure from floating. By providing the holding portion in this way, it is possible to more favorably prevent the liquid absorbing structure from rising.
[0019]
Further, in another invention, in addition to the above-described inventions, the small rib and the large rib are arranged at a portion not reaching the through hole, and the holding portion is arranged at a portion reaching the through hole. Is what it is. As described above, by providing the holding portion at a portion approaching the through hole, it is possible to directly prevent the liquid absorbing structure from rising. That is, the tongue piece is inserted into the through hole, and thrust to the liquid absorbing structure occurs through the tongue piece. However, by providing the pressing portion at a portion approaching the through hole, it is possible to suppress the push-up generated in the liquid absorbing structure from the root side of the push-up.
[0020]
Still another aspect of the present invention is directed to a concave structure in which a contact is made when the print target is discharged to the outside, and where ink droplets ejected from the recording head body reach when performing borderless printing of the print target. Is provided, a platen provided with a through hole in the concave structure, and a liquid absorbing structure that is fitted into the concave structure and receives a liquid such as an ink droplet from a recording head body. A fixing member is locked inside the concave structure of the platen, and the locking of the fixing member prevents the liquid absorbing structure fitted into the concave structure from floating.
[0021]
As described above, by locking the fixing member inside the concave structure, the liquid absorbing structure fitted into the concave structure is prevented from floating. That is, since the liquid absorbing structure is pressed by the fixing member, its lifting is well prevented.
[0022]
According to another aspect of the present invention, in addition to the above-described aspect, the fixing member is a pin member having a holding portion for holding the liquid absorbing structure, and the pin member is locked inside the recessed structure by being inserted. Things. For this reason, by inserting the pin member into the recessed structure, its lifting is well prevented. That is, the floating of the liquid absorbing structure can be prevented well by merely locking the pin member without providing a partition member including the small rib and the large rib in the recessed structure.
[0023]
Still further, according to another aspect of the present invention, in addition to the above-described invention, the fixing member is a leaf spring having a holding portion for retaining the liquid absorbing structure. It is locked inside the structure. Therefore, the leaf spring is inserted into the recessed structure, and the leaf spring urges the inner wall surface of the recessed structure, so that the leaf spring is locked inside the recessed structure. That is, even if the partition structure including the small rib and the large rib is not provided in the concave structure, the floating of the liquid absorbing structure can be prevented satisfactorily only by inserting and locking the leaf spring into the concave structure. Further, when a leaf spring is inserted, a hole or the like required for inserting the pin member is not required, and the configuration can be simplified.
[0024]
According to another aspect of the present invention, in addition to the above-described aspects, the liquid absorbing structure further includes a bottom contact portion that contacts the bottom portion of the recessed structure, and a tongue extending from the bottom contact portion and inserted into the through hole. A first absorbing member provided with a piece portion, wherein the tongue piece portion is further provided with a retaining portion for preventing the tongue piece from falling out of the state inserted into the through hole; and a first absorbing member on an open side of the recessed structure. And a second absorbing member that first receives a liquid such as ink on the open side of the recessed structure.
[0025]
Therefore, when the tongue piece of the first absorbing member is inserted into the through hole, the tongue piece is prevented from falling out of the through hole due to the presence of the retaining portion. Therefore, when the tongue piece is pushed up by the main absorbing member provided below the platen and receiving the ink droplets, the tongue piece is prevented from coming off due to the presence of the stopper. This prevents the liquid absorbing structure including the first absorbing member and the second absorbing member from floating. Thereby, it is possible to prevent the second absorbing member from protruding from the feeding surface of the printing object of the platen, and to prevent the second absorbing member from contacting the printing object and soiling the printing object. Can be.
[0026]
Further, even if the tongue piece is pushed up by the main absorbing member, the tongue piece is prevented from coming off by the retaining part, so that even when the dimensional interval between the platen and the main absorbing member is narrowed, the tongue piece is narrowed. It becomes possible to absorb the dimensional error.
[0027]
Further, another invention is one in which each invention of the above-described ink discharge structure is applied to an ink jet recording apparatus. For this reason, it is possible to prevent the liquid absorbing structure from rising as described above. Further, by preventing the liquid absorbing structure from rising, even when the space between the platen and the main absorbing member is narrowed, it is possible to absorb the dimensional error corresponding to the narrowing. For this reason, it is possible to prevent the liquid absorbing structure from contacting the printing target, and to provide an ink jet recording apparatus capable of keeping the printing target in a clean state.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an ink discharge structure 11 and an ink jet recording apparatus 10 using the ink discharge structure 11 according to an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a perspective view showing a basic configuration of an ink jet recording apparatus 10 according to the present embodiment. As shown in FIG. 1, the ink jet recording apparatus 10 has a chassis 12, and a carriage 13 is provided on the chassis 12 so as to be reciprocally movable.
[0029]
The carriage 13 constitutes an ink-jet type recording head body 14 and has a cartridge 14a for black ink and a cartridge 14b for color capable of discharging each of yellow, cyan and magenta inks. I have. An ink jet head 16 is provided below the carriage 13 so as to face a print target 15 such as a recording sheet. The ink jet head 16 is provided with a nozzle forming surface (not shown) at a lower end surface thereof, so that ink can be ejected.
[0030]
A part of the timing belt 17 is fixed to the carriage 13. Further, an insertion hole 18 is formed in the carriage 13, and a long guide shaft 19 can be inserted through the insertion hole 18. Therefore, when the carriage motor 20 is driven, the timing belt 17 is driven, and the carriage 13 is moved along the guide shaft 19 by the driving of the timing belt 17.
[0031]
A roller 21 as a paper feeding means is rotatably provided below the inside of the chassis 12. The roller 21 is rotatably provided by a gear train 22 on the other end of the chassis 12. The rotation of the roller 21 causes the printing target 15 supplied to the ink jet recording apparatus 10 to move in the direction indicated by the arrow with respect to the ink jet head 16. Note that a paper feed motor (not shown) is provided on the other end side inside the chassis 12 to rotationally drive the roller 21.
[0032]
Here, a platen 30 as shown in FIGS. 2 to 6 is attached to a portion of the chassis 12 that is located on the back side of the roller 21 in FIG. 1 and faces a portion where the carriage 13 moves. . As shown in FIGS. 3, 4 and 6, the platen 30 is provided with a projection 32 projecting from the upper surface of the base 31 by a certain height. The protruding portion 32 is a portion that transfers the print target 15 such as a recording sheet from the back side to the front side while supporting the print target 15 on the upper surface. As shown in FIG. 6, a virtual line connecting the upper surfaces of the projections 32 serves as a feeding surface 15 a when the printing target 15 is sent while being supported by the projections 32.
[0033]
In the following description, the upper side (upper surface) refers to the side of the feed surface 15a shown in FIG. Further, the lower side (lower surface) refers to the side where the main absorbing member 51 shown in FIG. 11 is arranged.
[0034]
A plurality of the projections 32 are arranged on the upper surface of the base 31 in order to transfer the printing object 15 satisfactorily, and the projections 32 are spaced from each other so that the printing object 15 is not bent downward. Are arranged as follows.
[0035]
As shown in FIGS. 3 and 4, the platen 30 has a recessed structure 33 for dropping ink droplets. The recessed structure 33 is a portion formed in a groove shape and recessed from the upper surface of the platen 30 by a predetermined depth. The depth of the depression is sufficient to fit a two-body absorbing structure 50 described later.
