TW201227214A - Battery detachable structure and all-in-one(AIO) device using same - Google Patents

Abstract

The present invention relates to a battery detachable structure for an all-in-one (AIO) device. The AIO defines a receiving groove for receiving a battery, and a first cavity and a second cavity respectively communicating with the receiving groove. The battery detachable structure includes a first locking member received in the first cavity, a second locking member received in the second cavity, a first operation member, and a second operation member. The second locking member includes a spring element. The first operation member is fixed to the first locking member while the second operation member is fixed to the second operation member. The second operation member can drive the second operation member to slide in the second cavity. The battery defines a number of locking grooves corresponding to the first locking member and the second locking member. When the spring element is in a natural state, the first locking member and the second locking member are respectively received in the locking grooves. When the spring element is compressed along a predetermined direction, the second operation member drives the second locking member to escape from the locking groove.

Description

201227214 VI. Description of the Invention: [Technical Field] The present invention relates to an electronic device structure, and more particularly to a battery loading and unloading structure and an all-in-one machine using the battery loading and unloading structure. [Prior Art·] [0002] The previous All-in-One (AIO) (AIO) was usually connected to the mains supply via an external adapter to obtain operating power. However, in the event of a sudden power failure, the AI0 without the power-off protection measure is difficult to save the data in time, and it is easy to cause data loss. Therefore, there is an urgent need for a battery loading and unloading structure that can avoid data loss due to power failure, and it can independently provide the working power of the AI0, so that the AI0 does not need to be directly connected to the commercial power source through the adapter. Thus, a conventional battery handling structure has appeared. [0003] In a conventional battery loading and unloading structure, a receiving slot is generally formed in an electronic device. After the battery is installed in the receiving slot, the battery is fixed by a sliding cover to the receiving slot. When it is necessary to remove the battery, slide the sliding cover to remove the battery. In this way, the force on the sliding cover cannot be controlled, and when the force is excessive, the sliding cover is easily damaged, and the operation is inconvenient. Moreover, the sliding cover occupies a large area, resulting in high cost of electronic equipment. SUMMARY OF THE INVENTION [0004] In view of the above, it is necessary to provide a battery loading and unloading structure capable of avoiding data loss due to sudden power failure and having a low cost, and also providing an all-in-one device using the battery loading and unloading structure ( AI0). [0005] A battery loading and unloading structure for connecting a battery to an all-in-one. The all-in-one includes a frame and a back cover assembled with the frame, 099144929 Form No. A01G1 Page 4 of 25 0992077583-0 201227214 Ο The battery handling structure is disposed on the frame. The frame is provided with a recess for receiving a battery, a first receiving slot respectively communicating with the recess, and a second receiving slot. The battery loading and unloading structure includes a first locking component, a second locking component, and a first The operation key and the second operation key. The first locking member is received in the first receiving slot and fixed to the frame, and the second locking member extends from a side of the first receiving slot to extend a spring, and the second locking member is The spring is slidably received in the second receiving groove. The first operating button and the second operating button are respectively fixed on the first locking member and the second locking member, and the second operating button can drive the second locking member in the second receiving Movement in the tank. Card slots are respectively formed on opposite sides of the battery. When the spring is in a natural state, the first locking member and the second locking member are respectively partially received in the card slot, and when the spring is compressed in a predetermined direction, the second operation key drives the first The two locking members are disengaged from the card slot. An all-in-one machine includes a frame and a rear cover assembled with the frame, the frame being provided with a battery loading and unloading structure, and the rear cover is provided with a cutout for exposing the battery loading and unloading structure. The frame further includes a recess for receiving the battery, a first receiving slot respectively communicating with the recess, and a second receiving slot. The battery loading and unloading structure includes a first locking member, a second locking member, and a second locking member. An operation key and a second operation key. The first locking member is received in the first receiving slot and fixed to the frame, and the second