1. Technical Field
The present invention relates to a recording apparatus, such as an ink jet printer.
2. Related Art
Heretofore, as a kind of recording apparatus, an ink jet printer which performs recording (printing) by causing a recording head thereof to eject ink onto a medium, such as paper, is well known. In such a printer, when performing a relatively large amount of printing, it becomes necessary to feed ink to a recording head continuously and stably. For this reason, among printers of this type, there is a printer configured such that a large-capacity liquid container containing an ink pack or the like therein is provided outside the apparatus housing of the printer, and ink is fed from the large-capacity liquid container to a recording head disposed inside the apparatus housing through an ink feeding tube (for example, refer to JP-A-2013-121659).
In such a printer described above, a liquid container is disposed outside the apparatus housing. For this reason, there is a problem that the installation area of the entire printer increases by an area equal to the installation area of the liquid container and which must be added to the installation area of the apparatus housing. Under such a situation, in order to solve the problem described above, an arrangement, in which a liquid container is disposed inside the apparatus housing, and in the inside of the apparatus housing, ink is fed from the liquid container to a recording head through an ink feeding tube, has been conceived.
When, however, such an arrangement is implemented, since the liquid container requires a replacement task to be performed, there arises a new problem in that, when the replacement task is carried out, connecting the liquid container to the ink feeding tube can become difficult.
In addition, such a problem is relatively common with respect to not only an ink jet printer, but also a recording apparatus configured such that a liquid container, which contains liquid to be fed to a recording head disposed inside the apparatus housing, is also disposed inside the apparatus housing, and a liquid feeding path connecting the liquid container to the recording head is provided.
An advantage of some aspects of the invention is that a recording apparatus is provided which makes it possible to, without increasing the installation area of the entire apparatus, easily feed ink to a recording head disposed inside the apparatus housing from a liquid container which is likewise disposed inside the apparatus housing.
Hereinafter, means for realizing such a recording apparatus as well as the effects thereof will be described.
A recording apparatus according to an aspect of the invention includes a recording head that is disposed inside an apparatus housing and that ejects a liquid onto a medium; a liquid container attaching/detaching unit that is configured such that a liquid container which contains the liquid is attached/detached to/from the liquid container attaching/detaching unit itself and that is configured to be inserted/extracted through an inserting/extracting opening provided in the apparatus housing; and a liquid feeding path that feeds the liquid from the liquid container to the recording head. Further, the liquid feeding path encompasses a unit-side path provided in the liquid container attaching/detaching unit and an apparatus-housing-side path provided in the apparatus housing. Further, the unit-side path and the apparatus-housing-side path are mutually connected by the insertion of the liquid container attaching/detaching unit through the inserting/extracting opening of the apparatus housing, and the mutual connection is disconnected by the extraction of the liquid container attaching/detaching unit through the inserting/extracting opening of the apparatus housing.
According to this configuration, it is possible to easily attach/detach the liquid container to/from the liquid container attaching/detaching unit in a state of having being extracted through the inserting/extracting opening. Further, when the liquid container attaching/detaching unit containing the liquid container attached therein has been inserted through the inserting/extracting opening, the unit-side path and the apparatus-housing-side path, which separately constitute the liquid feeding path, are connected to each other and, as a result, it becomes possible to feed the liquid from the liquid container to the recording head. Further, in such a case, since the liquid container is disposed inside the apparatus housing, the installation area of the entire recording apparatus does not increase. Accordingly, it is possible to, without increasing the installation area of the entire apparatus, easily feed the liquid to the recording head from the liquid container, which is likewise disposed inside the apparatus housing, through the liquid feeding path.
Further, in the recording apparatus according to the above aspect of the invention, preferably, each of a unit-side connection portion constituting the unit-side path and connected to the apparatus-housing-side path and an apparatus-housing-side connection portion constituting the apparatus-housing-side path and connected to the unit-side path includes a valve mechanism which is opened when both of the unit-side connection portion and the apparatus-housing-side connection portion are connected to each other, and which is closed when both of the unit-side connection portion and the apparatus-housing-side connection portion are disconnected from each other.