[0036]
In the present embodiment, the two recessed structures 33 are formed in parallel at a predetermined interval along the longitudinal direction of the platen 30 (the horizontal direction that is the main scanning direction of the ink jet recording apparatus 10). It has concave portions 34a and 34b (see FIGS. 2 to 4 and others). Of these, one lateral concave portion 34a (the lower side in FIG. 4) is provided on the discharge side of the printing object 15 (discharge side of paper feed; in FIG. 4, the side where the roller locking portion 41 is present). I have. Further, the other lateral concave portion 34b (upper side in FIG. 4) is provided on the back side to which the printing object 15 is sent (paper feed supply side; in FIG. 4, the side where the roller locking portion 41 does not exist). Have been.
[0037]
These lateral concave portions 34a and 34b are portions for performing borderless printing at the upper and lower ends of the print target 15 (dropping ink droplets not attached to the print target 15). Of these, the horizontal concave portion 34a is a portion for performing marginless printing at the upper end of the printing object 15, and the horizontal concave portion 34b is a portion for performing marginless printing of the lower end of the printing object 15. It is. The functions of the lateral recesses 34a and 34b are not divided in this way, and the lateral recesses 34a and 34b may be used at the time of edgeless printing of the upper end and the lower end of the printing object 15 in any of the lateral recesses 34a and 34b. Only one of them may correspond to both borderless printing at the upper end and the lower end.
[0038]
Further, the concave structure 33 is provided with a plurality of vertical concave portions 35 (see FIGS. 2 and 3 and the like) along the short direction of the platen 30 (the sub-scanning direction of the ink jet recording apparatus 10; the vertical direction). ing. The vertical concave portion 35 is a portion for performing borderless printing at an edge portion in the width direction of the printing target 15. For this reason, the vertical concave portions 35 extending in the lateral direction are provided in an amount equal to or more than the number of patterns corresponding to the size pattern of the print target 15 that can be printed by the ink jet recording apparatus 10. In the recess structure 33, a wide recess 36 is provided at one end of the platen 30 in the longitudinal direction.
[0039]
Here, in the present embodiment, there are six vertical concave portions 35 (A4, postcard size, business card size, roll paper, L plate, etc.) corresponding to the width of the print object 15; The recesses 35a to 35f are shown.) Here, the vertical recess 35a is commonly used for each size.
[0040]
In addition, about 1/4 from the right side in FIGS. 2 and 3 of the wide concave portion 36 is a portion that can flexibly perform borderless printing if the printing object 15 has a width within a predetermined range. However, the borderless printing of the print object 15 is not limited to the above-described size (width), but can be made to correspond to various sizes (widths) by increasing or decreasing the number of the vertical concave portions 35. is there. In addition, a range of about 3/4 from the left side in FIGS. 2 and 3 of the wide concave portion 36 is a portion through which the printing object 15 does not pass. However, a configuration may be made such that the print target 15 passes through about 3/4 from the left side.
[0041]
Note that a pair of protrusions 37 are formed to project from the wide concave portion 36. The protrusion 37 is for preventing displacement and positioning when a two-body absorbing structure 50 including a first absorbing member 60 and a second absorbing member 70 described later is fitted.
[0042]
On the upper surface of the platen 30, an intermediate portion 38 surrounded by the concave structure 33 is formed. The above-mentioned protrusion 32 is also formed on the intermediate portion 38. Note that, in the present embodiment, the projections 32 present in the intermediate portion 38 are linearly (or substantially linearly) in the short direction with the projections 32 of the other portions so that each straight line is parallel. Are located. That is, the projections 32 of the intermediate portion 38 are provided so as to be the same as the projections 32 of the other portions in the horizontal direction (the width direction of the platen 30).
[0043]
Here, a large rib 39a as a partition member and a small rib 39b also as a partition member are formed in the concave structure 33. As shown in FIGS. 3 and 4, the large ribs 39a and the small ribs 39b are arranged at appropriate intervals along the longitudinal direction of the lateral concave portions 34a and 34b (the horizontal direction which is the main scanning direction of the ink jet recording apparatus 10). It is arranged in. In this embodiment, two large ribs 39a are provided at each end side and two at substantially the center, a total of six small ribs 39b, and seven small ribs 39b are provided between the large ribs 39a at both end sides. Only one is provided in total of fifteen.
[0044]
The large rib 39a and the small rib 39b are both formed so as to project from the bottom surface 33c of the recessed structure 33. In the present embodiment, one end of each of the large rib 39 a and the small rib 39 b is provided integrally with the inner wall surface of the recessed structure 33. The large ribs 39a and the small ribs 39b are both in the short direction of the platen 30 (sub-scanning direction of the ink jet recording apparatus 10; vertical direction), and in the paper feed direction except for some large ribs 39a. It is arranged on the wall surface 33a of the pair of wall surfaces 33a and 33b so as to protrude (in the direction indicated by the arrow in FIG. 1).
[0045]
Among these large ribs 39a and small ribs 39b, the large rib 39a is arranged on the outermost side. The large rib 39a is provided such that the length of the protrusion into the recessed structure 33 is longer than that of the small rib 39b. In addition, the large rib 39a is provided so that the protruding height upward from the bottom surface 33c is higher than the small rib 39b. Of the three pairs of large ribs 39a, only three large ribs 39a arranged on the roller locking portion 41 side are provided on the wall surface 33b so as to protrude in a direction opposite to the paper feeding direction. .
[0046]
The small rib 39b has a length that is approximately half the width of the lateral concave portions 34a and 34b. Moreover, all the small ribs 39b are located on the inner side of the lateral recessed portions 34a and 34b to which the printing object 15 is sent (the side where the paper feed is supplied; the side where the roller engaging portion 41 is not present in FIG. 4). To the front side (the paper feed discharge side; the side where the roller locking portion 41 is present in FIG. 4). Thus, the small rib 39b is hardly brought into contact with the printing object 15.
[0047]
The large rib 39a has a length substantially equal to the width of the lateral recess 34a. However, in order to make the first absorption member 60 and the second absorption member 70 described later continuous without cutting, the large rib 39a includes the horizontal concave portions 34a and 34b and the vertical concave portion 35 (in FIG. 4, , Vertical recesses 35a, 35b, 35f) (12 in total). The large ribs 39a are provided at the intersections because the intersections are most easily lifted up by the two-body absorbing structure 50.
[0048]
In order to prevent the large rib 39 a from contacting the printing object 15, the large rib 39 a is located near the projection 32 existing at a position separating the vertical recess 35 or the projection 32 existing at the intermediate portion 38. Of the base 31 surrounding the lateral recess 34a. Further, of the large ribs 39a, those present on the side of the lateral concave portion 34a are formed on the wall surface 33b from the discharge side (paper discharge side) of the printing object 15 toward the back side (paper feed supply side). Is formed. That is, the large rib 39a on the side of the lateral concave portion 34a is arranged in a direction opposite to the large rib 39a present on the lateral concave portion 34b.
[0049]
The depression structure 33 is provided with a holding portion 40 (see FIG. 4). The pressing portion 40 is for pressing the lifting of the two-body absorbing structure 50 including the first absorbing member 60 and the second absorbing member 70 to be fitted into the recessed structure 33 from above. The pressing portions 40 are arranged at appropriate intervals inside the lateral concave portions 34a and 34b. The holding portion 40 is provided not only in the horizontal concave portions 34a and 34b, but also in the vertical concave portions 35 (in FIG. 4, the vertical concave portions 35a, 35b, 35c and 35d). In this embodiment, a total of 18 pressing portions 40 are provided.