locking member extends from a side of the first receiving slot to extend a spring, and the second locking member is The spring is slidably received in the second receiving groove. The first operation key and the second operation key are respectively fixed on the first locking member and the second locking member, and the second operation key can drive the 099144929 form number Α0101 5th page/total 25 page 0992077583 -0 201227214 The second locking member moves in the second receiving groove. Card slots are respectively formed on opposite sides of the battery. When the spring is in a natural state, the first locking member and the second locking member are respectively partially received in the card slot, and when the spring is compressed in a predetermined direction, the second operation key drives the first The two locking members are disengaged from the card slot. [0007] The second locking member of the battery loading and unloading structure of the multifunctional machine is provided with a second holding block, and the battery is provided with a corresponding card slot, and the second clamping block passes through the holding hole and the card slot. Hold the battery so that the battery is attached to the frame. The second operating button can drive the second locking member to slide. When the battery is removed, the second operating button can be slid to disengage the second holding block from the slot. Thus, the multi-function integrated machine can be powered by the battery while being connected to an external power source to obtain power, and can be powered by the battery even if the power is suddenly turned off, thereby avoiding data loss. Moreover, the battery handling structure eliminates the need for a battery cover and reduces component costs. [Embodiment] The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings. Referring to FIG. 1 and FIG. 2, an MFP 100 includes a front cover 5, a frame 10 and a rear cover 20, and the front cover 5 and the back cover. 20 are respectively located on both sides of the frame 10, and are detachably connected to the frame 10 by snapping or screwing. A battery loading and unloading structure 30 is formed on the frame 10. The rear cover 20 is provided with a supporting portion 21. The rear cover 20 defines a notch 23 corresponding to the position of the supporting portion 21 for the battery loading and unloading structure 30 to be exposed. Thereby, it is convenient to load the battery 40. 099144929

Form No. AOHH Page 6 / Total 25 Page 0992077583-0 201227214 [0010] Please refer to FIG. 3 to FIG. 5 , the frame 10 is a rectangular frame comprising two opposite side frames 11 and two opposite frames 1 2 . . The two side frames 11 are respectively connected to the two frames 12 to enclose the rectangle. A concave portion 13 is defined in the inner surface of the frame 12, and a recess 14 is defined in the recess 13 for receiving the battery 40. The recess 13 includes a top wall 141 and two opposite side walls 143. And a front wall 144 respectively connected to the top wall 141 and the side wall 143, the top wall 141, the side wall 143, and the front wall 144 enclosing the groove 14. Stripe protrusions 145 are formed correspondingly on the opposite side walls 143. The top wall 141 extends away from the surface of the recess 14 outwardly by a flange 15, and the flange 15 includes a first surface 15a and a second surface 15b opposite to each other. A first receiving groove 151 and a second receiving groove 153 are defined in the first surface 15a. Each of the two inner side walls of the first receiving slot 151 and the second receiving slot 153 is respectively provided with a latching lever L155, and the latching hole 155 is communicated with the recess 14 for the The battery handling structure 30 passes through to hold the battery 40. Each of the first receiving groove 151 or the second receiving groove 153 has a rectangular parallelepiped shape, and two opposite inner sidewalls along the longitudinal direction thereof are respectively provided with a truss-shaped guide rail for guiding the sliding of the battery loading and unloading structure 30 (not shown). . A rod body 18 extends in the first receiving groove 151. A third receiving slot 158 and a fourth receiving slot 159 respectively corresponding to the first receiving slot 151 and the second receiving slot 153 are defined in the second receiving surface 151, and the third receiving slot 158 and the first receiving slot 151 are The first receiving hole 159 communicates with the second receiving groove 153 through a second through hole 17 . [0011] With further reference to FIG. 6 and FIG. 7, the battery loading and unloading structure 30 includes a first locking member 31, a second locking member 32, a first operation key 33, and a second operation key 099144929. Form No. A0101, page 7 / A total of 25 pages 0992077583-0 201227214 34. The first locking member 31 is engaged with the first operating key 33 and fixed in the first receiving slot 151 and the third receiving slot 158, respectively. The second locking member is engaged with the first operation key 34 and is respectively received in the second receiving groove ι53 and the fourth receiving groove 159. When the external force is used to move the second operation key 34, the second operation key 34 can drive the second locking member 32 to slide