The present disclosure relates to an open and close detection device and an image forming apparatus, and more particularly, to an open and close detection device and an image forming apparatus, which detect an open and close state of a first open and close member and a second open and close member provided to be openable and closable in directions orthogonal to each other, for example.
An example of a conventional open and close detection device (a cover open and close detection mechanism) provided are a movable member including two acted surfaces on which a plurality of actuation members act, in which the plurality of actuation members are respectively arranged on inner sides of a plurality of cover members (open and close members) provided to be freely openable and closable on a device body; and a cover open and close detection sensor (a detection switch) provided on the device body. The movable member includes a rotary shaft that is arranged between the two acted surfaces, and is slidable toward the cover open and close detection sensor. When the actuation member is to act on only one acted surface, the movable member rotates about the rotary shaft, and when the actuation member is to act on each of the two acted surfaces, the movable member is slid to actuate the cover open and close detection sensor.
In the conventional technology, as the movable member is slid in a predetermined direction along a sliding groove, the cover open and close detection sensor is turned on or off. However, since the direction of movement of the movable member is different from the opening and closing direction of the cover members, the movable member cannot be moved smoothly when closing one of the cover members while the other cover member is already closed. In particular, if the two cover members are simultaneously closed, the movable member becomes immovable by receiving the mutual reaction force of the two cover members. In the worst-case scenario, the movable member may be damaged.
Therefore, a main object of the present disclosure is to provide an open and close detection device and an image forming apparatus that are novel.
Another object of the present disclosure is to provide an open and close detection device and an image forming apparatus capable of appropriately detecting an open and close state of two open and close members with a single detection switch.
A first aspect of the present disclosure pertains to an open and close detection device, which detects an open and close state of a first open and close member and a second open and close member provided to be openable and closable in directions orthogonal to each other, and includes: a detection switch; a moving member including a first contact surface and a second contact surface arranged in directions orthogonal to each other; a holding member which holds the moving member to be movable within a planar area including an initial position at which the detection switch is not pressed, and a detection position at which the detection switch is pressed to present a detection state; a first lever which includes a first contact guide section opposed to the first contact surface, and is displaced in association with an opening and closing operation of the first open and close member; a second lever which includes a second contact guide section opposed to the second contact surface, and is displaced in association with an opening and closing operation of the second open and close member; and a biasing member which biases the moving member in a direction from the detection position toward the initial position, and brings the first contact surface into contact with the first contact guide section, and also brings the second contact surface into contact with the second contact guide section. In the open and close detection device, the first lever presses, in accordance with the closing operation of the first open and close member, the first contact surface by the first contact guide section, thereby moving the moving member in a first direction, and when the second lever is to move the moving member, guides the moving member in a second direction orthogonal to the first direction by the first contact guide section; the second lever presses, in accordance with the closing operation of the second open and close member, the second contact surface by the second contact guide section, thereby moving the moving member in the second direction, and when the first lever is to move the moving member, guides the moving member in the first direction by the second contact guide section; and when the first open and close member and the second open and close member are both in the close state, the moving member is moved to the detection position and the detection switch presents the detection state.
According to the first aspect of the present disclosure, the moving member can be moved freely within the planar area, and also, the movement of the moving member by one of the levers is guided by the contact guide section of the other one of the levers. Therefore, the moving member can be smoothly led to the detecting position, while the levers and are kept from exerting reaction forces on each other. Therefore, the open and close state of the two open and close members can be appropriately detected by a single detection switch.
A second aspect of the present disclosure is dependent on the first aspect of the present disclosure, in which an end portion on one side of the biasing member is attached to the moving member, and an end portion on the other side of the biasing member is attached to the holding member.
A third aspect of the present disclosure is dependent on the first or second aspect of the present disclosure, in which the moving member includes a third contact surface at a side surface that is on the same side as the first contact surface, and the holding member includes a guide section which is brought into contact with the third contact surface and guides movement of the moving member in the second direction.
According to the third aspect of the present disclosure, the moving member can be moved more smoothly.
A fourth aspect of the present disclosure is dependent on any one of the first to third aspects of the present disclosure, in which the holding member includes a fall preventer which prevents a fall of the moving member in a direction orthogonal to a direction of movement of the moving member.