[0050]
Unlike the small ribs 39b, the 14 pressing portions 40 of the 18 pressing portions 40 are different from the small ribs 39b in the pair of wall surfaces 33a, 33b constituting the lateral concave portions 34a, 34b. 15 is formed on each of the wall surfaces 33b, 33b on the discharge side (front side in the paper feeding direction; in FIG. 4, the side where the roller locking portion 41 is present). In addition, three of the remaining four pressing portions 40 are formed adjacent to the protruding portions 32 of the left and right wall surfaces in FIG.
[0051]
Further, the holding portion 40 is formed at the upper end portion of one of the wall surfaces 33a and 33b of the lateral recessed portions 34a and 34b, respectively, of the wall surface 33b on the near side and the wall surface constituting the vertical recessed portion 35. ing. In addition, the pressing portions 40 in the lateral concave portions 34a and 34b are formed so that the upper end surface thereof is inclined (downward) such that the upper end surface is directed to the bottom surface portion 33c from the discharge side of the printing object 15 toward the back side. . Thus, the pressing portion 40 does not contact the printing object 15.
[0052]
Further, the pressing portion 40 is provided at a position where it does not interfere with the small rib 39b in the width direction of the lateral concave portions 34a and 34b. Specifically, it is formed at a position between adjacent small ribs 39b. However, when the small rib 39b is present, for example, on the end side of the intermediate portion 38, the small rib 39b may be formed further on the end side than the small rib 39b on the end side. Further, the pressing portion 40 in the vertical concave portion 35 is also arranged so as not to interfere with the large rib 39a.
[0053]
In the present embodiment, the holding portions 40 are formed in all portions where through holes 43 described later are formed. Thus, even when a tongue piece 63 described later is pushed up, the pushing-up of the two-body absorbing structure 50 can be suppressed by the presence of the pressing portion 40. In addition, by arranging the holding portion 40 at a position corresponding to the through hole 43, the structure is easy to form (can be formed with a punching die). Further, in the present embodiment, the pressing portion 40 present in the vertical concave portion 35 is provided longer than the pressing portion 40 existing in the horizontal concave portions 34a and 34b. This is to surely prevent the two-body absorbing structure 50 from rising at this portion.
[0054]
In addition, the protruding length of the holding portion 40 toward the inner side of the lateral concave portions 34a and 34b and the vertical concave portion 35 is not so large. As an example of the protruding length, the lateral concave portions 34a and 34b or the vertical concave portion 35 are provided. Is preferably about 1/10 to 1/4 of the width. By suppressing the protruding length of the holding portion 40 to this level, the workability of fitting the first absorbing member 60 and the second absorbing member 70 described later into the recessed structure 33 is not impaired. In this embodiment, the protrusion length of the pressing portion 40 is formed so as to protrude about 1/5 to 1/8 of the width of the lateral concave portions 34a and 34b. However, the length of the protrusion of the holding portion 40 may be other dimensions.
[0055]
Further, as shown in FIGS. 3 to 5, on the side of the platen 30 from which the printing object 15 is discharged, a roller locking portion 41 which is locked to a small diameter portion (not shown) of the roller 21 is provided. Is provided. The roller locking portion 41 is provided at a substantially central portion of the base 31 in the lateral direction. The upper surface of the roller locking portion 41 is formed so as to be slightly lower than the upper surface of the above-mentioned protrusion 32. Then, in a state where the printing object 15 does not contact the upper surface of the roller locking portion 41, the printing object 15 is sandwiched between a driven roller (not shown) in contact with the roller 21 and the roller 21, It is discharged well to the front.
[0056]
The roller locking portion 41 is located above the small diameter portion of the roller 21. In the present embodiment, a pair of the roller locking portions 41 is provided. Further, together with the roller locking portion 41, a lower locking portion 42 located below the roller 21 is also provided. The lower locking portion 42 is provided so as to be located in the middle of the pair of roller locking portions 41 in the plan view of FIG. The roller locking portion 41 and the lower locking portion 42 sandwich the small diameter portion of the roller 21 from three points.
[0057]
In the recessed structure 33, a plurality of through holes 43 and a plurality of small through holes 44 (portions shown in a mesh form in FIGS. 4 and 5) are formed at predetermined intervals. The through hole 43 is provided so as to penetrate the base 31 of the platen 30. In the present embodiment, the through-holes 43 and the small through-holes 44 are formed to be substantially rectangular in plan view, and a total of 22 are formed. That is, in the present embodiment, the same number of through-holes 43 (seven in each of FIGS. 4 and 5) are formed in one lateral concave portion 34a and the other lateral concave portion 34b. Further, a total of four through holes 43 are also formed in predetermined ones of the vertical concave portions 35 (in the present embodiment, the vertical concave portions 35a, 35b, the vertical concave portions 35c, and the vertical concave portions 35d). ing. Further, four small through holes 44 are formed in the wide concave portion 36.
[0058]
Further, a two-body absorbing structure 50 as a liquid absorbing structure is fitted into the concave structure 33. The two-body absorbing structure 50 includes a first absorbing member 60 shown in FIGS. 2, 7, and 8 located on the bottom surface 33 c of the recessed structure 33 and a first absorbing member 60 viewed from the bottom surface 33 c of the recessed structure 33. It comprises a second absorbing member 70 shown in FIGS. 2, 9 and 10 which is stacked with the absorbing member 60 sandwiched therebetween.
[0059]
As shown in FIGS. 11 and 12, the main absorbing member 51 is provided so as to face the lower surface of the platen 30 in which the two-body absorbing structure 50 is fitted. A tongue piece 63 described later contacts the main absorbing member 51. Thus, the main absorbing member 51 absorbs and stores the liquid such as ink droplets transmitted through the tongue piece 63.
[0060]
Among them, the second absorbing member 70 is a portion to which a liquid such as an ink droplet first adheres. Therefore, the second absorbing member 70 is made of, for example, urethane foam having a lower density than the first absorbing member 60 so that the ink droplets (mist) ejected from the recording head body 14 can be picked up and held easily. It is formed as. Thereby, absorption and oil retention are enhanced. In this embodiment, the second absorbing member 70 has a flat plate shape with a thickness of 2.5 mm, and a slit 73, an opening 71, a positioning hole 74 and the like are formed in a part thereof.
[0061]
In addition, the first absorbing member 60 in contact with the second absorbing member 70 is made of, for example, PVA (polyvinyl alcohol; Poly Vinyl Alcohol) sponge having a higher density than the second absorbing member 70 so as to easily absorb the liquid. It is formed as a material. Therefore, when the ink droplet (mist) held by the second absorbing member 70 moves downward by gravity and comes into contact with the first absorbing member 60, the ink droplet (mist) is absorbed by the first absorbing member 60. You. Then, the ink is rapidly discharged to the main absorbing member 51 side.
[0062]
As shown in FIG. 2, the first absorbing member 60 and the second absorbing member 70 are formed to have substantially the same planar shape as the concave structure 33 so as to be fitted into the concave structure 33. The first absorbing member 60 and the second absorbing member 70 have a plurality of openings 61, 71 (in order to satisfactorily project the protruding portions (the intermediate portion 38, the protruding portion 32, etc.) of the platen 30 other than the recessed structure 33. The first absorbing member 60 is formed in a shape having an opening 61, and the second absorbing member 70 is formed in a shape having an opening 71).
[0063]
As shown in FIGS. 7 and 8, when the first absorbing member 60 is fitted into the recessed structure 33, the first absorbing member 60 comes into contact with the bottom surface 33 c of the recessed structure 33, and the bottom contacting portion 62. 62 and a tongue piece 63 provided by bending and extending from the side of the tongue 62. Of these, slits 64 are formed in the bottom contact portion 62 so as to correspond to the positions where the small ribs 39a and the large ribs 39b exist.
