1. Technical Field
The present invention relates to a recording apparatus which includes a main substrate on which electronic components for controlling a recording mechanical section are mounted.
2. Related Art
For example, JP-A-6-115217 (for example, paragraphs and [0032], FIGS. 1 and 2, and the like) discloses a recording apparatus which includes a mechanism section provided with a recording head and a paper feed mechanism, a main substrate configured to control the mechanism section, and a power source substrate configured to supply power to the mechanism section and the main substrate, and in which the main substrate and the power source substrate are vertically arranged on right and left sides of the mechanism section.
However, in JP-A-6-115217 (for example, paragraphs and [0032], FIGS. 1 and 2, and the like), the substrates are arranged in positions corresponding to the outsides of the mechanism section in the width direction (in the horizontal direction). Therefore, for example, even if the substrates are vertically arranged, there is a problem in that the width of the recording apparatus becomes long, and thus the recording apparatus grows in size. In addition, even when the substrates are arranged in positions corresponding to the outsides of the mechanism section in the back and forth direction (in the paper transport direction), the recording apparatus becomes long in the back and forth direction, and thus the recording apparatus grows in size after all. In addition, if the sizes of the substrates are reduced, the size of the recording apparatus can be easily designed to be reduced in size. However, it is difficult to secure a space for a wiring operation to connect wirings to connectors on the substrates in order to control the recording head and a motor which are included in the mechanism section.
An advantage of some aspects of the invention is to provide a recording apparatus, the size and the thickness of which can be reduced and can be thin.
According to an aspect of the invention, there is provided a recording apparatus including: a mechanism section that includes a transport section which transports a medium, and a recording section which performs recording on the medium; and a substrate on which electronic components are mounted in order to control the mechanism section, and the substrate is arranged between a base of a main apparatus body and the mechanism section in a mechanical component arrangement area in which mechanical components included in the mechanism section are arranged in the main apparatus body.
According to the configuration, the substrate is arranged between the base of the main apparatus body and the mechanism section in the mechanical component arrangement area in which the mechanical components included in the mechanism section in the main apparatus body are arranged. Therefore, compared to a configuration in which the substrate is arranged on the outside of the mechanical component arrangement area, the size of the recording apparatus may be reduced.
In the recording apparatus, it is preferable that the substrate be arranged in either section of both end sections which interpose a transport region of the medium in a width direction which crosses the transport direction in the mechanical component arrangement area.
According to the configuration, the substrate is arranged in either section of both end sections which interpose the transport region of the medium in the width direction which crosses the transport direction in the mechanical component arrangement area. Therefore, the size of the recording apparatus in the width direction may be reduced.
In the recording apparatus, it is preferable that the recording apparatus further include a medium reception section in which the medium supplied from a front side of the main apparatus body to the inside of the main apparatus body is set, and the substrate be arranged in a position which is separated from the medium reception section. According to the configuration, the thickness of the recording apparatus in the longitudinal direction may be thin.
In the recording apparatus, it is preferable that the main apparatus body include a power transmission mechanism which configures the transport section, and the substrate be arranged at a bottom of the power transmission mechanism. According to the configuration, the size of the recording apparatus in the width direction may be reduced.
In the recording apparatus, it is preferable that the recording apparatus further include: a liquid ejecting head that ejects liquid toward the medium; and a liquid absorber that absorbs the liquid which is discharged to an outside of an end section of the recording medium from the liquid ejecting head. The liquid absorber may be provided between the medium reception section and the transport section, and the substrate may be arranged at a bottom separated from a region in which the liquid absorber is arranged. According to the configuration, the thickness of the recording apparatus in the longitudinal direction may be thin.
In the recording apparatus, it is preferable that the recording apparatus further include a relay substrate that is connected to the substrate through wirings and includes connectors to be electrically connected to the mechanism section.
