CN201976373U - Sliding cover linkage mechanism with both auxiliary pushing and tail end buffering effects - Google Patents
Sliding cover linkage mechanism with both auxiliary pushing and tail end buffering effects Download PDFInfo
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- CN201976373U CN201976373U CN2011200581425U CN201120058142U CN201976373U CN 201976373 U CN201976373 U CN 201976373U CN 2011200581425 U CN2011200581425 U CN 2011200581425U CN 201120058142 U CN201120058142 U CN 201120058142U CN 201976373 U CN201976373 U CN 201976373U
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- slip lid
- slide
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Abstract
The utility model discloses a sliding cover linkage mechanism with both auxiliary pushing and tail end buffering effects, which is characterized in that an accommodation space and at least one first slide guiding part are arranged in a base; at least one second slide guiding part with the middle section curved is arranged in the accommodation space; a slide seat slips on the accommodation space along the first slide guiding part; at least one accommodation recess is formed on the slide seat; a third guide sliding part extending towards the curved part of the middle section is arranged on the accommodation recess; two ends of at least one first elastic component are respectively pivoted in the accommodation space and on the slide seat; one end of at least one second elastic component is combined in the accommodation recess, and the other end is connected to a slide guiding piece sliding in the third slide guiding part; and the slide guiding piece is further pivoted with a moving piece rolling on the second slide guiding piece. The sliding cover linkage mechanism can effectively avoid impact on a sliding cover due to instantaneous change of an excessive driving force and reduce the probability of damage of related components, has a smooth hand feeling in operation, and can improve the competitiveness of products.
Description
Technical field
The utility model relates to a kind of slip lid interlinked mechanism, particularly a kind of slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently.
Background technology
Flourish along with various portable electric products, the structure that is applied to the slip lid interlock is also constantly brought forth new ideas thereupon, and for example TaiWan, China is announced I208031 patent " cover sliding device ", bulletin M297113 patent " slidingtype armature apparatus ", the bulletin M379940 patent disclosed structures of patent case such as " the Flexible element structure-improveds of cover sliding device ".But its structure that drives this slip lid is only considering how easy passing slip lid produces semi-automatic unlatching or closed condition mostly, then more rare for the buffering of displacement end or the design of slowing down, even if relevant design all is that the elasticity barrier module is set endways, but the cushion stroke of these assemblies is all very narrow and shallow, cause this slip lid in the end of opening or close closed procedure, being easy to generate more violent slip deceleration changes, cause the repeated stock of this cover sliding device, and then influence the assembling steadiness of associated component, even cause the damage of dependent part product.
For this reason, TaiWan, China patent 200950462 " electronic installation with buffer-type sliding closure function " discloses a kind of electronic installation, it mainly comprises a body and a slip lid that can slide on this body, and between this body and slip lid, be provided with a buffer cell, this buffer cell can produce a resistance when slip lid slides with respect to body, to slow down the sliding speed of this slip lid; Yet, though the bad impact that this kind structure can avoid slip lid to stop to cause because of high-speed slide and moment to a certain extent to product, hinder but simultaneously the actuating force that promotes slip lid is formed, cause the user to operate this device with the bigger application of force (drive this slip lid simultaneously and overcome the resistance of this buffer cell), thus, not only influence the portability that it uses, also form the disappearance on using.
The utility model content
The technical problems to be solved in the utility model provides a kind of slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently, its slip lid that is applicable to large-scale electronic product drives, impact in the time of effectively avoiding excessive actuating force instantaneous variation to cause slip lid to open or close, thus the possibility that associated component is damaged reduced; It can produce sliding suitable open and close operating handle simultaneously, promotes the whole competitiveness of product.