According to this configuration, when the liquid container attaching/detaching unit containing the liquid container therein has been inserted through the inserting/extracting opening and the unit-side connection portion and the apparatus-side connection portion become mutually connected, the valve mechanism provided in both connection portions is open state. Thus, the unit-side path and the apparatus-housing-side path are connected to each other and, as a result, it becomes possible to feed the liquid from the liquid container to the recording head. In contrast, when the liquid container attaching/detaching unit is extracted through the inserting/extracting opening and both of the connection portions are disconnected from each other, the valve mechanism provided in both connection portions becomes closed. Thus, when, for example, for the purpose of attachment/detachment replacement of the liquid container, the liquid container attaching/detaching unit has been extracted through the inserting/extracting opening of the apparatus housing, it is possible to suppress the ink from leaking from the unit-side path and the apparatus-housing-side path.
Further, preferably, the recording apparatus according to the above aspect of the invention further includes a movement resistance applying portion that, before the unit-side path and the apparatus-housing-side path are mutually connected after initiating the insertion of the liquid container attaching/detaching unit through the inserting/extracting opening, makes contact with and applies a movement resistance force to the liquid container attaching/detaching unit while moving in an insertion direction in which the liquid container attaching/detaching unit is inserted, and the liquid container attaching/detaching unit further moves in the insertion direction while moving against the movement resistance force applied by the movement resistance applying portion, and the movement of the liquid container attaching/detaching unit brings the unit-side path into contact with the apparatus-housing-side path.
According to this configuration, even when the liquid container attaching/detaching unit has been extracted forcibly by a user through the inserting/extracting opening of the apparatus housing, it is possible to prevent, by utilizing the movement resistance applying portion, the occurrence of a situation in which the unit-side connection portion and the apparatus-housing-side connection portion collide with each other due to the force applied by the user.
Further, in the recording apparatus according to the above aspect of the invention, preferably, the movement resistance applying portion is configured to include a force applying member that, when the movement resistance applying portion is in contact with the liquid container attaching/detaching unit which further moves in the insertion direction, applies an energizing force to the liquid container attaching/detaching unit in a direction in which the liquid container attaching/detaching unit is extracted through the inserting/extracting opening, and that, when the movement resistance applying portion is in contact with the liquid container attaching/detaching unit and the unit-side path and the apparatus-housing-side path are connected to each other, enters a force accumulation state.
According to this configuration, when the liquid container attaching/detaching unit is extracted through the inserting/extracting opening, the force applying member enters a state in which an accumulated force is released as an energizing force applied in the extraction direction, and thus, an operation of extracting the liquid container attaching/detaching unit becomes easy.
Further, in the recording apparatus according to the above aspect of the invention, preferably, the liquid container attaching/detaching unit further includes a pump mechanism that is driven in order to cause the liquid to move and flow, through the unit-side path, from an upstream side, at which the liquid container is disposed, toward a downstream side.
According to this configuration, for example, even when the liquid container attaching/detaching unit is disposed at a lower portion in the vertical direction in the apparatus housing; while the recording head is disposed at an upper portion in the vertical direction in the apparatus housing, it is possible to smoothly feed ink from the liquid container attached to the liquid container attaching/detaching unit to the recording head by utilizing the drive of the pump mechanism.
Further, in the recording apparatus according to the above aspect of the invention, preferably, in the liquid container attaching/detaching unit, a plurality of liquid containers including the liquid container are attached/detached to/from the liquid container attaching/detaching unit itself, and a plurality of unit-side paths which include the unit-side path and each of which is associated with a corresponding one of the plurality of liquid containers are provided; while, in the apparatus housing, a plurality of apparatus-housing-side paths which include the apparatus-housing-side path and each of which is associated with a corresponding one of the plurality of unit-side paths, are provided.
According to this configuration, it is possible to perform multi-color recording with a plurality of inks onto a medium.