[0064]
Here, in the first absorption member 60, the bottom contact portion 62 and the tongue piece 63 have the same plane shape at the beginning, but when the first absorption member 60 is fitted into the concave structure 33, the tongue piece 63 is bent and inserted into the through hole 43. In this embodiment, the thickness of the first absorbing member 60 is 0.5 mm, and is almost cloth-like.
[0065]
In the present embodiment, the slit 64 is formed by cutting out a predetermined position of the bottom contact portion 62 by an amount corresponding to the width of the small rib 39a and the large rib 39b. However, the slit 64 may be formed by simply making a cut at a predetermined position of the bottom contact portion 62.
[0066]
The tongue piece 63 is a portion that passes through the through hole 43 and protrudes toward the main absorbing member 51 when the first absorbing member 60 is fitted into the recessed structure 33. Therefore, the tongue piece 63 is formed at a position corresponding to the through hole 41 when the first absorption member 60 is fitted into the recessed structure 33. Further, the tongue piece 63 is provided on the side of the frame surrounding the opening 61 in the paper feeding direction. Even if the tongue piece 63 is pushed from the main absorbing member 51 and projects upward, the paper feeding is not hindered. Are located in A notch 64a for positioning and position holding is provided around the edge of the first absorbing member 60 and around the opening 61.
[0067]
Further, in the present embodiment, three tongue pieces 63 are provided on the side of the lateral recess 34a, and three tongues 63 are provided on the side of the lateral recess 34b. The number of the tongue pieces 63 is reduced. However, the number of the through holes 43 and the number of the tongue pieces 63 may be the same.
[0068]
In addition, as shown in FIG. 7, in the present embodiment, the tongue piece 63 is arranged in the first absorbing member 60 so as to be staggered. That is, the tongue piece 63 inserted through the through-hole 43 formed in the front side recess 34a and the tongue piece 63 inserted through the through-hole 43 formed in the back side recess 34b on the front side. , Are provided in a staggered arrangement along the longitudinal direction of the platen 30. The staggered arrangement minimizes the lifting of the two-body absorbing structure 50 by the main absorbing member 51.
[0069]
As shown in FIG. 11, the portion of the tongue piece 63 that passes through the through hole 43 has a width that is the same as or slightly smaller than the width of the through hole 43. Further, the tongue piece 63 is provided with a length such that the lower end thereof passes through the through hole 43 and abuts on the main absorbing member 51.
[0070]
As shown in FIGS. 11 and 8B, the tongue piece 63 is bent from the bottom contact part 62 and extends in a rectangular shape and a lower end of the rectangular part 65a. And a wide portion 65b provided at an intermediate portion before reaching. Of these, the wide portion 65b extends in this embodiment from both sides in the width direction of the extending portion 65a. That is, two wide portions 65b are provided for one tongue piece 63. Further, each wide portion 65b of one tongue piece 63 is formed such that each shape forms a right triangle. However, the shape of the wide portion 65 is not limited to a right triangle, and may be another shape. Further, only one wide portion 65b may be provided on one tongue piece 63.
[0071]
A side of the wide portion 65b facing the through hole 43 is a retaining portion 66a. The retaining portion 66a is a portion substantially perpendicular to the side of the extending portion 65a, and is a portion for preventing the tongue piece 63 from coming off from the through hole 43. The oblique side (inclined side) connecting the retaining part 66a and the lower end side of the extending part 65a in the right triangle wide part 65b is an insertion guide part 66b. The insertion guide portion 66b is a portion that properly guides the insertion of the tongue piece 63 when the tongue piece 63 is inserted into the through hole 43.
[0072]
The tongue piece 63 is formed such that the dimension between the retaining portion 66 a and the bottom contact portion 62 corresponds to the depth of the through hole 43. Thereby, the tongue piece 63 is properly inserted into the through hole 43, and the tongue piece 63 is prevented from moving upward by the retaining portion 66a in a state where the tongue piece 63 is inserted into the through hole 43.
[0073]
Further, as shown in FIGS. 8A and 8B, a portion of the bottom contact portion 62 of the first absorbing member 60 which is fitted into the wide concave portion 36, and a tongue piece is provided from a side portion thereof. The part 67 is extended and bent. Unlike the above-mentioned tongue piece 63, the tongue piece 67 has only an extension 68 corresponding to the extension 65a, and does not have a portion corresponding to the wide portion 65b. That is, the tongue piece 67 is a part that is simply inserted into the small through hole 44. In this embodiment, two tongue pieces 67 are respectively inserted into two of the four small through holes 44 so as to correspond to each other.
[0074]
The portion of the base 31 corresponding to the tongue piece 67 is provided so as to protrude below the other portion (toward the main absorbing member 51). Therefore, the small through-hole 44 formed in the portion of the base 31 corresponding to the tongue piece 67 is deeper than the through-hole 43, and the length of the tongue piece 67 is correspondingly reduced. , Is provided longer than the tongue piece 63 described above. As described above, the portion surrounding the small through-hole 44 is provided so as to protrude below other portions, and the protruding tip is provided so as to contact the upper surface of the main absorbing member 51. However, the projecting tip may have a structure that does not contact the upper surface of the main absorbing member 51.
[0075]
Further, a positioning hole 69 is provided in the first absorbing member 60 at a position corresponding to the above-described protrusion 37. When the first absorbing member 60 is fitted into the recessed structure 33, the projection 37 is inserted into the positioning hole 69 to prevent the first absorbing member 60 from being displaced, and to perform positioning at the time of fitting. Further, even if the large ribs 39a and the small ribs 39b are incorporated in the slits 64 provided in the first absorbing member 60, the displacement is prevented and the positioning is performed.
[0076]
As shown in FIGS. 9 and 10, the second absorbent member 70 has substantially the same planar shape as the above-described first absorbent member 60. That is, the second absorbing member 70 has the opening 71 described above and the bottom contact portion 72 corresponding to the bottom contact portion 62 of the first absorbing member 60. However, the second absorption member 70 has a configuration in which the tongue piece 63 (extended portion 65a, wide portion 65b, retaining portion 66a, insertion guide portion 66b) and the tongue piece 67 of the first absorption member 60 are not provided. is there.
[0077]
In addition, a slit 73 is also formed in the bottom contact portion 72 of the second absorbing member 70 so as to correspond to the position where the large rib 39a and the small rib 39b exist. In this embodiment, the slit 73 is also formed by cutting out a predetermined position of the bottom surface contact portion 72 by an amount corresponding to the width of the large rib 39a and the small rib 39b. That is, the arrangement, the width, and the length of the slit 73 are the same as those of the slit 64 of the first absorbing member 60 described above.
[0078]
However, also in the present embodiment, the slit 73 may be formed by simply making a cut at a predetermined position of the bottom contact portion 72. In the second absorbing member 70, if the slit 73 is formed by making a cut or the notch width is set to be smaller than the width of the large rib 39a or the small rib 39b, the second absorption member made of low-density urethane foam is used. When the absorbing member 70 is pushed into the concave structure 33, the slit 73 is expanded.
[0079]
When the slit 73 is expanded, the large rib 39a or the small rib 39b is urged by the elastic force of the second absorbing member 70. That is, the second absorbing member 70 surrounding the slit 73 urges the large rib 39a or the small rib 39b, and the second absorbing member 70 is locked by the large rib 39a or the small rib 39b with a predetermined frictional force. It becomes. As a result, it becomes difficult for the two-body absorbing structure 50 including the second absorbing member 70 to fall out of the recessed structure 33.
