최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0886194 (2015-10-19) |
등록번호 | US-9915981 (2018-03-13) |
우선권정보 | TW-104209713 U (2015-06-17); TW-104127617 A (2015-08-25) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 1 인용 특허 : 6 |
A hinge device applicable to soft display module includes a joint unit assembly. The joint unit assembly has a main section, a first side, a second side and a top section. The joint unit assembly has multiple shaft guide sections and shaft fixing sections positioned on the main section and respectiv
A hinge device applicable to soft display module includes a joint unit assembly. The joint unit assembly has a main section, a first side, a second side and a top section. The joint unit assembly has multiple shaft guide sections and shaft fixing sections positioned on the main section and respectively assembled with the motional shafts. A rotary shaft and a socket are formed on the first and second sides of the joint unit assembly along the top section. A (soft) display module is disposed on the top section of the joint unit assembly. The shaft guide section of the joint unit assembly is defined with a first position and a second position. When operating and opening/closing the display module, the rotary shafts serve as rotational fulcrums, whereby the motional shafts are relatively rotatable between the first and second positions of the shaft guide section.
1. A hinge device applicable to soft display module, comprising a joint unit assembly, the joint unit assembly having a main section, the main section having two ends, a first side, a second side and a top section positioned on upper side of the main section, the joint unit assembly having rotary sh
1. A hinge device applicable to soft display module, comprising a joint unit assembly, the joint unit assembly having a main section, the main section having two ends, a first side, a second side and a top section positioned on upper side of the main section, the joint unit assembly having rotary shafts and motional shafts; the joint unit assembly has multiple shaft guide sections and shaft fixing sections positioned on the main section and respectively assembled with the motional shafts; the rotary shafts being positioned on the top section of the joint unit assembly, the motional shafts being positioned on the main section of the joint unit assembly; the joint unit assembly includes a first joint unit and a second joint unit; each of the first and second joint units having a pivotal end and an assembling end; the joint unit assembly further includes at least two subsidiary joint units; two ends of the subsidiary joint unit being a first end and a second end, the shaft fixing section being disposed at the first end of the subsidiary joint unit for pivotally connecting with the motional shaft; the shaft guide section being disposed at the second end of the subsidiary joint unit for pivotally connecting with the motional shaft, the joint unit assembly being movable with the rotary shafts serving as rotational fulcrums to drive the motional shafts to relatively displace and move within the main section of the joint unit assembly. 2. The hinge device applicable to soft display module as claimed in claim 1, wherein the rotary shaft and a corresponding socket being formed on the first and second sides of the joint unit assembly along the top section, a distance being defined between the rotary shaft, the motional shaft of the shaft guide section and the motional shaft of the shaft fixing section, the shaft guide section of the joint unit assembly being defined with a first position and a second position, the joint unit assembly being rotatable with the rotary shaft and the socket serving as rotational fulcrums, whereby the motional shafts are rotatably relatively movable between the first and second positions of the shaft guide section to flex and open/close the soft display module. 3. The hinge device applicable to soft display module as claimed in claim 2, wherein the shaft guide section is an arched slot structure, while the shaft fixing section is a shaft hole structure. 4. The hinge device applicable to soft display module as claimed in claim 2, wherein the pivotal end of the first joint unit being formed with a recess and an insertion face connected with the recess, the shaft guide section being disposed at the pivotal end of the first joint unit, the pivotal end of the second joint unit being formed with a protrusion and an insertion face connected with the protrusion, the shaft fixing section being disposed at the pivotal end of the second joint unit. 5. The hinge device applicable to soft display module as claimed in claim 1, wherein the soft display module is disposed on the top portion of the joint unit assembly. 6. The hinge device applicable to soft display module as claimed in claim 5, wherein the rotary shaft perpendicularly protrudes from the first side of the joint unit assembly along the top section, the top section of the joint unit assembly being a plane structure. 7. The hinge device applicable to soft display module as claimed in claim 5, wherein the pivotal end of the first joint unit being formed with a recess and an insertion face connected with the recess, the shaft guide section being disposed at the pivotal end of the first joint unit, the pivotal end of the second joint unit being formed with a protrusion and an insertion face connected with the protrusion, the shaft fixing section being disposed at the pivotal end of the second joint unit. 8. The hinge device applicable to soft display module as claimed in claim 5, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism being formed with a guide hole with an opening and a shaft hole with an opening, the guide hole and shaft hole of the torque mechanism being pivotally connected with the motional shafts, whereby when the motional shafts move, the torque mechanism interferes with the motional shafts to create torque change. 