According to the configuration, the substrate is arranged between the base of the main apparatus body and the mechanism section. Therefore, it is difficult to secure the wiring operation space on the substrate. However, since connectors are provided on the relay substrates that are connected to the substrate through wirings in order to perform electrical connection with the mechanism section, a wiring operation to electrically connect the substrate to the mechanism section may be performed on the connectors of the relay substrate. Therefore, a problem is generated less in the wiring operation performed between the substrate and the mechanism section, and the size of the recording apparatus may be reduced.
In the recording apparatus, it is preferable that a plurality of the relay substrates be provided. According to the configuration, even though small free spaces are dispersed in the mechanical component arrangement area, a size for a single relay substrate is relatively reduced by providing the plurality of relay substrates, and thus the relay substrates are easily set in the free spaces in the mechanical component arrangement area. Therefore, it is possible to arrange the substrate and the relay substrates in the free spaces in the mechanical component arrangement area. For example, compared to a case in which the relay substrates are not set in the mechanical component arrangement area, the size of the recording apparatus may be effectively reduced.
In the recording apparatus, it is preferable that the plurality of relay substrates be arranged in the either section in the mechanical component arrangement area in which the substrate is arranged.
According to the configuration, since the plurality of relay substrates are arranged in the same one end section as the substrate in the mechanical component arrangement area, wirings to connect between the substrate and the plurality of relay substrates are short, and the wirings are handled in a comparatively simple manner.
In the recording apparatus, it is preferable that the recording section include a carriage provided to be able to move in a direction which crosses the transport direction of the medium, and the plurality of relay substrates be provided on both sides which interpose a movement area of the carriage in the transport direction.
According to the configuration, since the plurality of relay substrates are arranged on both sides which interpose a carriage movement area, which occupies a comparatively long area of the main apparatus body in the width direction, in the transport direction, it is easy to secure a space for arranging the relay substrates in the mechanical component arrangement area. For example, if an attempt to arrange the relay substrates in places corresponding to the carriage movement area is made in the transport direction, there is a problem in that the sizes of the relay substrates are reduced, and the number thereof is uselessly increased, or in that a large amount of change in the layout of functional components is forced to secure a space for arranging the relay substrates. However, since the relay substrates are arranged on both sides which interpose the carriage movement area, the sizes of the relay substrates are less reduced and an appropriate number of relay substrates is obtained without a large amount of change in the layout of the functional components.
Further, in the recording apparatus, it is preferable that the substrate be arranged in a free space on a lower side of the mechanism section while a mounting surface for the electronic components faces upwards, and the relay substrates be vertically arranged such that a mounting surface for the connectors faces the outside of the main apparatus body in the width direction.
According to the configuration, the substrate is arranged in the free space on the lower side of the mechanism section while the mounting surface of the electronic components faces upwards, and thus it is difficult to secure a wiring operation space on the upper side of the substrate. However, since the relay substrates are vertically arranged such that the mounting surface of the connectors faces the lateral outside of the main apparatus body, it is easy to secure a space for disposing the relay substrates. Further, since the connectors face outward, it is easy to perform the wiring operation on the connectors.
In the recording apparatus, it is preferable that the recording apparatus further include: a main body frame that is arranged in the main apparatus body; other substrates that are controlled by the substrate; a second connector that is mounted on the substrate to be connected to a wiring between the substrate and the other substrates; and a lateral plate section that extends from the main body frame to be arranged on an outside of the power transmission mechanism in the width direction in the mechanical component arrangement area. The wiring which includes one end section connected to the second connector may be wired on a surface opposite to the power transmission mechanism of the lateral plate section, and may be configured to include the other end section connected to the other substrates.
According to the configuration, a wiring which connects the substrate to another substrate is wired to a surface opposite to the power transmission mechanism of the lateral plate section. Therefore, for example, even when the wiring is deviated from a proper wiring path because the wiring becomes loose, it is possible to avoid a state in which the deviated wiring comes into contact with the power transmission mechanism.
In the recording apparatus, it is preferable that the recording apparatus further include: a main body frame that is arranged in the main apparatus body; and a lateral plate section that extends from the main body frame to be arranged on an outside of the power transmission mechanism in the width direction in the mechanical component arrangement area. In the lateral plate section, a notch recess is preferably formed in a section corresponding to a path of the wiring connected between the connector of the substrate and the relay substrate.
