CN101206497A - Buckle structure with mousing-hook function - Google Patents

Abstract

The invention relates to a fastening structure with an unhooking prevention function, which is used for connecting an upper shell and a lower shell. The invention comprises a fastener, a clamping piece and a convex block, wherein, the fastener is arranged on the upper shell; a fastening hook is arranged on one side face of the fastener, and a pressing part is arranged on the other side face which is opposite to the side face; the clamping piece is arranged on the surface of the lower shell and provided with a fastening groove which is fastened with the fastening hook; the convex block is arranged on a position of the lower shell corresponding to the pressing part. When the upper shell and the lower shell are deformed under stress, the convex block is deformed following the lower shell and then deviated, and the pressing part is pushed by deviation, and then the fastening hook is deviated towards the fastening groove, thereby a relative position of the fastening hook and the fastening groove is maintained, and the unhooking problem of the fastening hook and the fastening groove when the prior upper shell and the prior lower shell are deformed under stress is solved.

Description

Buckle structure with mousing-hook function

Technical field

The present invention relates to a kind of buckle structure, in detail, relate to a kind of being applied between the upper and lower casing, in order to buckle structure with mousing-hook function in conjunction with this upper shell and lower house with mousing-hook function.

Background technology

Now, the fastening of grab and draw-in groove is generally leaned in the assembling of the last lower house of notebook host, and by screw upper shell is locked on lower house.Yet if upward the join domain of lower house has not had enough spatial design to lock screw and locked the swivel nut that screw spins with this, grab and the draw-in groove that should go up lower house can play critical effect when fit on housing and lower house.

See also Figure 1A and Figure 1B, in the prior art, on the upper shell 1 of notebook host, be provided with grab 11, and on lower house 2, be provided with the draw-in groove 21 corresponding with this grab 11, and the both sides of this draw-in groove 21 and this lower house 2 disjunctors (seeing also part circled among Figure 1B 25), when the forced section 23 of the F that exerts pressure at this lower house 2, this lower house 2 can be along being subjected to force direction to produce elastic deformation (as the direction of Figure 1B a), again because this draw-in groove 21 and these lower house 2 disjunctors, thereby this draw-in groove 21 can be followed the deformation of this lower house 2 and be produced skew, and also promptly this draw-in groove 21 can produce displacement towards a direction.

See also Fig. 1 C again, Fig. 1 C is the upper shell 1 and the assembly drawings of lower house 2 by this grab 11 and draw-in groove 21 mutual fastenings of notebook host.In above-mentioned, exert pressure F when the forced section 23 of this lower house 2, this draw-in groove 21 will be followed the deformation of this lower house 2 and will be subjected to displacement, and its sense of displacement is a direction as shown, and this grab 11 is located on this upper shell 1, with this pressure F onrelevant, promptly this grab 11 is not shifted with the deformation of this lower house 2, at this moment, because this draw-in groove 21 is to the direction skew that breaks away from this grab 11, causing this grab 11 and this draw-in groove 21 to break off relations, thereby cause coming off between the lower house on this.

Therefore, how designing and a kind ofly can and have the buckle structure of mousing-hook function in conjunction with upper shell and lower house, is current problem demanding prompt solution.

Summary of the invention

In view of the defective of above prior art, fundamental purpose of the present invention is to provide a kind of buckle structure with mousing-hook function, and it can the unhook phenomenon occur in order to prevent this lower house in conjunction with upper shell and lower house when stressed.

For realizing above-mentioned and other purpose, the invention provides a kind of buckle structure with mousing-hook function, it can be in conjunction with upper shell and lower house, this buckle structure comprises: fastener, it is located at upper shell, this grab is positioned at a side of this fastener, and the roof pressure position with this relative another side, side, fastener place; Fastener, its be located at this lower shell surface and with this grab corresponding position, this fastener has the draw-in groove in order to fasten mutually with this grab; And projection, it is located at this lower house and this roof pressure portion corresponding position.

In the above-mentioned buckle structure, this fastener one end is located at this lower house, and its both sides and this lower house separate, and when this lower house generation deformation, this fastener is not followed it and is offset.

In addition, this roof pressure portion one end is provided with first slope, when in conjunction with this upper shell and lower house, contacts by line face between this first slope and this projection, makes this projection slide to this roof pressure portion along this first slope.This grab one end is provided with second slope, when in conjunction with this upper shell and lower house, contacts by line face between this second slope and this fastener, and this draw-in groove is fastened mutually along this second slope and this grab.