9. The hinge device applicable to soft display module as claimed in claim 1, wherein the pivotal end of the first joint unit being formed with a recess and an insertion face connected with the recess, the shaft guide section being disposed at the pivotal end of the first joint unit, the pivotal end of the second joint unit being formed with a protrusion and an insertion face connected with the protrusion, the shaft fixing section being disposed at the pivotal end of the second joint unit. 10. The hinge device applicable to soft display module as claimed in claim 9, wherein the first side of the subsidiary joint unit being formed with a rotary shaft along the top section, the second side of the subsidiary joint unit being formed with a socket along the top section, the first end of the subsidiary joint unit being formed with a protrusion and an insertion face connected with the protrusion, the second end of the subsidiary joint unit being formed with a recess and an insertion face connected with the recess, a distance being defined between the rotary shaft of the subsidiary joint unit, the motional shaft of the shaft guide section of the subsidiary joint unit and the motional shaft of the shaft fixing section of the subsidiary joint unit, the rotary shafts of the first and second ends of the subsidiary joint unit being plugged in the sockets of the first and second joint units. 11. The hinge device applicable to soft display module as claimed in claim 10, wherein the insertion face of the first joint unit and the insertion face of the second joint unit and the insertion face of the first end of the subsidiary joint unit are structurally obliquely complementary to each other, the insertion face of the first end of the subsidiary joint unit and the insertion face of the second end of the subsidiary joint unit being structurally complementary to each other, the insertion face of the second joint unit and the insertion face of the second end of the subsidiary joint unit being structurally obliquely complementary to each other, a free end of each of the insertion face of the first joint unit, the insertion face of the second joint unit and the insertion faces of the subsidiary joint unit being formed with a hook section. 12. The hinge device applicable to soft display module as claimed in claim 11, wherein the recess and the insertion face of the pivotal end of the first joint unit are connected with the protrusion and the insertion face of the first end of the subsidiary joint unit, the recess and the insertion face of the second end of the subsidiary joint unit being connected with the protrusion and the insertion face of the first end of another leftward/rightward adjacent subsidiary joint unit to form a first row of joint unit assembly, in a forward and backward side by side arrangement pattern, the protrusion and the insertion face of the pivotal end of the second joint unit being connected with the recess and the insertion face of the second end of the subsidiary joint unit, the protrusion and the insertion face of the first end of the subsidiary joint unit being connected with the recess and the insertion face of the second end of another leftward/rightward adjacent subsidiary joint unit to form a second row of joint unit assembly, the shaft guide sections of the pivotal end of the first joint unit of the first row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint unit of the second row of joint unit assembly, the first motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly being aligned with the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly, the second motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, in the same one by one arrangement manner, the shaft fixing section of the pivotal end of the second joint unit of the second row of joint unit assembly being aligned with the shaft guide section of the second end of the outermost subsidiary joint unit of the first row of joint unit assembly, the third motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint units of the first row of joint unit assembly, the fourth motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the rotary shaft of the first row of joint unit assembly being inserted into the socket of the second row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the rotary shaft of the second row of joint unit assembly being inserted into the socket of another forward/backward adjacent first row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the assembling end of the first joint unit being formed with a raised connection section and the assembling end of the second joint unit being formed with a raised connection section, the connection sections being assembled with a slot of a fixing section. 13. The hinge device applicable to soft display module as claimed in claim 12, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism including a first torque unit, a second torque unit and at least one subsidiary torque unit, the first and second torque units being respectively defined with pivotal ends and assembling ends, the pivotal end of the first torque unit being formed with a guide hole with an opening corresponding to the pivotal end of the first joint unit for pivotally connecting with the first motional shaft, the pivotal end of the second torque unit being formed with a shaft hole with an opening corresponding to the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the subsidiary torque unit having a first end and a second end, the first end being formed with a guide hole with an opening, the second end being formed with a shaft hole with an opening, the guide hole and the opening of the pivotal end of the first torque unit facing the guide hole and the opening of the first end of the subsidiary torque unit, the shaft hole and the opening of the second end