According to the configuration, it is possible to perform the wiring operation to connect the connectors on the substrates to the relay substrate using the wirings through the notch recess of the lateral plate section.
The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
Hereinafter, an embodiment in which a recording apparatus is embodied in an ink jet type printer will be described with reference to
As shown in
As shown in
In addition, as shown in
As shown in
As shown in
Hereinafter, the components of the print mechanism section of the printer 11 will be described with reference to
As shown in
The pickup roller 17 is provided in the leading edge of an oscillation member 37 which oscillates about the center of an oscillation shaft 36, and rotationally driven by power which is transmitted from a transport motor (not shown in the drawing). The pickup roller 17 comes into contact with top of the pieces of paper P which are received in the feed cassette 16 and then rotates, thereby sending the top paper P from the feed cassette 16 to a feed path. At this time, the top paper P which is sent from the feed cassette 16 due to the rotation of the pickup roller 17 is separated from subsequent paper P by the separation section 35 on the way of being sent.
In addition, as shown in
As shown in
Further, the first roller 44 and the second roller 45 are provided on the downstream side of the support 43 and the printed paper P is sent in a state in which the paper P is pinched between a first roller 44 which is driven by the transport motor and a second roller 45 which is rotationally driven in contact with the first roller 44.
The printed paper P which is sent by the first and second rollers 44 and 45 is discharged on a stacker 46 which protrudes to the front of the main apparatus body 12 and which is shown using a chain double-dashed line in
In addition, in the embodiment, when the paper P (shown in a chain double-dashed line in
Liquid absorbers 120, 121, and 122 are provided between the medium transport section 34 and the feed cassette 16 in
When an image is formed by ejecting ink from the recording head 20 on the end section of the paper P which is supported and transported by the support 43, ink is ejected from the recording head 20 on the outside of the end section of the paper P. The ink which is ejected on the outside of the end section of the paper P is absorbed by the liquid absorbers 121 and 122 which are provided on the lower side of the support 43.
The liquid absorber 120 is connected to the liquid absorbers 121 and 122 by a liquid absorber which is not shown in the drawing, and ink which is absorbed by the liquid absorbers 121 and 122 is absorbed by the liquid absorber 120.
As shown in
In addition, the components of the feed section 33, such as the oscillation member 37 and the pickup roller 17 shown in
In addition, as shown in
In addition, the transport motor and a partial power transmission mechanism of a transport system (either is not shown in the drawing) are disposed on the outside of the right-side (back side in
In addition, a reception recess 12d for the feed cassette is formed in the lower side position of the operating panel 13 in the main body frame 50, and a region which corresponds to the reception recess 12d in a planar view of the main apparatus body 12 is a transport region in which paper fed from the feed cassette 16 or the like is transported by each of the rollers 38, 41, 42, 44 and 45. Further, in addition to the transport system rollers 38, 41, 42, 44 and 45 of a printer mechanism section PM, various mechanical components are arranged on both sides which interpose the transport region of the main apparatus body 12 in the width direction X. Further, the housing 12a is inserted to cover the outside of the extension section 51a which slightly extends to the upper side along the outside periphery of the base frame 51, and is fixed to the base frame 51 by the fastening of a locking or a screw. As described above, a plurality of mechanical components which configure the printer mechanism section PM used for the printing are assembled in the housing 12a of the printer 11 at a comparatively high density.