For solving the problems of the technologies described above, the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of the present utility model comprises: a pedestal, it has an accommodation space and at least one first guide sliding part, in this accommodation space, be provided with at least one second guide sliding part, and be provided with a bend in this second guide sliding part stage casing; One slide, it is cross-placed on the described accommodation space, and this slide has the combined joint portion of at least one and described first guide sliding part, so that this slide is able to form slippage along first guide sliding part on described accommodation space, side position near second guide sliding part is provided with a ccontaining recess on this slide in addition, is provided with the 3rd guide sliding part towards described bend extension in this ccontaining recess; At least one first elastic component, it ties in described accommodation space position near bend with an end pivot, and the other end of this first elastic component then pivot is tied stage casing in this slide, uses the power that this slide slides to second guide sliding part, two ends that drives that produces; At least one second elastic component, it produces the elastic force less than first elastic component in operating process, it is positioned in the described ccontaining recess with an end, its other end then links a slide guide part that slides in the 3rd guide sliding part, and articulates a moving member that moves on second guide sliding part on this slide guide part in addition.
According to said structure, wherein said pedestal is provided with two first guide sliding parts that extend in parallel in two sides of accommodation space.
According to said structure, in the wherein said accommodation space in position that should 2 first guide sliding parts is respectively equipped with the second symmetrical guide sliding part.
According to said structure, wherein said slide is respectively equipped with a ccontaining recess in the side position near 2 second guide sliding parts, in this two ccontaining recess and in conjunction with a sub-assembly, then is respectively equipped with the 3rd guide sliding part towards described bend extension on each sub-assembly.
The slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of the present utility model, its slip lid that is applicable to large-scale electronic product drives, impact in the time of effectively avoiding excessive actuating force instantaneous variation to cause this slip lid to open or close, thus the possibility that associated component is damaged reduced; It can produce sliding suitable open and close operating handle simultaneously, promotes the whole competitiveness of product.
Description of drawings
Below in conjunction with accompanying drawing and embodiment the utility model is described in further detail:
Fig. 1 is a structure decomposition map of the present utility model;
Fig. 2 is unit assembly drawings such as first and second elastic component of the utility model and slide;
Fig. 3 for the utility model with pedestal part hollow out so that see the combination schematic diagram look;
Fig. 4 is operational motion figure of the present utility model ();
Fig. 5 is operational motion figure of the present utility model (two);
Fig. 6 is operational motion figure of the present utility model (three);
Fig. 7 is operational motion figure of the present utility model (four);
Fig. 8 is operational motion figure of the present utility model (five);
Fig. 9 is the dependent interaction force curve figure of the utility model when operation.
Embodiment
Fig. 1 to Fig. 3 is the utility model structural representation, and it comprises: pedestal 1, slide 2, first elastic component 3 and second elastic component 4.Have an accommodation space 11 and at least one first guide sliding part 13 on the wherein said pedestal 1, in this accommodation space 11, be provided with at least one second guide sliding part 12 in addition, among the embodiment as shown in the figure, two sides in this accommodation space 11 are provided with first guide sliding part 13 (or being the chute of a depression) that extends in parallel, and two sides in accommodation space 11 are respectively equipped with second guide sliding part 12 (or being a side rails that is horizontally set with), be provided with a bend 123 (in the diagram for the pattern of enlarged portion) gradually at least one second guide sliding part 12 stage casings, bend 123 can change the spacing of 2 second guide sliding parts 12 gradually, and in 2 second guide sliding parts 12 towards two ends 121,125 with enlarged portion 123 between form an oblique portion 122 that is connected respectively, 124, and in this two end 121, then be respectively equipped with location indentations 1211 on 125,1251, slide 2 is cross-placed on the described accommodation space 11, be provided with the combined joint portion 23 of at least one and this first guide sliding part 13 in this slide 2, be to be provided with two joint portions 23 (or for cooperating the hook portion of this chute) in the diagram in slide 2 two other positions corresponding to first guide sliding part 13 (chute), form combination for stretching in this first guide sliding part 13, make this slide 2 be able on this accommodation space 11, form slippage along this first guide sliding part 13, position near second guide sliding part 12 (side rails) side is respectively equipped with a ccontaining recess 21 on this slide 2 in addition, in each ccontaining recess 21 respectively in conjunction with a sub-assembly 22 by two relative combinations of lid, and be provided with the 3rd guide sliding part 221 (or being the guide groove of a hollow out) towards these bend 123 extensions in each sub-assembly 22, first elastic component 3 is incorporated into the elastic support 31 of two-phase fit respectively with two ends by a plurality of springs 33 in this icon, form on 32, this first elastic component 3 is tied in described accommodation space 11 position near enlarged portion 123 sides with an end (end of tool elastic support 31) pivot, the other end of this first elastic component 3 (end of tool elastic support 32) then pivot is tied in the stage casing of described slide 2, second elastic component 4 is one can produce the elastomer less than first elastic component, 3 elastic force, in this icon, be fixed in sub-assembly 22 inside with an end respectively by a plurality of springs 44, and the other end of each spring 44 is incorporated on the slide guide support 41 of a T shape, and this slide guide support 41 and in conjunction with a slide guide part 42 that slides in the 3rd guide sliding part 221 (guide groove), and this slide guide part 42 articulates a moving member 43 (or being a roller) that moves in addition on second guide sliding part 12.
