CN203176083U - Lock catch structure and electronic device - Google Patents

Abstract

The utility model provides a lock catch structure and an electronic device. The lock catch structure comprises a fixed part, a movable part and a lock hole. The fixed part is arranged in a machine shell of the electronic device, and the movable part is arranged in the machine shell and corresponds to an external opening of the machine shell. The movable part is connected with the fixed part and moves axially relative to the fixed part so as to be exposed out of the machine shell through the external opening from the interior of the machine shell. The lock hole is arranged on the movable part and hidden in the machine shell. In addition, the lock hole moves axially relative to the fixed part through the movable part so as to be exposed out of the machine shell so that the lock hole can be connected with a cylinder. The electronic device comprises the machine shell and the lock catch structure.

Description

Buckle structure and electronic equipment

Technical field

The utility model relates to a kind of buckle structure, and particularly relevant for a kind of buckle structure and electronic equipment.

Background technique

In recent years, along with the progress of science and technology, the use of electronic product is more and more general, and improves towards the design direction of lightweight and reduced volume, so that higher convenience to be provided.Wherein, electronic equipment for example is notebook computer (Note book, NB), mobile phone (Mobile Phone) or personal digital product (Personal Digital Assistant, PDA) etc. product has advantages such as light weight and volume be less and is convenient for carrying, and makes this type of portable electronic devices popularize gradually.

Because this type of electronic equipment volume is less and carry easily, if the user is careless slightly, electronic equipment just may or be stolen by improper movement.Therefore, on the body of many electronic equipments buckle structure can be set, it for example is New Kensington lock (Kensington Lock), so that electronic equipment connects the tapered end of outside by the lockhole of buckle structure, wherein can be installed in bearing for example be desktop to an end of tapered end, and the other end of tapered end can connect lockhole and pin electronic equipment.By this, the user can lock electronic equipment in bearing, suffers improper movement or steals to prevent electronic equipment.Yet common buckle structure normally is exposed at lockhole outward the appearance of electronic equipment, connects buckle structure from the outside of electronic equipment by lockhole to make things convenient for tapered end.Therefore, when buckle structure did not use, lockhole was exposed to appearance and influences the outward appearance of electronic equipment.

The model utility content

The utility model provides a kind of buckle structure, in order to be configured in the electronic equipment and to be hidden in wherein.

The utility model proposes a kind of buckle structure, be configured in the casing of an electronic equipment and corresponding to a pair of outer opening of casing.This buckle structure comprises a fixed block, a moving part and a lockhole.Fixed block is configured in the casing.The moving part position is in casing and corresponding to external opening, and wherein moving part is connected and fixed part, and along one axially with respect to kinematic mount, in casing, to be exposed to outside the casing by external opening.Lockhole is configured on the moving part and is hidden in the casing, and lockhole is exposed to outside the casing with respect to kinematic mount vertically by moving part, to connect a tapered end.

In an embodiment of the present utility model, above-mentioned moving part has a fixed rotating shaft.Moving part is connected and fixed part vertically by fixed rotating shaft, so that moving part passes through fixed rotating shaft vertically with respect to the fixed block rotation, and exposes lockhole from external opening.

In an embodiment of the present utility model, above-mentioned fixed block is a ㄇ type support, comprises one first top board and relative two first side plates.Two first side plates face one another and connect respectively the relative both sides of first top board, and moving part has one second top board, two second side plates and an appearance.Two second side plates face one another and connect respectively the relative both sides of second top board.Appearance connects second top board and is exposed to external opening with two second relative side plates, and wherein second top board is in the face of first top board, and two second side plates are separately in the face of two first corresponding side plates.Lockhole is configured in second top board and is hidden in the casing, and moving part is configured in two first side plates by fixed rotating shaft and with respect to kinematic mount, so that second top board is exposed at casing outward and exposes lockhole with respect to kinematic mount vertically by moving part.

In an embodiment of the present utility model, above-mentioned fixed rotating shaft comprises two fixing projections, be configured in two second side plates respectively, and fixed block has two fixed holes, and the position is at two first side plates respectively.Two fixedly projection penetrate two fixed holes respectively accordingly so that moving part be connected and fixed part and by fixed rotating shaft vertically with respect to kinematic mount.

