CN203742329U - Parallel pushing-out type sliding support hinge of linkage and adjustable double X structure - Google Patents
Parallel pushing-out type sliding support hinge of linkage and adjustable double X structure Download PDFInfo
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- CN203742329U CN203742329U CN201420038170.4U CN201420038170U CN203742329U CN 203742329 U CN203742329 U CN 203742329U CN 201420038170 U CN201420038170 U CN 201420038170U CN 203742329 U CN203742329 U CN 203742329U
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- slide rail
- holder cantilever
- hinged
- slide block
- block
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Abstract
The utility model provides a parallel pushing-out type sliding support hinge of a linkage and adjustable double X structure. The parallel pushing-out type sliding support hinge of the linkage and adjustable double X structure comprises two sliding rails, four sliding blocks and four supporting cantilevers, every two supporting cantilevers are crossed to form an X-shaped structure, one ends of the supporting cantilevers are hinged to the corresponding sliding rails, and the other ends of the supporting cantilevers are hinged to the corresponding sliding blocks and connected with the sliding blocks in the corresponding sliding rail through connecting rods. The parallel pushing-out type sliding support hinge of the linkage and adjustable double X structure is characterized by linkage, two sliding blocks connected together by the sliding block connecting rod can move and stop moving at the same time, linkage of the double X structure is achieved, so that the situation that the service life of the hinge is ended due to desynchrony of the X structure movement and inconsistent wear is avoided; the parallel pushing-out type sliding support hinge is further characterized by adjustability, one ends of one pair of supporting cantilevers are hinged to supporting fixing blocks at one ends of the two sliding rails through eccentric shaft rivets, and one ends of the other pair of supporting cantilevers are hinged to the sliding blocks at the other ends of the sliding rails through eccentric shaft rivets. When size error influences parallelism and closing tightness of the double X structure movement, adjustment can be conducted through rotating the eccentric shaft rivets.
Description
Technical field
The utility model relates to hinge, is a kind of interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge specifically.
Background technology
The parallel pushout sliding friction stay hinge that is usually used at present electronic control or remote-controlled window is made up of slide rail, slide block and holder cantilever: one end of two holder cantilevers is hinged on respectively one end of two slide rails, two holder cantilevers the other end respectively with two slide rails of the hinged rear threading of slide block, composition X-shaped motion, makes to realize parallel between two slide rails.When for large-scale heavy window, increasing on the basis of slide rail length, can be by increasing the parallel pushout sliding friction stay hinge of the two X of accessory composition such as one or more pairs of holder cantilevers and slide block or even many X structure.
The parallel pushout sliding friction stay hinge of two X (or many X) structure of composition has following shortcoming in this way: 1, because scale error can affect the harmony of two each motion rod members of X mechanism (holder cantilever) and slide block movement, cause the asynchronous of two X mechanism kinematics, not parallel, and each motion rod member (holder cantilever) and slide block stressed, abrasion condition is also inconsistent, what not only cause that the close and sash of being not closed completely of window opens and closes has some setbacks, and the inconsistent meeting of wearing and tearing further aggravates the asynchronous of two X mechanism kinematics, form vicious circle, finally cause pair X mechanism to move.Reduce widely the application life of the parallel pushout sliding friction stay hinge of two X (or many X) structure.
Utility model content
The deficiency existing for prior art, the purpose of this utility model is to provide a kind of weight capacity strong, durable and make the tight novel parallel pushout sliding friction stay hinge of Window closing.
For achieving the above object, the utility model provides a kind of interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge, comprise slide rail, slide block and holder cantilever, slide rail comprises the first slide rail and the second slide rail, slide block comprises the first slide block, the second slide block, the 3rd slide block and Four-slider, and holder cantilever comprises the first holder cantilever, the second holder cantilever, the 3rd holder cantilever and the 4th holder cantilever; The first slide rail and the second slide rail be arranged in parallel, and the first slide block and the 3rd slide block are all arranged in the first slide rail, and the second slide block and Four-slider are all arranged in the second slide rail; First holder cantilever one end is hinged on the first slide block, the other end is hinged on one end of the second slide rail, second holder cantilever one end is hinged on the second slide block, the other end is hinged on one end of the first slide rail, the first holder cantilever and the mutual decussate structure of the second holder cantilever, the first holder cantilever and the second holder cantilever are hinged at intersection point place; The 3rd holder cantilever one end is hinged on the 3rd slide block, and the other end is hinged on the second slide rail; The 4th holder cantilever one end is hinged on Four-slider, and the other end is hinged on the first slide rail, and the 3rd holder cantilever and the 4th holder cantilever intersect to form X-shaped structure mutually, and the 3rd holder cantilever and the 4th holder cantilever are hinged at intersection point place; The pin joint of the first holder cantilever on the second slide rail is vertical with the first slide rail with the straight line that the pin joint of the second holder cantilever on the first slide rail forms; The pin joint of the 3rd holder cantilever on the second slide rail is vertical with the first slide rail with the straight line that the pin joint of the 4th holder cantilever on the first slide rail forms; Also comprise connecting rod, connecting rod is arranged in the first slide rail or the second slide rail; Connecting rod one end is connected with the first slide block or the second slide block, and the corresponding other end is connected with the 3rd slide block or Four-slider.
