The present application is based on Japanese Patent Application No. 2005-216593, filed Jul. 27, 2005, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to a push button mechanism, an operation panel, and an image forming apparatus. More particularly, the present invention relates to a push button mechanism having push button member, an operation panel having a push button mechanism, and an image forming apparatus including the operation panel.
2. Discussion of the Background
Conventionally, an image forming apparatus such, as a copier or a printer, has an operation panel for inputting an instruction. The inputting instruction is inputted to the image forming apparatus by using a push button mechanism which has plural key top members. The key top members correspond to the functions or actions which get executed in the image forming apparatus. The names of the functions or actions are indicated on the key top members.
Typically, the key top member has a push portion for receiving an external force. Further, the key top member has flexible claws for engaging the housing's depression of the image forming apparatus. The key top member including the push portion and the flexible claws is integrally produced by injection molding using plastic. The key top member is allowed to slide in a predetermined direction. Japanese Laid-open- patent application 1995-85751 discloses such key top members.
However, in the above mentioned key top members, it is possible that the key top members are attached to a wrong portion, e.g., when the key top member is attached to the housing of an image forming apparatus.
Furthermore, demand for the multi-function peripheral (MFP) as an image forming apparatus performing plural functions that are, for instance, a copier function, a printer function, and a facsimile function is expected to increase.
Therefore, an interface of such an imaging forming apparatus tends to have a lot of key top members.
The present invention was made in consideration of the above-mentioned problems, and it is an object of the present invention to solve these problems.
It is another object of the present invention to provide a push button mechanism preventing the key top (push button) members from attachment to a wrong portion.
It is still another object of the invention to provide an operation panel and an image forming apparatus that can reduce production cost.
According to a first aspect of the present invention, a push button mechanism includes plural push button members having push portions for receiving an external force, a positioning member having plural positioning portions corresponding to each shape of the plural push button members, which prevents engagement of each key top member with each positioning portion that does not correspond to the push button member.
According to another aspect of the invention, a push button mechanism includes plural push button members having push portions for receiving an external force, a positioning member having plural positioning portions corresponding to each shape of the plural push button members, which prevents engaging the each push button member with each positioning portion which doesn't correspond, wherein each plural push button member has one or more discriminative projections to one of the push button members, and the positioning member has one or more discriminative holes corresponding to the one or more projections.
According to another aspect of the invention, a push button mechanism includes plural push button members having push portions for receiving an external force, a positioning member having plural positioning portions corresponding to each shape of the plural push button members, which prevents engaging each push button member with each positioning portion which doesn't correspond, wherein each the plural push button member has a pair of discriminative projections located in asymmetric portions to the center of the push portions, then said positioning member has one or more discriminative holes corresponding to the one or more projections.
According to another aspect of the invention, the push button mechanism further includes elastic members corresponding to the plural push button members, and each push button member is biased to an opposite direction of the external force's direction.
According to another aspect of the invention, the push button member has engaging members for engaging to said positioning member.
According to another aspect of the invention, the engaging members located in both edges of said push portion, thereby, the engaging members located in one edge become a pivot when the external force acts upon a portion which is not center of the push portion.
According to another aspect of the invention, an operation panel use the above mentioned push button mechanism.
According to another aspect of the invention, an image forming apparatus use the above mentioned operation panel.
A more complete appreciation of the present invention and the many attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description, when considered in connection with the accompanying drawings, wherein:
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, and more particularly to
The copier 100 includes an operation panel 20 and a main body 10. The operation panel 20 is fixed in the upper end of the front (Y-side in
The main body 10 includes a scanner device, a photo-sensitive body, a light scanning device, a developing unit, a transfer device, a fixing unit, a communication device, and a control unit. The scanner device reads image information of a manuscript. The image information is transferred to the light scanning device functioning as a light-exposing mechanism. The light scanning device exposes a surface of the photo-sensitive body according to the image information for the purpose of making a latent image. The latent image on the photo-sensitive body is developed using toner by the developing unit to change the latent image into a tangible image. The tangible image on the photo-sensitive body is then transferred to a paper sheet by the transfer device. Then, the tangible image on the paper sheet is fixed by the fixing unit. The communication device receives input signals from the operation panel 20. The control unit controls each of the units or devices in the main body 10 according to instructions that are included in the input signal from the operation panel 20. In addition, an automatic document feeder (ADF) can be used for the automatic feeding of manuscripts. Therefore the main body 10 further includes the ADF.
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There are plural circular holes in the X direction from the aperture 22c. The circular holes are used to insert push buttons, e.g., ten keys. In an opposite direction in the Z direction from the aperture 22c, there are six depressions 23A-23F in the top board 22a at regular intervals from the edge in the Y direction to the opposite edge in the Y direction. Each depression 23A-23F has a longitudinal direction along the X direction. And each depression 23A-23F is engaged with the key top (push button) members 30A-30F.