The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
Hereinafter, a recording apparatus according to an embodiment will be described with reference to the drawings. In addition, the recording apparatus according to this embodiment is, for example, an ink jet printer which performs recording (printing) by ejecting ink, which is an example liquid, onto a medium, such as paper. In addition, hereinafter, when describing a direction, unless otherwise noted, the description will be made on the basis of directions shown in
As shown in
That is, in the inside of the apparatus housing 12A, a guide shaft 18 is disposed between both side faces of the apparatus housing 12A so as to extend along the leftward/rightward direction, which is a main scanning direction relative to the paper P, and a carriage 19 is supported by the guide shaft 18 so as to be capable of moving along the main scanning direction. This carriage 19 reciprocates along the main scanning direction by being driven by a carriage motor (not illustrated). Further, a recording head 12 that performs recording by ejecting ink onto the paper P is attached to the lower face of the carriage 19.
In addition, although not illustrated, a plurality of nozzle rows each constituted of a plurality of nozzles through each of which ink is ejected are provided on the recording head 12. Further, ink feeding tubes 21 as an example of the plurality of liquid feeding paths are routed inside the apparatus housing 12A in a state in which the downstream edge of each of the ink feeding tubes 21 is connected to the recording head 12 so as to be associated with a corresponding one of the plurality of nozzle rows. Further, in the inside of the apparatus housing 12A, a board unit 12, which functions as a control unit provided with driving circuits for driving a movement mechanism of the carriage 19, an ink ejection mechanism for the recording head 12, and the like, is disposed at a right side position of the right-side edge of an area which is along the main scanning direction and within which the carriage 19 moves.
As shown in
As shown in
Further, in an inner portion inside the apparatus housing 12A when viewed inward from the paper ejecting opening 23, a path constituting member 29 whose upper face forms a portion of a transportation path for the paper P is provided, and a roller 30 is pivotally supported by the path constituting member 29 so as to be capable of freely swinging. Further, in the inside of the apparatus housing 12A, a separation slope 31 whose gradient rises in the backward direction is provided behind the paper feeding roller 30. Further, a curved transportation path 33 which extends from the separation slope 31 obliquely upward along the outer circumferential face of a reverse rotation roller 32 is formed, and further, a transportation path 34 which is continuous with the curved transportation path 33 and which is also capable of transporting the paper P toward the recording portion 17 is formed.
In the recording portion 17, a supporting table 35 capable of supporting the paper P is provided at a position facing the recording head 20 in the upward/downward direction, and a paper feeding roller pair 36 and a paper ejecting roller pair 37 are disposed at a backward position and a forward position, respectively, which interpose the supporting table 35 therebetween. Further, in the inside of the apparatus housing 12A, a transportation path 39 is formed between the lower face of a frame 38, which supports the reverse rotation roller 32, and the upper face of the path constituting member 29. The transportation path 39 makes it possible to, without causing the paper P to passing through the curved transportation path 33, transport the paper P from the upper face of the supporting table 35 toward a portion at which the separation slope 31 and the curved transportation path 33 are continuous with each other.
That is, in
Further, when double-sided printing is performed, reverse rotation of the paper feeding roller pair 36 causes the paper P, whose obverse side has been subjected to printing, to pass through the transportation path 39; return to the position at which the separation slope 31 and the curved transportation path 33 become continuous with each other; and be transported again toward the recording unit 17 via the curved transportation path 33, in a state in which the obverse and reverse sides of the paper P are turned upside down. As a result, double-sided printing is performed at the printing portion 17 by the ejection of ink onto the upward facing reverse face of the paper P, and subsequently, the paper is ejected from the paper ejecting opening 23 by the rotation of the paper ejecting roller pair 37.
