1. Field of the Invention
The present invention is directed to a housing, an operation panel including the housing, and an image forming apparatus including the operation panel. More particularly, the present invention is directed to a housing that can accommodate elements in its inner area and that can be locked and unlocked. An operation panel includes the housing and an image forming apparatus includes the operation panel.
2. Discussion of the Background Art
In recent years, manufacturing processes have been separated and are often performed at different sites, for flexibility and cost efficient reasons. For example, a manufacturing operation may produce a unit A that includes a housing or an exterior portion of an overall product at a first factory, and may produce parts that are to be mounted inside of the housing at a second factory. Those parts will then be later assembled into a completed product.
Such a manufacturing operation is becoming increasingly popular from a point of view of a so-called international division of labor or international specification. From an international point of view, it may be more efficient to spread out the manufacturing process of a product such that certain units are produced in a country that has low cost labor and completed products or more sensitive products can be made in another country, for example where the completed products are to be sold.
Such a so-called international division of labor does lead to certain complications. Specifically, different lead times for each production unit or section that forms a part of a completed product have to be addressed.
As is often the case in such situations, units or sections are transferred individually in a condition in which they are tentatively or temporarily assembled, for example to another facility where the completed product will be made. Then, when those tentatively assembled products reach the final assembly site at least certain of the parts must be taken apart and then reassembled to complete the final product by being combined with other sections made for example at other sites.
In general, the tentative assembly and the final assembly at least in some ways use the same steps and operations. As a result, often the time spent for the tentatively assembly can be as much as or close to the time spent for a final assembly.
Another factor to consider is that if the tentative assembly is too thorough of an assembly, parts may be broken by accident when the tentative assembly must be taken apart. On the other hand, if the tentative assembly is too weak and the parts are too easy to take apart, the units or sections may become separated during transit or at an undesired time.
Accordingly, one object of the present invention is to provide a novel housing that can be used in an assembly operation efficiently and effectively.
A more specific object of the present invention is to provide a novel housing that can be tentatively assembled in a short period of time.
Another object of the present invention is to provide a novel housing that after being tentatively assembled in a short period of time can be taken apart in a short period of time.
Another object of the present invention is to provide a novel operation panel using such a novel housing that can have a more efficient, and thereby less costly, production process.
Another object of the present invention is to provide a novel image forming apparatus including the novel operation panel that can thereby have a more efficient, and thereby less costly, production process.
The present invention achieves the above-noted operation by providing a novel housing, which for example can be used in an operation panel, and the operation panel in turn can be used in an image forming apparatus.
The novel housing includes a first member and a second member configured to be engaged with the first member. A first locking mechanism locks the first member to the second member, and can be unlocked with pressure provided externally of the housing. A second locking mechanism locks the first member to the second member, and is located in a different portion from the first locking member, and can be unlocked by rotating either of the first member or the second member at the second locking member.
A more complete appreciation of the present invention and many of the 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 present invention can, for example, be applicable to a housing utilized for forming the operation panel 10 used in the copier 100.
The main body 20 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 for changing 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. The tangible image on the paper sheet is then fixed by the fixing unit. The communication device receives input signals from the operation panel 10. The control unit controls each of the units or devices in the main body 20 according to instructions that are included in the input signal from the operation panel 10. In addition, an automatic document feeder (ADF) can be used for the automatic feed of manuscripts. Therefore, the main body 20 can further include the ADF.
As shown in
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The cover 16 can be formed, for example, by injection molding assuming it is made of plastic.
As shown in
On an under surface of the top board 16a of the cover 16, two cylindrical projections 72 are provided extending along a Z axis direction. On the other hand, two circular bores on the board 61 are provided corresponding to the two cylindrical projections 72. The board 61 is attached to a lower part of the top board 16a of the cover 16 by screws such that projections 72 are inserted in circular bores respectively. On an under surface, which is the counter side across the aperture 16c of the top board 16a, two cylindrical projections 73 are provided extending along the Z axis direction. On the other hand, two circular bores on the board 62 are provided corresponding to the two cylindrical projections 73. The board 62 is attached to a lower part of the top board 16a of the cover 16 by screws such that projections 72 are inserted in the circular bores respectively.
As shown in
The display unit 50, as shown in
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The base 12 is formed, for example, by injection molding assuming it is made of plastic.
The bottom board 12a has an underside 12b that is located in the rectangular part, and that is convex downward as shown in
In the area of the central part of the Y-direction end of the base 12, notch 12f is formed by being cut out of a part from the underside 12b to the side wall 12d as a rectangle. A pair of rectangular notches 12g are formed at a position shown by arrow A of
As shown in
On the other hand, second cover side claw 17 is engaged with a frame portion 14 at a position shown at arrow B of
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The flexible plate portion 13a can bend when an external force is applied to it because the flexible plate portion 13a is one part of the base 12 that is formed by injection molding assuming it is made of plastic.