in the second receiving groove 153. [0012] Specifically, the first locking member 31 includes a first body 311, a first opening 313, a first holding block 315, and two clamping arms 317. The first body 311 is substantially a rectangular block, and the first opening 313 is formed in the middle of the first body 311. Two elastic bumps 3 丨 9 are formed on the two opposite outer sidewalls 311 a of the first body 311 along the longitudinal direction thereof, and the elastic bumps 319 are inserted into the strips of the first receiving slots 15 ί The inside of the guide rail guides the engagement of the first lock member 31 in the first receiving groove 151. The first holding block 315 and the clamping arm 317 are respectively protruded from the two end faces of the first body 311 in the longitudinal direction. The first holding block 315 has a wedge shape, and the first holding block 315 passes through the first a holding hole 155 of a receiving groove 151 is partially exposed in the groove. The two clamping arms 317 have elasticity and can be relatively opened to clamp the rod 18 in the first receiving groove 151. The position of the first locking member 31 is fixed. The structure of the second locking member 32 is similar to that of the first locking member 31, and includes a second body mi corresponding to the first body 311, corresponding to the first a second opening 323 of the opening 313 and a second holding block 325 corresponding to the first holding block 315, except that the second locking member 32 replaces the first locking member with a positioning post 327 and a spring 329 The two clamping arms 317 of the second receiving slot 153 are fixed to the positioning cylinder milk. The other end of the spring 329 is fixed to the second receiving slot 153. 099144929 Form No. AiUOi Page 8 of 25 0992077583-0 201227214 The elastic force of the spring 329 on the inner side wall drives the second holding block 325 to wear The holding hole 155 of the second receiving groove 153 is exposed in the groove 14. Specifically, after the spring is sleeved on the positioning post 327, the natural length of the spring in the extending direction of the positioning post 327 is larger than the positioning 枉 327. The length of the second extending groove 153 in the same extending direction is also equal to the total length of the second locking member 32 after the spring 329 is sleeved, so that the second locking member 32 can be The external force driving spring 329 moves in the second receiving groove 153 under the elastic force generated by the elastic deformation. [0014] The first operation key 33 has the same structure as the second operation key 34, and therefore, only Specifically, the first operation key 33 includes an operation surface 331, a mounting surface 332, and a locking portion 333 disposed on the mounting surface 332. The operation surface 331 is provided with a sliding portion. When the first operation key 33 is operated, the rectangular protrusion of the frictional force between the hand and the operation surface 331 is increased. The buckle portion 333 is protruded from the middle of the mounting surface 332, and includes two elastic buckles extending in parallel in the same direction. 334. The buckle portion 333 passes through the first A through hole 16 is received in the first blue opening 313 of the first locking member 31 to form a snap-fit fixing structure with the first locking member 31 from the cymbal. [0015] Please refer to FIG. 4 and FIG. The battery 40 is a rechargeable battery, and includes a battery body 41 and a protrusion 43 extending outward from an edge of the battery body 41. The opposite side walls of the battery body 41 are corresponding to the recess 14 The vertical groove 411 of the inner protrusion 145 is received in the vertical groove 411 when the battery 4 is received in the recess 14. A card slot 431 is defined in each of the opposite side walls of the protrusions 43. The shape of the card slot 431 and the first and second latches on the first latching member 31 and the second latching member 32 are respectively The blocks 315 and 325 are correspondingly shaped to accommodate the first 099144929 form number A0101, page 9 / page 25, 0992077583-0 201227214, and the second card holding block 31 5, 325. [0018] [0018] When the battery 40 is loaded into the recess U, the battery side edge first pushes against the second holding block 325, thereby pushing the second body 321 to compress the spring 329' The two operation keys 34 slide away from the groove. When the first first holding blocks 315, 325 are respectively held in the slots of the battery 4Q, the spring 329 returns to the elastic force to bounce the second body 321 and the first operation key 33, and the battery 4G is locked. Hold in the groove 14 of the frame (four). When the battery 40 needs to be taken out, the second operation key 34 is slid, and the second body 321 compresses the spring 329' until the first and second holding blocks 315' 325 are separated from the card slot 431 of the battery 4Q, and then the pool 4G can be read. The second latching member 32 is provided with a second latching block 325 on the second latching member 32 of the battery loading and unloading structure 3 of the multi-function integrated device. The battery 40 is provided with a corresponding card slot 431, and the second card