As shown in
In addition, as shown in
Here, since the main substrate 70 is arranged in the free space on the base side of one end section of the mechanical component arrangement area MA in the width direction, it is inevitable that the main substrate 70 is horizontally arranged such that the substrate surface is parallel to the bottom surface of the printer 11 as shown in
Here, in the embodiment, a plurality of (in this example, two pieces of) relay substrates 91 and 92 are vertically arranged in a position which is on the upper side of the main substrate 70 in one end section of the mechanical component arrangement area MA in which the main substrate 70 is arranged in the width direction X. Further, a configuration is made in which the main substrate 70 is connected to the plurality of relay substrates 91 and 92 using wirings, and a wiring operation is performed to connect wirings from some places of the printer mechanism section PM to the respective relay substrates 91 and 92. Further, although connectors 76 are provided in areas, in which a wiring operation space can be secured, of the component mounting surface of the main substrate 70 as shown in
In addition, as shown in
As shown in
In contrast, the mounting recess 12b is present in the center of the width direction on the rear side of the carriage movement area CA, that is, on the rear side of the central frame 52. The power transmission mechanism 58 or the like of a feed system, which is not a very large functional component, is disposed in the area on the outside of one (front side in
In addition, a driving system, which rotates the operating panel 13, is disposed in the vicinities of both end sections of the operating panel 13 in the width direction in an area on the front side of the carriage movement area CA shown in
Subsequently, the configuration of the main substrate will be described with reference to
As shown in
The electronic components 75 include a LAN communication interface circuit, a USB communication interface circuit, a CPU which configures a computer which manages various types of control of the printer 11, an ASIC, a RAM, a nonvolatile memory, a recording head driving circuit, the motor driving circuit of the transport system, the motor driving circuit of the recording system (carriage), and the like. The USB communication connectors 74 are also provided on the substrate 72 at a position, in the width direction, adjacent to the cover 21 in the width direction on the front surface (surface on the side of the operating panel 13) of the printer 11.
In addition, as shown in
As shown in
One end section of a flexible flat cable (hereinafter, referred to as “FFC 96”) shown in
Here, as shown in
An operator can perform a wiring operation of the FFC 97 through the notch recess 54b.
Further, in the mounting surface of the substrate 72 shown in
In addition, as shown in
As shown in
As shown in
As shown in
As shown in
Subsequently, the configuration of the power source unit 100 and the assembly structure thereof will be described.
As shown in
A power source component 103 which is connected to the power source inlet 102 is mounted on the rear side of the power source substrate 101. It is preferable that the power source insertion port 28 is arranged in the vicinity of the power source component 103 because wirings 104 can be short. In the related art, the power source insertion port 28 is arranged in the rear end section of the power source substrate at a height corresponding to the upper side of the electronic component. Further, in order to secure the recess on the further rear side from the position of the power source insertion port in the related art, the position of the back surface of the main apparatus body extends to the rear side as much as the recess takes up, and thus the entire length of the main apparatus body becomes long in the back and forth direction.
In the embodiment, as shown in
In addition, the power source inlet 102 is arranged on the reverse surface side corresponding to the back surface 12f in a state in which the power source insertion port 28 is exposed in the back surface 12f of the recess 12c. That is, even when the power source substrate 101 is arranged such that the power source component 103 is received in the projected section 12g, the power source insertion port 28 is arranged in a position which can be exposed in the back surface 12f by arranging the power source inlet 102 in a position which is deviated to the front side from the back end of the power source substrate 101 and is deviated to the upper side.
In addition, although not shown in the drawing, the power source substrate 101 is covered by a power source casing, and a ventilation hole is formed in a part of the housing 12a. When ink leakage is generated in the main apparatus body 12, ink is prevented from attaching to the power source substrate 101 by the power source casing, and, further, when the ink leakage further proceeds, ink is discharged from the above-described ventilation hole to the outside of the main apparatus body 12. Therefore, it is possible to prevent ink from attaching to the power source substrate 101.
The power source substrate 101 which enables the above assembly includes a structure shown in
As shown in
A cylindrical pillar 109 is arranged between the two power source components 103 and 106 in the back and forth direction, and the power source inlet 102 is fixed on the upper end surface of the pillar 109 in a state in which the power source inlet 102 faces the poser source insertion port 28 on the back surface side. The two wirings 104 include one end sections which are connected to a position in the vicinity of the power source component 103 on the power source substrate 101 and the other end sections connected to the power source inlet 102, and are extended through a predetermined wiring path.
Subsequently, an operation of the printer 11 which is configured as above will be described.
The printer 11 is connected to a host device for communication through a LAN cable by connecting the LAN cable to the communication port 25, or is connected to the host device for communication through the USB cable 26 by connecting the USB cable 26 to the communication port 27.
