CN201145867Y - Electronic device with battery disengaging mechanism - Google Patents

Abstract

The utility model discloses an electronic device with a battery withdrawing mechanism and comprises a machine shell and a battery; wherein, the battery is provided with a fixation hook and the machine shell is provided with a first elastic element, a movable hook component and a guiding groove. The movable hook component moves between a latch position and an off-position along the guiding groove; the battery is arranged in the machine shell along a combining direction and pushes the movable hook component to the latch position to lead the movable hook component to be buckled with the fixation hook so as to fix the battery rapidly. When the movable hook component is arranged at the latch position and is pushed to the combining direction by the battery, the movable hook component moves to the off-position to release the fixation hook, and the first elastic element pushes the battery to the direction contrary to the combining direction to withdraw the battery rapidly.

Description

Electronic installation with battery drawing-out mechanism

Technical field

The utility model relates to a kind of electronic installation that possesses battery, particularly relates to a kind of electronic installation with battery drawing-out mechanism.

Background technology

Portable computer (Portable Computer) makes its sales volume and city account for rate and replaces traditional desktop PC gradually because have characteristic frivolous and that carry easily.But the rechargeable battery of recharge all is equipped with on nearly all portable computer, to provide the independent running of portable computer running required electric energy in the place that does not have the power supply supply.In general, the bottom of portable computer main machine or rear end can be provided with the battery case that is used for taking in above-mentioned rechargeable battery, and are provided with mobilizable grab in the battery case.When the user was placed in rechargeable battery in the battery case of portable computer, the Power Port of rechargeable battery will connect the electric connection socket in the battery case, and the grab of battery case can hook be lived rechargeable battery simultaneously.So rechargeable battery just is fixed in the battery case by grab, and can provide electric energy simultaneously, or charge by the portable computer external power supply to portable computer.

In most portable computer, the grab that is used for fixing rechargeable battery all is to discharge by a push button trip, and for example quite popular in recent years UMPC (Ultra Mobile Personal Computer) is exactly to adopt this design.One end of push button trip can directly or indirectly be connected in grab, and the other end then exposes to host machine casing.Itself can slide the push button trip on casing, and can interlock when the push button trip is promoted by external force or drive the grab displacement, and then discharges rechargeable battery.When the user desires to pull down or changes rechargeable battery, just can be as long as promote the push button trip towards release direction with rechargeable battery by withdrawing from the host machine casing with hand.Yet most push button trips all are the bottom surfaces that is arranged at host machine casing, thus, just must be earlier when user's desire dismounting rechargeable battery turn over portable computer is whole, and way promotion push button trip is just arranged.Though this configuration mode can be avoided dropping because of false touch push button trip causes the rechargeable battery accident, the formality that changes rechargeable battery is quite bothered and be difficult to and operate.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of electronic installation with battery drawing-out mechanism, is used for solving the problem of the rechargeable battery dismounting formality trouble of prior art portable computer.

To achieve these goals, the utility model provides a kind of electronic installation with battery drawing-out mechanism, it is characterized in that, includes:

One battery has at least one stay hook; And

One casing has one first elastic component, at least one movable hook assembly and at least one guide channel, and between a clip position and an off-position, and this first elastic component is provided with corresponding to this battery this movable hook assembly along this guide channel start;

Wherein, insert this casing by this battery along a bonding position, and push against this movable hook assembly to this clip position, this movable hook assembly is buckled and is held this stay hook and fix this battery, and this first elastic component pushes against this battery in contrast to this bonding position normally, by this movable hook assembly be positioned at this clip position and by this battery towards the pushing and pressing of this bonding position, this movable hook assembly start discharges this stay hook to this off-position, and this first elastic component pushes against this battery and withdraws from this casing.

Described electronic installation with battery drawing-out mechanism, wherein, this movable hook assembly includes:

One grab engages with this stay hook in this clip position, and breaks away from this stay hook in this off-position;

One connecting rod, an end of this connecting rod is articulated in this grab, and the other end slides along this guide channel; And

One second elastic component is provided with corresponding to this connecting rod, pushes against this connecting rod in contrast to this bonding position normally by this second elastic component, and this grab of interlock is moved to this clip position or this off-position.

