CN103032661A

CN103032661A - Support mechanism

Info

Publication number: CN103032661A
Application number: CN2012102089453A
Authority: CN
Inventors: 徐年宗; 林信宏
Original assignee: Qisda Suzhou Co Ltd; Qisda Corp
Current assignee: Qisda Suzhou Co Ltd; Qisda Corp
Priority date: 2012-06-25
Filing date: 2012-06-25
Publication date: 2013-04-10
Anticipated expiration: 2032-06-25
Also published as: CN103032661B

Abstract

The invention discloses a support mechanism, which comprises a base and a bracket; the base comprises a main body, a convex block, a first blocking part and a first fastening part; the main body has a sunken structure; the convex block is arranged in the sunken structure; the first blocking part is arranged at a first side in the sunken structure; and the first fastening part is arranged on the surface of the convex block; the bracket comprises a column body, a second blocking part and a second fastening part; the column body is sleeved on the convex block; the second blocking part is arranged at a first end of the column body; the second fastening part is arranged on the surface of the column body; the second blocking part is jointed with the first blocking part to limit the column body to move along a first direction and a second direction relative to the main body; when the column body is sleeved on the convex block, the second fastening part is fastened with the first fastening part to limit the column body to separate with the base. The support mechanism provided by the invention enables the external forces applied to a display along three directions to be transmitted uniformly, and thus, the structural stability of the product provided by the invention is improved.

Description

Supporting mechanism

Technical field

The present invention relates to a kind of supporting mechanism, espespecially a kind of outside of can evenly transmitting is stressed to guarantee the supporting mechanism of complete machine stability.

Background technique

In order to satisfy user's demand, the appearance and modeling of liquid crystal screen display now is in customized mode as the production main flow.But when pursuing compact trend, the bracket institution product cost of display device and functional considering down need have structure-reinforced characteristic concurrently, so the design difficulty of associated mechanisms is also more and more higher.For instance, the bracket institution of known display device comprises main body die castings and outward appearance plastic.Main body is made by die-casting technique, and its cost of material, fabricating cost and degree of difficulty are relatively high; Plastic by the die casting main body being connected to base, and the stability when utilizing the mode of quick detach screw locking to guarantee that display device is subject to the external force pushing.Yet conventional stent mechanism links plastic with the die casting main body and base can produce bulky and heavy shortcoming, significantly improve the cost of transportation of product, therefore how to design a kind of possessing under the functional prerequisite of product structure, still have splendid fixing bracket institution with supporting effect, need the target of giving priority to of effort for mechanism's industry badly.

Summary of the invention

Therefore, the object of the present invention is to provide a kind of supporting mechanism, it has multidirectional snap-in structure, is applied to forward and backward thrust on the supported object with even transmission, downforce and rotate stressedly, and the stability of Effective Raise integral body is to solve the above problems.

The present invention is a kind of supporting mechanism, and this supporting mechanism includes: base, and this base includes: main body, this main body has sunk structure; Projection, this projection are arranged in this sunk structure; The first engagement portion, this first engagement portion are arranged at the first side in this sunk structure; And the first snapping section, this first snapping section is arranged at the surface of this projection; And support, this support is arranged on this base, and this support includes: cylinder, this cylinder are hollow member, in order to be sheathed on this projection; The second engagement portion, this second engagement portion is arranged at the first end of this cylinder, and this second engagement portion engages with this first engagement portion, to limit this cylinder along first direction and the second direction that is different from this first direction moving relative to this main body; With the second snapping section, this second snapping section is arranged at the surface of this cylinder, and when this cylinder was sheathed on this projection, this second snapping section and this first snapping section snapping separated with this base to prevent this cylinder.

In an embodiment, this second snapping section is buckled in this first snapping section, separates with this base with the third direction of this second direction along being different from this first direction to prevent this cylinder.

In another embodiment, this base includes in addition: the elastic arm, and this elastic arm is arranged at the surface of this projection, and this first snapping section is formed on this elastic arm.

In another embodiment, this first engagement portion and this second engagement portion are respectively holes and snap fit, and this first snapping section and this second snapping section are respectively fastener and button hole.