In an embodiment of the present utility model, above-mentioned moving part has a sliding shaft.Sliding shaft comprises two slip projections, be configured in two second side plates respectively, and fixed block has two sliding rails, and the position is at two first side plates respectively.Moving part is connected and fixed part by sliding shaft, wherein two slip projections penetrate two sliding rails respectively accordingly and move along two sliding rails, so that moving with respect to fixed rotating shaft by sliding shaft, moving part vertically with respect to kinematic mount, and exposes lockhole from external opening.

In an embodiment of the present utility model, above-mentioned moving part has a groove and a card complex hole.Fixed block has an engagement portion, moving part is fastened on the engagement portion accordingly by card complex hole and is fixed on fixed block, and card complex hole moves moving part by engagement release vertically with respect to fixed block, and the groove position is at a side of second top board and be exposed to external opening, so that groove is outer mobile and drive moving part with respect to kinematic mount toward casing.

The utility model also provides a kind of electronic equipment, has concealed buckle structure and has the outward appearance of beautifying.This electronic equipment comprises a casing and a buckle structure.Casing has a pair of outer opening.Buckle structure is configured in the casing and corresponding to external opening.This buckle structure comprises a fixed block, a moving part and a lockhole.Fixed block is configured in the casing.The moving part position is in casing and corresponding to external opening, and wherein moving part is connected and fixed part, and along one axially with respect to kinematic mount, in casing, to be exposed to outside the casing by external opening.Lockhole is configured on the moving part and is hidden in the casing, and lockhole is exposed to outside the casing with respect to kinematic mount vertically by moving part, to connect a tapered end.

Further, above-mentioned moving part has a fixed rotating shaft.Moving part is connected and fixed part vertically by fixed rotating shaft, so that moving part passes through fixed rotating shaft vertically with respect to the fixed block rotation, and exposes lockhole from external opening.

Further, above-mentioned fixed block is a ㄇ type support, comprises one first top board and relative two first side plates.Two first side plates face one another and connect respectively the relative both sides of first top board, and moving part has one second top board, two second side plates and an appearance.Two second side plates face one another and connect respectively the relative both sides of second top board.Appearance connects second top board and is exposed to external opening with two second relative side plates, and wherein second top board is in the face of first top board, and two second side plates are separately in the face of two first corresponding side plates.Lockhole is configured in second top board and is hidden in the casing, and moving part is configured in two first side plates by fixed rotating shaft and with respect to kinematic mount, so that second top board is exposed at casing outward and exposes lockhole with respect to kinematic mount vertically by moving part.

Further, above-mentioned fixed rotating shaft comprises two fixing projections, be configured in two second side plates respectively, and fixed block has two fixed holes, and the position is at two first side plates respectively.Two fixedly projection penetrate two fixed holes respectively accordingly so that moving part be connected and fixed part and by fixed rotating shaft vertically with respect to kinematic mount.

Further, above-mentioned moving part has a sliding shaft.Sliding shaft comprises two slip projections, be configured in two second side plates respectively, and fixed block has two sliding rails, and the position is at two first side plates respectively.Moving part is connected and fixed part by sliding shaft, wherein two slip projections penetrate two sliding rails respectively accordingly and move along two sliding rails, so that moving with respect to fixed rotating shaft by sliding shaft, moving part vertically with respect to kinematic mount, and exposes lockhole from external opening.

Further, above-mentioned moving part has a groove and a card complex hole.Fixed block has an engagement portion, moving part is fastened on the engagement portion accordingly by card complex hole and is fixed on fixed block, and card complex hole moves moving part by engagement release vertically with respect to fixed block, and the groove position is at a side of second top board and be exposed to external opening, so that groove is outer mobile and drive moving part with respect to kinematic mount toward casing.

Based on above-mentioned, buckle structure of the present utility model is configured in the casing of electronic equipment and corresponding to the external opening of casing, wherein the moving part of buckle structure can be vertically with respect to kinematic mount, in casing, to be exposed to outside the casing by external opening, and lockhole is configured on the moving part and be hidden in the casing, and it is outer and in order to connect tapered end to be exposed to casing with respect to kinematic mount vertically by moving part.Accordingly, buckle structure of the present utility model is in order to be configured in the electronic equipment and to be hidden in wherein, so that electronic equipment has concealed buckle structure and has the outward appearance of beautifying.