of the subsidiary torque unit facing the guide hole and the opening of the first end of another adjacent subsidiary torque unit to form a first row of torque unit assembly, the guide hole and the opening of the pivotal end of the second torque unit facing the shaft hole and the opening of the second end of the subsidiary torque unit, the guide hole and the opening of the first end of the subsidiary torque unit facing the shaft hole and the opening of the second end of another adjacent subsidiary torque unit to form a second row of torque unit assembly, the guide hole of the pivotal end of the first torque unit being aligned with the guide hole of the first end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft guide section of the pivotal end of the first joint unit and the shaft fixing section of the first end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the first motional shaft, the guide hole of the first end of the subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the second motional shaft, the shaft hole of the second end of the subsidiary torque unit of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the pivotal end of the second torque unit, the shaft guide section of the second end of the subsidiary joint unit of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft fixing section of the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the guide hole of the first end of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the fourth motional shaft, each of the assembling ends of the first and second torque units being formed with a raised connection section connected with the slot of the fixing section. 14. The hinge device applicable to soft display module as claimed in claim 10, wherein the recess and the insertion face of the pivotal end of the first joint unit are connected with the protrusion and the insertion face of the first end of the subsidiary joint unit, the recess and the insertion face of the second end of the subsidiary joint unit being connected with the protrusion and the insertion face of the first end of another leftward/rightward adjacent subsidiary joint unit to form a first row of joint unit assembly, in a forward and backward side by side arrangement pattern, the protrusion and the insertion face of the pivotal end of the second joint unit being connected with the recess and the insertion face of the second end of the subsidiary joint unit, the protrusion and the insertion face of the first end of the subsidiary joint unit being connected with the recess and the insertion face of the second end of another leftward/rightward adjacent subsidiary joint unit to form a second row of joint unit assembly, the shaft guide sections of the pivotal end of the first joint unit of the first row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint unit of the second row of joint unit assembly, the first motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly being aligned with the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly, the second motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, in the same one by one arrangement manner, the shaft fixing section of the pivotal end of the second joint unit of the second row of joint unit assembly being aligned with the shaft guide section of the second end of the outermost subsidiary joint unit of the first row of joint unit assembly, the third motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint units of the first row of joint unit assembly, the fourth motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the rotary shaft of the first row of joint unit assembly being inserted into the socket of the second row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the rotary shaft of the second row of joint unit assembly being inserted into the socket of another forward/backward adjacent first row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the assembling end of the first joint unit being formed with a raised connection section and the assembling end of the second joint unit being formed with a raised connection section, the connection sections being assembled with a slot of a fixing section. 15. The hinge device applicable to soft display module as claimed in claim 14, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism including a first torque unit, a second torque unit and at least one subsidiary torque unit, the first and second torque units being respectively defined with pivotal ends and assembling ends, the pivotal end of the first torque unit being formed with a guide hole with an opening corresponding to the pivotal end of the first joint unit for pivotally connecting with the first motional shaft, the pivotal end of the second torque unit being formed with a shaft hole with an opening corresponding to the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the subsidiary torque unit having a first end and a second end, the first end being formed with a guide hole with an opening, the second end being formed with a shaft hole with an opening, the guide hole and the opening of the pivotal end of the first torque unit facing the guide hole and the opening of the first end of the subsidiary torque unit, the shaft hole and the opening of the second end of the subsidiary torque unit facing the guide hole and the opening of the first end of another adjacent subsidiary torque unit to form a first row of torque unit assembly, the guide hole and the opening of the pivotal end of the second torque unit facing the shaft hole and the opening of the second end of the subsidiary torque unit, the guide hole and the opening of the first end of the subsidiary torque unit facing the shaft hole and the opening of the second end of another adjacent subsidiary torque unit to form a second row of torque unit assembly, the guide hole of the pivotal end of the first torque unit being aligned with the guide hole of