In a specific embodiment, this base includes the first embedding part in addition, and this first embedding part is arranged between the sidewall of this projection and this sunk structure, and is positioned at this sunk structure second side relative with this first side; And this support includes the second embedding part in addition, and this second embedding part is arranged at second end relative with this first end, and this second embedding part engages with this first embedding part, to limit this cylinder along this second direction moving relative to this main body.

In another specific embodiment, the width of this first side of this sunk structure is less than the width of this second side, and the width of this first end of this cylinder is less than the width of this second end.

In another specific embodiment, this projection has the first cambered surface, and the centre of curvature of this first cambered surface is positioned at this first engagement portion, and this column body has the second cambered surface of corresponding this first cambered surface, and the centre of curvature of this second cambered surface is positioned at this second engagement portion.

In a preferred embodiment, the centre of curvature of this first cambered surface is spent less than 45 to the vertical line angle on the limit, lower end of this first cambered surface to the vertical line on the limit, upper end of this first cambered surface and the centre of curvature of this first cambered surface.

In another preferred embodiment, this column body has abutting part and depressed part in addition, the position on relative this second cambered surface setting of this abutting part and contiguous this limit, upper end, and this depressed part is arranged at the position on this abutting part side and contiguous this limit, lower end.

In another preferred embodiment, this first cambered surface attaches this second cambered surface, and this abutting part attaches the bearing surface of this projection, moves relative to this projection along this first direction to limit this cylinder.

In a preferred embodiment, this support includes a plurality of rib structures in addition, and these a plurality of rib structures are arranged at the inside of this cylinder, the outer surface of this projection of butt when being used to this cylinder and being sheathed with this projection.

Compared to prior art, fixed structure between improved support of the present invention and base, snap-in structure, fastening structure and embedded structure are arranged at respectively different azimuth with opposing thrust and torsion, so that the external force that is applied to display device along three directions can evenly be transmitted by supporting mechanism, and then the structure stability of product of the present invention is used in raising, overcome in the prior art, use the huge and heavy shortcoming of quick detach structural volume that screw locking causes.

Can be further understood by following specific embodiment and Figure of description about the advantages and spirit of the present invention.

Description of drawings

Fig. 1 is the element exploded perspective view of the display device of the embodiment of the invention.

Fig. 2 and Fig. 3 are respectively the base of the embodiment of the invention in the different visual angles schematic representation.

Fig. 4 to Fig. 6 is respectively the support of the embodiment of the invention in the different visual angles schematic representation.

Fig. 7 is the structure sectional view of the base of the embodiment of the invention.

Fig. 8 is the structure sectional view of the support of the embodiment of the invention.

Fig. 9 to Figure 11 is respectively the supporting mechanism of the embodiment of the invention in the schematic representation in different operating stage.

[primary component symbol description]

10 display devices, 12 display floaters

14 supporting mechanisms, 16 bases

17 supports, 18 main bodys

181 sunk structures, 183 first sides

185 second sides, 20 projections

Limit, 201 first cambered surfaces, 203 upper end

Limit, 205 lower end 207 bearing surfaces

22 first engagement portions, 24 first snapping sections

26 elastic arms, 28 first embedding parts

30 cylinders, 301 first ends

303 second ends, 305 second cambered surfaces

307 abutting parts, 309 depressed parts

309a wall 32 second engagement portions

34 second snapping sections, 36 second embedding parts

38 rib structure D1 first directions

D2 second direction D3 third direction

H1 length H2 height

Embodiment

For making purpose of the present invention, structure, feature and function thereof there are further understanding, hereby cooperate embodiment to be described in detail as follows.

See also Fig. 1, Fig. 1 is the element exploded perspective view of the display device of the embodiment of the invention.Display device 10 includes display floater 12 and supporting mechanism 14, and supporting mechanism 14 is used for carrying display floater 12 (meaning is supported object), so that display floater 12 can provide suitable appreciative perspective according to user's demand.Supporting mechanism 14 includes base 16 and support 17, but support 17 be arranged on the base 16 in the removal mode, be convenient to assembling use or remove after carry.