For above-mentioned feature and advantage of the present utility model can be become apparent, embodiment cited below particularly, and cooperate appended graphic being described in detail below.

Description of drawings

Fig. 1 is the schematic representation of the utility model one embodiment's electronic equipment;

Fig. 2 is the schematic representation that the electronic equipment of Fig. 1 connects tapered end;

Fig. 3 is the schematic representation of the buckle structure of Fig. 1;

Fig. 4 is that the buckle structure of Fig. 3 is exposed at the schematic representation outside the casing inside and outside casing;

Fig. 5 is the schematic representation of the moving part of Fig. 3;

Fig. 6 is the schematic representation of the fixed block of Fig. 3;

Fig. 7 is the schematic representation of the elastic clamping hook of Fig. 6;

Fig. 8 is the local enlarged diagram of the electronic equipment of Fig. 1;

Fig. 9 is the local enlarged diagram that the electronic equipment of Fig. 2 does not connect tapered end.

Description of reference numerals:

50: electronic equipment;

52: casing;

52a: external opening;

54: lock firmware;

60: tapered end;

100: buckle structure;

110: fixed block;

112: fixed hole;

114: sliding rail;

114a: first end;

114b: second end;

116: the engagement portion;

116a: elastic clamping hook;

120: moving part;

122: fixed rotating shaft;

122a: fixing projection;

124: sliding shaft;

124a: slip projection;

126: groove;

128: card complex hole;

130: lockhole;

A: axially;

S11: first top board;

S12: first side plate;

S21: second top board;

S22: second side plate;

S23: appearance.

Embodiment

Fig. 1 is the schematic representation of the utility model one embodiment's electronic equipment.Fig. 2 is the schematic representation that the electronic equipment of Fig. 1 connects tapered end.Please refer to Fig. 1 and Fig. 2, in the present embodiment, electronic equipment 50 comprises casing 52 and buckle structure 100.Casing 52 has external opening 52a.Buckle structure 100 is configured in the casing 52 and corresponding to external opening 52a.Buckle structure 100 is hidden in the casing 52, in order to be exposed at casing 52 outside external opening 52a.Therefore, electronic equipment 50 can connect the tapered end 60 that be installed in bearing's (not shown) by buckle structure 100, as shown in Figure 2, suffers improper movement or steals to prevent electronic equipment 50.Electronic equipment 50 for example is that (Note book, NB), and buckle structure 100 for example is New Kensington lock (Kensington Lock) to notebook computer, but the utility model kind of limiting electronic device 50 and buckle structure 100 not.

Fig. 3 is the schematic representation of the buckle structure of Fig. 1.Fig. 4 is that the buckle structure of Fig. 3 is exposed at the schematic representation outside the casing inside and outside casing.Please refer to Fig. 3 and Fig. 4, in the present embodiment, buckle structure 100 comprises fixed block 110, moving part 120 and lockhole 130.Fixed block 110 is configured in the casing 52.Wherein moving part 120 is connected and fixed part 110 to 120 of moving parts in casing 52 and corresponding to external opening 52a, and A moves with respect to fixed block 110 vertically, and is extremely shown in Figure 4 as Fig. 3, to be exposed to outside the casing 52 by external opening 52a in casing 52.Lockhole 130 is configured on the moving part 120 and is hidden in the casing 52, and lockhole 130 by moving part 120 vertically A be exposed to outside the casing 52 with respect to fixed block 110 motion, to connect tapered end 60.

Particularly, in the present embodiment, moving part 120 has fixed rotating shaft 122.Moving part 120 is by fixed rotating shaft 122 A configuration vertically and be connected and fixed part 110, so that moving part 120 by fixed rotating shaft 122 vertically A with respect to fixed block 110 rotations, and be exposed to outside the casing 52 by external opening 52a in casing 52, so that lockhole 130 is exposed to outside the casing 52 along with moving part 120 rotations.Yet, in other embodiments, moving part 120 can be unshowned axially with respect to fixed block 110 translations along another, and in casing 52, be exposed to outside the casing 52 by external opening 52a, so that lockhole 130 is exposed to outside the casing 52 along with moving part 120 translations, the utility model does not limit moving part 120 with respect to the motion mode of fixed block 110.