In addition, as shown in
As shown in
As shown in
Further, the attachment 46 is a rectangular-shaped resin member which is more rigid than the ink pack 44, and is provided, at the front side thereof, with an opening 53 capable of, in a state of holding the ink pack 44, exposing the liquid lead-out opening 48 of the liquid lead-out member 45. Further, at the back side of the opening 53, a pair of ribs 54 capable of pinching the liquid lead-out member 45 of the ink pack 44 from both of the left and right sides are provided, and further, each of vertical walls 55 is formed at a corresponding one of the left side of one of the ribs 54 and the right side of the other one of the ribs 54 so as to extend in the leftward/rightward direction. Further, the attachment 46 includes latching concave portions 57 formed thereon, each of which is capable of latching a corresponding one of latching convex portions 56 formed on the cover 47. Further, the attachment 46 is provided, at a side face thereof, with a connection terminal 58 including a circuit board (omitted from illustration) on which a circuit stores therein pieces of information related to a kind of ink, a remaining amount of ink contained in the ink pack 44, and the like.
Next, the liquid container attaching/detaching unit 26 as well as a liquid feeding path which connects the recording head 20 to the liquid container 27 mounted in the liquid container attaching/detaching unit 26 will be described in detail.
As shown in
Further, in the inside of the sliding member 61, the upstream edge of an ink feeding tube 21a is connected to the base edge side of the ink feeding needle (i.e., the opposite side of the ink feeding needle's tip inserted into the liquid lead-out opening 48 of the ink pack 44). Further, this ink feeding tube 21a is pulled into a lower layer chamber 62, a space formed at the lower side of the supporting plate 60, at a front side position of the sliding member 61, and further, the ink feeding tube 21a is pulled out again toward the upper side of the supporting plate 60 at a back side position of the ink pack 44. In addition, at a position above a connection portion where the ink feeding tube 21a is connected to the sliding member 61 and a contact portion where the attachment 46 of the liquid container 27 is in contact with the sliding member 61, a blindfold plate 63 is provided so as to, when the liquid container attaching/detaching unit 26 is in the state of being extracted through the inserting/extracting opening 42a, cause these connection and contact portions to be invisible from a user.
As shown in
Further, a vertical wall 67, which faces the back side face of the backward wall 65 of the liquid container attaching/detaching unit 26, is vertically disposed at a position in the vicinity of the back side edge of the apparatus housing 12A on a bottom wall 43 of the apparatus housing 12A, and an apparatus-housing-side connection portion 68, which is capable of being connected to the unit-side connection portion 66 of the liquid container attaching/detaching unit 26, is attached to the front side face of the vertical wall 67. In addition, in each of the unit-side connection portion 66 and the apparatus-housing-side connection portion 68, there is provided a valve mechanism 69 which is made opened in a state in which both of the connection portions 66 and 68 are connected to each other and which is made closed in a state in which both of the connection portions 66 and 68 are disconnected from each other.
Further, as shown in
Further, when, in the above contact state, the liquid container attaching/detaching unit 26 is further inserted backward in an insertion direction in which the liquid container attaching/detaching unit 26 is inserted, the coil spring 70 is contracted by being pushed by the backward wall 65 of the liquid container attaching/detaching unit 26 and, simultaneously therewith, functions as a movement resistance applying portion for applying a frontward energizing force, which energizes the extraction of the liquid container attaching/detaching unit 26 through the inserting/extracting opening 42a, to the liquid container attaching/detaching unit 26 as a movement resistance force. Further, the coil spring 70 is configured to, when the unit-side connection portion 66 and the apparatus-housing-side connection portion 68 have become mutually connected after the completion of the mounting of the liquid container attaching/detaching unit 26 into the mounting portion 42, enters a force accumulation state in which a frontward force which energizes the extraction of the liquid container attaching/detaching unit 26 through the inserting/extracting opening 42a is accumulated.
