Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04M—TELEPHONIC COMMUNICATION
  • H04M1/00—Substation equipment, e.g. for use by subscribers
  • H04M1/02—Constructional features of telephone sets
  • H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
  • H04M1/0206—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
  • H04M1/0208—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings characterized by the relative motions of the body parts
  • H04M1/0235—Slidable or telescopic telephones, i.e. with a relative translation movement of the body parts; Telephones using a combination of translation and other relative motions of the body parts
  • H04M1/0237—Sliding mechanism with one degree of freedom
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04B—TRANSMISSION
  • H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
  • H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
  • H04B1/3827—Portable transceivers
  • H04B1/3833—Hand-held transceivers

Definitions

• the present invention relates to a sliding opening/closing apparatus, and more particularly to a dual sliding opening/closing apparatus adapted for comparatively wide electronic devices of a sliding opening/closing type (e.g. cellular phones, PDAs, laptop computers) to guarantee the stability of sliding movements.
• a sliding opening/closing type e.g. cellular phones, PDAs, laptop computers
• sliding-type electronic devices include a body, a cover slidably installed on the body, and a sliding opening/closing apparatus installed between the body and the cover so that the cover can slide between a first position, in which it is closed on the body, and a second position, in which it is opened from the body.
• the present invention has been made in view of the above-mentioned problems, and the present invention provides a dual sliding opening/closing apparatus having a pair of sliding modules mounted side by side along the width of a wide electronic device to improve the operational stability in the upward/downward sliding direction.
• a dual sliding opening/closing apparatus installed between first and second bodies so that the second body can slide between first and second positions on the first body
• the apparatus including a plurality of sliding opening/closing modules having a sliding member installed on the first body in a sliding direction of the second body and a guide rail member movably coupled to the sliding member and installed on the second body, the sliding opening/closing modules being installed at two or more positions which are located along a direction perpendicular to the sliding direction so that, when the second body slides, the second body is prevented from vibrating in a leftward/rightward direction perpendicular to the sliding direction.
• a dual sliding opening/closing apparatus installed between first and second bodies so that the second body can slide between first and second positions on the first body
• the apparatus including a pair of sliding members having engaging portions formed on both lateral peripheries in a sliding direction of the second body, the sliding members being installed on left and right sides of the first body which are located along a direction perpendicular to the sliding direction; and a pair of guide rail members having rail portions on both lateral peripheries to engage with the engaging portions of the sliding members and slide, the guide rail members being installed in positions on the second body corresponding to the pair of sliding members, wherein lubricating members are mounted on the engaging portions of the sliding members to reduce friction occurring in portions contacting the rail portions of the guide rail members and improve lubrication.
• a dual sliding opening/closing apparatus installed between first and second bodies so that the second body can slide between first and second positions on the first body
• the apparatus including a pair of sliding members having engaging portions formed on both lateral peripheries in a sliding direction of the second body, the sliding members being installed on left and right sides of the first body which are located along a direction perpendicular to the sliding direction; and a guide rail member provided with slot rail portions, the engaging portions of the pair of sliding members being fitted to the slot rail portions so as to slide, and installed on the second body, wherein lubricating members are mounted on the engaging portions of the sliding members to reduce friction occurring in portions contacting the slot rail portions of the guide rail members and improve lubrication.
• the dual sliding opening/closing apparatus is advantageous in that, by mounting a pair of sliding modules on left and right sides of an electronic device, the device is prevented from vibrating in the leftward/rightward direction during upward/downward sliding movements. This improves the operational stability.
• the inventive apparatus prevents leftward/rightward vibration during sliding movements, which would otherwise bend, wear, fracture, or break components that make contact during the movements. This improves the durability of the inventive apparatus and prolongs the service life of the electronic device equipped with the inventive apparatus.
• the sliding opening/closing modules installed on the left and right sides of the electronic device balance both sides of the device and make the components compact and slim (therefore the entire device).
• the sliding opening/closing apparatus according to the present invention which has the above-mentioned advantages, is not easily bent by external force during sliding and guarantees smooth operation of the cover, etc. of the device.
