CN104656759A - Locking buckling mechanism - Google Patents

Abstract

The invention provides a locking buckling mechanism. The mechanism comprises a first structure, a second structure, a moving part, a cylinder and at least one clamping hook; the first structure is equipped with a fixing buckle; the second structure is equipped with a near side position and a far side position; the near side position is closer to the fixing buckle than the far side position; the moving part can move between the near side position and the far side position; the cylinder is connected with the moving part; when the moving part is far away from the far side position, the second structure can be fixedly clamped to the first structure through the cylinder; the clamping hook is connected to the moving part and can be used for fixedly clamping the fixing buckle when the moving part is at the near side position.

Description

Latching device

Technical field

The invention relates to a kind of latching device, and relate to the latching device of a kind of cells in notebook computer mounting or dismounting especially.

Background technology

The conveniently use of notebook computer, one of them important problem is exactly be providing of power supply.In order to address this problem, notebook computer all can couple a battery unit usually.Battery unit, when not having plug to use, supplies electrical power to notebook computer required electric power.

In some occasion, such as: battery unit may need be removed weight reduction or change other new battery units, or is when carrying notebook computer moves, battery unit needs to have can provide dismounting and solid lockwork.That is, on the one hand the solid latch mechanism of the battery unit solid lock power that can provide is to guarantee the state that battery unit and computer couple, and the solid latch mechanism of another aspect battery unit also will easily allow user discharge to take off battery unit.

But general notebook computer, must make with the hands just can remove and take off battery unit simultaneously.Therebetween, a hand needs first to untie solid latch mechanism and maintains the state untied, now again with the pickup of another hand.Use bimanualness like this can bring all inconvenience naturally, when meeting bursting problem, is unable to cope with especially.

Summary of the invention

A technology aspect of the present invention be to provide one can the latching device of one-handed performance, it can solve the problem needing when dismantling the battery unit of notebook computer to make with the hands to operate.

According to an embodiment of the present invention, a kind of latching device comprises one first structure, one second structure, a moving member, a tapered end and at least one snap fit.First structure has a clip.Second structure has a proximal position and a distal position, proximal position comparatively distal position closer to clip.Moving member can move between proximal position and distal position.Tapered end connects moving member, and when moving member is positioned at distal position, the second structure can be fastened in the first structure by tapered end.Snap fit connects moving member, and when moving member is positioned at proximal position, snap fit can fix clip.

In one or more embodiment of the present invention, above-mentioned distal position and the distance of proximal position, be longer than tapered end for will by the first structure will together with moving member distally position towards the distance of proximal position movement.

In one or more embodiment of the present invention, above-mentioned latching device still comprises a touch panel.This touch panel connects moving member, and is exposed to outside an outside surface of the second structure.

In one or more embodiment of the present invention, above-mentioned latching device still comprises a flexible member.This flexible member connects moving member and the second structure.

In one or more embodiment of the present invention, the second above-mentioned structure has a chute in wherein, and moving member is coupled the chute of the second structure.

In one or more embodiment of the present invention, above-mentioned clip is positioned at an inside surface of the first structure.

In one or more embodiment of the present invention, above-mentioned snap fit comprises an elastic arm and an overhead kick.Elastic arm connects moving member.Overhead kick connects elastic arm, and when moving member is positioned at proximal position, elastic arm and overhead kick can fix clip to embracing.

In one or more embodiment of the present invention, above-mentioned overhead kick has an inclined-plane and a snap close face, and clip also has an inclined-plane and a snap close face.When the inclined-plane of overhead kick and the inclined-plane of clip offset, and moving member is when moving towards clip, the elastic arm button that will be fixed struts distortion, when moving member continue towards clip move make overhead kick to be arrived by the inclined-plane of clip the snap close face of clip time, resilience makes the snap close face of overhead kick and the snap close face of clip offset by elastic arm.

In one or more embodiment of the present invention, when above-mentioned moving member is positioned at proximal position, tapered end will away from the first structure.

In one or more embodiment of the present invention, the quantity of above-mentioned snap fit is at least one pair of, and this to snap fit toward each other.

The above-mentioned embodiment of the present invention and known prior art are compared, and at least have the following advantages:

(1) the above-mentioned embodiment system of the present invention offsets with the snap close face of the snap close face of overhead kick and clip, make moving member from the process that the first structure is dismantled, be held in the proximal position of the second structure in the second structure, thus make the tapered end of moving member the second structure is not fastened in the first structure, therefore, user can first to make moving member move to the proximal position of the second structure on the other hand, after the snap close face of overhead kick and the snap close face of clip offset, just can be available by handle, then take off the second structure at any time.