When the printer 11 receives print data from the host device, the paper P is first fed from the feed cassette 16 and is transported to a print start position. Subsequently, the printer 11 approximately alternately performs a single row of record operation on the paper P in such a way that ink drops are ejected from the recording head 20 when the carriage 18 is moving in the horizontal scan direction X, and a transport operation to transport the paper P to a subsequent record position, thereby printing an image on the paper P.
The main substrate 70 in the printer 11 is arranged in the direction in which the longitudinal direction thereof is identical to the transport direction Y, and arranged in a horizontal arrangement posture in which a component mounting surface faces upwards using a long-shaped free space which is present on the lower side of one end section in the width direction of the mechanical component arrangement area MA in the main apparatus body 12 and which is comparatively long in the transport direction Y. Since the main substrate 70 is arranged in the mechanical component arrangement area MA, it is possible to relatively shorten the entire length of the main apparatus body 12 in the width direction.
In addition, since the main substrate 70 is horizontally arranged in the free space on the lower side of the one end section in the width direction of the mechanical component arrangement area MA, a comparatively wide area, which is covered by the printer mechanism section PM and in which the wiring operation space is difficult to be secured, is present on the component mounting surface thereof (top surface). However, in the example, the plurality of relay substrates 91 and 92 are vertically arranged in the plurality of free spaces which are positioned on the upper side of the main substrate 70 in the mechanical component arrangement area MA while the component mounting surfaces thereof face the outside of the main apparatus body 12, and the plurality of connectors 98 and the single connector 99 are mounted on the mounting surfaces of the respective relay substrates 91 and 92. Further, the plurality of relay substrates 91 and 92 are connected to the main substrate 70 through the FFCs 96 and 97 by connecting the respective one end sections of the FFCs 96 and 97 to the connectors 77 and 77 on the main substrate 70 and connecting the other end sections of the FFCs 96 and 97 to the connectors 99 and 99 on the relay substrates 91 and 92.
Further, the wirings from some places of the printer mechanism section PM are respectively connected to the connectors 98 which are mounted on the plurality of relay substrates 91 and 92. In addition, the wirings from the other places of the printer mechanism section PM are respectively connected to the plurality of connectors 76 which are mounted on the area in which the wiring operation space can be secured in the component mounting surface of the main substrate 70. Therefore, even when the main substrate 70 and the plurality of relay substrates 91 and 92 are arranged in the mechanical component arrangement area MA, it is possible to simply perform the wiring operation to connect the wirings from some places of the printer mechanism section PM to the connectors 98 on the plurality of relay substrates 91 and 92, and the wiring operation to connect to the connectors 76 on the main substrate 70.
Further, the power source unit 100 is arranged to receive a part of the power source substrate 101 in the projected section 12g which forms the bottom surface of the recess 12c in the rear corner section of the main apparatus body 12, and the power source inlet 102 is arranged such that the power source insertion port 28 is exposed in the back surface 12f of the recess 12c in the power source plug insertion direction PI. The power source inlet 102 is fixed on the upper end surface of the pillar 109 which is arranged in a position deviated in the power source plug insertion direction PI from an end section of the power source substrate 101 on a side arranged in the projected section 12g, and is arranged on the back surface 12f at a height which enables the power source insertion port 28 to be exposed. Further, the power source inlet 102 is connected to a part of the power source substrate 101 through the wirings 104. Therefore, it is possible to arrange the back surface of the housing 12a in a comparatively front-side position as much as the arrangement position of the power source inlet 102 is deviated in the power source plug insertion direction PI from the end section of the power source substrate 101, and it is possible to relatively shorten the entire length of the main apparatus body 12 in the back and forth direction.
According to the embodiment described above, it is possible to obtain advantages shown below.
(1) Since the main substrate 70 is arranged in the mechanical component arrangement area MA, it is possible to reduce the width of the printer 11. At this time, a part of the component mounting surface of the main substrate 70 is covered with the printer mechanism section PM on the upper side thereof, and thus an area in which it is difficult to perform the wiring operation on the main substrate 70 is generated.