• FIG. 1 is an exploded perspective view of a dual sliding opening/closing apparatus according to a first embodiment of the present invention
• FIG. 2 is an exploded perspective view of the apparatus shown in FIG. 1 when viewed in the opposite direction;
• FIG. 3 is an assembled perspective view of the apparatus shown in FIG. 1;
• FIG. 4 is a sectional view of the apparatus shown in FIG. 3 taken along line A-A;
• FIGs. 5 and 6 illustrate the operation of the apparatus shown in FIGs. 1-4;
• FIG. 7 is an enlarged perspective view of a link- type spring of the apparatus shown in FIG. 1;
• FIG. 8 is an exploded perspective view of internal construction of the spring shown in FIG. 7;
• FIG. 9 is a perspective view of a torsion spring as an alternative to the link- type spring shown in FIG. 1 ;
• FIG. 10 is a perspective view of a dual sliding opening/closing apparatus according to a second embodiment of the present invention;
• FIG. 11 is an exploded perspective of the apparatus shown in FIG. 10 when viewed in the opposite direction;
• FIG. 12 is an exploded perspective view of a dual sliding opening/closing apparatus according to a third embodiment of the present invention;
• FIG. 13 is an exploded perspective view of the apparatus shown in FIG. 12 when viewed in the opposite direction;
• FIG. 14 is an assembled perspective view of the apparatus according to the third embodiment of the present invention;
• FIG. 15 is a sectional view of the apparatus shown in FIG. 14 taken along line B-B;
• FIG. 16 is an exploded perspective view of a dual sliding opening/closing apparatus according to a fourth embodiment of the present invention.
• FIG. 17 is an exploded perspective view of the apparatus shown in FIG. 16 when viewed in the opposite direction;
• FIG. 18 is an exploded perspective view of a dual sliding opening/closing apparatus according to a fifth embodiment of the present invention.
• FIG. 19 is an assembled sectional view of the apparatus shown in FIG. 18.
• FIG. 20 is a sectional view of a dual sliding opening/closing apparatus according to a sixth embodiment of the present invention. Best Mode for Carrying Out the Invention
• FIG. 1 is an exploded perspective view of a dual sliding opening/closing apparatus according to a first embodiment of the present invention.
• FIG. 2 is an exploded perspective view of the apparatus shown in FIG. 1 when viewed in the opposite direction.
• FIG. 3 is an assembled perspective view of the apparatus shown in FIG. 1.
• FIG. 4 is a sectional view of the apparatus shown in FIG. 3 taken along line A-A.
• the dual sliding opening/closing apparatus 100 is installed between a first body 101, which constitutes the body of a wide electronic device (e.g. a cellular phone, a PDA, or a laptop computer) and a second body 20, which is coupled to the body and acts as a cover, so that the second body 20 can slide between first and second positions on the first body 10 to be closed on the body or opened from it.
• a first body 101 which constitutes the body of a wide electronic device (e.g. a cellular phone, a PDA, or a laptop computer)
• a second body 20 which is coupled to the body and acts as a cover, so that the second body 20 can slide between first and second positions on the first body 10 to be closed on the body or opened from it.
• the first or second body 10 or 20 may include some components of the apparatus 100.
• the first body 10 preferably has a pair of square recesses 12-1 and 12-3 on the left and right sides so that the dual sliding opening/closing apparatus 100 can be installed thereon. This minimizes or eliminates the gap between other portions of the first and second bodies 10 and 20. In other words, this is a type of design consideration for making the electronic device, to which the opening/closing apparatus 100 is applied, compact and slim to the greatest extent.
• the pair of square recesses 12-1 and 12-3 on the left and right sides may be connected to each other to form a single square recess.
• the dual sliding opening/closing apparatus 100 has a pair of sliding opening/closing modules 100-1 and 100-3 on the left and right sides.
• the sliding opening/closing modules 100-1 and 100-3 are installed on the left and right sides while being parallel with and spaced from each other along the width of the electronic device.
• At least two sliding opening/closing modules are installed on the left and right sides of the electronic device, respectively.
• a number of sliding opening/closing modules may be additionally arranged in the middle along the width, or at the same distance from one another along the width.
• at least one pair of sliding opening/ closing modules are positioned to face each other on the left and right sides of the electronic device.
• Respective sliding opening/closing modules 100-1 and 100-3 include sliding members 200-1 and 200-3 seated on and fixed to the first body 10, and guide rail members 300-1 and 300-3 slidably coupled to the sliding members 200-1 and 200-3, respectively. Particularly, a pair of sliding members 200- 1 and 200-3 are seated on and fixed to a pair of square recesses 12-1 and 12-3 of the first body 10. The fixation is based on gluing, welding, or bolting, for example.