the first end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft guide section of the pivotal end of the first joint unit and the shaft fixing section of the first end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the first motional shaft, the guide hole of the first end of the subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the second motional shaft, the shaft hole of the second end of the subsidiary torque unit of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the pivotal end of the second torque unit, the shaft guide section of the second end of the subsidiary joint unit of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft fixing section of the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the guide hole of the first end of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the fourth motional shaft, each of the assembling ends of the first and second torque units being formed with a raised connection section connected with the slot of the fixing section. 16. The hinge device applicable to soft display module as claimed in claim 10, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism including a first torque unit, a second torque unit and at least one subsidiary torque unit, the first and second torque units being respectively defined with pivotal ends and assembling ends, the pivotal end of the first torque unit being formed with a guide hole with an opening corresponding to the pivotal end of the first joint unit, the pivotal end of the second torque unit being formed with a shaft hole with an opening corresponding to the pivotal end of the second joint unit, the subsidiary torque unit having a first end and a second end, the first end being formed with a guide hole with an opening, the second end being formed with a shaft hole with an opening, the motional shafts being respectively pivotally connected with the guide holes and shaft holes of the torque mechanism, whereby when the motional shafts move, the torque mechanism interferes with the motional shafts to create torque change. 17. The hinge device applicable to soft display module as claimed in claim 9, wherein the first side of the subsidiary joint unit being formed with a rotary shaft along the top section, the second side of the subsidiary joint unit being formed with a socket along the top section, the first end of the subsidiary joint unit being formed with a protrusion and an insertion face connected with the protrusion, the second end of the subsidiary joint unit being formed with a recess and an insertion face connected with the recess, a distance being defined between the rotary shaft of the subsidiary joint unit, the motional shaft of the shaft guide section of the subsidiary joint unit and the motional shaft of the shaft fixing section of the subsidiary joint unit, the rotary shafts of the first and second joint units being plugged in the sockets of the first and second ends of the subsidiary joint unit. 18. The hinge device applicable to soft display module as claimed in claim 17, wherein the insertion face of the first joint unit and the insertion face of the second joint unit and the insertion face of the first end of the subsidiary joint unit are structurally obliquely complementary to each other, the insertion face of the first end of the subsidiary joint unit and the insertion face of the second end of the subsidiary joint unit being structurally complementary to each other, the insertion face of the second joint unit and the insertion face of the second end of the subsidiary joint unit being structurally obliquely complementary to each other, a free end of each of the insertion face of the first joint unit, the insertion face of the second joint unit and the insertion faces of the subsidiary joint unit being formed with a hook section. 19. The hinge device applicable to soft display module as claimed in claim 18, wherein the recess and the insertion face of the pivotal end of the first joint unit are connected with the protrusion and the insertion face of the first end of the subsidiary joint unit, the recess and the insertion face of the second end of the subsidiary joint unit being connected with the protrusion and the insertion face of the first end of another leftward/rightward adjacent subsidiary joint unit to form a first row of joint unit assembly, in a forward and backward side by side arrangement pattern, the protrusion and the insertion face of the pivotal end of the second joint unit being connected with the recess and the insertion face of the second end of the subsidiary joint unit, the protrusion and the insertion face of the first end of the subsidiary joint unit being connected with the recess and the insertion face of the second end of another leftward/rightward adjacent subsidiary joint unit to form a second row of joint unit assembly, the shaft guide sections of the pivotal end of the first joint unit of the first row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint unit of the second row of joint unit assembly, the first motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly being aligned with the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly, the second motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, in the same one by one arrangement manner, the shaft fixing section of the pivotal end of the second joint unit of the second row of joint unit assembly being aligned with the shaft guide section of the second end of the outermost subsidiary joint unit of the first row of joint unit assembly, the third motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint units of the first row of joint unit assembly, the fourth motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the rotary shaft of the first row of joint unit assembly being inserted into the socket of the second row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the rotary shaft of the second row of joint unit assembly being inserted into the socket of another forward/backward adjacent first row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the assembling end of the first joint unit being formed with a raised connection section and the assembling end of the second joint unit being formed with a raised connection section, the connection sections being assembled with a slot of a fixing section. 