1. Field of the Invention
The present invention relates to a button key assembly of an operator panel incorporated in a variety of electronic equipment including copying machines, facsimile machines, personal computers, telephones, and gaming machines.
2. Description of the Related Art
Conventional electronic apparatuses include an operator panel that employs a variety of operational keys that allow a user to operate the electronic apparatus. Such apparatuses include copying machines, facsimile machines, personal computers, telephones, and gaming machines. An operator panel includes a variety of operational keys such as selection keys for selecting a variety of functions such as “ENTER” and “RETURN” for confirming the selection, and “BACK KEY” for returning to the immediately previous state. These keys are commonly arranged closely for the purposes of functionality and design.
If a plurality of operational keys is to be closely located, the keys should be, for example, molded from a resin material in one-piece construction for minimum manufacturing cost. The mold should be designed such that adjacent keys are spaced apart by a predetermined distance or a gap. This gap may cause the keys to rattle after they have been assembled as a key board, impairing the operability of the keyboard.
An objection of the present invention is to solve the aforementioned drawbacks, and to provide a keyboard that offers good operability.
Another object of the invention is to provide a keyboard in which adjacent keys are spaced apart by as short a distance as possible so that the operability of the keyboard is least affected and excellent operability is obtained.
A button key assembly, includes a frame, a plurality of adjacent button keys connected to the frame via a plurality of resilient supports such that the plurality of button keys are resiliently movable, and a case.
The plurality of adjacent button keys are connected to the frame via a plurality of resilient supports such that the plurality of button keys are resiliently movable. The plurality of resilient supports, the plurality of button keys, and the frame are formed in one-piece construction, and each of the plurality of button keys includes an engagement portion. The case includes a button hole formed therein. The case is assembled to the frame such that the plurality of button keys are received in the button hole. The plurality of adjacent button keys are spaced apart by a first gap before the plurality of adjacent button keys have been received in the button hole. The plurality of adjacent button keys are spaced apart by a second gap after the case has been assembled to the frame such that the plurality of adjacent button keys are received in the button hole and such that the engagement portion abuts a perimeter portion of the button hole, the second gap being smaller than the first gap.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not limiting the present invention, and wherein:
Referring to
The print engines 2K, 2Y, 2M, and 2C include LED heads 3K, 3Y, 3M, and 3C, photoconductive drums 4K, 4Y, 4M, and 4C, charging rollers 5K, 5Y, 5M, and 5C, developing rollers 6K, 6Y, 6M, and 6C, toner reservoirs 7K, 7Y, 7M, and 7C, developing blades 8K, 8Y, 8M, and 8C, and toner supplying rollers 9K, 9Y, 9M, and 9Y, respectively. The image forming apparatus 1 includes the operator panel 29 at a front portion of the image forming apparatus 1, allowing a user to input a variety of settings. The operator panel 29 will now be described in detail.
Referring to
Referring to
An on-line key 34, the cancel key 35, upper menu key 36, the lower menu key 37, the back key 39, the enter key 38, and a frame 44 are molded from, for example, a synthetic resin material in one piece construction such that these elements form a button key assembly 45 as a whole. The button keys assembly 45 will be described in more detail.
The operational keys 34-39 are in one piece with resilient supporting arms 36f, 36g, 39d, 39e, 37g, and 37f and the frame 44 such that the operational keys 34-39 may be displaceable by a predetermined short distance. Supporting arms 36f and 36g are formed between the upper menu key 36 and the frame 44. Supporting arms 37f and 37g are formed between the lower menu key 37 and the frame 44. Supporting arms 39d and 39e are formed between the back key 39 and the frame 44. It is to be noted that the upper key 36, lower key 37 and back key 39 are spaced apart from one another by a predetermined distance or a first gap T1 (e.g., 0.8 mm,
Thus, as shown in
Referring to
As described above, the upper menu key 36, lower menu key 37, and back key 39 each include at least one knee bend in their corresponding supporting arms such that the knee bend provides resiliency of the key in specific directions. In other words, when external forces are exerted on the upper menu key 36, lower menu key 37, and back key 39, the knee bends resiliently deform such that these keys are allowed to resiliently displace in the U1 and U2 directions, the L1 and L2 directions, and the B1 direction, respectively.
Referring back to
The circuit board 32 includes a round hole 51 and an elongated hole 52 spaced apart by a predetermined distance. The case 33 includes a first post 53 and a second post 54 formed thereon, and received in the round hole 51 and elongated hole 52, respectively. The circuit board 32 is fixed to the case 33 by means of, for example, screws.
Referring to
The engagement relation among the button hole 56, the abutments 36d and 36e of the upper menu key 36, the abutments 37d and 37e of the lower key 37, the abutment 39c of the back key 39 will be described.