• the sliding members 200- 1 and 200-3 are preferably bolted inside the first body 10.
• the apparatus 100 has springs 400-1 and 400-3 installed between the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3 to multiply the sliding operation force of the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3.
• the springs 400-1 and 400-3 are compressed until approximately half the sliding distance between the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3 is reached. After half the sliding distance is exceeded, the compression force is turned into restoration force, which facilitates the sliding.
• the springs 400- 1 and 400-3 help the user to conduct a sliding movement to the destination with little force.
• a pair of link-type springs are used as the springs 400-1 and 400-3.
• a pair of link- type springs 400-1 and 400-3 are installed to face each other.
• One ends of the two link- type springs 400-1 and 400-3 are rotatably connected to holes 202-1 and 202-3 of the sliding members 200-1 and 200-3, respectively, and the other ends of the link- type springs 400-1 and 400-3 are fitted into and rotatably connected to fitting holes 302-1 and 302-3 of the guide rail members 300-1 and 300-3, respectively.
• the link- type springs 400- 1 and 400-3 are installed between the first and second bodies 10 and 20 of the electronic device to push the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3 to the first position, in which the second body 20 is closed, or to the second position, in which the second body 20 is opened. More particularly, the link-type springs 400-1 and 400-3 are compressed and apply force toward the first position until approximately half the total sliding distance is traveled. After half the sliding distance is exceeded, the compressed springs are restored and apply force toward the second position.
• Each sliding member 200-1 and 200-3 has a pair of engaging portions 204-1 and
• the engaging portions 204-1 and 204-3 are preferably formed on both lateral surfaces in a concave shape (i.e. U- shape) while extending continuously from the lower end to the upper end. If necessary, the engaging portions 204-1 and 204-3 may span near the upper and lower ends only.
• the guide rail members 300-1 and 300-3 are positioned inside the pair of engaging portions 204-1 and 204-3 facing each other, and the left and right edges of the guide rail members 300-1 and 300-3 engage with and couple to the left and right engaging portions 204-1 and 204-3.
• the guide rail members 300-1 and 300-3 have rail portions 306-1 and 306-3 formed on left and right lateral peripheries and bent from rail bodies 304-1 and 304-3 toward the sliding members 200-1 and 200-3 to fit into the engaging portions 204-1 and 204-3, respectively. Since both edges of the guide rail members 300-1 and 300-3 are bent toward the sliding members 200-1 and 200-3, a space is created between the guide rail members 300-1 and 300-3 and the sliding members 200-1 and 200-3, which are slidably coupled to each other.
• the above- mentioned link-type springs 400-1 and 400-3 are arranged and coupled in the intermediate space.
• lubricating members 210-1 and 210-3 are mounted inside the engaging portions 204-1 and 204-3 to reduce friction with regard to the rail portions 306-1 and 306-3 and guarantee smooth sliding movements.
• the lubricating members 210-1 and 210-3 are made of a material having both resistance to wear and lubrication properties, preferably a plastic-based material.
• the lubricating members 210-1 and 210-3 have a shape corresponding to that of the engaging portions 204-1 and 204-3.
• the lubricating members 210-1 and 210-3 are integrated in an insert type during fabrication of the sliding members 200-1 and 200-3.
• the guide rail members 300-1 and 300-3 have fitting holes 302-1 and 302-3 formed on the rail bodies 304-1 and 304-3 so that one ends of the link-type springs 400-1 and 400-3 are fitted and coupled to the fitting holes 302-1 and 302-3, and a pair of rail portions 306-1 and 306-3 bent from both ends of the rail bodies 304-1 and 304-3.
• the rail portions 306-1 and 306-3 slidably engage with the engaging portions 204-1 and 204-3 of the sliding members 200-1 and 200-3.
• the guide rail members 300-1 and 300-3 are coupled to the rear plate 22 of the second body 20.
• the rear plate 22 of the second body 20 has a pair of coupling recesses 24-1 and 24-3 formed thereon, and the rail bodies 304-1 and 304-3 of the guide rail members 300-1 and 300-3 have corresponding engaging ledges 308-1 and 308-3 formed thereon while being bent.