In addition, in this case, the liquid container attaching/detaching unit 26 is prevented from being extracted away from the inserting/ejecting opening 42a such that the front edge of the liquid container attaching/detaching unit 26 is latched together with the back side face of a convex portion 43a which has a cross section of a right-angle triangle shape and which is provided at the front edge of the bottom wall 43 of the apparatus housing 12A. Further, when the front edge of the liquid container attaching/detaching unit 26 is picked up and thereby the stopping state of the liquid container attaching/detaching unit 26 is released, the liquid container attaching/detaching unit 26 is made movable in a direction in which the liquid container attaching/detaching unit 26 is extracted through the inserting/extracting opening 42a by the energizing force of the coil spring 70, functioning as an assistance force for assisting the extraction thereof. Further, as shown in
Incidentally, a plurality of the liquid container 27 (whose number is, for example, four) are provided so as to be arranged in the leftward/rightward direction on the supporting plate 60 of the liquid container attaching/detaching unit 26. That is, the liquid container 27 containing black ink, the liquid container 27 containing cyan ink, the liquid container 27 containing magenta ink, and the liquid container 27 containing yellow ink are mounted on the supporting plate 60 so as to be arranged in the leftward/rightward direction. With respect to the plurality of liquid containers 27 each containing a corresponding one of the color inks, the ink pack 44 of the liquid container 27 containing the black ink has a larger ink containable capacity than the ink pack 44 of any other one of the liquid containers 27. In addition, the capacity of the lower layer chamber 62 of the liquid container attaching/detaching unit 26 is larger than the total capacity of the ink packs 44 of all the liquid containers 27 arranged on the supporting plate 60.
Further, on the supporting plate 60, a plurality of the sliding members 61 each associated with a corresponding one of the plurality of liquid containers (whose number is four in this case) are provided, and similarly, a plurality of the ink feeding tubes 21a (whose number is four) are each connected to a corresponding one of the sliding members 61. Further, on the supporting plate 60, a plurality of the pump mechanisms 64 (whose number is four) through each of which a corresponding one of the ink feeding tubes 21a (whose number is four) is routed are provided, and the downstream edges of the ink feeding tubes 21a are each connected to a corresponding one of the unit-side connection portions 66. Further, a plurality of the apparatus-housing-side connection portions 68 (whose number is four) each associated with a corresponding one of the plurality of unit-side connection portions 66 (whose number is four) are provided inside the apparatus housing 12A. Moreover, each of the downstream edges of the plurality of ink feeding tubes 21b (whose number is four), the upstream edges of which are each connected to a corresponding one of the apparatus-housing-side connection portions 68, is connected to a corresponding one of the nozzle rows of the recording head 20, each of the nozzle rows being associated with a corresponding one of the ink colors.
As shown in
Next, behaviors of the recording apparatus 12 of this embodiment, having been configured in such a way as described above, will be described below focusing attention on behaviors when a user performs attaching/detaching replacement of the liquid container 27.
For example, in the state shown in
Further, next, a new liquid container 27 as a substitution for the detached old liquid container 27 is mounted on the supporting plate 60, and when one push operation of the attachment 46 toward the sliding member 61 is further performed in a state in which the attachment 46 and the sliding member 61 are abutted to each other, the new liquid container 27 becomes in the state of causing the attachment 46 to be joined with the sliding member 61, and the new liquid container 27 becomes in an attached state. As a result, it becomes possible to feed ink from the new liquid container 27 to the ink feeding tube 21a constituting the unit-side path. Simultaneously therewith, communication from the connection terminal 58 of the new liquid container 27 to signal wirings routed along the ink feeding tube 21a becomes possible.
Further, next, the liquid container attaching/detaching unit 26 to which a new liquid container 27 has been attached in such a way as described above is inserted through the inserting/extracting opening 42a of the apparatus housing 12A. Subsequently, the backward wall 65, which is located at a forward position in the insertion direction of the liquid container attaching/detaching unit 26, is contacted with the abutting plate 71 which is attached to the tip of the coil spring 70, and the movement speed of the liquid container attaching/detaching unit 26 in the insertion direction degreases due to the influence of an elastic force of the coil spring 70. Further, when, in such a connection state, a user further pushes the liquid container attaching/detaching unit 26 forward in the insertion direction, as shown in
Further, the connection between the unit-side connection portion 66 and the apparatus-side connection portion 68 causes the valve mechanism provided in each of the both connection portions 66 and 68 to open and, as a result, it becomes possible to feed ink from the ink feeding tube 21a constituting the unit-side path to the ink feeding tube 21b constituting the apparatus-side path. Further, when, in this state, the pump mechanism 64 is driven, the ink is favorably fed to the recording head 20 which is located at an upper position than that of the liquid container 27 in the vertical direction.