Preferably, the first holder cantilever is hinged on one end of the second slide rail by eccentric shaft rivet, described the second holder cantilever is hinged on one end of the first slide rail by eccentric shaft rivet, the 3rd holder cantilever is hinged on the 3rd slide block by eccentric shaft rivet, and the 4th holder cantilever is hinged on Four-slider by eccentric shaft rivet.
Preferably, the first slide block, the second slide block, the 3rd slide block and Four-slider include engineering plastics and stainless steel, and stainless steel end face is convex structure, on the lower face in its both sides, is enclosed with engineering plastics.
Preferably, keyway is left in slide block one end, and the other end leaves stepped hole.
Preferably, connecting rod one end have with slide block on the shape that matches of keyway shape, the other end has a step surface higher than connecting rod main body; The step surface of connecting rod is connected to the upper surface of the first slide block or the second slide block, and the corresponding other end is inserted into the interior riveted joint of keyway of the 3rd slide block or Four-slider.
Preferably, also comprise aluminium alloys cushion block, perforate in the middle of aluminium alloys cushion block, there is respectively one compared with the low step surface of aluminium alloys cushion block main body in the relative both sides of aluminium alloys cushion block, aluminium alloys cushion block is assemblied in slide block one end and leaves with aluminium alloys cushion block and appear on the stage in the stepped hole that terrace shape matches, and the axle between connection sliding block and holder cantilever or eccentric shaft rivet are through the hole of described aluminium alloys cushion block.
Preferably, on connecting rod, be processed with two slots along connecting rod bearing of trend, the jointed shaft of the jointed shaft of the 3rd holder cantilever and the second slide rail or the 4th holder cantilever and the first slide rail is positioned at a slot on connecting rod.
Preferably, also comprise support fixed block, support fixed block is arranged on one end of slide rail, and one end of the first holder cantilever is hinged on the support fixed block of the second slide rail end, and one end of the second holder cantilever is hinged on the support fixed block of the first slide rail end.
One of the interlock that the utility model provides, adjustable pair of X parallelism structural pushout sliding friction stay hinge principal character are linkage, two slide blocks that link together by slide block connecting rod can move simultaneously and stop, realize pair interlock of X mechanism, thereby avoid because X mechanism kinematic is asynchronous and the inconsistent hinge life termination that causes of wearing and tearing; Another feature of the present utility model is adjustability, and one end of a pair of holder cantilever is hinged on by eccentric shaft rivet on the support fixed block of two slide rail one end, and another one end to holder cantilever is hinged on the slide block of the slide rail other end by eccentric shaft rivet.When scale error have influence on the collimation of two X mechanism kinematics and close leakproofness time, can regulate by eccentric rotation axis rivet.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 2 is the perspective view of the eccentric shaft rivet of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 3 is the cross-sectional view of the eccentric shaft rivet of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 4 is the side structure schematic diagram of the connecting rod of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 5 is the plan structure schematic diagram of the connecting rod of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 6 is the perspective view of the aluminium alloys cushion block of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 7 is the first slide block perspective view of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge;
Fig. 8 is the end face structure schematic diagram that the utility model interlock, adjustable pair of X parallelism structural exit the first slide block of formula sliding support hinge.
In figure: 1) the first slide rail, 2) the second slide rail, 3) support fixed block, 4) aluminium alloys cushion block, 5) the first holder cantilever, 6) the second holder cantilever, 7) the 3rd holder cantilever, 8) the 4th holder cantilever, 9) the second slide block, 10) the first slide block, 11) Four-slider, 12) the 3rd slide block, 13) eccentric shaft rivet, 14) connecting rod.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described further:
Please refer to Fig. 1, Fig. 1 is the structural representation of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge.