• the rear plate 22 and the guide rail members 300- 1 and 300-3 have a number of first and second bolt holes 26-1, 26-3, 309-1, and 309-3 formed on corresponding portions, respectively.
• the engaging ledges 308-1 and 308-3 of the guide rail members 300-1 and 300-3 are fitted into the coupling recesses 24-1 and 24-3 of the rear plate 22, and then bolts 310-1 and 310-3 are fastened to the first and second bolt holes 26-1, 26-3, 309-1, and 309-3 of the rear plate 22 and the guide rail members 300-1 and 300-3 to couple both members.
• the guide rail members 300-1 and 300-3 and the rear plate 22 may also be coupled by gluing or welding. Therefore, the exemplified structure necessary for bolting may be modified depending on the type of coupling the guide rail members 300- 1 and 300-3 and the rear plate 22. It can be easily understood by those skilled in the art that the rear plate 22 is coupled to the second body 20 by various coupling methods, including bolting, gluing, etc.
• the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3 are preferably made of a thin metal plate. If necessary, the sliding members 200-1 and 200-3 may be molded by using plastic.
• the coupling order will now be described.
• the lubricating members 210-1 and 210-3 are inserted into and coupled to the engaging portions 204-1 and 204-3 of the sliding members 200-1 and 200-3. It is also possible to integrally mold the lubricating members 210-1 and 210-3 in an insert type when the sliding members 200-1 and 200-3 are manufactured.
• the rail portions 306-1 and 306-3 of the guide rail members 300-1 and 300-3 are fitted to the left and right engaging portions 204-1 and 204-3 of the sliding members 200-1 and 200-3 to couple the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3.
• link- type springs 400-1 and 400-3 are rotatably coupled to the holes 202-1 and 202-3 of the sliding members 200-1 and 200-3, and the other ends are fitted and rotatably coupled to the fitting holes 302-1 and 302-3 of the guide rail members 300-1 and 300-3.
• the link-type springs 400-1 and 400-3 are coupled between the sliding members 200-1 and 200-3 and the guide rail members 300-1 and 300-3 in this manner to assemble the pair of sliding opening/ closing modules 100-1 and 100-3.
• the pair of sliding opening/closing modules 100-1 and 100-3 assembled in this manner are coupled to left and right sides between the first and second bodies 10 and 20, which then can slide relative to each other. More particularly, the sliding members 200-1 and 200-3 of the sliding opening/closing modules 100-1 and 100-3 are fixed to the left and right square recesses 12-1 and 12-3 of the first body 10, respectively, and the guide rail members 300-1 and 300-3 are fixed to the rear plate 22 of the second body 20. Then, the sliding opening/closing apparatus 100 including the pair of sliding opening/closing modules 100-1 and 100-3 is completely coupled between the first and second bodies 10 and 20.
• FIGs. 5 and 6 illustrate the operation of the apparatus shown in FIGs. 1-4. Particularly, FIG. 5 shows the cover when closed, and FIG. 6 shows the cover when opened. The operation of the apparatus will be described in detail with reference to these drawings, as well as FIGs. 1-4.
• the link-type springs 400-1 and 400-3 are compressed until the second body 20 travels approximately half the sliding operation section, and the compression force is turned into restoration force after half the section has been traveled. Then, the restoration force from the springs 400-1 and 400-3 is added to the sliding force of the second body 20 and moves it to the final position.
• the pair of sliding opening/closing modules of the apparatus according to the present invention are installed on the left and right sides to prevent the wide electronic device from vibrating in the leftward/ rightward direction during sliding and guarantee stable sliding.
• the springs 400-1 and 400-3 are compressed and restored during the sliding and provide force necessary to guarantee smooth and easy sliding.
• the key input unit 11 e.g. keypad or keyboard
• the display unit 21 of the second body 20 gets ready for input operations, as shown in FIG. 6.
• FIG. 7 is an enlarged perspective view of a link-type spring of the apparatus shown in FIG. 1.
• FIG. 8 is an exploded perspective view of internal construction of the spring shown in FIG. 7.
• the link-type spring 400 mounted between the sliding member and the guide rail member to multiply the sliding force according to the present invention includes a rice scoop-shaped link plate 410 having a coupling hole 412 formed on one side, and a spring portion 420 having a coil portion 422 fixed to the coupling hole 412 so that a leg portion 424 extends from the coil portion 422 and protrudes from the link plate 410.