20. The hinge device applicable to soft display module as claimed in claim 19, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism including a first torque unit, a second torque unit and at least one subsidiary torque unit, the first and second torque units being respectively defined with pivotal ends and assembling ends, the pivotal end of the first torque unit being formed with a guide hole with an opening corresponding to the pivotal end of the first joint unit for pivotally connecting with the first motional shaft, the pivotal end of the second torque unit being formed with a shaft hole with an opening corresponding to the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the subsidiary torque unit having a first end and a second end, the first end being formed with a guide hole with an opening, the second end being formed with a shaft hole with an opening, the guide hole and the opening of the pivotal end of the first torque unit facing the guide hole and the opening of the first end of the subsidiary torque unit, the shaft hole and the opening of the second end of the subsidiary torque unit facing the guide hole and the opening of the first end of another adjacent subsidiary torque unit to form a first row of torque unit assembly, the guide hole and the opening of the pivotal end of the second torque unit facing the shaft hole and the opening of the second end of the subsidiary torque unit, the guide hole and the opening of the first end of the subsidiary torque unit facing the shaft hole and the opening of the second end of another adjacent subsidiary torque unit to form a second row of torque unit assembly, the guide hole of the pivotal end of the first torque unit being aligned with the guide hole of the first end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft guide section of the pivotal end of the first joint unit and the shaft fixing section of the first end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the first motional shaft, the guide hole of the first end of the subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the second motional shaft, the shaft hole of the second end of the subsidiary torque unit of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the pivotal end of the second torque unit, the shaft guide section of the second end of the subsidiary joint unit of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft fixing section of the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the guide hole of the first end of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the fourth motional shaft, each of the assembling ends of the first and second torque units being formed with a raised connection section connected with the slot of the fixing section. 21. The hinge device applicable to soft display module as claimed in claim 17, wherein the recess and the insertion face of the pivotal end of the first joint unit are connected with the protrusion and the insertion face of the first end of the subsidiary joint unit, the recess and the insertion face of the second end of the subsidiary joint unit being connected with the protrusion and the insertion face of the first end of another leftward/rightward adjacent subsidiary joint unit to form a first row of joint unit assembly, in a forward and backward side by side arrangement pattern, the protrusion and the insertion face of the pivotal end of the second joint unit being connected with the recess and the insertion face of the second end of the subsidiary joint unit, the protrusion and the insertion face of the first end of the subsidiary joint unit being connected with the recess and the insertion face of the second end of another leftward/rightward adjacent subsidiary joint unit to form a second row of joint unit assembly, the shaft guide sections of the pivotal end of the first joint unit of the first row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint unit of the second row of joint unit assembly, the first motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly being aligned with the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly, the second motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, in the same one by one arrangement manner, the shaft fixing section of the pivotal end of the second joint unit of the second row of joint unit assembly being aligned with the shaft guide section of the second end of the outermost subsidiary joint unit of the first row of joint unit assembly, the third motional shaft being pivotally connected with the shaft fixing section and the shaft guide section, the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly being aligned with the shaft fixing section of the first end of the subsidiary joint units of the first row of joint unit assembly, the fourth motional shaft being pivotally connected with the shaft guide section and the shaft fixing section, the rotary shaft of the first row of joint unit assembly being inserted into the socket of the second row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the rotary shaft of the second row of joint unit assembly being inserted into the socket of another forward/backward adjacent first row of joint unit assembly to serve as a rotational fulcrum of the first row of joint unit assembly and the second row of joint unit assembly, the assembling end of the first joint unit being formed with a raised connection section and the assembling end of the second joint unit being formed with a raised connection section, the connection sections being assembled with a slot of a fixing section. 