On the other hand, in the present embodiment, moving part 120 also has sliding shaft 124.Sliding shaft 124 is parallel to fixed rotating shaft 122 in fact, but the utility model is not as restriction.Moving part 120 is connected and fixed part 110 by fixed rotating shaft 122 and sliding shaft 124, and A rotates with respect to fixed block 110 vertically so that moving part 120 moves for fixed rotating shaft 122 by sliding shaft phase 124, and exposes lockhole 130 from external opening 52a.In other words, the sliding shaft 124 that is parallel to fixed rotating shaft 122 moves with respect to fixed rotating shaft 122 to keep parallel mode, with drive moving part 120 vertically A with respect to fixed block 110 rotations.Below will introduce the thin portion structure of fixed block 110 with the moving part 120 of present embodiment respectively, and moving part 120 embodiment that moves with respect to fixed block 110 of A vertically.

Fig. 5 is the schematic representation of the moving part of Fig. 3.Fig. 6 is the schematic representation of the fixed block of Fig. 3.Please refer to Fig. 3 to Fig. 6, in the present embodiment, fixed block 110 comprises the first top board S11 and relative two first side plate S12.Two first side plate S12 face one another and connect respectively the relative both sides of the first top board S11.Therefore, fixed block 110 for example is that what to form with the metal sheet bending is ㄇ type support, and is fixed in the casing 52 with a plurality of lock firmwares 54 (for example being screw), but the utility model does not limit shape, material, formation and the means of fixation of fixed block 110.

On the other hand, moving part 120 has the second top board S21, two second side plate S22 and appearance S23.Two second side plate S22 face one another and connect respectively the relative both sides of the second top board S21.Appearance S23 connects the second top board S21 and is exposed to external opening 52a with two second relative side plate S22.Therefore, moving part 120 for example is the box-like housing that forms with the metal sheet bending, but the utility model does not limit shape, material and the generation type of moving part 120.Moving part 120 is configured in two first side plate S12 by fixed rotating shaft 122 and sliding shaft 124 and moves with respect to fixed block 110.

Particularly, in the present embodiment, fixed rotating shaft 122 comprises two fixing projection 122a, A is configured in two second side plate S22 symmetrically vertically respectively, as shown in Figure 5, wherein Fig. 5 only illustrates one of them fixedly projection 122a because of visual angle relation, and another fixedly the position of projection 122a and purposes can be analogized according to fixedly projection 122a illustrated in fig. 5 and get.Fixed block 110 has two fixed holes 112, respectively the position at two first side plate S12 with the fixing projection 122a of correspondence, as shown in Figure 6.Two fixedly projection 122a penetrate two fixed holes 112 respectively accordingly so that moving part 120 be connected and fixed part 110 and by fixed rotating shaft 122 vertically A with respect to fixed block 110 rotations.Yet in other embodiments, fixed rotating shaft 122 can be the round bar that A vertically is disposed at two second side plate S22 and connects two first side plate S12, and the utility model does not limit the mode of execution of fixed rotating shaft 122.

In addition, in the present embodiment, sliding shaft 124 comprises two slip projection 124a, is configured in two second side plate S22 respectively, and as shown in Figure 5, wherein Fig. 5 only illustrates one of them slip projection 124a because of the visual angle relation equally.Fixed block 110 has two sliding rails 114, respectively the position at two first side plate S12 with correspondence slip projection 124a, as shown in Figure 6.Two slip projection 124a penetrate two sliding rails 114 respectively accordingly and move along two sliding rails 114, and A rotates with respect to fixed block 110 vertically so that moving part 120 moves with respect to fixed rotating shaft 122 by sliding shaft 124.Yet in other embodiments, sliding shaft 124 can be the round bar that A vertically is configured in two second side plate S22 and connects two first side plate S12, and the utility model is the mode of execution of limit slippage rotating shaft 124 not.