However, the relay substrates 91 and 92 which are electrically connected to the main substrate 70 are arranged in the mechanical component arrangement area MA, the wiring operation to connect the wirings extended from some places of the printer mechanism section PM to the connectors 98 mounted on the relay substrates 91 and 92 and the wiring operation to connect the wirings to the connectors 76 of the main substrate 70 may be performed, and thus it is possible to effectively perform the wiring operation.
(2) Since the relay substrates 91 and 92 are vertically arranged such that the component mounting surfaces thereof face the outside in the mechanical component arrangement area MA, it is easy to perform the wiring operation to connect the wirings from the printer mechanism section PM to the connectors 98.
(3) Since the plurality of relay substrates 91 and 92 are provided, it is possible to arrange the plurality of relay substrates 91 and 92 near to the main substrate 70 (for example, in the substrate arrangement area in a planar view) as much as possible using the plurality of comparatively small free spaces which are dispersed in the mechanical component arrangement area MA.
(4) Since the plurality of relay substrates 91 and 92 are arranged in the arrangement area of the main substrate 70 in a planar view, the length of the wirings of the FFCs 96 and 97 are comparatively shortened, and thus a wiring handling operation becomes simple.
(5) Since the plurality of relay substrates 91 and 92 are arranged on both sides, which interpose the carriage movement area CA of occupying a comparatively long area of the main apparatus body 12 in the width direction X, in the transport direction Y, it is easy to secure spaces for arranging the relay substrates 91 and 92 in the mechanical component arrangement area MA. For example, if the relay substrates 91 and 92 are arranged in places corresponding to the carriage movement area CA in the transport direction Y, there are problems in that the sizes of the relay substrates 91 and 92 are reduced and the number thereof is uselessly increased, or in that a large amount of change in the layout of functional components is forced to secure spaces for arranging the relay substrates 91 and 92. However, since the plurality of relay substrates 91 and 92 are arranged on both sides which interpose the carriage movement area CA, an appropriate number of relay substrates 91 and 92 is obtained without much reducing the sizes of the relay substrates 91 and 92, and a large amount of change in the layout of the functional components is not necessary to secure the space for arranging the relay substrates 91 and 92.
(6) The lateral plate section 54a which extends to the rear side from the foreside frame 54 which configures the main body frame 50 is provided to be arranged on the outside of the power transmission mechanism 59, which configures the medium transport section 34 in the mechanical component arrangement area MA, in the width direction. Further, the FFC 65, which includes one end section connected to the connector 76 (the second connector) on the main substrate 70, is wired on a surface opposite to the power transmission mechanism 59 with the lateral plate section 54a interposed therebetween, and the other end section thereof is connected to the substrate 93. Therefore, the FFC 65 which is connected between the main substrate 70 and the substrate 93 is wired on the surface opposite to the power transmission mechanism 59 with the lateral plate section 54a interposed therebetween. Therefore, even if, for example, the FFC 65 is deviated from a proper wiring path because the FFC 65 becomes loose, it is possible to avoid a state in which the deviated FFC 65 comes into contact with the power transmission mechanism 59.
(7) In the lateral plate section 54a, the notch recess 54b is formed in a section corresponding to the wiring path of the FFC 97 which is connected between the connector 77 of the main substrate 70 and the relay substrate 92. Therefore, it is possible to comparatively simply perform the wiring operation to connect to the connector 77 of the main substrate 70 to the relay substrate 92 using the FFC 97 through the notch recess 54b of the lateral plate section 54a.
(8) The base plate 71 of the main substrate 70 is divided into the first base plate 81 which supports a section including the mounting area of the power system electronic component 79 and which is formed of a material having a high thermal conductivity (as an example, aluminum-based metal), and the second base plate 82 which supports the other mounting area section and which is formed of a material having a lower thermal conductivity than that of the first base plate 81 (as an example, iron-based metal). Therefore, it is possible to effectively radiate heat from the power system electronic component 79.