is provided. The holding block 325 is engaged with the card slot 431 through the latching hole 155 to fix the battery 40 to the frame 1 . The second operation button 34 can drive the second locking member 32 to slide. When the battery 4 is removed, the second operation button 34 can be slid to disengage the second holding block 325 from the card slot 431. Thus, the all-in-one 100 can be powered by the battery 40 while the power is being connected to the external power source using the adapter. - Even if the power is suddenly turned off, the battery 40 can be powered to prevent data loss. Moreover, the battery handling structure eliminates the need for a battery cover and reduces component cost. In addition, other variations that may be made by those skilled in the art in the spirit of the invention are included, and it is of course within the scope of the invention as claimed. [Simple description of the drawing] 099144929 Form No. 1010101 Page 10/Total 25 Page 0992077583-0 201227214 [0019] [0020] [0023] [0024] FIG. 1 is a view of the present invention. Assembly drawing of the all-in-one machine with battery loading and unloading structure. Figure 2 is an exploded perspective view of the all-in-one of Figure 1. 3 is an exploded perspective view of the multifunction machine of FIG. 1 from another perspective. Fig. 4 is an exploded perspective view showing the battery loading and unloading structure and the battery of the all-in-one device of Fig. 1. Fig. 5 is an exploded perspective view showing the battery detaching structure of the MFP of Fig. 4 and another view of the battery. Figure 6 is an enlarged schematic view showing the first lock member and the first operation key of the all-in-one of Figure 4; Figure 7 is an enlarged schematic view showing the second lock member and the second operation key of the all-in-one of Figure 5; [Main component symbol description] [0026] All-in-one: 100 [0027] Front cover: 5 [0028] Frame: 10 [0029] Side frame: 11 [0030] Border: 12 [0031] Recess: 13 [0032] Groove: 14 [0033] Flange: 15 Form No. A0101 099144929 Page 11 of 25 0992077583-0 201227214 [0034] First through hole: 16 [0035] Second through hole: 17 [0036] Rod: 18 [0037] Back cover: 20 [0038] Support: 21 [0039] Notch: 23 [0040] Battery handling structure: 30 [0041] First locking member: 31 [0042] Second locking member: 32 [ 0043] First operation key: 33 [0044] Second operation key: 34 [0045] Battery: 40 [0046] Battery body: 41 [0047] Bump: 43 [0048] Top wall: 141 [0049] Side wall: 143 [0050] Raised: 145 [0051] First surface: 15a [0052] Second surface: 15b 099144929 Form number AOlOi Page 12/Total 25 page 0992077583-0 201227214

[0053] First receiving groove: 151 [0054] Second receiving groove: 153 [0055] Holding hole: 1 5 5 [0056] Guide rail: 157 [0057] Third receiving groove: 158 [0058] Fourth receiving groove : 159 [0059] First body: 311 [0060] Outer side wall: 311a [0061] First opening: 313 [0062] No. - Snap block: 315 [0063] Clamping arm: 317 [0064] Bump: 319_ [0065] second body: 321 [0066] second opening: 323 [0067] second holding block: 325 [0068] positioning post: 327 [0069] spring: 329 [0070] operating surface · 331 [0071 Mounting surface·· 332 099144929 Form number A0101 Page 13 of 25 0992077583-0 201227214 [0072] Buckle: 333 [0073] Buckle: 334 [0074] Vertical slot: 41 1 [0075] Card slot: 431 0992077583-0 099144929 Form Number A0101 Page 14 of 25

Claims (1)

201227214 七Ο 099144929 Shenqing patent scope: .~ kind of battery loading and unloading structure for upper, the multi-function machine includes a frame connected to the MFP battery loading and unloading structure set on the back cover of the frame assembly There is a first receiving groove and a second, the improvement is that the frame comprises a first locking member, a second member=receiving groove, the battery loading and unloading structure package, and the first locking member is received in the jr operation key And a second operation button, the second locking member is away from the first receiving groove and fixed to the frame, and the second locking member is extended by the end of the receiving groove. The first and second locking members are respectively slidably received by the second receiving and holding members, and the second and second operating keys are respectively fixed on the non-receiving member and the second locking member. The second locking member is respectively provided with a card slot on the two sides of the second receiving slot=two operating keys, and the battery is partially connected to the first holding member and the second locking member respectively. When the spring is contracted in the predetermined direction I, in the card slot, when the two locking members are from the card slot Prolapse. The operation button drives the first battery pack (4). The outlet has a battery for receiving the battery. The shelf-edge extends radially inwardly along the frame from the opposite side walls of the frame and a Connecting the top wall 2: the top wall, the two top walls on the surface away from the groove, the flange extending to the outer surface includes a first surface facing away from each other, a receiving groove and a second receiving Slots are respectively formed on the surface of the surface: the two of the side walls are correspondingly formed with protrusions, and the (four) should be in the protrusions