See also Fig. 2 and Fig. 3, Fig. 2 and Fig. 3 are respectively the base of the embodiment of the invention in the different visual angles schematic representation.Base 16 includes main body 18, projection 20, the first engagement portion 22, two the first snapping sections 24, two elastic arms 26 and a plurality of the first embedding part 28.Main body 18 is disk-like structure, is placed in the substrate of desktop as display device 10.Main body 18 has sunk structure 181, is formed at the zone, stage casing of main body 18.Projection 20 is arranged in the sunk structure 181, and when support 17 connected base 16, projection 20 was the main stress structural member of supporting mechanism 14.The first engagement portion 22 is arranged at the first side 183 of sunk structure 181.The first snapping section 24 is arranged at the surface of projection 20.Two elastic arms 26 are arranged at respectively two apparent surfaces of projection 20, and each first snapping section 24 is formed on the corresponding elastic arm 26.A plurality of the first embedding parts 28 are separately positioned between the sidewall of projection 20 and sunk structure 181, and are positioned at the relative second side 185 in sunk structure 181 and first side 183.

See also Fig. 4 to Fig. 6, Fig. 4 to Fig. 6 is respectively the support 17 of the embodiment of the invention in the different visual angles schematic representation.Support 17 includes cylinder 30, the second engagement portion 32, two the second snapping sections 34, a plurality of the second embedding part 36 and a plurality of rib structures 38.Cylinder 30 is hollow member, is used for being set in relatively moving with limitation support 17 and base 16 on the projection 20.The second engagement portion 32 is arranged at the first end 301 of cylinder 30, the second engagement portion 32 engages with the first engagement portion 22, moves relative to main body 18 with the second direction D2 that is different from first direction D1 (as shown in Figure 4) along first direction D1 (as shown in Figure 4) with restriction cylinder 30.

Extremely shown in Figure 6 such as Fig. 4, two the second snapping sections 34 are arranged at respectively two apparent surfaces of cylinder 30, when cylinder 30 is sheathed on the projection 20 with its hollow feature, each second snapping section 34 and corresponding the first snapping section 24 snappings are to prevent cylinder 30 disengaging bases 16.A plurality of the second embedding parts 36 are separately positioned on second end 303 relative with cylinder 30 first ends 301, and each second embedding part 36 engages with corresponding the first embedding part 28, to limit cylinder 30 along second direction D2 moving relative to main body 18.Rib structure 38 is arranged at the inside of cylinder 30, and as shown in Figure 6, when cylinder 30 was set on the projection 20, each rib structure 38 can be connected to the outer surface of projection 20, the adaptation when improving by this support 17 and being connected with base 16.

Suppose on the projection 20 that this surface close with first side 183 is the front surface of projection 20, the face relative with this front surface is the rear surface of projection 20, and the face adjacent with the front surface of projection 20 is the side surface of projection 20; And this surface of supposing 32 places, the second engagement portion on the cylinder 30 is the front surface of cylinder 30, and the face relative with the front surface of cylinder 30 is the rear surface of cylinder 30, and the face adjacent with the front surface of cylinder 30 is the side surface of cylinder 30.When the first snapping section 24 is arranged at the rear surface of projection 20, and the second snapping section 34 is when being arranged at the rear surface of cylinder 30, and the first snapping section 24 can limit cylinder 30 with the combination of the second snapping section 34 and separate with base 16 along first direction D1.On the other hand, in preferred embodiment of the present invention, the first snapping section 24 also can be arranged on the side surface of projection 20, the second snapping section 34 can be arranged on the side surface of cylinder 30, therefore the combination of 34 snapping to the first snapping sections 24 of the second snapping section with available to prevent that cylinder 30 from separating with base 16 with the third direction D3 (as shown in Figure 4) of second direction D2 along being different from first direction D1.

To shown in Figure 6, the first engagement portion 22 and the second engagement portion 32 can be respectively holes and snap fit such as Fig. 2, and the first snapping section 24 and the second snapping section 34 can be respectively fastener and button hole.The position of bull (snap fit and fastener) and parent part (holes and button hole) can exchange mutually to be exchanged, and allly can all belong to technical field of the present invention with the structure of the relative displacement that limits two members in order to fluid-tight engagement, so no longer describe in detail in this.In addition, the first embedding part 28 and the second embedding part 36 can be respectively limiting board and restraining groove, with respect to aforesaid snap-in structure and fastening structure, when the second engagement portion 32 is engaged to the first engagement portion 22, the second embedding part 36 is taken advantage of a situation along with the upset of cylinder 30 and is slided to the first embedding part 28, so that limiting board snaps in restraining groove and reaches spacing function.