The upper menu key 36, lower menu key 37, and back key 39 are spaced apart from one another by the first gap T1 (e.g., 0.8 mm) before the button key assembly 45 is assembled to the case 33. The side surface 36a of the upper menu key 36, side surface 37a of the lower menu key 37, and side surface 39a of the back key 39 have a radius of curvature substantially the same as the surface of the perimeter portion 56a of the button hole 56, so that the side surfaces 36a and 37a may comfortably slide on the perimeter portion 56a once the button key assembly 45 has been assembled to the case 33. Likewise, the side surface 36b of the upper menu key 36 and the side surface 37b of the lower menu key 37 have a radius of curvature substantially the same as the surface of a perimeter portion 56b of the button hole 56, so that the side surfaces 36b and 37b may comfortably slide on the perimeter portion 56b.
The relation between the diameter of the perimeter 56a of the button hole 56, and the radii of the upper menu key 36, lower menu key 37, and back key 39 will be described with reference to
Referring to
Referring to
The imaginary circle B having the diameter D3 lies on the side surface 36b of the upper menu key 36 and the side surface 37b of the lower menu key 37. An imaginary circle D that is circumscribed around the abutments 36e and 37e has a diameter D4 slightly smaller than the diameter D3. In other words, the abutments 36e and 37e project from the upper menu key 36 and lower menu key 37 radially outwardly from the center 201 further than the perimeter portion 56b of the button hole 56 before the button key assembly 45 has been assembled to the case 33. It is to be noted that the upper menu key 36 and lower menu key 37 are on either side of an imaginary plane cutting through the passing through the first and second posts 47 and 48 and generally perpendicular to the front surface of the case 33, and are mirror images of one another. Another way of looking at the assembly is that the upper menu key 36 and lower menu key 37 are symmetrical with respect to a line passing through the centers 201 and 202. Likewise, the back key 39 is symmetrical about the line passing through the centers 201 and 202.
As described above, a second gap T2 smaller than the first gap T1 is maintained between the perimeter portion 56a and the surface 36a, between the perimeter portion 56a and the side surface 37a, and between the perimeter portion 56a and the side surface 39a. The radius of curvature of the perimeter portion 56b is substantially equal to that of surface 36b and side surface 37b. The side surfaces 36a and 37a may be any shape as long as they do not outwardly extend further from the center 201 than the imaginary circle C having the diameter D2. The side surfaces 36b and 37b may be of any shape as long as they do not outwardly extend further from the center 201 than the imaginary circle D having the diameter D4.
For example, if the perimeter portion 56a of the button hole 56 has a diameter of 33 mm, and the perimeter portion 56b of the button hole 56 has a diameter of 21.6 mm, then the side surfaces 36a, 37a, and 39a are designed to have a diameter of 33 mm, the side surfaces 36b and 37b are designed to have a diameter of 21.6 mm, the abutments 36d, 37d, and 39c are designed to be inscribed in the imaginary circle having a diameter of D2=33.6 mm, and the abutments 36e and 37e are designed to be on the imaginary circle D having a diameter of D4=21 mm. These diameters are those before the button key assembly 45 has been assembled to the case 33.
The operation of the button keys of the aforementioned configuration will be described.
When a user wants to select, for example, the number of pages to be printed and the type of a medium to be printed on, he depresses the upper menu key 36, lower menu key 37, and back key 39 to select appropriate settings. As described previously, once the first post 47 and the second post 48 have been fittingly received in the circular recess 49 (
The surfaces of the abutments 36d, 37d, and 39c are inscribed in the imaginary circle C having the diameter D2 larger than the diameter of the perimeter portion 56a. Therefore, when the upper menu key 36, lower menu key 37, and back key 39 are inserted in the button hole 56, the abutments 36d, 37d, and 39c abut the perimeter portion 56a of the button hole 56. Because the surfaces of the abutments 36e and 37e are on the circumference of the imaginary circle D having a diameter D4 smaller than the perimeter portion 56b of the button hole 56, the abutments 36e and 37e are pressed against the perimeter portion 56b of the button hole 56.
When the button key assembly 45 has been assembled to the case 33, the upper menu key 36, lower menu key 37, and back key 39 are pushed by the perimeter portions 56a and 56b in the U1 and U2 directions, L1 and L2 directions, and B1 direction, respectively, as shown in
Once the upper menu key 36, lower menu key 37, and back key 39 have been assembled to the case 33, the second gap T2 between adjacent ones of these keys 36, 37, 39 is smaller than the first gap T1 (e.g., 0.8 mm), the difference in gap being equal to the difference between the diameter of the button hole 56 and the diameter of the imaginary circle C in which the abutments 36d, 36e, 37d, 37e, and 39c are inscribed. The decrease in the gap in this manner is effective in minimizing rattling of the operational keys after the button key assembly 45 has been assembled to the case 33. The difference is approx. 0.6 mm, providing that the perimeter portions 56a and 56b have diameters of 33 mm and 21.6 mm, respectively, and the abutments 36d, 37d, and 39c are inscribed in the imaginary circle C having a diameter of 33.6 mm, and the surfaces of abutments 36e and 37e are on the circumference of the imaginary circle D having an outer diameter of 21 mm.