Meanwhile, when, in this state, the liquid container attaching/detaching unit 26 is moved in a direction in which the inserting/extracting opening 26 of the apparatus housing 12A is extracted through the inserting/extracting opening 42a, the unit-side connection portion 66 and the apparatus-housing-side connection portion 68 become in a disconnected state and, as a result, the valve mechanism 69 provided in each of the both connection portions 66 and 68 closes. Thus, ink inside each of the ink feeding tubes 21a and 21b is suppressed from being leaked from a corresponding one of the both connection portions 66 and 68. Further, when the liquid container attaching/detaching unit 26 is extracted from the inserting/extracting opening 42a, the energizing force of the coil spring 70 pushes, as an assisting force, the liquid container attaching/detaching unit 26, and thus, it becomes possible for a user to easily perform an extraction operation.
Further, if ink is leaked from the liquid container 27 attached to the liquid container attaching/detaching unit 26, the leaked ink flows into the lower layer chamber 62 and is stored therein. Further, in such a case, even if all inks are leaked from all the liquid containers 27 and flow into the lower layer chamber 62, any ink is not leaked out from the lower layer chamber 62. Thus, it becomes possible to suppress the apparatus housing 12a from being tainted by the leaked ink.
According to this embodiment, it is possible to obtain the following advantageous effects.
(1) It is possible to easily attach/detach the liquid container 27 to/from the liquid container attaching/detaching unit 26 in a state of having being extracted from the inserting/extracting opening 42a. Further, when the liquid container attaching/detaching unit 26 containing the liquid container 27 attached therein has been inserted through the inserting/extracting opening 42a, the ink feeding tube 21a and the ink feeding tube 21b, which are associated with the unit-side path and the ink the apparatus-housing-side path, respectively, and which separately constitute the liquid feeding path, are connected to each other and, as a result, it becomes possible to feed ink from the liquid container 27 to the recording head 20. Further, in such a case, since the liquid container 27 is disposed inside the apparatus housing 12A, the installation area of the entire recording apparatus 12 does not increase. Accordingly, it is possible to, without increasing the installation area of the entire apparatus, easily feed ink to the recording head 20 from the liquid container 27, which is likewise disposed inside the apparatus housing 12A, through the ink feeding tube 21 which is an example of the liquid feeding path.
(2) When the liquid container attaching/detaching unit 26 containing the liquid container 27 therein has been inserted through the inserting/extracting opening 42a and the unit-side connection portion 66 and the apparatus-side connection portion 68 become mutually connected, the valve mechanism 69 provided in both of the connection portions 66 and 68 becomes is open state. Thus, the ink feeding tube 21a constituting the unit-side path and the ink feeding tube 21b constituting the apparatus-housing-side path are connected to each other and, as a result, it becomes possible to feed ink from the liquid container 27 to the recording head 20. In contrast, when the liquid container attaching/detaching unit 26 is extracted through the inserting/extracting 42a and both of the connection portions 66 and 68 are disconnected from each other, the valve mechanism 69 provided in both of the connection portions 66 and 68 becomes closed. Thus, when, for example, for the purpose of attachment/detachment replacement of the liquid container 27, the liquid container attaching/detaching unit 26 has been extracted through the inserting/extracting opening 42a of the apparatus housing 12A, it is possible to suppress the ink from leaking from the ink feeding tube 21a constituting the unit-side path and the ink feeding tube 21b constituting the apparatus-housing-side path.