See also Fig. 7 and Fig. 8, Fig. 7 is the structure sectional view of the base 16 of the embodiment of the invention, and Fig. 8 is the structure sectional view of the support 17 of the embodiment of the invention.Projection 20 can have the first cambered surface 201, and the centre of curvature of the first cambered surface 201 is positioned in fact the first engagement portion 22.The inside of cylinder 30 can have the second cambered surface 305 of corresponding the first cambered surface 201, and the centre of curvature of the second cambered surface 305 is positioned in fact the second engagement portion 32.As shown in Figure 7, the vertical line angle of the centre of curvature of the first cambered surface 201 to the centre of curvature of the vertical line on the limit, upper end 203 of the first cambered surface 201 and the first cambered surface 201 to the limit, lower end 205 of the first cambered surface 201 can be designed in fact less than 45 degree, with the relative ratio of its basal area of the height of effective reduction projection 20, be convenient to the user with cylinder 30 sheathed being covered on the projection 20.

Moreover cylinder 30 inside can have abutting part 307 and depressed part 309 in addition.Abutting part 307 can be arranged at the position on relative the second cambered surface 305 and limit 203, contiguous upper end, and depressed part 309 then can be arranged at abutting part 307 sides but the position on limit, contiguous lower end 205.In the process of cylinder 30 sheathed projections 20, depressed part 309 can produce interference in order to avoid projection 20 to collide the internal structure of cylinder 30, therefore the present invention designs the structure characteristic of depressed part 309 with the headroom of stepping down in cylinder 30 inner parts, so projection 20 will can not touch the wall 309a of depressed part 309, also can not obstruct the combination of projection 20 and cylinder 30.When cylinder 30 intactly is sheathed with projection 20, meaning i.e. the second engagement portion 32 engages the

first engagement portion

22,34 snappings the first snapping section 24 of the second snapping section, when the second embedding part 36 connects the first embedding part 28, the first cambered surface 201 can attach the second cambered surface 305, this moment, abutting part 307 can closely be pasted to the bearing surface 207 of projection 20, used restriction cylinder 30 along first direction D1 moving relative to projection 20.Furthermore, the length H1 of abutting part 307 can be same as in fact projection 20 height H 2 1/3rd, so abutting part 307 and bearing surface 207 just have enough area of contact to reach better support effect.

In sum, the invention provides a kind of supporting mechanism 14 with three direction limit functions, and utilize two section type group cube formula in conjunction with support 17 and base 16, that can effectively evenly transmit all directions applies external force to guarantee complete machine stability.See also Fig. 2, Fig. 4, reach Fig. 9 to Figure 11, Fig. 9 to Figure 11 is respectively the supporting mechanism 14 of the embodiment of the invention in the schematic representation in different operating stage.During wish assembling supporting mechanism 14, the user at first down is placed in the direction of support 17 along opposite third direction D3 on the base 16, as shown in Figure 9, and makes the second engagement portion 32 can join the first engagement portion 22 to, as shown in figure 10.Then, support 17 can utilize the first engagement portion 22 to pivot for the relative base 16 in axle center with the binding site of the second engagement portion 32, as shown in figure 11, and so that cylinder 30 complete covers are set on the projection 20.It is worth mentioning that, the width of the first side 183 of sunk structure 181 can be in fact less than the width of second side 185, correspondingly, the width of the first end 301 of cylinder 30 is also in fact less than the width of the second end 303, when support 17 relative bases 16 pivoted to be inserted in sunk structure 181 inside, the side limit that sunk structure 181 is different from first side 183 and second side 185 began to provide stable support power to support 17 thus.