Than prior art, buckle structure with mousing-hook function of the present invention mainly is by the mutual fastening between the draw-in groove of the grab of this fastener and this fastener upper shell to be covered on lower house, and in closely contacting with the roof pressure portion of this fastener by the projection of being located at this lower house, when this lower house is subjected to external force generation elastic deformation, this projection is followed this lower house deformation and is offset, be offset thus with this roof pressure portion of pushing tow, make this grab to this draw-in groove direction skew, thereby the relative position that keeps this grab and this draw-in groove, and then realize preventing the effect of this grab and the unhook of this draw-in groove, existingly, lower house causes the phenomenon that breaks off relations to solve owing to being subjected to external force.

Description of drawings

Figure 1A can be in conjunction with the hook structure of upper shell and lower house for having now;

Figure 1B can be in conjunction with the draw-in groove structure of upper shell and lower house for having now;

Fig. 1 C is the existing lower house assembling synoptic diagram of going up;

Fig. 2 A is a fastener structural representation of the present invention;

Fig. 2 B is fastener of the present invention and projection cube structure synoptic diagram;

Fig. 2 C is the assembling synoptic diagram with buckle structure of mousing-hook function of the present invention;

Fig. 3 A and Fig. 3 B synoptic diagram during for assembling buckle structure of the present invention.

Symbol description

1,3 upper shells

11,311 grabs

2,4 lower houses

21,411 draw-in grooves

23,43 forced sections

31 fasteners

313 roof pressure portions

315 first slopes

317 second slopes

41 fasteners

45 projections

47 gaps

Embodiment

Below by specific embodiment explanation embodiments of the present invention, those skilled in the art can understand other advantages of the present invention and effect easily by the content that this instructions is set forth.The present invention also can be implemented or be used by other different specific embodiments, and each details in this instructions also can be based on different viewpoints and application, carries out various modifications and change under the spirit of the present invention not deviating from.

See also Fig. 2 A, Fig. 2 B and Fig. 2 C, Fig. 2 A, Fig. 2 B and Fig. 2 C are that the buckle structure with mousing-hook function of the present invention decomposes and the assembly structure synoptic diagram.Buckle structure with mousing-hook function of the present invention its in order in conjunction with upper shell 3 and lower house 4, it comprises fastener 31, fastener 41 and projection 45.In the present embodiment, lower house can be for example shell of notebook computer on this, refers to the last lower house of the main frame of notebook computer especially.

Shown in Fig. 2 A, this fastener 31 is located at this upper shell 3 inboards, and this fastener 31 has a grab 311 and a roof pressure portion 313, wherein, this grab 311 is positioned at a side of this fastener 31, and this roof pressure portion 313 then is positioned at and this relative another side, side, fastener 31 place.

Shown in Fig. 2 B, this fastener 41 be located at this lower house 4 surfaces and with these grab 311 corresponding positions, simultaneously, this fastener 41 is provided with the draw-in grooves 411 in order to fasten mutually with this grab 311.This projection 45 is located at this lower house 4 and these roof pressure portion 313 corresponding positions, and this projection 45 can be offset along with the deformation of these lower house 4 stressed generations.In the present embodiment, these fastener 41 1 ends are located at this lower house 4, and its both sides have the gap 47 that separates lower house 4 respectively, and when the forced section 43 of this lower house 4 was subjected to external force generation elastic deformation, this fastener 41 can not be offset along with the deformation of this lower house 4.The width of the width of this draw-in groove 411 and this grab 311 matches.

In a comparatively ideal embodiment, these roof pressure portion 313 1 ends are provided with first slope 315, when in conjunction with this upper shell 3 and lower house 4, contact by between this first slope 315 and this projection 45, make this projection 45 slide to this roof pressure portion 313, thereby this roof pressure portion 313 is withstood and the problem that causes assembling when solving the fit on lower house by this projection 45 along this first slope 315; These grab 311 1 ends are provided with second slope 317, when in conjunction with this upper shell 3 during to lower house 4, contact by line face between this second slope 317 and this fastener 41, and this draw-in groove 411 is fastened with this grab 311 mutually along this second slope 317.In above-mentioned, design one second slope 317 so that upper shell 3 is assembled to this lower house 4 at this roof pressure portion 313 1 ends, one first slope 315 of design and this grab 311 1 ends.

Shown in Fig. 2 C, this upper shell 3 has covered to this lower house 4, and at this moment, the grab 311 of this fastener 31 fastens the draw-in groove 411 of this fastener 41, and this projection 45 is near the roof pressure portion 313 of this fastener 31.