In the first embodiment, the abutments 36d, 36e, 39c, 37d, 37e of the respective operational keys abut the perimeter portions 56a and 56b of the button hole 56, thereby decreasing the gaps from the first gap T1 to the second gap T2. However, the invention is not limited to this. For example, the abutments of the respective operational keys may abut other portions of the case 33 than the perimeter portions 56a and 56b of the button hole 56, so that the first gaps T1 decrease to the second gaps T2.
As described above, when the upper menu key 36, lower menu key 37, and back key 39 have been inserted into the button hole 56, the abutment 36d, 36e, 37d, 37e, and 39c abut the perimeter portions 56a and 56b, so that the gaps between adjacent ones of the upper menu key 36, lower menu key 37, and back key 39 may be decreased from the first gap T1 to the second gap T2. Thus, the rattling of the operational keys due to the smaller second gaps T2 between adjacent ones of the operational keys is minimized. For example, the configuration is effective in minimizing the rattling of the operational keys in directions perpendicular to the direction in which the operational keys are depressed, thereby improving the operability of the operational keys.
The first embodiment allows the operational keys to be spaced apart by the sufficiently large gap (e.g., T1 shown in
Referring to
Just as in the first embodiment, the upper menu key 136 and lower menu key 137 are on either side of an imaginary plane cutting through the passing through the first and second posts 47 and 48 and generally perpendicular to the front surface of the operator panel 129, and are mirror images of one another. Another way to look at this configuration is that the upper menu key 136 and lower menu key 137 are symmetrical with respect to an imaginary plane generally perpendicular to the front surface of the operator panel 129. The back key 139 is also symmetrical with respect to the imaginary plane. Referring to
The upper menu key 136 further includes a rib 136d formed on the side surface 136c, the rib 136d extending from the projection 136a in the direction in which the upper menu key 136 is pressed. The rib 136d includes a surface flush with the side surface 136b of the back key 139. In other words, the surface of the rib 136d and the side surface 136b lie in the same plane.
The operation of the button keys of the aforementioned configuration will be described.
In the first embodiment, once the button key assembly 45 has been assembled to the case 33, the second gap T2 is only about 0.2 mm. Therefore, when the user depresses the back key 39, the back key 39 is difficult to move while maintaining this small gap T2. As the back key 39 moves, the back key wall portion 39b slides on the upper menu key wall 36c and the lower menu key wall 37c.
In the second embodiment, the first gap T1 between adjacent ones of the upper menu key 136, lower menu key 137, and back key 139 is defined by the projection 139b, the side surfaces 136b and 137b. In addition, the rib 136d is flush with the side surface 136b, and extends in a direction parallel to the direction in which the back key 139 is pressed. The rib 137d is also flush with the surface 137b, and extends in a direction parallel to the direction in which the back key 139 is depressed. When the back key 139 is depressed, the projection 139b slides on the rib 136d and the rib 137d. The remaining portion of the operation is the same as that described in the first embodiment, and the description thereof is omitted.
When one of the upper menu key 136, lower menu key 137, and back key 139 is pressed, the pressed key moves while being in contact with the adjacent keys. It is to be noted that the pressed key has a smaller total area in contact with the adjacent keys in the second embodiment than in the first embodiment.
As described above, the configuration of the button key assembly 145 provides substantially the same advantages as the button key assembly 45 of the first embodiment. The smaller total area of an operational key in contact with the adjacent keys is effective in minimizing the friction between the pressed operational key and the adjacent operational keys, thus facilitating the smooth movement of the pressed operational key. Thus, the configuration of the second embodiment improves the ease of operation of the operational keys.
The first gap T1 defined between upper menu key 136 and the back key 139, and the first gap T1 defined between the lower menu key 137 and the back key 139 do not extend over a great depth, eliminating extremely thin portions of a mold so that the usable lifetime of the mold may be prolonged.
While the embodiments have been described in terms of three operational keys, i.e., upper menu key, lower menu key and back key, the invention is not limited to this. While the operational keys form a generally cylindrical appearance when they are assembled together, the invention is not limited to this. The adjacent operational keys may have any shape.
Although the embodiments have been described with respect to an operator panel of an image forming apparatus, the invention may also be applicable to copying machines, printers, facsimile machines, personal computers, telephones, and gaming machines.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art intended to be included within the scope of the following claims.
Number | Date | Country | Kind |
---|---|---|---|
2008-167385 | Jun 2008 | JP | national |