• the link plate 410 is preferably shaped to surround and support both lateral surfaces of the coil portion 422.
• the link-type spring 400 having this construction has a fixing hole 414 formed farthest from the coupling hole 412 of the link plate 410 so that it can be rotatably coupled to the sliding member.
• One end of the leg 424 is configured as a mounting end 426 to be fitted and rotatably coupled to the fitting hole of the guide rail member.
• the link-type spring 400 has a coil portion 422 mounted inside the link plate
• the spring has a planar structure resulting from the link plate 410, and can be easily installed in the narrow space between the guide rail member and the sliding member. This improves the convenience of assembly.
• FIG. 9 is a perspective view of a torsion spring as an alternative to the link-type spring shown in FIG. 1.
• the link- type spring having the above-mentioned construction may be replaced with a torsion spring 400a, which has two leg portions 432a and 432b extending from the central coil portion 430a.
• one end (the leg portion on one side) of the torsion spring 400a is rotatably coupled to the sliding member, and the other end (the leg portion on the other side) is rotatably coupled to the guide rail member.
• FIG. 10 is a perspective view of a dual sliding opening/closing apparatus according to a second embodiment of the present invention
• FIG. 11 is an exploded perspective of the apparatus shown in FIG. 10 when viewed in the opposite direction.
• the construction of the pair of sliding opening/closing modules according to the second embodiment is the same as in the case of the first embodiment, except for the structure for coupling the guide rail members 300a-l and 300a-3 of the pair of sliding opening/closing modules 100a- 1 and 100a-3 to the second body 20a.
• operation force for sliding acts on the coupling portions of the guide rail members 300a-l and 300a-3 and the rear plate 22a.
• the rear plate 22a of the second body 20a, to which the guide rail members 300a-l and 300a-3 are coupled is generally made of a plastic material. This means that the coupling portions are likely to be damaged.
• the second embodiment adopts a construction for increasing the coupling strength.
• the second embodiment proposes that the guide rail members 300a-l and 300a-3 are coupled to a reinforcement plate 320a, and that through-holes 26a- 1 and 26a-3 are formed on the rear plate 22a so that the pair of guide rail members 300a-l and 300a-3 extend through.
• the reinforcement plate 320a and the rear plate 22a are successively stacked and coupled to the rear surface of the second body 20a so that the guide rail members 300a-l and 300a-3 are coupled to the rear surface of the second body 20a.
• the reinforcement plate 320a is made of a metallic material having excellent strength, and is coupled to the guide rail members 300a-l and 300a-3 by welding, bonding, or bolting, for example. As such, according to the second embodiment, the reinforcement plate 320a is added inside the rear plate 20a to increase the coupling strength of the guide rail members 300a-l and 300a-3 and manufacture a durable electronic device that can be closed/opened by sliding movements.
• FIG. 12 is an exploded perspective view of a dual sliding opening/closing apparatus according to a third embodiment of the present invention.
• FIG. 13 is an exploded persp ective view of the apparatus shown in FIG. 12 when viewed in the opposite direction.
• FIG. 14 is an assembled perspective view of the apparatus according to the third embodiment of the present invention.
• FIG. 15 is a sectional view of the apparatus shown in FIG. 14 taken along line B-B.
• the third embodiment replaces the stepped rail portion according to the first and second embodiments with slot-type rail portions 306b- 1, 306b-3, 306b-5, and 306b-7 formed on a guide rail member 300b (hereinafter, referred to as slot rail portions).
• the guide rail member 300b consists of a single plate body, and has pairs of first and second slot rail portions 306b- 1, 306b-3, 306b-5, and 306b-7 formed on the left and right sides, respectively.
• Both lateral peripheries of a pair of sliding members 20Ob-I and 200b-3 are bent toward the slot rail portions 306b- 1, 306b-3, 306b-5, and 306b-7 to form engaging portions 232b- 1, 232b-3, 232b-5, and 232b-7.
• Respective sliding members 20Ob-I and 200b-3 consist of two plate members 23Ob-I, 230b-3, 230b-5, and 230b-7, which overlap and couple to each other in between.
• the pairs of engaging portions 232b- 1, 232b-3, 232b-5, and 232b-7 on both sides of respective sliding members 200b- 1 and 200b-3 are distributed on the lateral periphery of the double plate members 23Ob-I, 230b-3, 230b-5, and 230b-7, respectively.