(2) utilize the snap close face of overhead kick and the snap close face of clip to offset, the effect of guiding can be reached simultaneously, therefore improve the pardon of combination skew.

(3) after taking off the second structure, because the snap close face of overhead kick no longer offsets with the snap close face of clip, flexible member provides the strength of reset, makes moving member move to the distal position of the second structure.When the second structure again with the first structure in conjunction with time, the tapered end of the second structure is subject to the interference of the first structure, tapered end is moved together with the proximal position of moving member towards the second structure, also makes flexible member second compression again, and store an elastic potential energy.But, because the interference range of tapered end and the first structure is limited, tapered end is together with the distance of moving member movement, be not enough to the inclined-plane allowing clip by overhead kick, so the snap close face in the snap close face and clip that cannot reach overhead kick offsets, so, after tapered end is by the interference of the first structure, flexible member again discharges stored potential energy and provides the strength of reset, moving member is moved together with the distal position of tapered end towards the second structure, also makes tapered end again the second structure can be fastened in the first structure.Therefore, user also can only rely on a hand and the second structure is bonded to the first structure.

Accompanying drawing explanation

Fig. 1 illustrates the sectional view of latching device after the first structure and the second structure combine according to an embodiment of the present invention.

The snap fit that Fig. 2 illustrates Fig. 1 and clip be not contacting the relative position schematic diagram of (when moving member is positioned at distal position).

The elastic arm that Fig. 3 the illustrates Fig. 1 button that is fixed struts the schematic diagram of distortion.

The schematic diagram that the snap close face in snap close face and clip that Fig. 4 illustrates the overhead kick of Fig. 1 offsets.

[symbol description]

100: latching device

110: the first structures

111: holding firmware

112: clip

113: inclined-plane

114: snap close face

116: inside surface

117: inclined-plane

120: the second structures

122: proximal position

124: distal position

126: outside surface

128: chute

130: moving member

140: tapered end

142: inclined-plane

150: snap fit

151: snap fit connector

152: elastic arm

154: overhead kick

155: inclined-plane

156: snap close face

158: reinforced ribs

160: touch panel

162: touch panel connector

170: flexible member

H1: elongated hole

H2: elongated hole

TH: perforation

Embodiment

Below will with graphic exposure multiple embodiment of the present invention, as clearly stated, the details in many practices will be explained in the following description.But should be appreciated that, the details in these practices is not applied to limit the present invention.That is, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the purpose of simplicity of illustration, some known usual structures and element illustrate it by the mode simply illustrated in the drawings.

Fig. 1 illustrates the sectional view of latching device 100 after the first structure 110 and the second structure 120 combine according to an embodiment of the present invention.As shown in Figure 1, a kind of latching device 100 comprises one first structure 110,1 second structure 120, moving member 130, tapered end 140 and at least one snap fit 150.First structure 110 has a clip 112.Second structure 120 has proximal position 122 and a distal position 124, proximal position 122 comparatively distal position 124 closer to clip 112.Moving member 130 can move between proximal position 122 and distal position 124.Tapered end 140 connects moving member 130, and when moving member 130 is positioned at distal position 124, tapered end 140 can make the second structure 120 be fastened in the first structure 110.Snap fit 150 connects moving member 130, and when moving member 130 is positioned at proximal position 122, snap fit 150 can be fastened in clip 112.Clip 112 is positioned at an inside surface 116 of the first structure 110.In the present embodiment, the first structure 110 can be the battery case of a notebook computer, and the second structure 120 is then a cell device of this notebook computer.

As shown in Figure 1, the second above-mentioned structure 120 has a perforation TH.When moving member 130 is positioned at distal position 124, tapered end 140 through perforation TH, and is fastened in a holding firmware 111 of the first structure 110, and then allows the second structure 120 be fastened in the first structure 110.

As shown in Figure 1, the second above-mentioned structure 120 has a chute 128, and chute 128 runs through proximal position 122 and distal position 124.Moving member 130 is coupled the chute 128 of the second structure 120, and moving member 130 can be moved in the chute 128 of the second structure 120.Therefore, moving member 130 can move between proximal position 122 and distal position 124.