Described electronic installation with battery drawing-out mechanism, wherein, this casing also has at least one stopper slot, be provided with corresponding to this guide channel and along this bonding position, between this clip position and this off-position, and these second elastic component two ends are resisted against the bottom of this connecting rod and this stopper slot respectively to this grab along this stopper slot displacement.

Described electronic installation with battery drawing-out mechanism, wherein, opening one side of this stopper slot has an inclined-plane, and this grab is resisted against this inclined-plane in this off-position, and favours this stopper slot.

Described electronic installation with battery drawing-out mechanism, wherein, this second elastic component is a compression spring.

Described electronic installation with battery drawing-out mechanism, wherein, this guide channel has clip point, a point of release, a clip path and a release way, slide towards this clip point along this clip path by this connecting rod, this grab of interlock is moved to this clip position by this off-position, and slide along this release way towards this point of release by this connecting rod, this grab of interlock by this clip position displacement to this off-position.

Described electronic installation with battery drawing-out mechanism, wherein, this clip path and this release way have a critical point respectively, slided to this bonding position the previous dynasty in these critical points by this connecting rod, this grab is towards this bonding position displacement, and slide in contrast to this bonding position after passing through these critical points by this connecting rod, this grab is in contrast to this bonding position displacement.

Described electronic installation with battery drawing-out mechanism, wherein, this first elastic component is a shell fragment, be fixed in this casing by this shell fragment one end, the other end is resisted against this casing, and the stage casing of this shell fragment is resisted against this battery, pushes against this battery in contrast to this bonding position when this movable hook assembly discharges this stay hook.

Described electronic installation with battery drawing-out mechanism, wherein, this first elastic component is a compression spring, and the two ends by this compression spring are resisted against this casing and this battery respectively, push against this battery in contrast to this bonding position when this movable hook assembly discharges this stay hook.

Described electronic installation with battery drawing-out mechanism, wherein, this first elastic component is a block rubber, is resisted against this battery by this block rubber one end, and the other end is fixed in this casing, when this movable hook assembly discharges this stay hook the distortion and push against this battery in contrast to this bonding position.

Useful technique effect of the present utility model is, after battery is pushed into casing, the movable hook assembly can be promoted by battery and fasten the stay hook of battery, so that battery promptly is fixed on casing, and after battery is fixed on casing and is promoted towards bonding position, the movable hook assembly can discharge the stay hook of battery, and first elastic component can push against battery in contrast to bonding position, so that battery is promptly withdrawed from casing, not only need not stir just energy dismounting cell of whole casing, more can simplify the formality of dismounting cell.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is the three-dimensional exploded view of casing and battery among the utility model first embodiment;

Fig. 2 is the diagrammatic cross-section of guide channel among the utility model first embodiment;

Fig. 3 A is the diagrammatic cross-section of casing and battery among the utility model first embodiment, and wherein the movable hook assembly is positioned at the off-position;

Fig. 3 B is the partial cutaway schematic of Fig. 3 A;

Fig. 4 A is the diagrammatic cross-section of casing and battery among the utility model first embodiment, and wherein the connecting rod of movable hook assembly is positioned on the clip path of guide channel;

Fig. 4 B is the partial cutaway schematic of Fig. 4 A;

Fig. 5 A is the diagrammatic cross-section of casing and battery among the utility model first embodiment, and wherein the connecting rod of movable hook assembly is positioned at the critical point in the clip path of guide channel;

Fig. 5 B is the partial cutaway schematic of Fig. 5 A;

Fig. 6 A is the diagrammatic cross-section of casing and battery among the utility model first embodiment, and wherein the movable hook assembly is positioned at the clip position;

Fig. 6 B is the partial cutaway schematic of Fig. 6 A;

Fig. 7 A is the diagrammatic cross-section of casing and battery among the utility model first embodiment, and wherein the connecting rod of movable hook assembly is positioned on the release way of guide channel;