(9) Since the extension section 83b, which extends from the heat-radiation cover 80 which covers the power system electronic component 79, and the extension section 81a, which extends from the first base plate 81, are fixed to the heat sink section 84 of the power system electronic component 79 by fastening the extension section 83b and the extension section 81a using the screw 85, it is possible to further effectively radiate heat from the power system electronic component 79.
(10) A part of the rear section of the power source substrate 101 which configures the power source unit 100 is received in the projected section 12g on the lower side of the recess 12c, and the power source inlet 102 is arranged on the reverse side (front side) of the back surface 12f with a height which enables the power source insertion port 28 be exposed on the back surface 12f in a state in which the power source inlet 102 is supported by the pillar 109 in the position deviated to the front side from the rear end of the power source substrate 101. Further, the wirings 104 which extend from the position in the vicinity of the power source component 103 in the rear end section of the power source substrate 101 is connected to the power source inlet 102. Therefore, since the configuration is provided in which it is not necessary to provide a space for recess to the rear side from the rear end of the power source substrate and in which a part of the power source substrate 101 is arranged on the lower side of the recess, it is possible to shorten the entire length of the printer 11 in the back and forth direction.
In addition, in a planar view seen from the height direction of the printer 11, the main substrate 70 is arranged in a position which is separated from the feed cassette 16. Therefore, since it is possible to reduce the height of the printer 11, the printer 11 can be thin.
In addition, the main substrate 70 is provided at the lower section of the power transmission mechanism 59 shown in
In a planar view seen from the height direction of the printer 11, the main substrate 70 is arranged in the lower section which is separated from a region in which the liquid absorbers 120, 121, and 122 are arranged. Therefore, since it is possible to shorten the height of the printer 11, the printer 11 can be thin.
In addition, the printer 11 is formed of a single member, includes a base section which separates the feed cassette 16 and the medium transport section 34, and a main body frame which includes a section having an H-shape when viewed from the transport direction Y of the paper P transported by the medium transport section 34. Therefore, since the main body frame which includes an H-shaped section when viewed from the transport direction Y is formed of a single member, the size of the main body frame is suppressed from being large, and it is possible to acquire a high resistance to a twist with the width direction X of the paper P being used as a shaft direction or a bending along the transport direction.
Meanwhile, the embodiment can be modified to the following forms:
At least one relay substrate may be provided. For example, a single relay substrate may be provided. In addition, a plurality of relay substrates which are equal to or greater than three may be provided. When there are a plurality of relay substrates, the sizes thereof may be various. In addition, the connector 98 which is provided on the relay substrate may be one. Further, when there are a plurality of relay substrates, it is not essential that all the relay substrates are arranged in one of both end sections which interpose the transport region in the mechanical component arrangement area MA in the width direction X. For example, it may be configured such that at least one of the plurality of relay substrates is vertically arranged in an end section opposite to one end section in which the main substrate is arranged in the mechanical component arrangement area MA in the width direction while the component mounting surface thereof faces the outside of the main apparatus body in the width direction. In addition, at least one of the relay substrates may be arranged on the end section on the back surface or front surface sides of the mechanical component arrangement area MA in the mechanical component arrangement area MA. Further, the one end section in the width direction of the mechanical component arrangement area MA in which the main substrate 70 is arranged is not limited to the right-side end section in
The plurality of relay substrates may be arranged on only the front side of the carriage movement area CA or only the rear side of the carriage movement area CA. In addition, in a configuration which includes a single relay substrate, the single relay substrate may be arranged on the front side of the carriage movement area CA or may be arranged on the rear side thereof.
Other substrates, each of which is the connection point of a wiring (FFC) wired on a surface (a surface on the outside of the width direction) opposite to the power transmission mechanism with the lateral plate section 54a interposed therebetween, are not limited to the wireless communication substrate 93, and may be the substrate 94 provided with a memory card connector. It is apparent that other substrates may be provided in addition to the relay substrates which are connected to the main substrate. It is apparent that the wirings (FFCs 96 and 97) which are connected to the relay substrate may be wired on a surface (a surface on the outside in the width direction) opposite to the power transmission mechanism with the lateral plate section 54a interposed therebetween.