According to the fourth aspect of the present disclosure, the moving member can be moved more smoothly.
A fifth aspect of the present disclosure is dependent on any one of the first to fourth aspects of the present disclosure, in which the moving member includes an opening penetrating in a thickness direction thereof, and the holding member includes a protrusion which has a cross-sectional area smaller than that of the opening, and is inserted into the opening.
According to the fifth aspect of the present disclosure, the assembly work of the open and close detection device is facilitated. Also, when the moving member is in the initial position, the posture of the moving member can be stabilized.
A sixth aspect of the present disclosure is dependent on the fifth aspect of the present disclosure, in which each of the opening and the protrusion has a rectangular cross-sectional shape having two sides parallel to the first contact surface and two sides parallel to the second contact surface.
A seventh aspect of the present disclosure pertains to an image forming apparatus including: a first open and close member and a second open and close member provided to be openable and closable in directions orthogonal to each other; and the open and close detection device according to any one of the first to sixth aspects of the present disclosure which detects an open and close state of the first open and close member and the second open and close member.
According to the present disclosure, the moving member can be moved freely within the planar area, and also, the movement of the moving member by one of the levers is guided by the contact guide section of the other one of the levers. Therefore, the moving member can be smoothly led to the detecting position, while the levers and are kept from exerting reaction forces on each other. Therefore, the open and close state of the two open and close members can be appropriately detected by a single detection switch.
The above-described objects, other objects, features, and advantages of the present disclosure will become even more clear from the detailed description of the embodiment given below with reference to the accompanying drawings.
Referring to
First, a basic configuration of the image forming apparatus 10 will be briefly described. Note that in the present disclosure, a front-rear direction (depth direction) of the image forming apparatus 10 and constituent elements thereof is defined by assuming that a surface opposed to a user's standing position, in other words, a surface on the side on which an operation panel 22 is provided, is a front surface (the front). Further, a left-right direction (horizontal direction) of the image forming apparatus 10 and the constituent elements thereof is defined with reference to a state in which the image forming apparatus 10 is seen from the user.
As illustrated in
The image former 14 is provided with an exposure unit, a developing device, a photoreceptor drum, a charger, an intermediate transfer belt, a transfer roller, a fusing unit, and the like. The image former 14 forms, by the electrophotographic method, an image on paper that is conveyed from the paper feeding device 16 disposed below the image former 14. In other words, the image former 14 forms, by means of the charger and the exposure unit, etc., an electrostatic latent image corresponding to image data on the photoreceptor drum, and makes the electrostatic latent image on the photoreceptor drum visible, by means of the developing device, with toner. Further, the image former 14 transfers, by means of the intermediate transfer belt and the transfer roller, etc., a toner image formed on the photoreceptor drum to the paper, and thermally fuses, by means of the fusing unit, the toner image transferred onto the paper. Furthermore, the image former 14 discharges the paper on which an image has been formed to an in-body paper discharger 20. As the image data for forming the image on the paper, image data that has been read by the image reading device 18, or image data that has been transmitted from an external computer, and so on, is used.
Also, although not illustrated in the drawings, a controller, which controls the operation of each part of the image forming apparatus 10, is provided at a predetermined position inside the apparatus body 12. The controller includes a CPU and a memory, etc., and transmits, in response to an input operation to the operation panel 22 by the user, a control signal to each part of the image forming apparatus 10, and causes the image forming apparatus 10 to execute various operations.
The image reading device 18 is provided with a housing including, on an upper surface of the housing, a document placement table formed of a transparent material. Inside the housing, a light source, a plurality of mirrors, an imaging lens, a line sensor, and the like, are provided. The image reading device 18 exposes the surface of a document to light by the light source, and guides reflected light, which is the light reflected from the surface of the document, to the imaging lens by the plurality of mirrors. Then, the reflected light is focused on a light receiving element of the line sensor by the imaging lens, for imaging. The line sensor detects the luminance and chromaticity of the reflected light focused on the light receiving element for imaging, and generates image data based on an image on the surface of the document. As the line sensor, a charge-coupled device (CCD) or a contact image sensor (CIS), etc., is used.
