1. Field of the Invention
The present invention relates to an image recording apparatus, such as a printer, a facsimile or a copier. The invention particularly relates to an image recording apparatus in which an upper unit case having an original reading portion is attached to be rotationally openable or closable to a lower unit case having a sheet feed portion and a recording portion, and in which the upper unit case can be slowly closed.
2. Description of the Related Art
Conventionally, various mechanisms have been proposed in which one side of the upper unit case is attached to be rotationally openable or closable via a hinge to a lower unit case, whereby the upper unit case is kept widely opened when conducting maintenance or paper jam handling.
For instance, Japanese Utility Model Registration No. 3093658 (see FIGS. 1 and 2) discloses a mechanism in which a stand member rotatably secured to a lower face of an upper unit case is faced within a receiving opening formed in an upper face of a lower unit case. Engaging claws provided on the bottom of the stand member are engaged at an edge of the receiving opening, so that the upper unit case is kept in an attitude at a constant opening angle. An elastic member provided on the lower side of the stand member is resiliently pressed around the edge of the receiving opening, whereby the rotation of the upper unit case is braked in an area where the upper unit case begins to be closed or ends to be opened.
With this configuration, the brake (braking) is not applied in a closing end area where the upper unit case approaches the lower unit case, so that the upper unit case may be rapidly closed to undergo a great impact.
In order to solve this problem, JP-UM-B-1-29815 (see FIGS. 3 and 6) discloses a mechanism in which an arcuate guide member (guiding member) projecting downwards on a side face of an upper unit case (cover) is formed with an arcuate guide groove. A shaft of a bolt at one side of a lower unit case (housing) is inserted through the guide groove, and the upper unit case is held in position at any rotation angle by clamping the guide member between a head of the bolt and a spring member. The upper unit case is urged upwards by a torsion spring disposed in the lower unit case at a closed position where the upper unit case is closed on the lower unit case.
However, in JP-UM-B-1-29815, the upper unit case is urged upwards only at the closed position, and is stopped at any opening angle. Thus, it is required to apply a great force when the upper unit case is rotated in the closing or opening direction.
The present invention provides an image recording apparatus in which a closing operation of a pair of unit cases is constrained to prevent impact from being exerted on the unit cases, and in which an opening operation of the pair of unit cases is smoothly performed.
According to one aspect of the invention, there is provided an image recording apparatus including: an upper unit case; a lower unit case; a hinge portion that connects the upper unit case and the lower unit case to be rotationally openable and closable; a stand member having a first end portion and a second end portion, the first end portion being pivotably attached to one of the upper unit case and the lower unit case; a guide member attached to the other of the upper unit case and the lower unit case in a manner that the guide member is positioned at a first position during a closing motion of the upper unit case or the lower unit case and the guide member is positioned at a second position during an opening motion of the upper unit case or the lower unit case, the guide member guiding the second end portion of the stand member; and a constraint portion disposed on the other of the upper unit case and the lower unit case, the constraint portion providing a frictional resistance on at least one of the guide member and the second end portion of the stand member when the guide member is at the first position.
According to another aspect of the invention, there is provided an opening and closing mechanism that connects first and second unit cases to be rotationally openable and closable, including: a stand member having a first end portion and a second end portion, the first end portion being pivotably attached to one of the upper unit case and the lower unit case; a guide member attached to the other of the upper unit case and the lower unit case in a manner that the guide member is positioned at a first position during a closing motion of the upper unit case or the lower unit case and the guide member is positioned at a second position during an opening motion of the upper unit case or the lower unit case, the guide member guiding the second end portion of the stand member; and a constraint portion disposed on the other of the upper unit case and the lower unit case, the constraint portion providing a frictional resistance on at least one of the guide member and the second end portion of the stand member when the guide member is at the first position.
With the above configuration, only when the upper unit case or the lower unit case is in the closing operation, a constraining action is exhibited so that it can be closed slowly. On the other hand, when the upper unit case or the lower unit case is opened, little constraint is applied, so that it can be smoothly opened.
The present invention may be more readily described with reference to the accompanying drawings:
An image recording apparatus 1 of this embodiment is a multifunction device (MFD) having a printer function, a copier function, a scanner function and a facsimile function. A sheet feed cassette 4 is inserted through an opening portion 2a on a front side (left side in
A recording portion of inkjet type (not shown) is disposed above the sheet feed cassette 4 within the lower unit case 2, to which a sheet (recording medium) fed from the sheet feed cassette 4 is transported while being U-turned via a transport passage member 5 that is detachably attached to the rear side of the recording portion. The recorded sheet is discharged through the opening portion 2a that is above the sheet feed cassette 4.