Further, when moving part 120 by fixed rotating shaft 122 and when A is with respect to fixed block 110 rotations vertically, because the slip projection 124a of sliding shaft 124 only moves along sliding rail 114, therefore sliding shaft 124 can move toward unexpected direction to avoid moving part 120 in order to limit the mobile route of moving part 120 with sliding rail 114.In the present embodiment, sliding rail 114 is 90 ° circular arc for angle.When the slip projection 124a of sliding shaft 124 moves to the second end 114b along sliding rail 114 from the first end 114a, moving part 120 vertically A with respect to fixed block 110 half-twists.Yet, in other embodiments, moving part 120 can be adjusted the position of fixed rotating shaft 122 and sliding shaft 124 according to demand, and A is with respect to fixed block 110 motions vertically so that moving part 120 is with different angle of swing or move mode, and the utility model is not as restriction.

On the other hand, in the present embodiment, moving part 120 has groove 126 and card complex hole 128, and fixed block 110 has engagement portion 116.Moving part 120 is fastened on engagement portion 116 accordingly by card complex hole 128 and is fixed on fixed block 110, and card complex hole 128 by engagement release make moving part 120 vertically A move with respect to fixed block 110, and 126 of grooves are at the side of the second top board S21 and be exposed to external opening 52a, so that moving part 120 is outer mobile and with respect to fixed block 110 motions toward casings 52 by driving groove 126.

Fig. 7 is the schematic representation of the elastic clamping hook of Fig. 6.Please refer to Fig. 6 and Fig. 7, in the present embodiment, engagement portion 116 comprises elastic clamping hook 116a, is configured on the fixed block 110 and corresponding to card complex hole 128.The material of fixed block 110 is metal, and elastic clamping hook 116a is the rubber-like tinsel, makes that the elasticity of elastic clamping hook 116a is good than the elasticity of fixed block 110.In addition, elastic clamping hook 116a is fixed on the fixed block 110 by laser bonding and corresponding to card complex hole 128, but the utility model does not limit fixed block 110 and the material of elastic clamping hook 116a and the means of fixation of elastic clamping hook 116a.Therefore, moving part 120 is fastened on elastic clamping hook 116a accordingly by card complex hole 128 and is fixed on fixed block 110, wherein elastic clamping hook 116a provides the engagement portion 116 elasticity, so that card complex hole 128 is fastened on the elastic clamping hook 116a by extruding elastic clamping hook 116a, and remove snap-fit relationship with elastic clamping hook 116a by extruding elastic clamping hook 116a so that moving part 120 along axle A to moving with respect to fixed block 110.

Fig. 8 is the local enlarged diagram of the electronic equipment of Fig. 1.Fig. 9 is the local enlarged diagram that the electronic equipment of Fig. 2 does not connect tapered end.Please refer to Fig. 3 to Fig. 6 and Fig. 8 and Fig. 9, when moving part 120 is positioned at casing 52,120 of box-like moving parts are in the fixed block 110 of ㄇ type, wherein the second top board S21 is in the face of the first top board S11, two second side plate S22 are separately in the face of two first corresponding side plate S12, and appearance S23 is exposed to external opening 52a.At this moment, the slip projection 124a position of sliding shaft 124 is at the first end 114a of sliding rail 114, card complex hole 128 is fastened on elastic clamping hook 116a so that moving part 120 is fixed on fixed block 110, and lockhole 130 is configured in the second top board S21 and is hidden in the casing 52, as Fig. 3 and shown in Figure 8.Therefore, lockhole 130 is not exposed to the outside of casing 52, and appearance S23 can change according to the appearance design of casing 52.

When user's desire is used the lockhole 130 that is hidden in the casing 52, so that electronic equipment 50 is connected tapered ends 60 fixedly the time by lockhole 130, it is outer mobile toward casing 52 that the user can fasten the groove 126 that is exposed to external opening 52a with the finger edge (not shown) of finger, and it is outer mobile toward casing 52 simultaneously to drive moving part 120, so that the card complex hole 128 of moving part 120 is by the mobile elastic clamping hook 116a that pushes, and then the snap-fit relationship of engagement release hole 128 and elastic clamping hook 116a, and make moving part 120 vertically A with respect to fixed block 110 rotations.At this moment, the slip projection 124a of sliding shaft 124 moves toward the second end 114b from the first end 114a of sliding rail 114, as shown in Figure 4.