Fig. 7 B is the partial cutaway schematic of Fig. 7 A;

Fig. 8 is the diagrammatic cross-section of casing and battery among the utility model second embodiment, and wherein the movable hook assembly is positioned at the off-position;

Fig. 9 is the diagrammatic cross-section of casing and battery among the utility model second embodiment, and wherein the movable hook assembly is positioned at the clip position;

Figure 10 is the diagrammatic cross-section of casing and battery among the utility model the 3rd embodiment, and wherein the movable hook assembly is positioned at the off-position;

Figure 11 is the diagrammatic cross-section of casing and battery among the utility model the 3rd embodiment, and wherein the movable hook assembly is positioned at the clip position.

Wherein, Reference numeral:

10 casings

11 pickup grooves

12 stopper slots

13 inclined-planes

14 first elastic components

20 guide channels

21 point of releases

22 clips point

23 clip paths

24 release way

25 critical points

26 critical points

30 movable hook assemblies

31 grabs

32 connecting rods

33 second elastic components

50 batteries

51 stay hooks

Embodiment

Below in conjunction with the drawings and specific embodiments the technical solution of the utility model is made further more detailed description.

See also shown in Fig. 1 to Fig. 7 B, be first embodiment of the electronic installation that the utlity model has battery drawing-out mechanism.Electronic installation with battery drawing-out mechanism of the present utility model comprises a casing 10 and a battery 50.In concrete application example of the present utility model, above-mentioned electronic installation refers to portable computer (Portable Computer), for example notebook (Notebook), UMPC (Ultra MobilePersonal Computer) or the like.

See also shown in Figure 1.Be used for loading the host machine casing of motherboard, Winchester disk drive, CD-ROM device, keyboard or the like electronic component in the above-mentioned portable computer of casing 10 fingers.The rear side of casing 10 has a pickup groove 11, and wherein pickup groove 11 is used for set battery 50.Battery 50 assignments place the lithium rechargeable batteries module of above-mentioned portable computer main machine rear side, but storage of electrical energy and repeat charge and discharge.After battery 50 is packed casing 10 into, can electrically connect, independently operate required electric energy with the supply portable computer, or charge by the external power supply of portable computer with the power module of portable computer.Battery 50 has two stay hooks 51, and wherein when battery 50 was packed casing 10 into, stay hook 51 was towards pickup groove 11.Though the quantity that is provided with of stay hook 51 is two in the present embodiment, the quantity that is provided with of stay hook 51 is not exceeded with two in the utility model, can be more than one or two yet.Battery 50 is inserted casing 10 along a bonding position, and wherein above-mentioned bonding position refers to pack into the sensing of stay hook 51 in the process of pickup groove 11 of battery 50.

See also shown in Fig. 1, Fig. 2 and Fig. 3 A.Casing 10 also has two stopper slots 12, one first elastic component 14, two guide channels 20 and two movable hook assemblies 30.It is inner and be positioned at pickup groove 11 1 sides that stopper slot 12 is arranged at casing 10, wherein the quantity of stopper slot 12 with the stay hook 51 (in diagram only represent a stopper slot 12) of position corresponding to battery 50 is set.Each stopper slot 12 is corresponding to guide channel 20 and along above-mentioned bonding position setting, and a side of the opening of stopper slot 12 has an inclined-plane 13.First elastic component 14 can be the shell fragment of a metal or plastic material, is arranged at pickup groove 11 1 sides corresponding to battery 50.One end of first elastic component 14 (shell fragment) is fixed in casing 10, and its other end is against casing 10, and the stage casing of first elastic component 14 is resisted against battery 50.When battery 50 was inserted the pickup groove 11 of casing 10, battery 50 can be pushed first elastic component 14 and be out of shape towards above-mentioned bonding position, and made first elastic component 14 normally in contrast to above-mentioned bonding position pushing and pressing battery 50.