A kind of interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge, comprise slide rail, slide block and holder cantilever, slide rail comprises the first slide rail 1 and the second slide rail 2, slide block comprises the first slide block 10, the second slide block 9, the 3rd slide block 12 and Four-slider 11, and holder cantilever comprises the first holder cantilever 5, the second holder cantilever 6, the 3rd holder cantilever 7 and the 4th holder cantilever 8; The first slide rail 1 and the second slide rail 2 be arranged in parallel, and the first slide block 10 and the 3rd slide block 12 are all arranged in the first slide rail 1, and the second slide block 9 and Four-slider 11 are all arranged in the second slide rail 2; First holder cantilever 5 one end are hinged on the first slide block 10, the other end is hinged on one end of the second slide rail 2, second holder cantilever 6 one end are hinged on the second slide block 9, the other end is hinged on one end of the first slide rail 1, the first holder cantilever 5 and the mutual decussate structure of the second holder cantilever 6, the first holder cantilever 5 and the second holder cantilever 6 are hinged at intersection point place; The 3rd holder cantilever 7 one end are hinged on the 3rd slide block 12, and the other end is hinged on the second slide rail 2; The 4th holder cantilever 8 one end are hinged on Four-slider 11, and the other end is hinged on the first slide rail 1, and the 3rd holder cantilever 7 and the 4th holder cantilever 8 intersect to form X-shaped structure mutually, and the 3rd holder cantilever 7 and the 4th holder cantilever 8 are hinged at intersection point place; The pin joint of the first holder cantilever 5 on the second slide rail 2 is vertical with the first slide rail 1 with the straight line that the pin joint of the second holder cantilever 6 on the first slide rail 1 forms; The pin joint of the 3rd holder cantilever 7 on the second slide rail 2 is vertical with the first slide rail 1 with the straight line that the pin joint of the 4th holder cantilever 8 on the first slide rail 1 forms; Also comprise connecting rod 14, connecting rod 14 is arranged in the first slide rail 1 or the second slide rail 2; Connecting rod 14 one end are connected with the first slide block 10 or the second slide block 9, and the corresponding other end is connected with the 3rd slide block 12 or Four-slider.
As shown in Figures 2 and 3, Fig. 2 is the perspective view of the eccentric shaft rivet 13 of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge, and Fig. 3 is the cross-sectional view of the eccentric shaft rivet 13 of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge.
The first holder cantilever 5 is hinged on one end of the second slide rail 2 by eccentric shaft rivet 13, described the second holder cantilever 6 is hinged on one end of the first slide rail 1 by eccentric shaft rivet 13, the 3rd holder cantilever 7 is hinged on the 3rd slide block 12 by eccentric shaft rivet 13, and the 4th holder cantilever 8 is hinged on Four-slider 11 by eccentric shaft rivet 13.
As shown in Figure 7 and Figure 8, Fig. 7 is the first slide block structure schematic diagram of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge, and Fig. 8 is the end face structure schematic diagram that the utility model interlock, adjustable pair of X parallelism structural exit the first slide block of formula sliding support hinge.
Keyway is left in slide block one end, and the other end leaves stepped hole, and the first slide block 10, the second slide block 9, the 3rd slide block 12 and Four-slider 11 include engineering plastics and stainless steel, and stainless steel end face is convex structure, on the lower face in its both sides, is enclosed with engineering plastics.Stainless steel castingin, in engineering plastics, both brought into play engineering plastics a little wear-resisting, improved again the shortcoming of plastic slide block intensity difference, easy fracture by castingin stainless steel.
As shown in Figure 4 and Figure 5, Fig. 4 is the side structure schematic diagram of the connecting rod 14 of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge, and Fig. 5 is the plan structure schematic diagram of the connecting rod 14 of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge.
The first holder cantilever 5 is hinged on one end of the second slide rail 2 by eccentric shaft rivet 13, described the second holder cantilever 6 is hinged on one end of the first slide rail 1 by eccentric shaft rivet 13, the 3rd holder cantilever 7 is hinged on the 3rd slide block 12 by eccentric shaft rivet 13, and the 4th holder cantilever 8 is hinged on Four-slider 11 by eccentric shaft rivet 13.
Connecting rod 14 one end have the shape matching with keyway shape, and the other end has a step surface higher than connecting rod 14 main bodys; The step surface of connecting rod 14 is connected to the upper surface of the first slide block 10 or the second slide block 9, and the corresponding other end is inserted into the interior riveted joint of keyway of the 3rd slide block 12 or Four-slider 11.