The thermal conduction section is not limited to the extension section 81a which is integrally formed with the first base plate 81, and may be, for example, a separate member which is attached to the first base plate 81. For example, instead of the extension section 81a, a separate member of a metal plate is screwed to the first base plate, the metal plate is tightened together with the extension section of the heat-radiation cover using a screw, and may be fixed to the sink tank section of the power system electronic components in a state which thermal conduction can be performed.
Both the main substrate and the power source unit may be arranged in either section of both end sections of the mechanical component arrangement area in the width direction.
The main substrate may be arranged in either section area of a pair of end section areas on both sides which interpose the transport region of the mechanical component arrangement area in the width direction such that the longitudinal direction thereof crosses the longitudinal direction of the end section area.
The main substrate may be vertically arranged in the mechanical component arrangement area MA such that the mounting surface for the electronic components and the connectors (component mounting surface) faces outward in the width direction of the main apparatus body. In addition, a configuration in which the main substrate is arranged with being divided into a plurality of substrates, and the plurality of main substrates obtained through division are connected to each other using wirings may be adopted.
The support which supports the power source inlet is not limited to the pillar. For example, a bridge, which is installed on a substrate in a path which horizontally passes the upper side of at least a part of the power source component and the electronic components, may be the support.
The power source unit may be arranged in a position on the outside of the mechanical component arrangement area MA in the width direction.
The medium is not limited to paper and may be a film formed of resin, a metallic foil, a metallic film, a composite film (laminated film) formed of resin and metal, fabric, non-woven fabric, a ceramic sheet, or the like. Further, the medium is not limited to a sheet shape and may be a cubic object.
The printer (recording apparatus) is not limited to the ink jet type printer and may be a dot impact type printer or a laser printer. In addition, the printer is not limited to the serial printer and may be a line printer or a page printer. In conclusion, a recording apparatus which includes a mechanism section having a transport section which transports the medium (recording medium) and a recording section may be provided.
In the embodiment, the recording apparatus is embodied as the ink jet type printer which is one type of a liquid ejecting apparatus. However, when the recording apparatus is applied to a liquid ejecting apparatus, the recording apparatus is not limited to the printer. For example, it is possible to embody the recording apparatus as a liquid ejecting apparatus which ejects or discharges other liquid in addition to ink or a liquid type object in which functional material particles are dispersed in or mixed with liquid (which includes a flowing body such as gel). For example, a liquid ejecting apparatus may be provided which ejects a liquid type object in which materials are dispersed or dissolved, such as an electrode material, a color material (pixel material), or the like used to manufacture a liquid crystal display, an ElectroLuminescence (EL) display, and a surface emitting display. In addition, a liquid ejecting apparatus which ejects a bioorganic material used to manufacture a biochip or a liquid ejecting apparatus which ejects liquid functioning as a sample material used as a precise pipette may be provided. In addition, a textile printing apparatus, a micro-dispenser, or the like may be provided. Further, a liquid ejecting apparatus which ejects transparent resin liquid, such as a thermoset resin, on a substrate in order to form a minute hemispherical lens (optical lenses) or the like used for an optical communication device or the like, a liquid ejecting apparatus which ejects etching liquid, such as acid, alkali, in order to perform etching on a substrate, and a liquid ejecting apparatus which ejects a flowing body, such as gel (for example, physical gel) or the like, may be provided. Further, it is possible to apply a main substrate arrangement structure to any one kind of the liquid ejecting apparatuses. As described above, the medium may be a substrate on which an element, a wiring, or the like is formed through ink jet. The “liquid” ejected by the liquid ejecting apparatus includes liquid (which includes inorganic solvent, organic solvent, liquid solution, liquid resin, liquid metal (metallic melt), and the like), a liquid body, a flowing body, or the like.
The entire disclosure of Japanese Patent Application No. 2012-152162, filed Jul. 6, 2012 is expressly incorporated by reference herein.
Number | Date | Country | Kind |
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2012-152162 | Jul 2012 | JP | national |