On a front surface side of the image reading device 18, the operation panel 22 is provided to be rotatable in an up-down direction. The operation panel 22 is also referred to as an operation device or an operation unit, and is formed in a horizontally long rectangular plate shape. On the operation panel 22, a display such as a touch panel display, and various hardware keys (operation buttons), etc., are provided as appropriate. Also, on an upper surface of the image reading device 18, a document retaining cover 24 is attached to be freely openable and closable via a hinge or the like arranged at the back side. The document retaining cover 24 may be provided with an automatic document feeder (ADF) that automatically feeds documents, one sheet at a time, to an image reading position of the image reading device 18.
Also, the apparatus body 12 is provided with two open and close members that can be opened and closed in directions orthogonal to each other. That is, on a right side surface of the apparatus body 12, the right door 26 which opens and closes in the left-right direction is provided. Further, on a front surface of the apparatus body 12, the front door 28 which opens and closes in the front-rear direction is provided.
The right door 26 is an upper-side-opening door whose upper side opens by being rotated rightward, with the lower part being a pivot point. The right door 26 is used, for example, to remove paper stopped in the middle of a paper conveyance path of the image former 14. On an inner surface side of the right door 26, a first actuation projection 30 (
Further, at a corner part on a front-right side within the apparatus body 12, in other words, at a corner part between the right door 26 and the front door 28, the open and close detection device 40 is provided. The open and close detection device 40 is a device which detects an open and close state of the right door 26 and the front door 28, and is used to prevent a trouble caused by forgetting to close the right door 26 and the front door 28, or leaving these doors in a half-open state. In the following, a configuration of the open and close detection device 40 will be specifically described.
As illustrated in
The detection switch 42 (an interlock switch) is a known limit switch, and is fixed and mounted on the rear frame 54 using a fastening member, such as a screw. The detection switch 42 includes a switch body 42a, and an actuation bar 42b (
The moving member 44 is a member which comes close to or separates from the detection switch 42 in accordance with the opening and closing operation of the right door 26 and the front door 28, so as to switch between ON and OFF of the detection switch 42. The moving member 44 is held, on a front side of the detection switch 42, to be movable within a planar area X (
The planar area X is an area extending in the up-down and left-right directions, and includes an initial position (
As illustrated in
Moreover, on the back side of the base body 60, a pressure portion 70 (
In addition, at a lower part of the base body 60 (in other words, at a position opposite to the engagement part 72 in a biasing direction of the extension coil spring 50), an opening 74, which penetrates through the base body 60 in a thickness direction thereof, is formed. Meanwhile, on the holding member 52, a protrusion 94 (
Now referring to
The first lever 46 as described above makes such a movement that, as can be well understood from
Now referring to
The second lever 48 as described above makes such a movement that, as can be well understood from
Returning to
The extension coil spring 50 as described above biases the moving member 44 in the upper right direction, and brings the first contact surface 62 of the moving member 44 into contact with the first contact guide section 80 of the first lever 46, and also brings the second contact surface 64 of the moving member 44 into contact with the second contact guide section 86 of the second lever 48. In addition, in a state in which forces from the first actuation projection 30 of the right door 26 and the second actuation projection 32 of the front door 28 are not acting on the first lever 46 and the second lever 48, respectively, the extension coil spring 50 moves the moving member 44 back to the initial position, and also moves, in accordance with this movement, the first lever 46 and the second lever 48 back to the original states (i.e., the states before moving the moving member 44).
Next, referring to
As illustrated in
As illustrated in
Incidentally, when the right door 26 is to be closed (during a transition from the open state to the close state), the first contact guide section 80 of the first lever 46 presses the first contact surface 62 of the moving member 44, and the moving member 44 is thereby moved downward (first direction) against the biasing force of the extension coil spring 50. In this case, as the second contact guide section 86 of the second lever 48 is in contact with the second contact surface 64 of the moving member 44, the second contact guide section 86 restricts the rightward movement of the moving member 44, and appropriately guides the moving member 44 downward. In addition, a fall of the moving member 44 is prevented by means of the fall preventer 90 of the holding member 52. Consequently, the moving member 44 can be moved smoothly downward.