As shown in
At the area of four corners in an internal bottom face of the second depression 23B, four rectangular apertures 23a having longitudinal directions along an X direction are formed. There is a circular hole 23b in an area of the center of the internal bottom face. In an area of the opposite direction of the X direction from the circular hole 23b, a T-shaped aperture 24B is formed. The T-shaped aperture 24B has a leg pointing to the opposite direction in the Y direction, and the center line of the leg is located at a distance of L1 from the center of the circular hole 23b. In an area in the X direction from the circular hole 23b, another T-shaped aperture 24B is formed. The T-shaped aperture 24B has a leg pointing to the opposite direction in the Y direction, and the centerline of the leg is located at a distance of L2 (L2 is longer than L1) from the center of the circular hole 23b.
At the area of four corners in an internal bottom face-of the third depression 23C, four rectangular apertures 23a having longitudinal directions along an X direction are formed. There is a circular hole 23b in an area of the center of the internal bottom face. In an area of the opposite direction of the X direction from the circular hole 23b, an L-shaped aperture 24C is formed. The L-shaped aperture 24C has a long side along the X direction, and the corner portion is located at a distance of L1 from the center of the circular hole 23b. The L-shaped aperture 24C is formed so that the corner portion is located in the opposite direction in the X direction and the Y direction. Furthermore, in an area in the X direction from the circular hole 23b, another L-shaped aperture 24C is formed. The L-shaped aperture 24C has a long side along the X direction, and the corner portion is located at a distance of L2 (L2 is longer than L1) from the center of the circular hole 23b. The L-shaped aperture 24C is formed so that the corner portion is located in the opposite direction in the X direction and the Y direction.
At the area of four corners in an internal bottom face of the fourth depression 23D, four rectangular apertures 23a having longitudinal directions along an X direction are formed. There is a circular hole 23b in an area of the center of the internal bottom face. In an area of the opposite direction of the X direction from the circular hole 23b, an L-shaped aperture 24D is formed. The L-shaped aperture 24D has a long side along the X direction, and the corner portion located in a distance of L1 from the center of the circular hole 23b. The L-shaped aperture 24D is formed so that the corner portion is located in the X direction and the opposite direction in the Y direction. Furthermore, in an area in the X direction from the circular hole 23b, another L-shaped aperture 24D is formed. The L-shaped aperture 24D has a long side along the X direction, and the corner portion is located at a distance of L2 (L2 is longer than L1) from the center of the circular hole 23b. The L-shaped aperture 24D is formed so that the corner portion is located in the X direction and the opposite direction in the Y direction.
At the area of four corners in an internal bottom face of the fifth depression 23E, four rectangular apertures 23a having longitudinal directions along an X direction are formed. There is a circular hole 23b in an area of the center of the internal bottom face. In an area of the opposite direction of the X direction from the circular hole 23b, an T-shaped aperture 24E is formed. The T-shaped aperture 24E has a leg pointing to the Y direction, and the centerline of the leg is located at a distance of L1 from the center of the circular hole 23b. In an area in the X direction from the circular hole 23b, another T-shaped aperture 24E is formed. The T-shaped aperture 24E has a leg pointing to the Y direction, and the center line of the leg located in a distance of L2 (L2 is longer than L1) from the center of the circular hole 23b.
At the area of four corners in an internal bottom face of the sixth depression 23F, four rectangular apertures 23a having longitudinal directions along an X direction are formed. There is a circular hole 23b in an area of the center of the internal bottom face. In an area of the opposite direction of the X direction from the circular hole 23b, an L-shaped aperture 24F is formed. The L-shaped aperture 24F has a long side along the X direction, and the corner portion is located at a distance of L1 from the center of the circular hole 23b. The L-shaped aperture 24F is formed so that the corner portion is located in the opposite direction in the X direction and the opposite direction in the Y direction. Furthermore, in an area in the X direction from the circular hole 23b, another L-shaped aperture 24F is formed. The L-shaped aperture 24F has a long side along the X direction, and the corner portion is located at a distance of L2 (L2 is longer than L1) from the center of the circular hole 23b. The L-shaped aperture 24D is formed so that the corner portion is located in the opposite direction in the X direction and the opposite direction in the Y direction.
As above mentioned, each of the L-shaped apertures (24A, 24C, 24D, and 24F), corresponding to each of the depressions (23A, 23C, 23D, and 23F), has a different corner position. Each of the T-shaped apertures (24B and 24E) corresponding to each of the depressions (23B and 23E) has a different leg (T's leg) position. Furthermore, one aperture of a pair of apertures formed in a depression is located at a distance of L1 from a center of a circular hole and the other aperture is located at a distance of L2 from the center of the circular hole. In other words, a pair of the apertures are located in asymmetric portions against the circular hole 23b. This is true for each pair of apertures in all the above-mentioned depressions.