• Respective ends of the engaging portions 232b- 1, 232b-3, 232b-5, and 232b-7 are preferably bent outward in an L-shaped configuration.
• the engaging portions 232b- 1, 232b-3, 232b-5, and 232b-7 of respective sliding members 20Ob-I and 200b-3 can enter into the first and second slot rail portions 306b- 1, 306b-3, 306b-5, and 306b-7.
• Coupling protrusions 234b- 1 and 234b-3 and coupling holes 236b- 1 and 236b-3 are formed on overlapping portions of the plate members 23Ob-I and 230b-5 on one side and the plate members 230b-3 and 230b-7 on the other side, respectively, which are integrated into the sliding members 20Ob-I and 200b-3, and are fitted to each other.
• a single square recess 12b may be formed on the portion of the first body 10b, on which the sliding members 200 b-1 and 200b-3 are mounted.
• the square recess 12b preferably has receiving recesses 14b- 1 and 14b-3 formed thereon to receive the protruding portions.
• Lubricating members 24Ob-I, 240b-3, 240b-5, and 240b-7 are mounted on the engaging portions 232b- 1, 232b-3, 232b-5, and 232b-7 of the sliding members 20Ob-I and 200b-3 to reduce friction occurring in portions contacting the slot rail portions 306b- 1, 306b-3, 306b-5, and 306b-7 and facilitate the sliding.
• the contact surfaces of the engaging portions 232b- 1, 232b-3, 232b-5, and 232b-7 may be covered with the lubricating members 24Ob-I, 240b-3, 240b-5, and 240b-7 in an insert type.
• a frame 308b extends along the periphery of the guide rail members 300b-l and 300b-3 while being bent inward.
• the frame 308b is mounted inside a mounting unit 28b, which is formed on the rear surface of the second body 20b, and is fixedly fastened to it.
• Sealing plates 330b-l and 330b-3 are mounted on the inner surface of the guide rail members 300b-l and 300b-3, which is positioned inside the second body 20b while facing it.
• the two sealing plates 330b-l and 330b-3 have a shape corresponding to that of the left and right slot rail portions 306b- 1, 306b-3, 306b-5, and 306b-7, respectively, and completely surround them.
• the sealing plates 330b-l and 330b-3 prevent exposure of the interior of the second body 20b via the slot rail members 306b- 1, 306b-3, 306b-5, and 306b-7, prevent alien substances from penetrating into the second body 20b, provide an aesthetic appearance, and reinforce the strength of the guide rail members 300b-l and 300b-3.
• the reason the left and right slot rail portions 306b- 1 , 306b-3, 306b-5, and 306b-7 of the guide rail members 300b-l and 300b-3 have different shapes according to the present embodiment is to provide a hole 305b between the slot rail portions 306b- 1 and 306b-3 on one side, through which a PCB cable can extend.
• FIG. 16 is an exploded perspective view of a dual sliding opening/closing apparatus according to a fourth embodiment of the present invention
• FIG. 17 is an exploded perspective view of the apparatus shown in FIG. 16 when viewed in the opposite direction.
• the fourth embodiment is an alternative to the third embodiment described above, and most components are identical to those according to the third embodiment, except for the coupling structure for the guide rail member 300c. Particularly, only both lateral peripheries (i.e. not all of the four peripheries) of the guide rail member 300c according to the fourth embodiment are bent twice toward the second body 20c to form bent portions 308c- 1 and 308c-3, which have fastening holes 309c- 1 and 309c-3 formed thereon so that, after fitting the guide rail member 300c to the mounting unit 28c of the rear plate 22c, bolts 305c- 1 and 305c-3 are used to fix the guide rail member 300c to the rear plate 22c of the second body 20c. Other components are the same as has been described with reference to the third embodiment, and repeated description thereof will be omitted herein.
• the guide rail members according to the second to fourth embodiments of the present invention described above may be molded as an integral unit with the rear plate.
• the rear plate and the guide rail members are integrally fabricated by using the same material (e.g. metal or plastic).
• the guide rail members may be integrally molded on the reinforcement plate, which is integrated into the rear plate in an insert type.
• the guide rail member is integrated into the rear plate in an insert type.
• slot rail portions are directly formed on the enclosed rear plate.