As shown in Figure 1, above-mentioned latching device 100 comprises a touch panel 160, and touch panel 160 connects moving member 130, and is exposed to outside an outside surface 126 of the second structure 120.When user will dismantle the second structure 120 from the first structure 110, that is cell device will be taken out from battery case, user will with finger presses touch panel 160, and promotes touch panel 160 and slide on outside surface 126, makes moving member 130 distally move to proximal position 122 in position 124.

As shown in Figure 1, above-mentioned latching device 100 more comprises a flexible member 170, and flexible member 170 connects moving member 130 and the second structure 120.When distally position 124 moves to proximal position 122 to moving member 130, flexible member 170 compresses and stores an elastic potential energy.

As shown in Figure 1, above-mentioned touch panel 160 connects moving member 130 by a touch panel connector 162.Touch panel connector 162 is through an elongated hole H1 of the second structure 120, and the length of elongated hole H1 allows that touch panel connector 162 moves with touch panel 160 and moving member 130, and the length of elongated hole H1 is enough to allow moving member 130 move between proximal position 122 and distal position 124.

Similarly, above-mentioned snap fit 150 connects moving member 130 by a snap fit connector 151.Snap fit connector 151 is through an elongated hole H2 of the second structure 120, and the length of elongated hole H2 allows that snap fit connector 151 moves with moving member 130, and the length of elongated hole H2 is enough to allow moving member 130 move between proximal position 122 and distal position 124.

The snap fit 150 that Fig. 2 illustrates Fig. 1 with clip 112 at the relative position schematic diagram not contacting (when moving member 130 is positioned at distal position 124).In the present embodiment, as shown in 1st ~ 2 figure, the quantity of above-mentioned snap fit 150 is at least one pair of, and this to snap fit 150 toward each other.Moreover snap fit 150 comprises elastic arm 152 and an overhead kick 154.Elastic arm 152 connects moving member 130.Overhead kick 154 connects elastic arm 152, and overhead kick 154 has inclined-plane 155 and a snap close face 156.

As shown in Figure 2, snap fit 150 has more a reinforced ribs 158.This reinforced ribs 158 is connected between snap fit 150 respect to one another.The position of reinforced ribs 158 directly affects the length of elastic arm 152, and in other words, the position of adjustment reinforced ribs 158 just can adjust the elasticity of elastic arm 152.

As shown in Figure 1, when user will dismantle the second structure 120 from the first structure 110, user will with finger presses touch panel 160, and promotes touch panel 160 and slide on outside surface 126, makes moving member 130 distally move to proximal position 122 in position 124.Meanwhile, snap fit 150 is also along with moving member 130 moves towards clip 112.

The elastic arm 152 that Fig. 3 the illustrates Fig. 1 button 112 that is fixed struts the schematic diagram of distortion.The schematic diagram that the snap close face 156 that Fig. 4 illustrates the overhead kick 154 of Fig. 1 offsets with the snap close face 114 of clip 112.As shown in 2nd ~ 4 figure, clip 112 has inclined-plane 113 and a snap close face 114.As shown in Figure 1, when moving member 130 distally move towards proximal position 122 by position 124, snap fit 150 is also along with moving member 130 moves towards clip 112.In the process, as shown in 3rd ~ 4 figure, the inclined-plane of overhead kick 154 155 offsets with the inclined-plane 113 of clip 112, and elastic arm 152 button 112 that is fixed struts distortion.

Referring to the 1st, 3,4 figure, when moving member 130 continues to move towards proximal position 122, snap fit 150 is also along with moving member 130 continues to move towards clip 112, until overhead kick 154 is by the inclined-plane 113 of clip 112 during the snap close face 114 of the clip 112 that arrives, resilience makes the snap close face 156 of overhead kick 154 offset with the snap close face 114 of clip 112 by elastic arm 152.Now, elastic arm 152 fixes clip 112 with overhead kick 154 embracing ground, and makes moving member 130 be positioned at proximal position 122, and thus tapered end 140 is away from the holding firmware 111 of the first structure 110.Under this stationary state, user does not need to continue with hand contact touch panel 160, and tapered end 140 also can not return back to below holding firmware 111, and therefore the second structure 120 can upwards be taken out from the first structure 110 object reaching dismounting by user at any time.

After the second structure 120 is dismantled from the first structure 110, elastic arm 152 is separated from clip 112 with overhead kick 154, now, flexible member 170 will discharge the elastic potential energy of storage and provide the strength of reset, make moving member 130 proximally move to distal position 124 in position 122, tapered end 140 is also through perforation TH.