The upper unit case 3 attached to be openable and closable to the lower unit case 2 is provided with an automatic original feeding device 6 (see
On the upper face of an original cover body 7 that covers the upper face of an original placing glass plate (not shown) in the image reading device 1, the automatic original feeding device 6 and an original discharge portion 8 for placing the original discharged from an exit 6a of the automatic original feeding device 6 are provided. The original cover body 7 is vertically rotatable about a hinge 9 disposed on the rear side of the image reading apparatus (at a front end part in
Subsequently, an opening and closing mechanism 10 for enabling the lower unit case 2 and the upper unit case 3 to be opened and closed will be described. In this image recording apparatus 1, the upper unit case 3 rotates relative to the lower unit case 2 in a direction of arrow B in
As shown in
As shown in
On the other hand, during the opening motion of the upper unit case 3, as shown in
The stand member 12 and the guide member 14 are molded products made of synthetic resin. The stand member 12 is slender and flat. At the base end part of the stand member 12, a pair of elastic pieces 15 are integrally provided via a pair of notch portions 16. At the tip ends of both elastic pieces 15, securing pins 17 projecting outwards from each other are formed, as shown in
A frictional sliding member 24 having a high friction coefficient such as rubber is fixed on at least one face (all peripheral faces including opposing faces in this embodiment) of the projecting arm portion 19 (see
The guide member 14 is substantially a flat plate, and formed longitudinally in a direction along a rotation locus of the distal end part of the stand member 12, as shown in
The almost arcuate, longitudinal guide groove 27 that extends longitudinally in the direction along the rotation locus is provided inside the guide member 14. At one end of this longitudinal guide groove 27, a short engagement groove 28 is provided to communicate with the longitudinal guide groove 27 in a direction crossing the longitudinal direction of the guide groove 27. Also, at the other end of the longitudinal guide groove 27, a short closed position holding groove 29 extending in a direction opposite to the direction in which the engagement groove 28 extends is provided to communicate with the longitudinal guide groove 27. A connection area between the engagement groove 28 and the longitudinal guide groove 27 is provided with a resilient convex piece 30 for giving a tactile response to a user when the guided portion 20 passes therethrough.
Moreover, as shown in
On the other side face 14b (side face without the load applying portion 31) of the guide member 14, an arcuate reinforcing rib 32 having the almost same radius as the load applying portion 31 is integrally protruded at a position on the back face opposed to the load applying portion 31.
A pair of end walls 38, 39 connect both ends of the wall members 36, 37a (see
As shown in
The heights H2 of the pair of wall members 36, 37a from the lower face of the ceiling plate 40 are set to be almost the same. In this embodiment, the first wall member 36 is the wall member facing the plane having the reinforcing rib 32 of the guide member 14, and the second wall member 37a is the wall member facing the plane having the load applying portion 31 of the guide member 14. The plural deformation preventing ribs 41 formed almost triangular are provided to link between an outer face of the first wall member 36 and a lower face of the ceiling plate 40. The second wall member 37a can be elastically deformed in the direction of plate thickness, and is linked to both ends of a third wall member 37b stood on its back face. This provides a support beam structure where beams are bound at their both ends in the longitudinal direction (see
An interval W1 of a gap between the first wall member 36 and the second wall member 37a is slightly larger than the total thickness W2′ of a region of the guide member 14 where the load applying portion 31 is not provided, the projecting arm portion 19 and the frictional sliding member 24, which are interposed in this gap, to the extent that the projecting arm portion 19 can move smoothly along the longitudinal direction of the guide member 14 without causing a frictional resistance (see
Subsequently, the action of the opening and closing mechanism 10 with the above constitution will be described. In a state where the upper unit case 3 is opened relative to the lower unit case 2 at the maximum angle θ1 (acute angle) as shown in
To close the upper unit case 3, the user raises the free end of the upper unit case 3 by one hand slightly, and presses down the stand member 12, so that the guided portion 20 is fitted into the longitudinal guide groove 27. In this state, the user unhands the upper unit case 3, so that the upper unit case 3 is rotated downwards due to its self weight (in a direction of arrow A in
At this time, due to an upward reaction force of the guided portion 20, the guide member 14 is pushed against the lower face of the ceiling plate 40, causing this guide member 14 to be rotated upwards about the engaging claw 25. Thus, the upper face of the guide member 14 comes in contact with the lower face of the ceiling plate 40, and the projecting piece 26 of the guide member 14 is held afloat from the end wall 38. This state is sustained until the upper unit case 3 is completely closed on the lower unit case 2 (see
In a region before the projecting arm portion 19 enters a site of the load applying portion 31 on the side face of the guide member 14, the interval W1 of the gap between the first wall member 36 and the second wall member 37a is slightly larger than the total thickness W2′ of the guide member 14, the projecting arm portion 19 and the frictional sliding member 24 (see FIG. 11). Thus, the frictional sliding member 24 is less likely to brought into contact with the second wall member 37a, so that the projecting arm portion 19 can move smoothly.
When the projecting arm portion 19 with the frictional sliding member 24 enters the site of the load applying portion 31 (see
When the upper unit case 3 is pressed down after its downward rotation is once stopped at the vertex 31a, the guided portion 20 of the stand member 12 enters from the vertex 31a of the load applying portion 31 into a section of the steep slope 31c. Since the total thickness W2 of the guide member 14, the load applying portion 31, the projecting arm portion 19 and the frictional sliding member 24 rapidly decreases, the frictional resistance of the frictional sliding member 24 against the second wall member 37a and the steep slope 31c suddenly decreases. When the guided portion 20 is fitted into the closed position holding groove 29 at the other end of the guide member 14, the upper unit case 3 is completely closed on the lower unit case 2.