Specifically, along with support 17 relative bases 16 pivot, can submerge in the sunk structure 181 of base 16 gradually in the bottom of support 17, elastic arm 26 can be subjected to support 17 compressing and deformation is interfered support 17 to reduce, until the first snapping section 24 is buckled in the second snapping section 34, in this simultaneously, the first embedding part 28 is engaged in the second embedding part 36.Guarantee that except utilizing above-mentioned snap-in structure, fastening structure and embedded structure support 17 is along the restraining of the relative base 16 with third direction D3 of first direction D1, second direction D2, the second cambered surface 305 of cylinder 30 can be used to paste the first cambered surface 201 of neat projection 20 in addition, 307 of the abutting parts of cylinder 30 are connected to the bearing surface 207 of projection 20, and rib structure 38 is pasted to the outer surface of projection 20, so the present invention can be by the complete machine stability that improves cylinder 30 and projection 20 adaptations and improve display device 10.

The above only is preferred embodiment of the present invention, and all equalizations of doing according to the present patent application claim change and modify, and all should belong to covering scope of the present invention.

Claims

1. supporting mechanism is characterized in that this supporting mechanism includes:

Base, this base includes:

Main body, this main body has sunk structure;

Projection, this projection are arranged in this sunk structure;

The first engagement portion, this first engagement portion are arranged at the first side in this sunk structure; And

The first snapping section, this first snapping section is arranged at the surface of this projection; And

Support, this support are arranged on this base, and this support includes:

Cylinder, this cylinder are hollow member, in order to be sheathed on this projection;

The second engagement portion, this second engagement portion is arranged at the first end of this cylinder, and this second engagement portion engages with this first engagement portion, to limit this cylinder along first direction and the second direction that is different from this first direction moving relative to this main body; And

The second snapping section, this second snapping section is arranged at the surface of this cylinder, and when this cylinder was sheathed on this projection, this second snapping section and this first snapping section snapping separated with this base to prevent this cylinder.

2. supporting mechanism as claimed in claim 1 is characterized in that this second snapping section is buckled in this first snapping section, separates with this base with the third direction of this second direction along being different from this first direction to prevent this cylinder.

3. supporting mechanism as claimed in claim 1 is characterized in that this base includes in addition:

The elastic arm, this elastic arm is arranged at the surface of this projection, and this first snapping section is formed on this elastic arm.

4. supporting mechanism as claimed in claim 1 is characterized in that this first engagement portion and this second engagement portion are respectively holes and snap fit, and this first snapping section and this second snapping section are respectively fastener and button hole.

5. supporting mechanism as claimed in claim 1 is characterized in that this base includes the first embedding part in addition, and this first embedding part is arranged between the sidewall of this projection and this sunk structure, and is positioned at this sunk structure second side relative with this first side; And this support includes the second embedding part in addition, and this second embedding part is arranged at second end relative with this first end, and this second embedding part engages with this first embedding part, to limit this cylinder along this second direction moving relative to this main body.

6. supporting mechanism as claimed in claim 5 it is characterized in that the width of this first side of this sunk structure less than the width of this second side, and the width of this first end of this cylinder is less than the width of this second end.

7. supporting mechanism as claimed in claim 1, it is characterized in that this projection has the first cambered surface, the centre of curvature of this first cambered surface is positioned at this first engagement portion, and this column body has the second cambered surface of corresponding this first cambered surface, and the centre of curvature of this second cambered surface is positioned at this second engagement portion.

8. supporting mechanism as claimed in claim 7 is characterized in that the centre of curvature of this first cambered surface is spent less than 45 to the vertical line angle on the limit, lower end of this first cambered surface to the vertical line on the limit, upper end of this first cambered surface and the centre of curvature of this first cambered surface.

9. supporting mechanism as claimed in claim 8, it is characterized in that this column body has abutting part and depressed part in addition, the position on relative this second cambered surface setting of this abutting part and contiguous this limit, upper end, this depressed part is arranged at the position on this abutting part side and contiguous this limit, lower end.

10. supporting mechanism as claimed in claim 9 is characterized in that this first cambered surface attaches this second cambered surface, and this abutting part attaches the bearing surface of this projection, moves relative to this projection along this first direction to limit this cylinder.

11. supporting mechanism as claimed in claim 1 is characterized in that this support includes in addition:

A plurality of rib structures, these a plurality of rib structures are arranged at the inside of this cylinder, the outer surface of this projection of butt when being used to this cylinder and being sheathed with this projection.