In a so-called “tentative assembly” the cover 16 is engaged with the base 12 by the first cover side claw 26, the base side claw 13, the second side claw 17, and the frame portion 14, without requiring a more permanent fastening member such as a screw.
As shown in
In a so-called “final assembly” the cover 16 and the base 12 in a state of the tentative assembly are fixed by more permanent fastening members such as the screws 55.
According to the housing 11 in the present embodiment, two first cover side claws 26 can be formed in the edge of side wall 12d in the Y direction of the cover 16, three second cover side claws can be formed in the edge of side wall 12d in the opposite direction of the Y direction of the cover 16, three base side claws 13 can be formed in the edge of side wall 12d in the Y direction of the base 12, and three frame portions can be formed in the edge of side wall 12d in the opposite direction of the Y direction of the base 12.
For convenience, the portion in which base side claw 13 is engaged with the first cover side claw 26 is a first engagement portion 22, and the portion in which the frame portion 14 of the base 12 are engaged with the second cover side claw 17 of the cover 16 is a second engagement portion 21.
As shown in
In a case in which the first cover side claw 26 is bent by a finger, the first cover side claw 26 is pushed by the finger that is inserted to the notch 12g, and the thumb can catch in the depression 12e formed in the underside of the base. Thereby, the base side claw 13 can be easily pushed. When a pressing force greater than that required for releasing engagement acts on the base side claw 13, the base side claw 13 is not bent more than necessary because a bending range of the base claw 13 is limited by a stopper 25. Accordingly, the base claw 13 does not break by its plastic deformation.
In addition, the operation panel 10 concerning the present embodiment accommodates the boards 61, 62 and display unit 50 in its inner space. Thereby, when a first factory for attaching the boards 61, 62 to the cover 16 is different from a second factory for attaching the display unit 50 to the cover 16, the second factory can make a complete operation panel 10 by attaching the display unit 50 to the housing 11 after taking apart the housing 11 in the tentative assembly (board 61, 62 is attached).
Therefore, the base 12 and the cover 16 having boards 61, 62 are easily made in a state of a temporary assembly without using a tool. And before attaching the display unit 50 to the housing 11 in the tentative assembly, the housing 11 is easily taken apart.
Accordingly, a cost to produce the operation panel 10 can be reduced.
In addition, in the state of the tentative assembly, a position of the boards 61, 62 is regulated by both projections 72 and cylindrical projections 73 formed in the cover 16. Furthermore, the boards 61, 62 are accommodated in a stable state in the internal space of the housing 11 by being sandwiched by pipe-shaped portions 16h and depressions 12h. Accordingly, when the display unit is attached to the housing 11, the boards 61, 62 need not be fixed more permanently if the boards 61, 62 need to be detached. Thereby, the tentative assembly can be realized in a shorter time.
And the display unit 50, like boards 61, 62, is accommodated in a stable state in the internal space of the housing 11 by being sandwiched by pipe-shaped portions 16h and depressions 12h.
Furthermore, as shown in
In addition, when the operation panel 10 in the state of tentative assembly is attached to the main body 20, it is easily possible to realize the tentative assembly and taking apart of the operation panel 10 in the case of mechanical connection or inspection of a device according to need in a short time. Accordingly, as a result, it is possible to reduce the production cost of the copier 100.
The present invention is not limited to the above-mentioned embodiments. Although the housing 11 is used for the operation panel 10 of the copier 100 in the embodiments discussed above, the housing 11 can be used for a housing in which electronic parts are packed. For instance, the housing 11 can be used for a keyboard of a personal computer.
Furthermore, although a pair of base side claws 13 can be located in base 12 in the embodiments discussed above, one or plural base side claws 13 can be used. However, it is preferable for the base side claws 13 to be in a pair for a taking apart operation when the tentative assembly is dismantled by a manual procedure.
In addition, although the stoppers 25 are located in the cover 16 in the embodiments discussed above, the stoppers 25 can be located in the base 12. Also, an electronic part can be used instead of the stoppers 25.
Furthermore, although the housing 11 is used for the operation panel 16 of the copier 100 in the embodiments discussed above, the housing 11 can be used for a housing of an operation panel of an image forming apparatus, for example a printer, a facsimile, a multifunction peripheral, or the like. Such a multifunction peripheral includes plural functions selected from a copier function, a facsimile function, a printer function, and a scanner function.
As discussed above, the housing of the present invention is suitable to receive electronic parts, and the operation panel of the present invention is suitable to input instructions to an image forming apparatus. Furthermore, the image forming apparatus of the present invention is suitable to form an image according to the instruction from the operation panel.
Obviously, 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 present invention may be practiced otherwise than as specifically described herein.
That application is based on Japanese patent application 2005-187658 filed in the Japanese Patent Office on Jun. 28, 2005, the entire contents of which are hereby incorporated herein by reference.
Number | Date | Country | Kind |
---|---|---|---|
2005-187658 | Jun 2005 | JP | national |
2005-198610 | Jul 2005 | JP | national |