• FIG. 18 is an exploded perspective view of a dual sliding opening/closing apparatus according to a fifth embodiment of the present invention.
• FIG. 19 is an assembled sectional view of the apparatus shown in FIG. 18.
• the present embodiment shows an example of modification of the structure for coupling the guide rail member and the sliding members (first and second bodies are omitted for clarity).
• the guide rail member 30Od and the sliding members 20Od- 1 and 200d-3 are coupled by forming pairs of slot rail portions 306d-l, 306d-3, 306d-5, and 306d-7 on the left and right sides of the guide rail member 300d made of a single plate body and then coupling the sliding members 20Od-I and 200d-3 including pairs of plate members 25Od-I, 250d-3, 250d-5, and 250d-7 having engaging portions 252d-l, 252d-3, 252d-5, and 252d-7 to respective pairs of slot rail portions 306d-l, 306d-3, 306d-5, and 306d-7.
• respective sliding members 20Od- 1 and 200d-3 consist of separate pairs of double plate members 25Od-I, 250d-3, 250d-5, and 250d-7, which have fastening holes 256d-l, 256d-3, 256d-5, and 256d-7 formed on central plate portions 254d-l, 254d-3, 254d-5, and 254d-7, and engaging portions 252d-l, 252d-3, 252d-5, and 252d-7 bent outward from the central plate portions 254d-l, 254d-3, 254d-5, and 254d-7.
• engaging portions 252d-l, 252d-3, 252d-5, and 252d-7 are formed on the outside of the pairs of double plate members 25Od-I, 250d-3, 250d-5, and 250d-7 in opposite directions, and fastening holes 256d-l, 256d-3, 256d-5, and 256d-7 are formed on the central plate portions 254d-l, 254d-3, 254d-5, and 254d-7.
• the engaging portions 252d-l, 252d-3, 252d-5, and 252d-7 are fitted to the slot rail portions 306d-l, 306d-3, 306d-5, and 306d-7, and the central plate portions 254d-l, 254d-3, 254d-5, and 254d-7 are forced against the first body 1Od to fasten the bolts 27Od-I to 270d-7 to the fastening holes 256d-l, 256d-3, 256d-5, and 256d-7.
• Lubricating members 26Od-I, 260d-3, 260d-5, and 260d-7 may also be mounted on portions of the engaging portions 252d-l, 252d-3, 252d-5, and 252d-7, which contact the guide rail member 300d, in an insert type.
• FIG. 20 is an assembled sectional view of a dual sliding opening/closing apparatus according to a sixth embodiment of the present invention taken along the sliding direction.
• the sliding opening/closing apparatus according to the present invention and the portable terminal based on it may be bent by a predetermined curvature along the sliding direction, as shown in FIG. 20.
• the first body 1Oe, the second body 2Oe, the sliding members 20Oe-I and 200e-3, and the guide rail members 300e-l and 300e-3 are bent by almost the same curvature, as shown in FIG. 20.
• the curvature of the first body 1Oe, etc. may be properly modified based on consideration of the usage of the terminal to guarantee its convenient use.
• the rear surface of the first body 1Oe and the front surface of the second body 2Oe may have a curvature different from that of portions contacting each other.
• the rear surface of the first body 1Oe and the front surface of the second body 2Oe are bent along straight lines or extend along a straight line as a whole, with only portions contacting each other and in-between components (e.g. sliding members, guide rail members) being bent.
• short components e.g. springs
• the present invention is applicable to various electronic devices of a sliding opening/ closing type, such as cellular phones, PDAs, and laptops.

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• Engineering & Computer Science (AREA)
• Signal Processing (AREA)
• Casings For Electric Apparatus (AREA)
• Telephone Set Structure (AREA)

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• 2008
  • 2008-04-17 BR BRPI0822551-6A patent/BRPI0822551A2/pt not_active IP Right Cessation
  • 2008-04-17 JP JP2011504910A patent/JP2011518515A/ja active Pending
  • 2008-04-17 RU RU2010144822/07A patent/RU2010144822A/ru not_active Application Discontinuation
  • 2008-04-17 WO PCT/KR2008/002171 patent/WO2009128574A1/en active Application Filing
  • 2008-04-17 CN CN2008801298576A patent/CN102113227A/zh active Pending
  • 2008-04-17 EP EP08741416A patent/EP2272173A1/en not_active Withdrawn

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