As illustrated in
Incidentally, when the front door 28 is to be closed, the second contact guide section 86 of the second lever 48 presses the second contact surface 64 of the moving member 44, and the moving member 44 is thereby moved leftward (second direction) against the biasing force of the extension coil spring 50. In this case, as the first contact guide section 80 of the first lever 46 is in contact with the first contact surface 62 of the moving member 44, the first contact guide section 80 restricts the upward movement of the moving member 44, and appropriately guides the moving member 44 leftward. Similarly, as the guide section 92 of the holding member 52 is in contact with the third contact surface 68 of the moving member 44, the guide section 92 restricts the upward movement of the moving member 44, and guides the moving member 44 leftward. In addition, a fall of the moving member 44 in the rear direction is prevented by means of the fall preventer 90 of the holding member 52. Consequently, the moving member 44 can be moved smoothly leftward.
Further, as illustrated in
Incidentally, when the front door 28 is closed from the state illustrated in
As described above, the moving member 44 can be moved freely within the planar area X, and be moved smoothly to the detection position. In other words, the direction of movement of the moving member 44 is not limited to a specific direction, and the moving member 44 can be moved smoothly to the detection position by following a plurality of routes. In particular, even if the right door 26 and the front door 28 are simultaneously closed, the moving member 44 can be reliably moved to the detection position without causing damage to the members.
Meanwhile, when the right door 26 and the front door 28 are opened, the open and close detection device 40 operates in a direction opposite to that when the doors are closed. In other words, the moving member 44 is moved upward and rightward by the biasing force of the extension coil spring 50, and also, the movements as mentioned above are guided appropriately by the first contact guide section 80 of the first lever 46 and the second contact guide section 86 of the second lever 48. By virtue of the above feature, the moving member 44 can be moved smoothly to the lower right position, the upper left position, and the initial position, for example, from the detection position.
As can be seen, according to the present embodiment, the moving member 44 can be moved freely within the planar area X, and also, the movement of the moving member 44 by one of the levers 46 and 48 is guided by the contact guide section 80, 86 of the other one of the levers 46 and 48. Therefore, the moving member 44 can be smoothly led to the detecting position, while the levers 46 and 48 are kept from exerting reaction forces on each other. Therefore, a single detection switch 42 can appropriately detect the open and close state of the two open and close members 26 and 28.
Note that in the above-described embodiment, the right door 26 and the front door 28 are exemplified as the first open and close member and the second open and close member. However, the first open and close member and the second open and close member can be provided on other side surfaces of the apparatus body 12, for example, on the left side surface and the front surface. Further, in the above-described embodiment, a rotary-type open and close member, which is opened by being rotated with a lower end portion being a pivot point, is exemplified. However, the first open and close member and the second open and close member may be open and close members of a drawer type, which are opened by being pulled out straight to the right side, front side, etc.
Furthermore, in the above-described embodiment, as the image forming apparatus 10, the multifunction peripheral in which a copier, a facsimile machine, a printer, and the like are combined is exemplified. However, the image forming apparatus 10 may be any of a copier, a facsimile machine, and a printer, for example, or a multifunction peripheral in which at least two of the aforementioned devices are combined. Also, the image forming apparatus 10 may be a monochrome machine.
Moreover, the open and close detection device 40 can be applied to devices other than the image forming apparatus 10, as long as those devices include a first open and close member and a second open and close member provided to be openable and closable in directions orthogonal to each other.
Note that the specific numerical values and shapes of components, etc., described above are merely examples, and can be modified as appropriate, if needed, according to the product specifications.
Number | Date | Country | Kind |
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2021-165305 | Oct 2021 | JP | national |
Number | Name | Date | Kind |
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9885999 | Uohashi | Feb 2018 | B2 |
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20020041775 | Ishii | Apr 2002 | A1 |
20170205761 | Mitsui | Jul 2017 | A1 |
20180203406 | Agata | Jul 2018 | A1 |
20190234812 | Kadowaki | Aug 2019 | A1 |
Number | Date | Country |
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10199364 | Jul 1998 | JP |
2005-111896 | Apr 2005 | JP |
2007122000 | May 2007 | JP |
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20060136084 | Jan 2007 | KR |
Number | Date | Country | |
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20230113161 A1 | Apr 2023 | US |