See also shown in Fig. 2 and Fig. 3 A.It is inner and corresponding to stopper slot 12 that guide channel 20 is arranged at casing 10, and wherein guide channel 20 is provided with the stay hook 51 (in diagram only represent a guide channel 20) of quantity corresponding to battery 50.Each guide channel 20 has a point of release 21, a clip point 22, a clip path 23 and a release way 24 respectively, and clip path 23 has a critical point 25 and a critical point 26 respectively with release way 24.Point of release 21 be in the guide channel 20 near the point of pickup groove 11, and critical point 25 is away from the point of pickup groove 11 in the guide channel 20.Clip path 23 refers in guide channel 20 by point of release 21 toward clip points 22 and through the mobile route of critical point 25, and release way 24 refers in guide channel 20 mobile route by clip point 22 past point of releases 21 and process critical point 26.Critical point 25 is the direction turning point on the clip path 23, and critical point 26 is the direction turning point on the release way 24.

See also shown in Fig. 1, Fig. 3 A, Fig. 3 B, Fig. 6 A and Fig. 6 B.Movable hook assembly 30 is along guide channel 20 starts in a clip position between (Fig. 6 A and Fig. 6 B) and an off-position (Fig. 3 A and Fig. 3 B), and wherein movable hook assembly 30 is provided with the stay hook 51 (in diagram only represent a movable hook assembly 30) of quantity corresponding to battery 50.Each movable hook assembly 30 includes a grab 31, a connecting rod 32 and one second elastic component 33.

The rear end of grab 31 is placed in the stopper slot 12, and the front end of grab 31 is positioned at outside the stopper slot 12, and stretches in the pickup groove 11.Grab 31 engages with the stay hook 51 of battery 50 in above-mentioned clip position, movable hook assembly 30 can be buckled hold stay hook 51.Grab 31 breaks away from the stay hook of battery 50 in above-mentioned off-position, and grab 31 is resisted against the inclined-plane 13 of stopper slot 12 in above-mentioned off-position one side, and favours stopper slot 12.One end of connecting rod 32 is articulated in the rear end of grab 31, and the other end is slidably inserted guide channel 20, and connecting rod 32 can be slided along guide channel 20.When grab 31 is pushed, can simultaneously move and rotate, and drivening rod 32 slides along guide channel 20, and make connecting rod 32 move and rotate with respect to stopper slot 12 simultaneously along stopper slot 12.When connecting rod 32 is pushed, can slide, and move and rotate with respect to stopper slot 12 simultaneously, and drive grab 31 moves and rotates along stopper slot 12 along guide channel 20.Second elastic component 33 can be a compression spring, is placed in the stopper slot 12 and corresponding to connecting rod 32 to be provided with.Second elastic component, 33 two ends are resisted against connecting rod 32 and stopper slot 12 bottoms respectively, slide along guide channel 20 to push against connecting rod 32 in contrast to above-mentioned bonding position normally, and are moved to above-mentioned clip position or above-mentioned off-position with connecting rod 32 interlock grabs 31.