22. The hinge device applicable to soft display module as claimed in claim 21, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism including a first torque unit, a second torque unit and at least one subsidiary torque unit, the first and second torque units being respectively defined with pivotal ends and assembling ends, the pivotal end of the first torque unit being formed with a guide hole with an opening corresponding to the pivotal end of the first joint unit for pivotally connecting with the first motional shaft, the pivotal end of the second torque unit being formed with a shaft hole with an opening corresponding to the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the subsidiary torque unit having a first end and a second end, the first end being formed with a guide hole with an opening, the second end being formed with a shaft hole with an opening, the guide hole and the opening of the pivotal end of the first torque unit facing the guide hole and the opening of the first end of the subsidiary torque unit, the shaft hole and the opening of the second end of the subsidiary torque unit facing the guide hole and the opening of the first end of another adjacent subsidiary torque unit to form a first row of torque unit assembly, the guide hole and the opening of the pivotal end of the second torque unit facing the shaft hole and the opening of the second end of the subsidiary torque unit, the guide hole and the opening of the first end of the subsidiary torque unit facing the shaft hole and the opening of the second end of another adjacent subsidiary torque unit to form a second row of torque unit assembly, the guide hole of the pivotal end of the first torque unit being aligned with the guide hole of the first end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft guide section of the pivotal end of the first joint unit and the shaft fixing section of the first end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the first motional shaft, the guide hole of the first end of the subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the outermost subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the outermost subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the second motional shaft, the shaft hole of the second end of the subsidiary torque unit of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the pivotal end of the second torque unit, the shaft guide section of the second end of the subsidiary joint unit of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft fixing section of the pivotal end of the second joint unit for pivotally connecting with the third motional shaft, the guide hole of the first end of the outermost subsidiary torque unit of the first row of torque unit assembly being aligned with the shaft hole of the second end of the subsidiary torque unit of the second row of torque unit assembly, the shaft fixing section of the first end of the outermost subsidiary joint unit of the first row of joint unit assembly and the shaft guide section of the second end of the subsidiary joint unit of the second row of joint unit assembly for pivotally connecting with the fourth motional shaft, each of the assembling ends of the first and second torque units being formed with a raised connection section connected with the slot of the fixing section. 23. The hinge device applicable to soft display module as claimed in claim 9, wherein the rotary shaft perpendicularly protrudes from the first side of the joint unit assembly along the top section, the top section of the joint unit assembly being a plane structure. 24. The hinge device applicable to soft display module as claimed in claim 9, wherein the insertion face of the first joint unit and the insertion face of the second joint unit are structurally obliquely complementary to each other, a free end of each of the insertion face of the first joint unit and the insertion face of the second joint unit being formed with a hook section. 25. The hinge device applicable to soft display module as claimed in claim 9, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism including a first torque unit and a second torque unit respectively corresponding to the first joint unit and the second joint unit, the first and second torque units being respectively defined with pivotal ends and assembling ends, the pivotal end of the first torque unit being formed with a guide hole with an opening corresponding to the pivotal end of the first joint unit, the pivotal end of the second torque unit being formed with a shaft hole with an opening corresponding to the pivotal end of the second joint unit, the motional shafts being respectively pivotally connected with the guide holes and shaft holes of the torque mechanism, whereby when the motional shafts move, the torque mechanism interferes with the motional shafts to create torque change, each of the assembling ends of the first and second torque units being formed with a raised connection section connected with the slot of the fixing section. 26. The hinge device applicable to soft display module as claimed in claim 1, wherein the rotary shaft perpendicularly protrudes from the first side of the joint unit assembly along the top section, the top section of the joint unit assembly being a plane structure. 27. The hinge device applicable to soft display module as claimed in claim 1, wherein the motional shafts are assembled with a torque mechanism, the torque mechanism being formed with a guide hole with an opening and a shaft hole with an opening, the guide hole and shaft hole of the torque mechanism being pivotally connected with the motional shafts, whereby when the motional shafts move, the torque mechanism interferes with the motional shafts to create torque change.
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