[0080]
Further, a positioning hole 74 similar to the positioning hole 69 is provided in the second absorbing member 70 at a position corresponding to the above-described protrusion 37. As in the case of the first absorbing member 60 described above, the projection 37 is inserted into the positioning hole 74, thereby preventing the second absorbing member 70 from being displaced, and also performing positioning at the time of fitting. Also, by inserting the large ribs 39a and the small ribs 39b into the slits 73 provided in the second absorbing member 70, the displacement is prevented and the positioning is performed.
[0081]
As shown in FIG. 11, the relationship between the gap α between the upper surface of the second absorbing member 70 and the lower surface of the through-hole 43 and the gap α between the upper surface of the protrusion portion 32 and the lower surface of the through hole 43 is represented by α> β. In this embodiment, α is set to twice of β. In this way, the contact between the printing object 15 and the second absorbing member 70 can be reliably prevented, and the structure does not increase.
[0082]
Since the tongue piece 63 is made of a thin member made of PVA sponge, it may be easy to bend depending on its thickness. Therefore, in such a case, for example, the tongue piece 63 is pushed up by the main absorbing member 51, the tongue piece 63 in the through hole 43 is bent, and the tongue piece 63 contacts the inner wall surface of the through hole 43. In such a state, the above-mentioned gap β may be set between the gap α on the upper surface side of the second absorbing member 70 and the lower surface side of the through hole 43.
[0083]
The operation of the ink discharge structure 11 having the above configuration and the operation of the ink jet recording apparatus 10 using the ink discharge structure 11 will be described below.
[0084]
First, a procedure for manufacturing the ink discharge structure 11 will be described. In such manufacturing, first, a flat shape with a tongue piece 63 is punched from a flat (cloth-like) member used when manufacturing the first absorption member 60, and the cloth-like first absorption member 60 is formed. . Thereafter, the tongue pieces 63 and 67 of the first absorbing member 60 are bent with respect to the bottom contact part 62 so that the tongue pieces 63 and 67 can be easily inserted into the through holes 43 and the small through holes 44. (See FIGS. 2, 7 and 8B). Next, after the first absorbing member 60 is positioned with respect to the concave structure 33, the first absorbing member 60 is inserted into the concave structure 33. In this insertion, the tongue piece 63 is inserted into the through hole 43 and the tongue piece 67 is inserted into the small through hole 44.
[0085]
The insertion of the tongue piece 67 into the small through hole 44 may be simply performed. On the other hand, in the case of the tongue piece 63, the tongue piece 63 is inserted into the through hole 43 from the tip thereof. Then, as it is inserted, the width of the substantially triangular wide portion 65b increases, and the through hole 43 having a constant hole width and the wide portion 65b interfere with each other.
[0086]
However, the wide portion 65b is formed of a material that is easily deformed similarly to other portions of the first absorbing member 60. Therefore, as the tongue piece 63 is inserted, the insertion guide 66b, which is the oblique side of the wide portion 65b, slides along the edge of the through hole 43, and the wide portion 65b is folded so as to fit the size of the through hole 43. . That is, the insertion guide portion 66b, which is the oblique side of the wide portion 65b, allows the insertion to be continued, and the wide portion 65b is smoothly folded as the tongue piece 63 is inserted.
[0087]
Then, after the wide portion 65b passes through the through-hole 43, the wide portion 65b that has passed is naturally expanded or expanded by work of an operator or the like. As a result, the retaining portion 66a comes into close proximity to the lower edge of the through hole 43 (the lower surface of the platen 30), and the tongue piece 63 does not easily come out upward. The above insertion of the tongue piece 63 is performed for all the through holes 43.
[0088]
In addition, the tongue piece 67 is inserted into the small through hole 44 and the tongue piece 63 is inserted into the through hole 43, and the projection 32 is aligned with the opening 61. In addition, the large rib 39a and the small rib 39b are aligned with the slit 64. With this alignment performed, the first absorbing member 60 is pushed into the recessed structure 33. Thus, the bottom contact portion 62 comes into contact with the bottom portion 33c. Thus, the work of fitting the first absorbing member 60 into the recessed structure 33 is completed.
[0089]
Subsequently, the second absorbing member 70 formed in advance by punching or the like is incorporated. That is, the second absorbing member 70 is positioned with respect to the recessed structure 33, and the second absorbing member 70 is pushed toward the bottom surface portion 33c. Also at the time of this pushing, the positioning of the projection 32 with respect to the opening 71 and the positioning of the large rib 39 a and the small rib 39 b with the slit 73 are performed. With this alignment performed, the second absorbing member 70 is pushed into the recessed structure 33. Accordingly, the bottom contact portion 72 contacts the bottom contact portion 62 of the first absorbing member 60, and the pressing portion 40 prevents the second absorbing member 70 from moving upward and floating. Thus, the work of fitting the second absorbing member 70 into the recessed structure 33 is completed.
[0090]
When the second absorbing member 70 is pushed in, the second absorbing member 70 is pushed so that no part of the second absorbing member 70 protrudes from the upper surface of the platen 30. Thus, the second absorbing member 70 can be brought into a state in which the second absorbing member 70 does not contact the printing target 15.
[0091]
Next, an operation of discharging ink droplets by the ink discharging structure 11 having the above configuration will be described. The ink droplets scatter, for example, in the form of a mist, and adhere to the second absorbing member 70. Then, the second absorbing member 70 holds the mist. When the amount of the held mist increases and the state of the ink drops becomes a certain amount, or when a certain period of time elapses, the ink drops move downward by the action of their own weight. Then, the ink droplet passes through the inside of the second absorbing member 70 and reaches the first absorbing member 60.
[0092]
When the ink droplet reaches the first absorbing member 60, the ink droplet spreads over the entire surface of the bottom contact portion 62 in the first absorbing member 60 having excellent absorbability and dischargeability. Then, a predetermined one of the spread ink droplets reaches a portion where the tongue piece 63 exists. Here, the ink droplets that have reached the tongue piece 63 travel down the tongue piece 63. When the ink droplet reaches the lower end of the tongue piece 63, the ink droplet comes into contact with the main absorbing member 51 in contact with the lower end. As a result, the ink droplets are transferred to the main absorbing member 51, and the main absorbing member 51 enters a state where the ink droplets are held.
[0093]
When ink droplets flow from the tongue piece 63 to the main absorbing member 51, the tongue piece 63 can receive the ink droplet from the bottom surface contact part 62 by the amount of the ink drop flowing. Thus, the tongue piece 63 allows new ink drops to flow to the main absorbing member 51 one after another. In the tongue piece 67, the same operation (ink droplet flow) as in the tongue piece 63 occurs.
[0094]
As described above, the operation of discharging the ink drops dropped into the recessed structure 33 is performed in a state where the ink drops do not adhere to the print target 15.
[0095]
Next, a description will be given of a state of the two-body absorbing structure 50 in a case where the dimensional interval between the main absorbing member 51 and the platen 30 is narrower than a specified value when the main absorbing member 51 and the platen 30 are assembled. In this case, the tongue piece 63 is pushed up by the main absorbing member 51, and the tongue piece 63 tends to move upward.
[0096]
However, the wide portion 65b of the tongue piece 63 is provided with a retaining portion 66a. Therefore, when the two-body absorbing structure 50 receives such a push-up from the main absorbing member 51, the retaining portion 66a collides with the lower edge of the through hole 43 (the lower surface of the platen 30), and the tongue piece 63 Large upward movement can be suppressed. As described above, since the large movement of the tongue piece 63 in the through-hole 43 is suppressed, the second absorption portion that is in contact with the bottom contact portion 62 serving as the base of the tongue piece 63 and the first absorption member 60. The upward movement of the member 70 is suppressed to the range of the gap β, and it is prevented that the member 70 is largely lifted toward the inkjet head 16.