As Fig. 4 to 8 figure, the utility model is incorporated into described pedestal 1 on the pedestal (or shell block) of an electronic product, and described slide 2 is combined with the slip lid of this electronic product when practical application.During operation, when the user promotes to open slip lid, the slippage on described accommodation space 11 of this slide 2 of interlock; Slide 2 by initial end 121 beginning when 125 displacements of the other end, gradually reduce this first elastic component 3 that is initially extended configuration with storage power, simultaneously, this second elastic component 4 that is initially extended state shrinks (releasing energy) gradually with it, and drive described slide guide part 42 and slide along the 3rd guide sliding part 221 (guide groove), and drive this moving member 43 (roller) and break away from location indentations 1211 by initial end 121, and be rolled in the bend 123 (as Fig. 4 to shown in Figure 6) via oblique portion 122, herein, this first elastic component 3 is in a maximum and is compressed (storage power) state, second elastic component 4 then is in a maximum collapse (releasing energy) state, in this process, since slide guide part 42 be subjected to second elastic component 4 shrinkage tensions and towards bend 123 direction slippages, therefore can be same as the promotion of glide direction to slide 2 formation one, so, can effectively produce the strength of an assistance compression first elastic component 3, the application of force when the saving operator promotes to open slip lid (slide 2); And after described moving member 43 (roller) rolling surpasses these bend 123 positions, first elastic component 3 promptly begins oppositely to stretch gradually (releasing energy), so that slide 2 (slip lid) is formed a thrust, and then order about this slide 2 (slip lid) and continue to slide, at this moment, this oblique portion 124 can form one and stop to the rolling of moving member 43 (roller), and order about slide guide part 42 along the 3rd guide sliding part 221 (guide groove) gradually this second elastic component 4 (as shown in Figure 7) of negative drawing with storage power, and then the slippage of this slide 2 (slip lid) formed a damping that increases gradually, to slow down the sliding speed of this slide 2 (slip lid), and when moving to oblique portion 124 ends (first elastic component, 3 maximum extension position) along with this moving member 43 (roller), this damping is maximum (second elastic component, 4 maximum tension positions), by this, make this slip lid (slide 2) preceding in complete opening (moving member 43 moves in the location indentations 1251 of end 125), produce a splendid terminal buffering effect (as shown in Figure 8) by this, to avoid this slip lid because of at the opening travel end, produce excessive spot speed and cause the bad impact of associated component, and then reduce associated component damage phenomenon therefore.