After slip projection 124a moved to the second end 114b of sliding rail 114, moving part 120 stopped with respect to fixed block 110 rotations.At this moment, moving part 120 vertically A with respect to fixed block 110 half-twists, make the appearance S23 that faces external opening 52a originally rotate to the below of electronic equipment 50, and originally in the face of the second top board S21 of the first top board S11 along with moving part 120 vertically A outside external opening 52a, be exposed at casing 52 and expose lockhole 130 with respect to fixed block 110 half-twists, as shown in Figure 9.Therefore, the user can make the lockhole 130 that is hidden in the casing 52 by shirtsleeve operation, and being exposed at external opening 52a connects tapered end 60 outward, as shown in Figure 2.

In addition, when the user need not use buckle structure 100, the user can remove the annexation of lockhole 130 and tapered end 60 earlier, again with moving part 120 vertically A with respect to fixed block 110 rotation and move in the casing 52, and be fastened on elastic clamping hook 116a by promoting card complex hole 128 by extruding elastic clamping hook 116a, so that moving part 120 is fixed on the fixed block 110.At this moment, buckle structure 100 is hidden in the casing 52 of electronic equipment 50, as shown in Figure 8.Therefore, buckle structure 100 is in order to be configured in the electronic equipment 50 and to be hidden in wherein, so that electronic equipment 50 has concealed buckle structure 100 and has the outward appearance of beautifying.

In sum, buckle structure of the present utility model is configured in the casing of electronic equipment and corresponding to the external opening of casing, wherein the moving part of buckle structure moves with respect to fixed rotating shaft by sliding shaft and vertically with respect to kinematic mount, in casing, to be exposed to outside the casing by external opening, and lockhole is configured on the moving part and be hidden in the casing, and be exposed to outside the casing with respect to kinematic mount vertically by moving part, and then connect tapered end.Accordingly, buckle structure of the present utility model is in order to be configured in the electronic equipment and to be hidden in wherein, so that electronic equipment has concealed buckle structure and has the outward appearance of beautifying.

It should be noted that at last: above each embodiment is not intended to limit only in order to the technical solution of the utility model to be described; Although with reference to aforementioned each embodiment the utility model is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technological scheme that aforementioned each embodiment puts down in writing, and perhaps some or all of technical characteristics wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the scope of each embodiment's technological scheme of the utility model.

Claims (12)

1. buckle structure in order in the casing that is configured in an electronic equipment and corresponding to a pair of outer opening of this casing, is characterized in that this buckle structure comprises:

One fixed block is configured in this casing;

One moving part, the position in this casing and corresponding to this external opening, wherein this moving part connects this fixed block, and along one axially with respect to this kinematic mount, in this casing, to be exposed to outside this casing by this external opening; And

One lockhole is configured on this moving part and is hidden in this casing, and this lockhole axially is exposed to outside this casing with respect to this kinematic mount along this by this moving part, to connect a tapered end.

2. buckle structure according to claim 1, it is characterized in that, this moving part has a fixed rotating shaft, this moving part axially connects this fixed block by this fixed rotating shaft along being somebody's turn to do, axially rotate with respect to this fixed block along this so that this moving part passes through this fixed rotating shaft, and expose this lockhole from this external opening.

3. buckle structure according to claim 2, it is characterized in that, this fixed block is a ㄇ type support, comprise one first top board and relative two first side plates, this two first side plate faces one another and connects respectively the relative both sides of this first top board, and this moving part has one second top board, two second side plates and an appearance, this two second side plate faces one another and connects respectively the relative both sides of this second top board, this appearance connects this second top board and is exposed to this external opening with this relative two second side plate, wherein this second top board is in the face of this first top board, this two second side plate is separately in the face of this corresponding two first side plate, this lockhole is configured in this second top board and is hidden in this casing, this moving part is configured in this two first side plate by this fixed rotating shaft and with respect to this kinematic mount so that this second top board by this moving part along this axially with respect to this kinematic mount and outside be exposed at this casing and expose this lockhole.

4. buckle structure according to claim 3, it is characterized in that, this fixed rotating shaft comprises two fixing projections, be configured in this two second side plate respectively, and this fixed block has two fixed holes, respectively the position is at this two first side plate, this two fixedly projection penetrate this two fixed hole respectively accordingly so that this moving part connect this fixed block and pass through this fixed rotating shaft along this axially with respect to this kinematic mount.