To open the upper unit case 3, the free end of the upper unit case 3 is raised by hand (in a direction of arrow B in
In this state, most of the load applying portion 31 (reinforcing rib 32) overhangs under the lower wall portion 36a in the constraint portion 22, resulting in an unconstrained state, as shown in
As described above, the constraint portion 22 of this embodiment has the wall members 36 and 37a that accommodate the guide member 14 and the projecting arm portion 19 of the stand member 12 therebetween. Therefore, the closing motion of the upper unit case 3 is reliably constrained.
Also, the guide member 14 has the reinforcing rib 32 on its side face facing to the wall member 36, the wall member 36 has the lower wall portion 36a and a notch portion, and the reinforcing rib 32 abuts on the lower wall portion 36a when the guide member 14 is at the constrained position and is exposed through the notch portion when the guide member is at the unconstrained position. Thus, the closing motion of the upper unit case 3 is reliably constrained with a simple structure.
Further, the guide member 14 moves from the constrained position to the unconstrained position substantially along a direction in which a force of gravity acts. Therefore, additional parts for moving the guide member 14 are not required.
In addition, the guide member 14 rotates from the constrained position to the unconstrained position about the engaging claw 25a on one end thereof. Thus, the space required for the movement of the guide member 14 is minimized.
Moreover, the guide member 14 has the load applying portion 31 on its side face facing the wall member 37a and the projecting arm portion 19 of the stand member 12, the load applying portion 31, thereby making a gap between the guide member 14 and the wall member 37 narrow. Therefore, the closing motion of the upper unit case 3 is reliably constrained.
Also, the load applying portion 31 has an inclined face 31b. The gap between the guide member 14 and the wall member 37a is gradually narrowed by the inclined face 31b in a direction in which the projecting arm portion 19 of the stand member 12 is guided along the guide member 14 during the closing motion. Thus, the closing motion is gradually constrained as the upper unit case 3 is closed.
Additionally, the load applying portion 31 is located at a position corresponding to the reinforcing rib 32 provided on the opposite side face of the guide member 14. Therefore, the closing motion of the upper unit case 3 is effectively constrained.
Further, the projecting arm portion 19 of the stand member 12 has a frictional sliding member 24 that is brought into sliding contact with at least one of the guide member 14 and the constraint portion 22, the frictional sliding member 24 having a higher friction coefficient than the guide member 14 and the constraint portion 22. Thus, the closing motion of the upper unit case 3 is effectively constrained.
In addition, the projecting arm portion 19 of the stand member 12 has the guide pin 20, and the guide member 14 has the guide groove 27 in which the guide pin 20 is slidably inserted. Therefore, the stand member 12 can be smoothly guided by the guide member 14.
Also, the guide groove 27 includes a longitudinal groove 27 in which the guide pin 20 moves during the opening motion and the closing motion, the engagement groove 28 communicated with one end of the longitudinal groove 27 to support the guide pin 20 and hold the upper unit case 3 in the opened state, and the closed position holding groove 29 communicated with the other end of the longitudinal groove 27 to support the guide pin 20 and hold the upper unit case 3 in the closed state. Thus, the opened state and the closed state of the upper unit case 3 is stably maintained.
Additionally, the upper unit case 3 is opened and closed relative to the lower unit case 2. Also, the base end part of the stand member 12 is pivotably attached to the lower unit case 2, and the guide member 14 is attached to the upper unit case 3. Moreover, the image reading portion is accommodated in the upper unit case 3, and the recording portion is accommodated in the lower unit case 2. According to such a structure, the closing motion of the upper unit case 3 is reliably constrained with a simple configuration.
The present invention is not limited to the above embodiment, but various modifications may be made thereto without departing from the scope or spirit of the invention. For example, in the constraint portion 22, the arrangement of the first wall member 36 and the second wall member 37 may be reversed while putting the guide member 14 between them.
Also, apart of the guide member 14 on the rotation reference side may be a rotational center shank, instead of the engaging claw 25. Also, the whole of the guide member 14 may be moved vertically. Moreover, the arrangement of the embodiment may be vertically reversed, that is, the stand member 12 may be secured to the side of the upper unit case 3, and the guide member 14 and the constraint portion 22 may be disposed on the side of the lower unit case 2 to achieve the same effect.
Number | Date | Country | Kind |
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2004-228261 | Aug 2004 | JP | national |
Number | Name | Date | Kind |
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4754293 | Aizawa et al. | Jun 1988 | A |
5298917 | Deguchi et al. | Mar 1994 | A |
Number | Date | Country |
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1-29815 | Sep 1989 | JP |
3093658 | Feb 2003 | JP |
Number | Date | Country | |
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20060029424 A1 | Feb 2006 | US |