[0097]
On the other hand, since the tongue piece 63 cannot move upward and is pushed up from the main absorbing member 51, the tongue piece 63 is bent or curved at a portion below the retaining portion 66a. In such a state, the contact between the main absorbing member 51 and the tongue piece 63 is strong, which is preferable in terms of ink discharge. For this reason, for example, an arrangement may be made such that a portion below the retaining portion 66a is curved in design.
[0098]
In addition to the provision of the retaining portion 66a on the tongue piece 63, the platen 30 is provided with a large rib 39a and a small rib 39b. Therefore, when the two-body absorbing structure 50 is fitted into the recessed structure 33, the two-body absorbing structure 50 is separated by the large rib 39a and the small rib 39b. In this way, even if the two-body absorbing structure 50 is finely divided by the large ribs 39a and the small ribs 39b, even if the two-body absorbing structure 50 is thrust up, the whole of the two-body absorbing structure 50 is integrally lifted. Is suppressed.
[0099]
Further, when the two-body absorbing structure 50 is fitted into the recessed structure 33, the two-body absorbing structure 50 and the large rib 39a and the small rib 39b are in contact with each other, and friction is generated therebetween. Therefore, even if the two-body absorbing structure 50 is pushed up, the friction suppresses the two-body absorbing structure 50 from being pushed up. Further, when the two-body absorbing structure 50 is fitted into the recessed structure 33, the upward movement of the two-body absorbing structure 50 is restricted by the pressing portion 40.
[0100]
According to the ink discharge structure 11 having such a configuration and the ink jet recording apparatus 10 using the ink discharge structure 11, the two-body absorbing structure 50 (the first absorbing member 60 and the second absorbing member 70) is provided in the recessed structure 33. Is fitted, the large rib 39a and the small rib 39b are located in the slits 64, 73 of the first absorbing member 60 and the second absorbing member 70. As a result, the large ribs 39a and small ribs 39b come into contact with the slits 64 and 73, and friction occurs between them. Therefore, when the two-body absorbing structure 50 is thrust up through the tongue piece 63, the two-body absorbing structure 50 can be prevented from floating due to friction between them.
[0101]
When the two-body absorbing structure 50 is fitted in the recessed structure 33, the two-body absorbing structure 50 is finely partitioned (partitioned) by the large rib 39a and the small rib 39b. Thus, even if the two-body absorbing structure 50 is pushed up, the whole of the two-body absorbing structure 50 can be prevented from being integrally lifted by dividing the two-body absorbing structure 50 into small pieces. That is, even if it is lifted, the finely divided part is lifted as one unit, and the two-body absorbing structure 50 cannot be lifted as a whole, so that the floating height can be reduced.
[0102]
Further, since the large rib 39a and the small rib 39b are located in the slits 64 and 73, the two-body absorbing structure 50 is prevented from shifting inside the recessed structure 33. Here, when the two-body absorbing structure 50 is displaced, the two-body absorbing structure 50 bends to generate a large lift. However, the presence of the large rib 39a and the small rib 39b (partition member) prevents the two-body absorbing structure 50 from shifting. This also prevents the two-body absorbing structure 50 from being lifted. Further, by preventing the two-body absorbing structure 50 from rising, even when a dimensional error occurs in which the dimensional interval between the platen 30 and the main absorbing member 51 is reduced, the reduced dimensional error can be absorbed. It becomes possible.
[0103]
The large rib 39a is formed at a portion where the horizontal concave portions 34a and 34b and the vertical concave portion 35 intersect. For this reason, the protruding length (rib length) toward the recessed structure 33 side can be made longer than the small rib 39b. Further, since the large rib 39a is formed at the intersection, the rib length can be increased in a state where the integrity of the two-body absorbing structure 50 is not impaired. For this reason, the large rib 39a can satisfactorily partition (divide) the two-body absorbing structure 50, so that the function as a partition member can be satisfactorily exhibited.
[0104]
Further, the depression structure 33 is provided with a holding portion 40 on the open side thereof for preventing the two-body absorption structure 50 from rising. In this manner, the provision of the holding portion 40 also makes it possible to prevent the two-body absorbing structure 50 from rising more favorably. In particular, in the present embodiment, the pressing portion 40 is provided at a position reaching the through hole 43. The tongue piece 63 is inserted into the through-hole 43, and the two-body absorbing structure 50 is pushed up through the tongue piece 63. For this reason, by providing the pressing portion 40 at a position approaching the through-hole 43, it is possible to suppress the push-up generated in the two-body absorbing structure 50 from the root side of the push-up.
[0105]
In particular, in this embodiment, since the pressing portion 40 is disposed immediately above the tongue piece 63, the lifting due to thrust can be effectively suppressed (blocked).
[0106]
Further, in the present embodiment, the two-body absorbing structure 50 is constituted by the first absorbing member 60 and the second absorbing member 70, and the second absorbing member 60 is provided with the tongue piece 63. The portion 63 is provided with a retaining portion 66a. Therefore, in addition to the large ribs 39a, the small ribs 39b, and the holding portions 40 described above, it is possible to prevent the two-body absorbing structure 50 from being lifted by the retaining portions 66a present in the tongue pieces 63 inserted into the through holes 43. Become. Thereby, it is possible to prevent the second absorbing member 70 from protruding from the feeding surface of the printing object 15 of the platen 30, and the second absorbing member 70 comes into contact with the printing object 15 to remove the printing object 15. Stain can be prevented.
[0107]
Further, even when the tongue piece 63 is pushed up by the main absorbing member 51, the tongue piece 63 is prevented from coming off by the retaining portion 66 a, so that the dimensional gap between the platen 30 and the main absorbing member 51 is reduced. , The dimensional error corresponding to the narrowing can be absorbed.
[0108]
Also, in the ink jet recording apparatus 10, even if the space between the platen 30 and the main absorbing member 51 is narrowed, the dimensional error can be absorbed by preventing the two-body absorbing structure 50 from floating. It becomes possible. For this reason, it is possible to prevent the two-body absorbing structure 50 from coming into contact with the print target 15, and it is possible to keep the print target 15 in a clean state.
[0109]
As mentioned above, although one Embodiment of this invention was described, this invention can be variously deformed besides this. Hereinafter, this will be described.
[0110]
In the above-described embodiment, a configuration has been described in which the partition member (the large rib 39a and the small rib 39b) prevents the two-body absorbing structure 50 from floating. However, the configuration for preventing the two-body absorbing structure 50 from rising is not limited to the configuration in which the partition member is provided, but may be a structure in which a fixing member for suppressing the rising of the two-body absorbing structure 50 is provided. In this case, the fixing member is locked inside the recessed structure 33.
[0111]
FIGS. 13 and 14 show examples of this configuration. Among them, the configuration of the ink discharge structure 80 shown in FIG. 13 is a configuration in which the pin body 81 is used to prevent the two-body absorbing structure 50 from floating. In this configuration, the pin member 81 is formed in a substantially U-shape, and one end side 81 a and the other end side 81 b of the substantially U-shaped pin member 81 are provided inside the concave structure 33. This is a configuration that is inserted into the insertion hole 83. Further, a portion between the one end side and the other end side of the pin member 81 serves as a holding portion 81c for holding up the two-body absorbing structure 50 by suppressing the floating of the two-body absorbing structure 50.
[0112]
Here, in order to insert the pin member 81, a column-shaped projecting member 82 is formed inside the recessed structure 33, and the projecting member 82 is formed with an insertion hole 83 directed downward from the upper end. Have been. Accordingly, when the pin member 81 is inserted in a state where the two-body absorbing structure 50 is fitted in the recessed structure 33, the pin member 81 (holding portion 81c) suppresses the floating of the two-body absorbing structure 50.