when the battery is received in the groove =, form bat No. 0101 Page 15 of 25 099207758 201227214 The protrusion is received in the vertical groove. The battery loading and unloading structure of claim 2, wherein the second surface is provided with a third receiving groove and a fourth receiving groove, wherein the third receiving groove is connected by a first through hole The first receiving slot communicates with the second receiving slot, and the first operating button and the second operating button are respectively received in the third receiving slot and the second receiving slot. The four receiving slots are respectively fixedly connected to the first locking member and the second locking member through the first through hole and the second through hole. 4. The battery loading and unloading structure according to claim 3, wherein: the first receiving groove defines a rod body for abutting against one end of the first locking member. 5. The battery loading and unloading structure of claim 4, wherein: the first receiving slot or the second receiving slot is respectively provided with a guide rail on two opposite inner sidewalls in a sliding direction of the second operating key, The first locking member and the second locking member are respectively formed with bumps on the opposite outer side walls, and when the first locking member and the second locking member are respectively received in the first receiving slot or the second receiving slot The bump is received in the guide rail. The battery loading and unloading structure of claim 5, wherein: the first locking member comprises a first body, a first opening, a first holding block and two clamping arms, the first body a substantially rectangular block, the bump is formed on two opposite outer sidewalls of the first body along a longitudinal direction thereof, the first opening is formed in a middle portion of the first body, the first clamping block and the clamping arm Separatingly disposed on opposite end faces of the first body, the shape of the first holding block is the same as the shape of the card slot, and the two clamping arms have elasticity and can be relatively opened to clamp the first receiving slot The rod body inside. 7. The battery loading and unloading structure according to claim 6, wherein: the 099144929 form number A0101 page 16 / 'total 25 pages 0992077583-0 201227214 the second locking member comprises a second body, a second opening, a second holding block, a positioning post and a spring sleeved on the positioning post, the second body is substantially a rectangular block, the second opening is formed in the middle of the second body, the second holding block and the positioning post The springs are respectively disposed on the opposite end faces of the second receiving body, and the spring is sleeved and fixed to the positioning post. The other end of the spring is fixedly fixed to an inner side wall of the second receiving groove. The battery loading and unloading structure of the seventh aspect of the invention, wherein: the first receiving slot and the second receiving slot are respectively provided with a holding hole on the adjacent sides, the first holding block and The second holding block is respectively received in the groove through the holding hole. 9. The battery loading and unloading structure of claim 7, wherein the first operation key or the second operation key comprises an operation surface, a mounting surface, and a buckle portion disposed on the mounting surface, the operation surface a rectangular protrusion is disposed, the buckle portion is protruded from a middle portion of the mounting surface, and includes two buckles extending in parallel in the same direction, the buckle penetrating the frame, being received and fixed in the first opening and Inside the second opening. An all-in-one machine, comprising: a frame and a rear cover assembled with the frame, wherein the frame is provided with a battery loading and unloading structure, and a gap is formed in the rear cover for exposing the battery loading and unloading structure; The frame further includes a recess for receiving the battery, a first receiving slot respectively communicating with the recess, and a second receiving slot, the battery loading and unloading structure comprising a first locking member, a second locking member, and a first The first locking member is received in the first receiving slot and fixed to the frame, and the second locking member extends from an end of the first receiving slot to extend a magazine. The second locking member is slidably received in the second receiving slot by a spring, and the first operating button and the second operating button are respectively fixed to the first locking member and the 099144929 form number A0101 Page 17 / 25 pages 0992077583-0 201227214 On the second locking member, the second operating button can drive the second locking member to move in the second receiving slot, the opposite sides of the battery Card slot When the spring is in a natural state, the first locking member and the second locking member are respectively partially received in the card slot, and when the spring is compressed in a predetermined direction, the second operation key drives the first The two locking members are disengaged from the card slot. 099144929 Form No. A0101 Page 18 of 25 0992077583-0