5. buckle structure according to claim 3, it is characterized in that, this moving part has a sliding shaft, this sliding shaft comprises two slip projections, be configured in this two second side plate respectively, and this fixed block has two sliding rails, the position is at this two first side plate respectively, this moving part connects this fixed block by this sliding shaft, wherein this two slips projection penetrates this two sliding rail respectively accordingly and moves along this two sliding rail, so that this moving part moves with respect to this fixed rotating shaft by this sliding shaft along this axially with respect to this kinematic mount, and expose this lockhole from this external opening.

6. buckle structure according to claim 3, it is characterized in that, this moving part has a groove and a card complex hole, this fixed block has an engagement portion, wherein moving part is fastened on this engagement portion accordingly by this card complex hole and is fixed on this fixed block, and this card complex hole makes this moving part axially move with respect to this fixed block along this by engagement release, and this groove position is at a side of this second top board and be exposed to this external opening, so that this groove is outer mobile and drive this moving part with respect to this kinematic mount toward this casing.

7. an electronic equipment is characterized in that, this electronic equipment comprises:

One casing has a pair of outer opening; And

One buckle structure is configured in this casing and corresponding to this external opening, and this buckle structure comprises:

One fixed block is configured in this casing;

One moving part, the position in this casing and corresponding to this external opening, wherein this moving part connects this fixed block, and along one axially with respect to this kinematic mount, in this casing, to be exposed to outside this casing by this external opening; And

One lockhole is configured on this moving part and is hidden in this casing, and this lockhole axially is exposed to outside this casing with respect to this kinematic mount along this by this moving part, to connect a tapered end.

8. electronic equipment according to claim 7, it is characterized in that, this moving part has a fixed rotating shaft, this moving part axially connects this fixed block by this fixed rotating shaft along being somebody's turn to do, axially rotate with respect to this fixed block along this so that this moving part passes through this fixed rotating shaft, and expose this lockhole from this external opening.

9. electronic equipment according to claim 8, it is characterized in that, this fixed block is a ㄇ type support, comprise one first top board and relative two first side plates, this two first side plate faces one another and connects respectively the relative both sides of this first top board, and this moving part has one second top board, two second side plates and an appearance, this two second side plate faces one another and connects respectively the relative both sides of this second top board, this appearance connects this second top board and is exposed to this external opening with this relative two second side plate, wherein this second top board is in the face of this first top board, this two second side plate is separately in the face of this corresponding two first side plate, this lockhole is configured in this second top board and is hidden in this casing, this moving part is configured in this two first side plate by this fixed rotating shaft and with respect to this kinematic mount so that this second top board by this moving part along this axially with respect to this kinematic mount and outside be exposed at this casing and expose this lockhole.

10. electronic equipment according to claim 9, it is characterized in that, this fixed rotating shaft comprises two fixing projections, be configured in this two second side plate respectively, and this fixed block has two fixed holes, respectively the position is at this two first side plate, this two fixedly projection penetrate this two fixed hole respectively accordingly so that this moving part connect this fixed block and pass through this fixed rotating shaft along this axially with respect to this kinematic mount.

11. electronic equipment according to claim 9, it is characterized in that, this moving part has a sliding shaft, this sliding shaft comprises two slip projections, be configured in this two second side plate respectively, and this fixed block has two sliding rails, the position is at this two first side plate respectively, this moving part connects this fixed block by this sliding shaft, wherein this two slips projection penetrates this two sliding rail respectively accordingly and moves along this two sliding rail, so that this moving part moves with respect to this fixed rotating shaft by this sliding shaft along this axially with respect to this kinematic mount, and expose this lockhole from this external opening.

12. electronic equipment according to claim 9, it is characterized in that, this moving part has a groove and a card complex hole, this fixed block has an engagement portion, wherein this moving part is fastened on this engagement portion accordingly by this card complex hole and is fixed on this fixed block, and this card complex hole makes this moving part axially move with respect to this fixed block along this by engagement release, and this groove position is at a side of this second top board and be exposed to this external opening, so that this groove is outer mobile and drive this moving part with respect to this kinematic mount toward this casing.

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