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The push portion 30d has a longitudinal direction along the X direction, and is in the shape of a rectangular solid. The four leg portions 30a are formed at the four corners on an under surface of the push portion 30d. The actuation portion 30b is located in the area on the central part of an under surface of the push portion 30d. A pair of positioning portions 31A are located along the X direction at both sides of the actuation portion 30b.
The first key top member 30A can be formed, for example, by injection molding if it is made of plastic.
Each leg portion 30a includes a claw 30b turned to the outside of the push portion 30d.
A pair of positioning portions 31A are L-shaped in cross-section, and stick out to the under direction from the under surface of the push portion 30d. When the first key top member 30A is attached to the first depression 23A, a pair of positioning portions 31A are inserted to a pair of apertures 24A with a predetermined clearance.
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The push portion 30d has a longitudinal direction along the X direction, and is in the shape of a rectangular solid. The four leg portions 30a are formed at the four corners on an under surface of the push portion 30d. The actuation portion 30b is located in the area on the central part of an under surface of the push portion 30d. A pair of positioning portions 31B are located along the X direction at both sides of the actuation portion 30b.
The second key top member 30B can be formed, for example, by injection molding if it is made of plastic.
Each leg portion 30a includes a claw 30b turned to the outside of the push portion 30d.
A pair of positioning portions 31B are T-shaped in a cross-section, and stick out to the under direction from the under surface of the push portion 30d. When the second key top member 30B is attached to the first depression 23B, a pair of positioning portions 31B are inserted to a pair of apertures 24B with a predetermined clearance.
As shown in
The push portion 30d has a longitudinal direction along the X direction, and is in the shape of a rectangular solid. The four leg portions 30a are formed at the four corners on an under surface of the push portion 30d. The actuation portion 30b is located in the area on the central part of an under surface of the push portion 30d. A pair of positioning portions 31C are located along the X direction at both sides of the actuation portion 30b.
The third key top member 30C can be formed, for example, by injection molding if it is made of plastic.
Each leg portion 30a includes a claw 30e turned to the outside of the push portion 30d.
A pair of positioning portions 31C are L-shaped in a cross-section, and stick out to the under direction from the under surface of the push portion 30d. When the third key top member 30C is attached to the first depression 23C, a pair of positioning portions 31C are inserted to a pair of apertures 24C with a predetermined clearance.
The fourth key top member 30D (see
The fourth key top member 30D includes a push portion 30d, four leg portions 30a, an actuation portion 30b, and a pair of positioning portions. The push portion 30d has a longitudinal direction along the X direction, is in the shape of a rectangular solid. The four leg portions 30a are formed at the four corners on an under surface of the push portion 30d. The actuation portion 30b is located in the area on the central part of an under surface of the push portion 30d. A pair of positioning portions are located along the X direction at both sides of the actuation portion 30b. Each leg portion 30a includes a claw 30e turned to the outside of the push portion 30d. A pair of positioning portions are L-shaped in a cross-section, and stick out to the under direction from the under surface of the push portion 30d. When the fourth key top member 30C is attached to the fourth depression 23D (see
The fifth key top member 30E (see
The fifth key top member 30E includes a push portion 30d, four leg portions 30a, an actuation portion 30b, and a pair of positioning portions. The push portion 30d has a longitudinal direction along the X direction, and is the shape of a rectangular solid. The four leg portions 30a are formed to the four corners on an under surface of the push portion 30d. The actuation portion 30b is located in the area on the central part of an under surface of the push portion 30d. A pair of positioning portions are located along the X direction at both sides of the actuation portion 30b. Each leg portion 30a includes a claw 30b turned to the outside of the push portion 30d. A pair of positioning portions are T-shaped in a cross-section, and stick out to the under direction from the under surface of the push portion 30d. When the fifth key top member 30E is attached to the fifth depression 23E (see
The sixth key top member 30F (see
The sixth key top member 3OF includes a push portion 30d, four leg portions 30a, an actuation portion 30b, and a pair of positioning portions. The push portion 30d has a longitudinal direction along the X direction, and is in the shape of a rectangular solid. The four leg portions 30a are formed to the four corners on an under surface of the push portion 30d. The actuation portion 30b is located in the area on the central part of an under surface of the push portion 30d. A pair of positioning portions are located along the X direction at both sides of the actuation portion 30b. Each leg portion 30a includes a claw 30e turned to the outside of the push portion 30d. A pair of positioning portions are L-shaped in a cross-section, and stick out to the under direction from the under surface of the push portion 30d. When the fifth key top member 30E is attached to the sixth depression 23F (see
Each of the above-mentioned key top members 30A-30F is engaged with each corresponding depression 23A-23F located at an upper surface of the cover 22 from an upper direction. As discussed below using
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The board 61 is an approximately square-shaped epoxy board. Plural electronic parts forming a electric circuit are located on both the front and back sides of the board 61. The board 61 is fixed to plural pipe-shaped portions formed on the under surface of the top board 22a by bolts.