See also shown in Fig. 1, Fig. 2, Fig. 3 A, Fig. 3 B, Fig. 4 A, Fig. 4 B, Fig. 5 A Fig. 5 B, Fig. 6 A and Fig. 6 B.When movable hook assembly 30 is positioned at off-position (Fig. 3 B), connecting rod 32 is positioned at the point of release 21 of guide channel 20, this moment, the elastic force of second elastic component, 33 pushing and pressing connecting rods 32 was guided groove 20 payments, make connecting rod 32 and grab 31 be in stable state (Stable State), thus do not have external force apply under connecting rod 32 just can not move or rotate with grab 31.When battery 50 when above-mentioned bonding position is inserted the pickup groove 11 of casing 10, battery 50 can contact and push 14 distortion of first elastic component earlier, then towards the grab 31 of above-mentioned bonding position pushing and pressing movable hook assembly 30.Then, movable hook assembly 30 is subjected to the pushing and pressing of battery 50 and leaves the off-position, and connecting rod 32 also leaves stable state with grab 31.Continue under the pushing and pressing at battery 50, connecting rod 32 can 22 slips along clip path 23 towards clip point, and compress second elastic component 33 simultaneously and interlock grab 31 is moved to clip position (Fig. 6 B) by the off-position.At connecting rod 32 along in 23 sliding processes of clip path, connecting rod 32 slided to above-mentioned bonding position in critical point 25 previous dynastys, make grab 31 towards above-mentioned bonding position displacement, and connecting rod 32 is back in contrast to above-mentioned bonding position slip by critical point 25, makes grab 31 in contrast to above-mentioned bonding position displacement.When movable hook assembly 30 is positioned at the clip position, connecting rod 32 is positioned at the clip point 22 of guide channel 20, the elastic force that the elastic force of elastic component 33 pushing and pressing this moment second connecting rods 32 and first elastic component 14 push against batteries 50 is guided groove 20 and offsets, make connecting rod 32 and grab 31 be in stable state steady, thus do not have external force apply under connecting rod 32 just can not move or rotate with grab 31.Movable hook assembly 30 is buckled with grab 31 in the clip position and is held stay hook 51, battery 50 being fixed on the pickup groove 11 of casing 10, and makes battery 50 and pickup groove 11 bottoms have suitable gap.

See also shown in Fig. 1, Fig. 2, Fig. 3 A Fig. 3 B, Fig. 6 A, Fig. 6 B, Fig. 7 A and Fig. 7 B.When movable hook assembly 30 is positioned at the clip position and by battery 50 during towards the pushing and pressing of above-mentioned bonding position, because of battery 50 and pickup groove 11 bottoms have the gap, movable hook assembly 30 can leave clip position (Fig. 6 B) towards above-mentioned bonding position, and connecting rod 32 also leaves stable state with grab 31, makes connecting rod 32 meetings 21 slips along release way 24 towards point of release.At connecting rod 32 along in release way 24 sliding processes, connecting rod 32 slided to above-mentioned bonding position in critical point 26 previous dynastys, make grab 31 towards above-mentioned bonding position displacement, and connecting rod 32 is back in contrast to above-mentioned bonding position slip by critical point 26, makes grab 31 in contrast to above-mentioned bonding position displacement.After connecting rod 32 was by critical point 26, second elastic component 33 will make 30 starts of movable hook assembly to the off-position (Fig. 3 B), and grab 31 also just discharge stay hook 51 in contrast to above-mentioned bonding position pushing and pressing connecting rod 32.After movable hook assembly 30 discharged stay hook 51, first elastic component 14 will make battery 50 withdraw from the pickup groove 11 of casing 10 in contrast to above-mentioned bonding position pushing and pressing battery 50.

See also Fig. 8 and shown in Figure 9, be second embodiment of the electronic installation that the utlity model has battery drawing-out mechanism.In a second embodiment, first elastic component 14 is a compression spring, and its two ends are resisted against casing 10 and battery 50 respectively.When battery 50 was inserted the pickup groove 11 of casing 10, battery 50 can compress first elastic component 14, made first elastic component 14 push against battery 50 in contrast to above-mentioned bonding position normally.So when movable hook assembly 30 discharged stay hook 51 in the off-position, first elastic component 14 will push against the pickup groove 11 that battery 50 withdraws from casing 10.

See also Figure 10 and shown in Figure 11, be the 3rd embodiment of the electronic installation that the utlity model has battery drawing-out mechanism.In the 3rd embodiment, first elastic component 14 is a block rubber, and the one end is resisted against battery 50, and the other end is fixed in casing 10.When battery 50 was inserted the pickup groove 11 of casing 10, battery 50 can be pushed 14 distortion of first elastic component, makes first elastic component 14 push against battery 50 in contrast to above-mentioned bonding position normally.So when movable hook assembly 30 discharged stay hook 51 in the off-position, first elastic component 14 will push against the pickup groove 11 that battery 50 withdraws from casing 10.