[0113]
By forming a plurality of such protruding members 82 having the pin member 81 and the insertion hole 83 in the recessed structure 33 in an appropriate arrangement, it is possible to prevent the two-body absorbing structure 50 from being lifted satisfactorily. It becomes. When the pin member 81 is inserted into the insertion hole 83, it is preferable that the pin member 81 is not easily removed from the insertion hole 83.
[0114]
FIG. 14 shows another example of the configuration using the fixing member. The structure of the ink discharge structure 90 shown in FIG. 14 is such that a leaf spring 91 is inserted into the recessed structure 33 and the floating of the two-body absorbing structure 50 is suppressed by the leaf spring 91. The leaf spring 91 fitted into the concave structure 33 is formed, for example, in a substantially M-shape, and has a holding portion 91c whose center portion is elastically deformed, and a piece 91a on one end and a piece 91b on the other end are This is a portion that contacts the inner wall surface of the concave structure 33.
[0115]
When the leaf spring 91 is fitted into the recessed structure 33 in a state where the two-body absorbing structure 50 is fitted into the recessed structure 33, the central portion is bent, and the pieces 91a and 91b at both ends apply an urging force to the inner wall surface. Contact in the state of being exerted. As a result, the leaf spring 91 cannot easily come off from the recessed structure 33. In this state, the leaf spring 91 (holding portion 91c) suppresses the floating of the two-body absorbing structure 50.
[0116]
The fixing member is not limited to the pin member 81 and the leaf spring 91. For example, the two-body absorbing structure 50 is fixed to the recessed structure 33 by using a sealing member having an adhesive surface, or by using a thread-like member. Various deformations are possible, such as fixing the two-body absorbing structure 50 to the recessed structure 33.
[0117]
In the above-described embodiment, the large rib 39a and the small rib 39b are used as the partition members. However, the partition member is not limited to the large ribs 39a and the small ribs 39b. For example, the partition members are not limited to those in which pin-shaped projection members are arranged in a line, and two types of ribs of the large ribs 39a and the small ribs 39b. Other configurations, such as those made of ribs having three or more types of sizes, may be employed.
[0118]
In the above-described embodiment, the large ribs 39a and the small ribs 39b protrude from the inner wall surfaces of the concave structure 33 toward the inside of the concave structure 33. However, the large rib 39a and the small rib 39b are not limited to such a configuration, and may be, for example, separated from any of the inner wall surfaces of the recessed structure 33. Even in this case, the large rib 39a and the small rib 39b can properly function as a partition member.
[0119]
In the above-described embodiment, the configuration in which the pressing portion 40 reaches the recessed structure 33 is described. However, a configuration in which the pressing portion 40 is omitted without being provided may be adopted.
[0120]
Further, in the above-described embodiment, the wide portion 65 is formed in the tongue piece 63 so as to spread in the longitudinal direction (main scanning direction). However, as shown in FIG. 15, the wide portion may be formed in a shape spreading in the short direction (sub-scanning direction). Further, the tongue piece 63 may be formed from the beginning instead of being bent.
[0121]
Further, in the above-described embodiment, the configuration is described in which the wide portion 65b is formed in the tongue piece 63 and the retaining portion 66a and the insertion guide portion 66b are provided in the wide portion 65b. However, the tongue piece 63 may have only the retaining portion 66a and no insertion guide portion 66b.
[0122]
FIG. 16 shows an example of such a configuration. In the configuration shown in FIG. 16, the wide portion 95 having the retaining portion 66a of the tongue piece 63 is formed in a rectangular shape. Therefore, there is no insertion guide portion 66b using the hypotenuse of the right triangle, and when inserting the wide portion 95 into the through hole 43, the wide portion 95 is folded and inserted. After the wide portion 95 passes through the through-hole 43, the folded wide portion 95 is expanded. By doing so, the side of the wide portion 95 that faces the through hole 43 can be used as the retaining portion 66a. In FIG. 16, the wide portion 95 has a shape that spreads in the short direction, but may have a shape that spreads in the long direction (main scanning direction).
[0123]
In the above-described embodiment, the tongue pieces 63 inserted into the lateral concave portions 34a and 34b are arranged in a staggered manner along the longitudinal direction of the first absorbing member 60. I have. However, the arrangement of the tongue pieces 63 is not limited to the staggered shape, and may be arranged so as to penetrate all the through holes 43 or the tongue pieces 63 may be irregularly arranged.
[0124]
Further, in the above-described embodiment, the two-body absorption structure 50 in which two parts are overlapped is adopted as the liquid absorption structure. However, as the liquid absorption structure, as a conventional one part, the tongue piece portion is provided. It is preferable to form the retaining portion because an effect that the ink absorbing member does not contact the print target 15 is obtained. Further, the liquid absorbing structure may be a structure in which three or more members are stacked.
[0125]
Further, in the above-described embodiment, the extension portion 65a has a rectangular shape. However, the shape of the extending portion 65a is not limited to a rectangular shape, and may be various shapes, for example, a wedge shape, an elliptical shape having a large oblateness, and the like, as long as the insertion into the through hole 43 is not hindered. it can.
[0126]
Further, in the above-described embodiment, the first absorbent member 60 has a higher density PVA sponge than the second absorbent member 70, and the second absorbent member 70 has a lower density urethane foam than the first absorbent member 60. And However, the material of the first absorbing member 60 and the second absorbing member 70 is not limited to this. For example, the first absorbing member may be formed from a water-absorbing fiber material, or the second absorbing member 70 may be formed from a polyurethane foam or an acrylic fiber.
[0127]
The material of the second absorbent member 70 may be a foamed urethane foam, and the material of the first absorbent member may be a material having a lower density than the foamed urethane foam. However, when the material of the first absorbing member is lower in density than that of the second absorbing member 70, the first absorbing member needs to be excellent in ejecting ink droplets. In any case, by forming the absorbing member with two members or three or more members, it is possible to select a material in consideration of various balances such as absorption, discharge, molding, and cost, and to achieve a balance between cost and performance. A good absorption structure can be obtained.
[0128]
Further, in the above-described embodiment, the insertion guide portion 66b uses the oblique side of the wide portion 65b in the shape of a right triangle. However, the insertion guide section is not limited to this, and for example, the contour of the insertion guide section may draw a predetermined curve.
[0129]
Further, in the above-described embodiment, the configuration is described in which the wide portion 65b is provided integrally with the extension portion 65a, and the wide portion 65b has the retaining portion 66a. However, the wide portion having the retaining portion may be configured separately. For example, after inserting the tongue piece 63, the wide portion 65b may be stapled to the extended portion 65a protruding toward the main absorbing member 51, or a wide PVA sponge of another member may be bonded. As described above, when the wide portion is formed separately, there is an advantage that the insertion of the extending portion into the through hole 43 becomes easy. Further, the tongue piece 63 is not formed integrally with the first absorbing member 60, but is provided as a separate body, and the first and second absorbing members 60 are connected to each other by, for example, a stapler, an adhesive, or another adhesive member. You may comprise.
[0130]
Further, the present invention is preferably applied to an ink jet recording apparatus. However, the present invention can be applied to all recording apparatuses that perform recording by attaching ink droplets to a printing target. Further, the present invention is suitable for performing borderless printing, but can also be used for a recording device that does not perform borderless printing.