In an internal space that is formed by using the top board 22a of the cover 22 and an upper surface of the board 61, there are elastic members corresponding to each of the key top members 30A-30F that bias each key top member to the Z direction, and switches that correspond to the key top members. Each of the elastic members have a same size and same structure. Each of the switches have a same size and structure. Therefore, in the following description, the elastic member 35 and the switch 64 are described as a representative example.
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The bottom board 21a has an underside 21b that is located in the rectangular part, and is convex downward in
Along the longitudinal direction of the groove 21c, there are two metal plates 30A and 30B fixed by plural bolts. And the bottom board 21a has plural depressions 21h that are located along the edge. Each of the depressions 21h has a circular hole.
In a neighborhood of a central part of the Y-direction end of the base 21, notch 21f is formed by cutting out a part from the underside 21b to the side wall 21d as a rectangle.
As shown in
As is apparent from the above-mentioned explanation, the push button mechanism of the above-mentioned embodiment includes the key top members 30A-30F, the elastic members 35 biasing the key top members 30A-30F, and the depressions 23A-23F formed in an upper surface of the cover 22.
According to the push button mechanism of the present embodiment, the L-shaped apertures or T-shaped aperture are formed in the depressions 23A-23F in the cover 22 so that each of the apertures facing different directions are located in asymmetric portions against the circular hole 23b. Each of the key top members has the L-shaped positioning portions or the T-shaped positioning portions so that each of positioning members facing different directions are located in asymmetric portions against the actuation portion 30b. Therefore, each key top member is engaged with the certain depression of the cover 22. For instance, the key top member except the first key top member 30A (having a pair of L-shaped positioning portions) can't be engaged to the first depression 23A (having a pair of L-shaped apertures). By the same token, the key top member except the second key top member 30B (having a pair of T-shaped positioning portions) can't be engaged to the second depression 23B (having a pair of L-shaped apertures).
As for the first key top member 30A and the sixth key top member 30F, the shapes of their positioning portions are the same and their directions are only different by 180 degrees. However, the first key top member can't be attached to the sixth depression such so that a pair of positioning portions are located in asymmetric portions against the circular hole.
Each of key top members 30A-30B is biased by elastic member 35 to the upper direction.
The actuation portion 30b depresses the slider 64a of the switch 64a according to the swing of the push portion 30d. Then, the actuation portion 30b works the electrical contact, hereby.
Therefore, even if the force acts in any place of the push portion 30d, the switch 64a is operated surely by applying a principle of leverage.
Furthermore, the push button mechanism in the embodiments discussed above, can prevent a wrong engagement to the depression of the cover 22, because the each key top member is engaged with only corresponded depression of the cover 22.
As a result, the operation panel 20 using the push button mechanism discussed above can make for the improvement of the yield ratio and reduce the production cost.
Furthermore, the copier 100 as an image forming apparatus can reduce the production cost because the copier 100 includes the operation panel 20 improved of the yield ratio.
The present invention is not limited to the above-mentioned embodiments.
Although the elastic members 35 in the embodiment discussed above are independently located in the six depressions, the elastic member can have a frame in common between six depressions.
Furthermore, although the each key top member 30A-30F has a pair of positioning portions 31A-31F in the embodiments discussed above, each key top member 30A-30F can have one or more positioning portions, and the positioning portions can have different shapes.
In addition, although six key top members are disposed on the cover 22 in the embodiments discussed above, the cover 22 can have less or more than 6 key top members.
Furthermore, although the push button mechanism including key top members and operation panel 20 are used for the copier 100 in the embodiments discussed above, the push button mechanism and operation panel 20 can be used for an image forming apparatus, for example, a printer, a facsimile, or a multifunction peripheral. The multifunction peripheral has plural functions selected from a copier function, a facsimile function, a printer function, and a scanner function.
As discussed above, the push button mechanism of the present invention is suitable to act as an electrical contact. The operation panel of the present invention is suitable to input an order to an image forming apparatus. Furthermore, the image forming apparatus of the present invention is suitable to form an image according to the order from the operation panel.
Numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.
Number | Date | Country | Kind |
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2005-216593 | Jul 2005 | JP | national |