Take a broad view of above-mentioned, after battery 50 is pushed into casing 10, movable hook assembly 30 can be promoted by battery 50 and fasten the stay hook 51 of battery 50, so that battery 50 promptly is fixed on casing 10, and after battery 50 is fixed on casing 10 and is promoted towards bonding position, movable hook assembly 30 can discharge the stay hook 51 of battery 50, and first elastic component 14 can be in contrast to bonding position pushing and pressing battery 50, so that battery 50 is promptly withdrawed from casing 10, not only need not stir just energy dismounting cell 50 of whole casing 10, more can simplify the formality of dismounting cell 50.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims (10)

1, a kind of electronic installation with battery drawing-out mechanism is characterized in that, includes:

One battery has at least one stay hook; And

One casing has one first elastic component, at least one movable hook assembly and at least one guide channel, and between a clip position and an off-position, and this first elastic component is provided with corresponding to this battery this movable hook assembly along this guide channel start;

Wherein, insert this casing by this battery along a bonding position, and push against this movable hook assembly to this clip position, this movable hook assembly is buckled and is held this stay hook and fix this battery, and this first elastic component pushes against this battery in contrast to this bonding position normally, by this movable hook assembly be positioned at this clip position and by this battery towards the pushing and pressing of this bonding position, this movable hook assembly start discharges this stay hook to this off-position, and this first elastic component pushes against this battery and withdraws from this casing.

2, the electronic installation with battery drawing-out mechanism according to claim 1 is characterized in that, this movable hook assembly includes:

One grab engages with this stay hook in this clip position, and breaks away from this stay hook in this off-position;

One connecting rod, an end of this connecting rod is articulated in this grab, and the other end slides along this guide channel; And

One second elastic component is provided with corresponding to this connecting rod, pushes against this connecting rod in contrast to this bonding position normally by this second elastic component, and this grab of interlock is moved to this clip position or this off-position.

3, the electronic installation with battery drawing-out mechanism according to claim 2, it is characterized in that, this casing also has at least one stopper slot, be provided with corresponding to this guide channel and along this bonding position, between this clip position and this off-position, and these second elastic component two ends are resisted against the bottom of this connecting rod and this stopper slot respectively to this grab along this stopper slot displacement.

4, the electronic installation with battery drawing-out mechanism according to claim 3 is characterized in that, opening one side of this stopper slot has an inclined-plane, and this grab is resisted against this inclined-plane in this off-position, and favours this stopper slot.

5, the electronic installation with battery drawing-out mechanism according to claim 2 is characterized in that, this second elastic component is a compression spring.

6, the electronic installation with battery drawing-out mechanism according to claim 2, it is characterized in that, this guide channel has clip point, a point of release, a clip path and a release way, slide towards this clip point along this clip path by this connecting rod, this grab of interlock is moved to this clip position by this off-position, and slide along this release way towards this point of release by this connecting rod, this grab of interlock by this clip position displacement to this off-position.

7, the electronic installation with battery drawing-out mechanism according to claim 6, it is characterized in that, this clip path and this release way have a critical point respectively, slided to this bonding position the previous dynasty in these critical points by this connecting rod, this grab is towards this bonding position displacement, and slide in contrast to this bonding position after passing through these critical points by this connecting rod, this grab is in contrast to this bonding position displacement.

8, the electronic installation with battery drawing-out mechanism according to claim 1, it is characterized in that, this first elastic component is a shell fragment, be fixed in this casing by this shell fragment one end, the other end is resisted against this casing, and the stage casing of this shell fragment is resisted against this battery, pushes against this battery in contrast to this bonding position when this movable hook assembly discharges this stay hook.

9, the electronic installation with battery drawing-out mechanism according to claim 1, it is characterized in that, this first elastic component is a compression spring, two ends by this compression spring are resisted against this casing and this battery respectively, push against this battery in contrast to this bonding position when this movable hook assembly discharges this stay hook.

10, the electronic installation with battery drawing-out mechanism according to claim 1, it is characterized in that, this first elastic component is a block rubber, be resisted against this battery by this block rubber one end, and the other end is fixed in this casing, when this movable hook assembly discharges this stay hook the distortion and push against this battery in contrast to this bonding position.

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