[0131]
Further, in the above-described embodiment, the concave structure 33 provided on the platen 30 includes the horizontal concave portion 34, the vertical concave portion 35, and the wide concave portion 36. However, the recess structure 33 only needs to be provided with at least one of these recesses 34 to 36. Further, for example, the platen 30 may be arranged obliquely with respect to the paper feeding direction. In this case, it is desirable that the recessed structure be parallel or perpendicular to the paper feeding direction and be oblique to the longitudinal direction of the platen 30.
[0132]
【The invention's effect】
As described above, according to the present invention, it is possible to prevent the ink absorbing member from floating and coming into contact with the print target.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating a main configuration of an ink jet recording apparatus according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view showing a configuration of an ink discharge structure used in the ink jet recording apparatus of FIG.
FIG. 3 is a perspective view showing a shape of a platen in the ink discharge structure of FIG. 2;
FIG. 4 is a plan view showing a shape of a platen in the ink discharge structure of FIG. 2;
FIG. 5 is a bottom view showing the shape of a platen in the ink discharge structure of FIG. 2;
FIG. 6 is a side sectional view showing a shape of a platen in the ink discharge structure of FIG. 2, and is a sectional view taken along line AA of FIG. 3;
FIG. 7 is a perspective view showing a shape of a first absorbing member in the ink discharge structure of FIG. 2;
FIGS. 8A and 8B are diagrams showing the shape of a first absorbing member in the ink discharge structure of FIG. 2, wherein FIG. 8A is a plan view and FIG. 8B is a front view.
FIG. 9 is a perspective view showing a shape of a second absorbing member in the ink discharging structure of FIG. 2;
FIG. 10 is a plan view showing a shape of a second absorbing member in the ink discharge structure of FIG. 2;
11 shows a state in which the two-body absorbing structure is fitted into the recessed structure in the ink discharge structure of FIG. 2, the tongue piece is inserted into the through hole, and the retaining portion functions to prevent the tongue from coming off. FIG. 5 is a side cross-sectional view showing a state in which the above is achieved, and is a cross-sectional view taken along the line BB of FIG.
12 is a side sectional view showing a state in which the two-body absorbing structure is fitted into the recessed structure in the ink discharging structure of FIG. 2, and is a sectional view taken along line CC of FIG. 4;
FIG. 13 is a perspective view showing a modification of the ink discharge structure of FIG. 2 and showing a configuration for preventing the two-body absorbing structure located in the recessed structure from lifting by using a pin member.
FIG. 14 is a perspective view showing a modification of the ink discharge structure of FIG. 2 and showing a configuration for preventing the two-body absorbing structure located in the recessed structure from lifting using a leaf spring.
15 shows a modification of the ink discharging structure of FIG. 2, showing a state in which the two-body absorbing structure is fitted into the recessed structure, the tongue piece being inserted into the through hole, and the retaining portion being further provided. FIG. 4 is a side cross-sectional view showing an example in which the arrow platen extends in the lateral direction (sub-scanning direction).
FIG. 16 shows a modification of the ink discharge structure of FIG. 2, showing a state in which the two-body absorbing structure is fitted into the recessed structure, and a tongue piece having no insertion guide part is inserted into the through hole. FIG. 9 is a side sectional view showing a state in which the retaining portion further functions to retain the tongue piece.
FIG. 17 is a side sectional view showing a conventional ink discharge structure, and shows a state where a distance between a platen and a main absorbing member is a specified value.
FIG. 18 is a side cross-sectional view showing a conventional ink discharge structure, showing a state in which a distance between a platen and a main absorbing member is reduced, and the ink absorbing member protrudes from a feeding surface.
[Explanation of symbols]
10. Inkjet recording device
11, 80, 90 ... Ink discharging structure
12 ... Chassis
13. Carriage
14. Recording head
15 Print target
16 ... Inkjet head
21 ... Roller
30 ... Platen
31 ... Base
32 ... Projection
33… Recessed structure
33c ... Bottom part
34 ... Side recess
35… Vertical recess
36 ... Wide concave recess
38 ... Intermediate part
39a: Large rib (part of partition member)
39b ... Small rib (part of partition member)
40 ... Retainer
41: Roller locking part
43 ... Through-hole
50 ... two-body absorption structure
51: Main absorption member
60: first absorbing member
61 ... Opening
62 ... Bottom contact part
63, 67 ... tongue piece
64 ... Slit
65a ... Extended part
65b, 95 ... wide part
66a: retaining part
66b ... insertion guide part
70 ... second absorbing member
71 ... Opening
72 ... Bottom contact part
73 ... Slit
81: Pin member
91 ... leaf spring

Claims (9)

While supporting the printing target, a concave structure for pouring a liquid such as ink not adhered to the printing target is provided on the supporting surface side thereof, and a platen provided with a through hole in the concave structure, A liquid absorbing structure that is fitted into the recessed structure and receives a liquid such as an ink droplet from the recording head body.
The platen is provided with a partition member for partitioning the liquid absorbing structure fitted into the concave structure,
The liquid absorbing structure corresponds to a tongue piece that is inserted into the through hole when the liquid absorbing structure is fitted into the concave structure, and a position where the partition member is formed when the liquid absorbing structure is fitted into the concave structure. An ink discharge structure, wherein a slit is provided. The platen, the longitudinal direction of which is provided in an arrangement orthogonal to the paper feed direction of the printing target,
The recess structure has a pair of horizontal recesses on the near side and the back side in the paper feed direction of the printing target, and includes a plurality of vertical recesses along the paper feeding direction of the printing target. Have
A plurality of the through holes are formed in the lateral recess along the longitudinal direction thereof, and the through hole is formed in a certain one of the plurality of the vertical recesses,
In the partition member, there is a small rib and a large rib provided with a length longer than the small rib,
These small ribs and large ribs are formed in the lateral recesses,
2. The ink discharging structure according to claim 1, wherein the large rib is present in a portion of the horizontal concave portion where the vertical concave portion is formed. The ink discharging structure according to claim 1, wherein the concave structure is provided with a pressing portion on an open side thereof to prevent the liquid absorbing structure from floating. The said small rib and the said large rib are arrange | positioned in the site | part which does not reach the said through-hole, The said press part is arrange | positioned in the site | part which approaches the said through-hole, The Claims 3 characterized by the above-mentioned. Ink discharge structure. A concave structure is provided at a portion where ink droplets ejected from the recording head body reach when the print target comes into contact with the outside when the print target is discharged to the outside and when the printing of the print target is performed with no margin, and the concave structure is provided. A platen provided with a through-hole, and a liquid absorbing structure that is fitted into the recessed structure and receives a liquid such as an ink droplet from the recording head body.
A fixing member is locked inside the concave structure of the platen,
The ink discharge structure according to claim 1, wherein the locking of the fixing member prevents the liquid absorbing structure fitted into the concave structure from floating. 6. The ink according to claim 5, wherein the fixing member is a pin member having a holding portion for holding the liquid absorbing structure, and is locked inside the recessed structure when the pin member is inserted. Discharge structure. The fixing member is a plate spring having a holding portion for holding the liquid absorbing structure, and the plate spring is locked inside the concave structure by urging an inner wall surface of the concave structure. The ink discharging structure according to claim 5, wherein The liquid absorbing structure includes:
A bottom contact portion that contacts the bottom portion of the recessed structure; and a tongue piece that extends from the bottom contact portion and that is inserted into the through hole. A first absorbing member provided with a retaining portion for restricting falling out of
A second absorbing member that is positioned on the open side of the recessed structure so as to overlap the first absorbing member, and that first receives a liquid such as ink on the open side of the recessed structure;
The ink discharge structure according to any one of claims 1 to 7, further comprising: An ink jet recording apparatus using the ink discharge structure according to claim 1.

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