As shown in Figure 6, Fig. 6 is the perspective view of the aluminium alloys cushion block 4 of the utility model interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge.
Also comprise aluminium alloys cushion block 4, perforate in the middle of aluminium alloys cushion block 4, there is respectively one compared with the low step surface of aluminium alloys cushion block 4 main bodys in the relative both sides of aluminium alloys cushion block 4, aluminium alloys cushion block is assemblied in slide block one end and leaves with aluminium alloys cushion block 4 and appear on the stage in the stepped hole that terrace shape matches, and the axle between connection sliding block and holder cantilever or eccentric shaft rivet 13 are through the hole of described aluminium alloys cushion block 4.Can further improve the shortcoming that plastics are easily worn because of thin thickness below castingin riveting of sliding block hole.
On connecting rod 14, be processed with two slots along connecting rod 14 bearing of trends, the jointed shaft of the jointed shaft of the 3rd holder cantilever 7 and the second slide rail 2 or the 4th holder cantilever 8 and the first slide rail 1 is positioned at a slot on connecting rod 14.
Also comprise and support fixed block 3, support fixed block 3 is arranged on one end of slide rail, and one end of the first holder cantilever 5 is hinged on the support fixed block 3 of the second slide rail 2 ends, and one end of the second holder cantilever 6 is hinged on the support fixed block 3 of the first slide rail 1 end.
The architectural feature of sliding support hinge when interlock, adjustable pair of X parallelism structural exit:
1. two slide blocks that link together by connecting rod 14 can move simultaneously and stop, and realize pair interlock of X mechanism, thereby avoid because X mechanism kinematic is asynchronous and the inconsistent hinge life termination that causes of wearing and tearing; 2. one end of the 3rd holder cantilever 7 and the 4th holder cantilever 8 is hinged on respectively on the 3rd slide block 12 and Four-slider 11 by eccentric shaft rivet 13, one end of the first holder cantilever 5 and the second holder cantilever 6 is hinged on respectively by eccentric shaft rivet 13 on the support fixed block 3 of the second slide rail 2 and first slide rail 1 one end, when scale error have influence on the collimation of two X mechanism kinematics and close leakproofness time, can regulate by eccentric rotation axis rivet 13.
Above-described embodiment is only for the utility model creation example is clearly described, and not the utility model is created the restriction of detailed description of the invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here without also giving exhaustive to all embodiments.All any apparent variations of being extended out within spirit of the present utility model and principle or variation are still among the utility model is created the protection domain of claim.
Claims (8)
1. an interlock, adjustable pair of X parallelism structural pushout sliding friction stay hinge, it is characterized in that, comprise slide rail, slide block and holder cantilever, slide rail comprises the first slide rail and the second slide rail, slide block comprises the first slide block, the second slide block, the 3rd slide block and Four-slider, and holder cantilever comprises the first holder cantilever, the second holder cantilever, the 3rd holder cantilever and the 4th holder cantilever; The first slide rail and the second slide rail be arranged in parallel, and the first slide block and the 3rd slide block are all arranged in the first slide rail, and the second slide block and Four-slider are all arranged in the second slide rail; First holder cantilever one end is hinged on the first slide block, the other end is hinged on one end of the second slide rail, second holder cantilever one end is hinged on the second slide block, the other end is hinged on one end of the first slide rail, the first holder cantilever and the mutual decussate structure of the second holder cantilever, the first holder cantilever and the second holder cantilever are hinged at intersection point place; The 3rd holder cantilever one end is hinged on the 3rd slide block, and the other end is hinged on the second slide rail; The 4th holder cantilever one end is hinged on Four-slider, and the other end is hinged on the first slide rail, and the 3rd holder cantilever and the 4th holder cantilever intersect to form X-shaped structure mutually, and the 3rd holder cantilever and the 4th holder cantilever are hinged at intersection point place; The pin joint of the first holder cantilever on the second slide rail is vertical with the first slide rail with the straight line that the pin joint of the second holder cantilever on the first slide rail forms; The pin joint of the 3rd holder cantilever on the second slide rail is vertical with the first slide rail with the straight line that the pin joint of the 4th holder cantilever on the first slide rail forms; Also comprise connecting rod, connecting rod is arranged in the first slide rail or the second slide rail; Connecting rod one end is connected with the first slide block or the second slide block, and the corresponding other end is connected with the 3rd slide block or Four-slider.