See also Fig. 3 A and Fig. 3 B, Fig. 3 A and Fig. 3 B synoptic diagram during for assembling buckle structure of the present invention.In the present embodiment, when upper shell 3 needs to fasten to this lower house 4, with first slope 315 of these roof pressure portion 313 1 ends near second slope 317 of this projection 45 and this grab 311 1 ends a end near this fastener 41, and exert pressure on this upper shell 3 so that this second slope 317 pushes with this fastener 41, at this moment, this fastener generation elastic deformation and gliding for this fastener to crooked on one side, simultaneously, because this projection 45 is near this first slope 315 (being that projection 45 contacts for the line face with this first slope 315), relative slip takes place between this projection 45 and this first slope 315, skids off this first slope 315 until this projection 45.Continue to press down this upper shell 3, when sliding to draw-in groove 411 positions of this fastener 41 under the grab of this fastener 31, this fastener 41 recovers elastic deformation, and this draw-in groove 411 is fastened on this grab 311, thus this upper shell 3 is fastened to this lower house 4 (shown in Fig. 2 C).In the present embodiment, this fastener 41 is the structure that resilient material is formed, and when assembling should be gone up lower house 3,4, with the extruding of second slope 317 of this grab 31 elastic deformation takes place, and restores to the original state thereby this grab 31 slides to this draw-in groove 411 backs.In a comparatively ideal embodiment, for weight reduction, the structure that this fastener 31, this fastener 41 and this projection 45 are formed for plastic material, however form the employed material of said structure not as limit.

See also Fig. 2 C again, when applying forced section 43 positions of external force F at this lower house 4, this lower house 4 will be subjected to external force generation elastic deformation (promptly to be offset by force direction), and this projection 45 is located at this lower house 4 and link to each other with this forced section 43, when deformation takes place in this forced section 43, this projection 45 produces skew (promptly consistent with application of force direction) with its deformation, simultaneously, these fastener 41 1 ends are located on this lower house 4, also follow the deformation of this lower house 4 and be offset, in the present embodiment, the both sides of this fastener 41 and this lower house 4 separate (part that is enclosed as Fig. 2 B), so when the stressed generation deformation of lower house 4, the distance that the offset distance that this fastener 41 produces with its deformation is offset less than this projection 45, again owing to the roof pressure portion 313 of this projection 45 near this fastener 31, when then skew takes place in this projection 45 with this fastener 31 of pushing tow, forcing this fastener 31 to be followed together is offset, this makes when above-mentioned this lower house 4 is subjected to external force generation deformation, link closely all the time draw-in groove 411 of this fastener 41 of the grab 311 of this fastener 31, promptly under the external force effect in being subjected to certain limit, should go up the phenomenon that lower house can not occur breaking off relations, therefore, the buckle structure with mousing-hook function of the present invention has solved the problem that existing easy appearance is broken off relations.

Than prior art, buckle structure with mousing-hook function of the present invention is done the time spent being subjected to external force, mainly by this this fastener 31 of projection 45 pushing tows to keep the relative position of this grab 311 and draw-in groove 411, thereby realize the effect prevent that this grab 311 and this draw-in groove 411 from breaking off relations, existingly cause the phenomenon that breaks off relations owing to lower house 4 is subjected to external force to solve.

Claims (10)

1. the buckle structure with mousing-hook function in order in conjunction with upper shell and lower house, is characterized in that, this buckle structure comprises:

Fastener, it is located at upper shell, and this fastener has a grab and a roof pressure portion, and this grab is positioned at a side of this fastener, and this roof pressure portion is positioned at and this relative another side, side, fastener place;

Fastener, its be located at this lower shell surface and with this grab corresponding position, this fastener has the draw-in groove in order to fasten mutually with this grab;

Projection, it is located at this lower house and this roof pressure portion corresponding position.

2. buckle structure according to claim 1 is characterized in that, this fastener one end is located at this lower house, and its both sides have the gap that separates this lower house respectively.

3. buckle structure according to claim 1, it is characterized in that this roof pressure portion one end is provided with first slope, when in conjunction with this upper shell and lower house, by contacting between this first slope and this projection, make this projection slide to this roof pressure portion along this first slope.

4. buckle structure according to claim 1, it is characterized in that this grab one end is provided with second slope, when in conjunction with this upper shell and lower house, by contacting between this second slope and this fastener, this draw-in groove is fastened mutually along this second slope and this grab.

5. buckle structure according to claim 4, assembling it is characterized in that this fastener is the structure that resilient material is formed, when should be gone up lower house, with second slope extruding of this grab elastic deformation taking place, thereby restores to the original state after making this grab slide to this draw-in groove.

6. buckle structure according to claim 1 is characterized in that, this projection is located at and this fastener corresponding position.

7. buckle structure according to claim 1 is characterized in that, the width of this grab and the width of this draw-in groove match.

8. buckle structure according to claim 1 is characterized in that, this fastener is the structure that plastic material is formed.

9. buckle structure according to claim 1 is characterized in that, this fastener is the structure that plastic material is formed.

10. buckle structure according to claim 1 is characterized in that, this projection is the structure that plastic material is formed.

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