(3) For example, even when the liquid container attaching/detaching unit 26 has been extracted forcibly by a user through the inserting/extracting opening 42a of the apparatus housing 12A, it is possible to prevent, by utilizing the behavior of the coil spring 70 functioning as the movement resistance applying portion, the occurrence of a situation in which the unit-side connection portion 66 and the apparatus-housing-side connection portion 68 collide with each other due to the force applied by the user.
(4) When the liquid container attaching/detaching unit 26 is extracted through the inserting/extracting opening 42a, the coil spring 70, which is an example of the force applying member, enters a state in which an accumulated force is released as an energizing force applied in the extraction direction, and thus, an operation of extracting the liquid container attaching/detaching unit 26 becomes easy.
(5) For example, even when the liquid container attaching/detaching unit 26 is disposed at a lower portion in the vertical direction in the apparatus housing 12A; while the recording head 20 is disposed at an upper portion in the vertical direction in the apparatus housing 12A, it is possible to smoothly feed ink from the liquid container 27 attached to the liquid container attaching/detaching unit 26 to the recording head 20 by utilizing the drive of the pump mechanism 64.
(6) It is possible to perform multi-color recording with a plurality of inks onto the paper P which is an example of a medium.
(7) In the liquid container attaching/detaching unit 26, the sliding member 61 is disposed in the vicinity of the front edge of the supporting plate 60, and thus, a user can perform attachment/detachment of the liquid container 27 even when only the around half of the liquid container attaching/detaching unit 26 is in a state of being extracted from the inserting/extracting opening 42a.
In addition, the aforementioned embodiment may be modified as described below.
As denoted by a chain double-dashed line in
As shown in
As shown in
Meanwhile, the innermost portion of the guide slot 81 is made a striking portion 82 which is struck by the insertion-side edge portion 80a of the guide rail 80. Further, the entrance portion of the guide slot 81 is formed into a taper face 83, and the inner bottom face of a portion distanced from the taper face 83 by a short distance in a direction toward the innermost portion of the guide slot 81 is formed into an oblique face 84 which abuts onto the extraction-side edge portion 80b of the guide rail 80 in the state of having been inserted in the guide slot 81, so as to be capable of restricting the extraction of the guide rail 80 from the inside of the guide slot 81. Moreover, a protruding portion 85 may be formed on a portion of the ceiling face in the vicinity of the innermost portion of the guide slot 81 so as to be capable of applying a movement resistance force to the insertion-side edge portion 80a by being slidingly contacted with the insertion-side edge portion 80A.
In the case where this mechanism is implemented, when the liquid container attaching/detaching unit 26A is forcibly inserted by a user through the inserting/extracting opening of the apparatus housing 12A, the protruding portion 85 provided inside the guide slot 81 functions as a movement resistance applying portion; thereby, without providing the coil spring 70, causing the speed of the movement of the liquid container attaching/detaching unit 26A in the insertion direction to be reduced.
As shown in
Through this mechanism, the liquid container attaching/detaching unit 26A does not need to be configured to have the two upper and lower layers. Further, this mechanism suppresses the increase of the depth size of the apparatus housing 12A, and further makes it possible to connect the ink feeding tube 21a constituting the unit-side path to the ink feeding tube 21b constituting the apparatus-side path through an operation of inserting the liquid container attaching/detaching unit 26A. Accordingly, this mechanism makes an operation of connecting the ink feeding tubes 21a and 21b simple and easy, and contributes to downsizing of the recording apparatus 12.
The inserting/extracting opening 42a may be formed not at the front face of the apparatus housing 12A but at either the left side or the right side thereof, and the liquid container attaching/detaching unit 26/26A may be configured to be inserted or extracted in the leftward/rightward direction.
The liquid container attaching/detaching unit 26/26A may be configured to mount not only the liquid container 27/27A but also a waste liquid tank which collects waste ink having been ejected, as waste liquid, by the recording head 20 via a waste liquid collecting tube.
The liquid container 27/27A attached to the liquid container attaching/detaching unit 26/26A may be configured to include an inlet through which ink can be refilled and which is normally closed by a cover member and is made capable of being refilled when needed. Through this mechanism, it is possible to fixedly dispose the liquid container 27/27A.