2. interlock according to claim 1, adjustable pair of X parallelism structural pushout sliding friction stay hinge, it is characterized in that, the first holder cantilever is hinged on one end of the second slide rail by eccentric shaft rivet, described the second holder cantilever is hinged on one end of the first slide rail by eccentric shaft rivet, the 3rd holder cantilever is hinged on the 3rd slide block by eccentric shaft rivet, and the 4th holder cantilever is hinged on Four-slider by eccentric shaft rivet.
3. interlock according to claim 1 and 2, adjustable pair of X parallelism structural pushout sliding friction stay hinge, it is characterized in that, the first slide block, the second slide block, the 3rd slide block and Four-slider include engineering plastics and stainless steel, stainless steel end face is convex structure, on the lower face in its both sides, is enclosed with engineering plastics.
4. interlock according to claim 3, adjustable pair of X parallelism structural pushout sliding friction stay hinge, is characterized in that, keyway is left in slide block one end, and the other end leaves stepped hole.
5. interlock according to claim 4, adjustable pair of X parallelism structural pushout sliding friction stay hinge, is characterized in that, connecting rod one end have with slide block on the shape that matches of keyway shape, the other end has a step surface higher than connecting rod main body; The step surface of connecting rod is connected to the upper surface of the first slide block or the second slide block, and the corresponding other end is inserted into the interior riveted joint of keyway of the 3rd slide block or Four-slider.
6. interlock according to claim 4, adjustable pair of X parallelism structural pushout sliding friction stay hinge, it is characterized in that, also comprise aluminium alloys cushion block, perforate in the middle of aluminium alloys cushion block, there is respectively one compared with the low step surface of aluminium alloys cushion block main body in the relative both sides of aluminium alloys cushion block, aluminium alloys cushion block is assemblied in slide block one end and leaves with aluminium alloys cushion block and appear on the stage in the stepped hole that terrace shape matches, and the axle between connection sliding block and holder cantilever or eccentric shaft rivet are through the hole of described aluminium alloys cushion block.
7. interlock according to claim 5, adjustable pair of X parallelism structural pushout sliding friction stay hinge, it is characterized in that, on connecting rod, be processed with two slots along connecting rod bearing of trend, the jointed shaft of the jointed shaft of the 3rd holder cantilever and the second slide rail or the 4th holder cantilever and the first slide rail is positioned at a slot on connecting rod.
8. interlock according to claim 1 and 2, adjustable pair of X parallelism structural pushout sliding friction stay hinge, it is characterized in that, also comprise support fixed block, support one end that fixed block is arranged on slide rail, one end of the first holder cantilever is hinged on the support fixed block of the second slide rail end, and one end of the second holder cantilever is hinged on the support fixed block of the first slide rail end.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420038170.4U CN203742329U (en) | 2014-01-21 | 2014-01-21 | Parallel pushing-out type sliding support hinge of linkage and adjustable double X structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420038170.4U CN203742329U (en) | 2014-01-21 | 2014-01-21 | Parallel pushing-out type sliding support hinge of linkage and adjustable double X structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203742329U true CN203742329U (en) | 2014-07-30 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420038170.4U Expired - Fee Related CN203742329U (en) | 2014-01-21 | 2014-01-21 | Parallel pushing-out type sliding support hinge of linkage and adjustable double X structure |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203742329U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103790456A (en) * | 2014-01-21 | 2014-05-14 | 广东澳利坚建筑五金有限公司 | Parallel pushout type sliding support hinge with double X-shaped structures with co-movement and adjustability |
| CN105479432A (en) * | 2015-12-25 | 2016-04-13 | 天津梅迪亚科技有限公司 | Driving wheel device of inspection robot |
-
2014
- 2014-01-21 CN CN201420038170.4U patent/CN203742329U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103790456A (en) * | 2014-01-21 | 2014-05-14 | 广东澳利坚建筑五金有限公司 | Parallel pushout type sliding support hinge with double X-shaped structures with co-movement and adjustability |
| CN105479432A (en) * | 2015-12-25 | 2016-04-13 | 天津梅迪亚科技有限公司 | Driving wheel device of inspection robot |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CP03 | Change of name, title or address | ||
| CP03 | Change of name, title or address |
Address after: The second industrial zone Jinping District 515064 in Guangdong province Shantou city 0683 building block Patentee after: Guangdong aolijian Hardware Technology Co. Ltd. Address before: Jinping District 515064 of Guangdong province 06B3 Shantou City Shengping Industrial Zone second plant plots Patentee before: Guangdong Ao Lijian architectural hardware Co., Ltd |
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| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140730 Termination date: 20210121 |