Fig. 9 is the dependent interaction force curve figure of the utility model when operation, wherein this longitudinal axis is a directed force F, transverse axis is stroke D, the F1 curve is slip lid required primitive operation application of force curve when moving (overcoming the elasticity of first elastic component 3) in two oblique portions 122,124 and bend 123, the F2 curve is the active force curve that second elastic component 4 acts on slip lid (slide 2), and the F3 curve then is the practical operation application of force curve after this F1 curve and F2 curve are cancelled out each other.When practical application, according to primitive operation application of force curve F1 (not considering the active force of second elastic component 4), in preceding half section (being A to the B point) process of opening slip lid, owing to must promote this slip lid (slide 2) and compress this first elastic component 3 with storage power, therefore its application of force system increases gradually, when this slip lid slides onto position, stage casing (being the B point), its operation application of force is maximum (FG), and second half section (B to the C point) process that enters the unlatching slip lid when slip lid by the position, stage casing, owing to stretching (releasing energy) gradually, first elastic component 3 assists promotion this slip lid (slide 2), and this operation application of force descends gradually, behind this slip lid complete opening (being the C point), this operation application of force is minimum (among the figure with null representation) of whole unidirectional stroke, otherwise, when this slip lid is reversed shutoff stroke (being C to F point), in preceding half section process (C to E point) of closing slip lid (slide 2), the reverse operation application of force increases gradually, when this slip lid slides onto position, stage casing (being the E point), its operation application of force is a maximum, enter second half section (being E to the F point) process of closing slip lid by position, stage casing (being the E point) and work as slip lid, owing to stretching (releasing energy) gradually, first elastic component 3 assists promotion this slip lid (slide 2), therefore this operation application of force descends gradually, after this slip lid is closed (being the F point) fully, this operation application of force is zero, and this is a complete slip lid and opens and closes stroke; And according to shown in the second elastic component active force curve F2, this second elastic component 4 (for example: in B point generation one opposite force FI produces a less opposition according to the flexible of first elastic component 3, and produce an opposite force FJ in the E point), to offset the active force of part primitive operation application of force curve F1, so promptly formed the net effort shown in reality operation application of force curve F3; This slip lid is opened by closed condition, or when closing, all can be produced a splendid buffering effect (maximum damping), avoiding causing the impact of slip lid, and then reduce the damage situation of associated component because of excessive speed by opening.
In the structure of the present utility model, the bend 123 of described slide 2 is except the kenel (making 4 contraction distortions of second elastic component) for the expansion outside two sides shown in the illustrated embodiment, it also can be the kenel (making this second elastic component, 4 extensional deformations) that contracts in the central authorities to the inside, change again or with the force direction of 12 pairs of moving members 43 of 2 second guide sliding parts, and when the push-and-pull direction of second elastic component 4 also cooperates change, all produce process auxiliary drive or suppress the required elastic force of slide 2, and then reach the effect identical with aforementioned need via second elastic component 4.
Comprehensive the above, the utility model has auxiliary promote and the slip lid interlinked mechanism of terminal buffering effect really can be reached and promotes laborsavingly concurrently, and has the effect of slip buffer protection.The content of above-mentioned explanation only is the utility model preferred embodiment explanation, and promptly all variation, modification, change or equivalent replacement persons who is extended according to technological means of the present utility model and category all belong to the utility model protection range.
Claims (46)
1. a slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently is characterized in that, comprises at least:
One pedestal has an accommodation space and at least one first guide sliding part, is provided with at least one second guide sliding part in this accommodation space, and is provided with a bend in this second guide sliding part stage casing;
One slide, it is cross-placed on the described accommodation space, and this slide has the combined joint portion of at least one and described first guide sliding part, this slide forms slippage along first guide sliding part on described accommodation space, side position near second guide sliding part is provided with a ccontaining recess on this slide in addition, is provided with the 3rd guide sliding part towards described bend extension in this ccontaining recess;
At least one first elastic component, it ties in described accommodation space position near bend with an end pivot, and the other end of this first elastic component then pivot is tied stage casing in described slide;
At least one second elastic component, it is positioned in the described ccontaining recess with an end, and its other end then links a slide guide part that slides in the 3rd guide sliding part, and articulates a moving member that moves on second guide sliding part on this slide guide part in addition.
2. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 1, it is characterized in that: described bend is towards the outer side bending of described pedestal.
3. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 1, it is characterized in that: described bend is towards the inboard central bend of described pedestal.
4. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described pedestal is provided with two first guide sliding parts that extend in parallel in two sides of accommodation space.
5. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 4 is characterized in that: is respectively equipped with the second symmetrical guide sliding part in the position of described 2 first guide sliding parts of correspondence in the described accommodation space.
6. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described each second guide sliding part is in the two distolateral ends with location indentations of establishing respectively, and forms an oblique portion that is connected respectively between two ends and the bend.
7. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 4, it is characterized in that: described each second guide sliding part is in the two distolateral ends with location indentations of establishing respectively, and forms an oblique portion that is connected respectively between two ends and the bend.
8. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 5, it is characterized in that: described each second guide sliding part is in the two distolateral ends with location indentations of establishing respectively, and forms an oblique portion that is connected respectively between two ends and the bend.
9. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described each slide is provided with a ccontaining recess in the side position near second guide sliding part, in this ccontaining recess and in conjunction with a sub-assembly, be provided with the 3rd guide sliding part towards described bend extension in this sub-assembly.
10. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 4, it is characterized in that: described each slide is provided with a ccontaining recess in the side position near second guide sliding part, in this ccontaining recess and in conjunction with a sub-assembly, be provided with the 3rd guide sliding part towards described bend extension in this sub-assembly.
11. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 5, it is characterized in that: described each slide is provided with a ccontaining recess in the side position near second guide sliding part, in this ccontaining recess and in conjunction with a sub-assembly, be provided with the 3rd guide sliding part towards described bend extension in this sub-assembly.
12. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 6, it is characterized in that: described each slide is provided with a ccontaining recess in the side position near second guide sliding part, in this ccontaining recess and in conjunction with a sub-assembly, be provided with the 3rd guide sliding part towards described bend extension in this sub-assembly.
13. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 7, it is characterized in that: described each slide is provided with a ccontaining recess in the side position near second guide sliding part, in this ccontaining recess and in conjunction with a sub-assembly, be provided with the 3rd guide sliding part towards described bend extension in this sub-assembly.
14. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 8, it is characterized in that: described each slide is provided with a ccontaining recess in the side position near second guide sliding part, in this ccontaining recess and in conjunction with a sub-assembly, be provided with the 3rd guide sliding part towards described bend extension in this sub-assembly.
15. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described second elastic component is incorporated on the slide with an end of a plurality of springs, and its other end is incorporated on the slide guide support, and this slide guide support is in conjunction with the slide guide part that is somebody's turn to do slippage in the 3rd guide sliding part, and this slide guide part pivot is in addition tied the moving member that moves on second guide sliding part.
16. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 5, it is characterized in that: described second elastic component is incorporated on the slide with an end of a plurality of springs, and its other end is incorporated on the slide guide support, and this slide guide support is in conjunction with the slide guide part of described slippage in the 3rd guide sliding part, and this slide guide part pivot is in addition tied the moving member that moves on second guide sliding part.
17. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 6, it is characterized in that: described second elastic component is incorporated on the slide with an end of a plurality of springs, and its other end is incorporated on the slide guide support, and this slide guide support is in conjunction with the slide guide part of described slippage in the 3rd guide sliding part, and this slide guide part pivot is in addition tied the moving member that moves on second guide sliding part.
18. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 7, it is characterized in that: described second elastic component is incorporated on the slide with an end of a plurality of springs, and its other end is incorporated on the slide guide support, and this slide guide support is in conjunction with the slide guide part of be set forth in slippage in the 3rd guide sliding part, and make this slide guide part in addition pivot tie the moving member that on second guide sliding part, moves.
19. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 8, it is characterized in that: described second elastic component is incorporated on the slide with an end of a plurality of springs, and its other end is incorporated on the slide guide support, and this slide guide support is in conjunction with the slide guide part of be set forth in slippage in the 3rd guide sliding part, and this slide guide part pivot is in addition tied the moving member that moves on second guide sliding part.
20. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 9, it is characterized in that: described second elastic component is incorporated on the slide with an end of a plurality of springs, and its other end is incorporated on the slide guide support, and this slide guide support is in conjunction with the slide guide part of be set forth in slippage in the 3rd guide sliding part, and this slide guide part pivot is in addition tied the moving member that moves on second guide sliding part.
21. any one describedly has auxiliary the promotion and slip lid interlinked mechanism of terminal buffering effect concurrently as claim 1 to 3, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
22. as claimed in claim 4ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
23. as claimed in claim 5ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
24. as claimed in claim 6ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
25. as claimed in claim 7ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
26. as claimed in claim 8ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
27. as claimed in claim 9ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit to be formed.
28. as claimed in claim 15ly have auxiliary the promotion and the slip lid interlinked mechanism of terminal buffering effect concurrently, it is characterized in that: described first elastic component system is incorporated into respectively with two ends by a plurality of springs on the elastic support of two-phase fit and is formed.
29. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described first guide sliding part is a chute.
30. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 4, it is characterized in that: described first guide sliding part is a chute.
31. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 5, it is characterized in that: described first guide sliding part is a chute.
32. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 6, it is characterized in that: described first guide sliding part is a chute.
33. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 7, it is characterized in that: described first guide sliding part is a chute.
34. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 8, it is characterized in that: described first guide sliding part is a chute.
35. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described second guide sliding part is a side rails.
36. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 4, it is characterized in that: described second guide sliding part is a side rails.
37. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 5, it is characterized in that: described second guide sliding part is a side rails.
38. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 6, it is characterized in that: described second guide sliding part is a side rails.
39. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 7, it is characterized in that: described second guide sliding part is a side rails.
40. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 8, it is characterized in that: described second guide sliding part is a side rails.
41. as any one described slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently of claim 1 to 3, it is characterized in that: described the 3rd guide sliding part is the guide groove of a hollow out.
42. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 4, it is characterized in that: described the 3rd guide sliding part is the guide groove of a hollow out.
43. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 5, it is characterized in that: described the 3rd guide sliding part is the guide groove of a hollow out.
44. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 6, it is characterized in that: described the 3rd guide sliding part is the guide groove of a hollow out.
45. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 7, it is characterized in that: described the 3rd guide sliding part is the guide groove of a hollow out.
46. the slip lid interlinked mechanism that has auxiliary promotion and terminal buffering effect concurrently as claimed in claim 8, it is characterized in that: described the 3rd guide sliding part is the guide groove of a hollow out.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011200581425U CN201976373U (en) | 2011-03-08 | 2011-03-08 | Sliding cover linkage mechanism with both auxiliary pushing and tail end buffering effects |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011200581425U CN201976373U (en) | 2011-03-08 | 2011-03-08 | Sliding cover linkage mechanism with both auxiliary pushing and tail end buffering effects |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201976373U true CN201976373U (en) | 2011-09-14 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2011200581425U Expired - Fee Related CN201976373U (en) | 2011-03-08 | 2011-03-08 | Sliding cover linkage mechanism with both auxiliary pushing and tail end buffering effects |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201976373U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112399117A (en) * | 2019-08-15 | 2021-02-23 | 青岛海尔多媒体有限公司 | Sliding cover driving system and laser television |
| CN112399118A (en) * | 2019-08-15 | 2021-02-23 | 青岛海尔多媒体有限公司 | Sliding cover driving mechanism, sliding cover and laser television |
-
2011
- 2011-03-08 CN CN2011200581425U patent/CN201976373U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112399117A (en) * | 2019-08-15 | 2021-02-23 | 青岛海尔多媒体有限公司 | Sliding cover driving system and laser television |
| CN112399118A (en) * | 2019-08-15 | 2021-02-23 | 青岛海尔多媒体有限公司 | Sliding cover driving mechanism, sliding cover and laser television |
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