The total number and the kinds of the liquid containers 27/27A attached/detached to/from the liquid container attaching/detaching unit 26/26A may be optionally determined, and, as an example, only a single container 27/27A of a large capacity for black ink may be attached to the liquid container attaching/detaching unit 26/26A.
The pump mechanism 64 may not necessarily be provided in the liquid container attaching/detaching unit 26. Further, as a kind of pump for the pump mechanism 64, in addition to the tube pump, any one of various kinds of pumps, such as a diaphragm pump and a piston pump, can be employed.
As a kind of the force applying member which also functions as the movement resistance applying portion, in addition to such a coil spring as the coil spring 70, any one of various kinds of spring, such as a helical spring and a plate spring, can be employed.
As the valve mechanism 69, various kinds of valve mechanism, such as an electromagnetic valve which takes a close-to-open action upon detection of contact between both of the connection portions 66 and 68, and another valve mechanism in which, when both of the connection portions 66 and 68 have been contacted with each other, each of valves of the both connection portions 66 and 68 is pushed by a member protruding from the opposite connection portion, and moves backward, while moving against energizing force, from a position where the valve is closed to a position where the valve is opened, can be employed.
In the liquid container attaching/detaching unit 26 shown in
In the aforementioned embodiment, the recording apparatus 12 is embodied into a serial printer, but may be a line printer or a page printer.
In the aforementioned embodiment, the recording apparatus 12 may be a liquid ejecting apparatus that sprays or ejects liquids other than inks. In addition, when a liquid is ejected from a liquid ejecting apparatus in the form of minute liquid droplets, the minute liquid droplets include grain-shaped droplets, teardrop-shaped droplets, and trailing-string-shaped droplets. Further, as the liquid mentioned above, any material capable of being ejected from a liquid ejecting apparatus can be employed. For example, any substance in the state of being in a liquid phase can be used, and such substances include high-viscosity or low-viscosity liquid objects, sol, gel water, other organic solvents, inorganic solvents, solutions, liquid resins, and fluid objects, such as liquid metals (metallic melts). Further, not only a liquid as one of states of a substance, but also an object obtained by dissolving, dispersing, or mixing particles of a functional material made of a solid, such as a pigment or a metallic particle, into a solvent, or the like, is included. As representative examples of the liquid, ink such as described in the aforementioned embodiment, liquid crystal, and the like, can be given. Here, the ink encompasses aqueous ink and oil-based ink, which are commonly used, as well as various liquid constituents, such as gel ink and hot-melt ink.
Specific examples of the liquid ejecting apparatus include a liquid crystal display, an electroluminescence (EL) display, and a plane emission display, as well as a liquid ejecting apparatus that ejects a liquid including a material, such as an electrode material or a color material, for use in manufacturing of color filters, and the like, in the form of dispersion or dissolution. Further, the liquid ejecting apparatus may be a liquid ejecting apparatus that ejects a living organic material for use in manufacturing of biotips, a liquid ejecting apparatus that ejects a liquid which is used as a precise pipet and becomes a sample, a print apparatus, a micro dispenser, or the like. Moreover, the liquid ejecting apparatus may be a liquid ejecting apparatus that ejects, in a pinpoint manner, lubricating oil onto a precision machine, such as a watch or a camera, or a liquid ejecting apparatus that ejects a transparent resin liquid, such as an ultraviolet hardening resin liquid, for use in forming a minute hemispheric lens (optical lens) used in optical communication elements, and the like, onto a substrate. Further, the liquid ejecting apparatus may be a liquid ejecting apparatus that ejects an acid or alkaline etching liquid for use in etching of a substrate or the like.
The entire disclosure of Japanese Patent Application No. 2014-012128, filed Jan. 27, 2014 is expressly incorporated by reference herein.
Number | Date | Country | Kind |
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2014-012128 | Jan 2014 | JP | national |
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