When user is bonded to the first structure 110 the second structure 120 again, be also about to the second structure 120 and be positioned over the first structure 110 downwards, an inclined-plane 142 of tapered end 140 will first touch an inclined-plane 117 of holding firmware 111.Along with the second structure 120 continues to be combined with the first structure 110, the inclined-plane 142 of tapered end 140 offsets with the inclined-plane 117 of holding firmware 111, tapered end 140 is distally moved towards proximal position 122 position 124 together with moving member 130, and thus flexible member 170 also compresses and storage elasticity potential energy.When moving member 130 distally move towards proximal position 122 by position 124, also snap fit 150 is made to move towards clip 112 along with moving member 130, under size setting accurately, in the overhead kick 154 of snap fit 150 by the inclined-plane 113 of clip 112 before the snap close face 114 of the clip 112 that arrives, tapered end 140 is first by the inclined-plane 117 of holding firmware 111.In other words, the distance of distal position 124 and proximal position 122, be longer than tapered end 140 for will by the first structure 110 will together with moving member 130 distally position 124 towards the distance of proximal position 122 movement.Now, tapered end 140 no longer offsets with holding firmware 111, and flexible member 170 also discharges the elastic potential energy of storage and provides the strength of reset, makes moving member 130 proximally move to distal position 124 in position 122, and tapered end 140 is also through perforation TH.Be fastened in the holding firmware 111 of the first structure 110 by tapered end 140, the second structure 120 can be fastened in the first structure 110.Meanwhile, snap fit 150 also returns to clip 112 state do not contacted.

No matter the second structure 120 is dismantled from the first structure 110, or the second structure 120 is bonded to the first structure 110, wherein use coordinating between overhead kick 154 with clip 112, all can reach the effect of guiding simultaneously, therefore also improve the pardon of combination skew.

Although the present invention discloses as above with embodiment; so itself and be not used to limit the present invention, any those skilled in the art, without departing from the spirit and scope of the present invention; when being used for a variety of modifications and variations, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (10)

1. a latching device, comprises:

One first structure, has a clip;

One second structure, wherein this second structure has a proximal position and a distal position, this proximal position comparatively this distal position closer to this clip;

One moving member, can move between this proximal position and this distal position;

One tapered end, connects this moving member, and when this moving member is positioned at this distal position, this second structure can be fastened in this first structure by this tapered end; And

At least one snap fit, connects this moving member, and when this moving member is positioned at this proximal position, this snap fit can fix this clip.

2. latching device as claimed in claim 1, is characterized in that, the distance of this distal position and this proximal position, is longer than this tapered end for will will together with this moving member from this distal position towards the distance of this proximal position movement by this first structure.

3. latching device as claimed in claim 1, is characterized in that, more comprise:

One touch panel, connects this moving member, and is exposed to outside an outside surface of this second structure.

4. latching device as claimed in claim 1, is characterized in that, more comprise:

One flexible member, connects this moving member and this second structure.

5. latching device as claimed in claim 1, is characterized in that, this second structure has a chute in wherein, and this moving member is coupled this chute of this second structure.

6. latching device as claimed in claim 1, it is characterized in that, this clip is positioned at an inside surface of this first structure.

7. latching device as claimed in claim 1, it is characterized in that, this snap fit comprises:

One elastic arm, connects this moving member; And

One overhead kick, connects this elastic arm, and when this moving member is positioned at this proximal position, this elastic arm and this overhead kick can fix this clip to embracing.

8. latching device as claimed in claim 7, it is characterized in that, this overhead kick has an inclined-plane and a snap close face, and this clip also has an inclined-plane and a snap close face, when this inclined-plane of this overhead kick and this inclined-plane of this clip offset, and this moving member is when moving towards this clip, this elastic arm will be strutted distortion by this clip, when this moving member continue towards this clip move make this overhead kick by this inclined-plane of this clip and this snap close face of this clip that arrives time, resilience makes this snap close face of this snap close face of this overhead kick and this clip offset by this elastic arm.

9. latching device as claimed in claim 1, it is characterized in that, when this moving member is positioned at this proximal position, this tapered end will away from this first structure.

10. latching device as claimed in claim 1, it is characterized in that, the quantity of this snap fit is at least one pair of, and this to snap fit toward each other.