Summary of the invention
The invention provides a kind of externally-connectedbattery battery module, can only use one hand just main frame can be taken off in externally-connectedbattery battery module, increase the convenience on using.
The present invention proposes a kind of externally-connectedbattery battery module, is suitable for being connected with a main frame.Main frame comprises a built-in battery module and at least one first holding section.Externally-connectedbattery battery module comprises a body, an engaging assembly and suppresses assembly.Engaging assembly is arranged at body along one first mobile route, engaging assembly comprise mutual interlock a pulling part, corresponding at least one second holding section of the first holding section and one the 3rd holding section.Pulling part exposes to body, and the second holding section protrudes from body.Suppress assembly and comprise one first elastic component and a pressure containing part, first elastic component is arranged between body and pressure containing part, with make pressure containing part along perpendicular to the first mobile route one second mobile route protrude or retraction in body, pressure containing part comprises one the 4th holding section corresponding to the 3rd holding section, when pressure containing part retraction is in body, the 4th holding section is positioned on the first mobile route.When engaging assembly and being positioned at a primary importance relative to body, each second holding section of engaging assembly is suitable for stretching into main frame to engage with each first holding section.Force in pulling part and move to one the 3rd position to make engaging assembly, the engaging with each first holding section of main frame is removed to make each second holding section of engaging assembly, and when engaging the 3rd holding section of assembly and being sticked in the 4th holding section of the pressure containing part pressed down by main frame, engaging assembly is suitable for staying in the 3rd position.
The present invention more proposes a kind of portable electronic devices, comprises a main frame and an externally-connectedbattery battery module.Main frame comprises a built-in battery module and at least one first holding section.Externally-connectedbattery battery module is suitable for being connected with a main frame, and externally-connectedbattery battery module comprises a body, an engaging assembly and suppresses assembly.Engaging assembly is arranged at body along one first mobile route, engaging assembly comprise mutual interlock a pulling part, corresponding at least one second holding section of the first holding section and one the 3rd holding section.Pulling part exposes to body, and the second holding section protrudes from body.Suppress assembly and comprise one first elastic component and a pressure containing part, first elastic component is arranged between body and pressure containing part, with make pressure containing part along perpendicular to the first mobile route one second mobile route protrude or retraction in body, pressure containing part comprises one the 4th holding section corresponding to the 3rd holding section, when pressure containing part retraction is in body, the 4th holding section is positioned on the first mobile route.When engaging assembly and being positioned at a primary importance relative to body, each second holding section of engaging assembly is suitable for stretching into main frame to engage with each first holding section.Force in pulling part and move to one the 3rd position to make engaging assembly, the engaging with each first holding section of main frame is removed to make each second holding section of engaging assembly, and when engaging the 3rd holding section of assembly and being sticked in the 4th holding section of the pressure containing part pressed down by main frame, engaging assembly is suitable for staying in the 3rd position.
Based on above-mentioned, externally-connectedbattery battery module of the present invention is by suppressing assembly and the design engaging assembly, when main frame is positioned in externally-connectedbattery battery module, the pressure containing part suppressing assembly is pressed down and makes the 4th holding section be positioned on the first mobile route of the 3rd holding section of engaging assembly, when user is for removing main frame in externally-connectedbattery battery module, only need mobile pulling part engaging assembly can be moved to the 3rd position and the 3rd holding section of engaging assembly is engaged mutually with the 4th holding section of pressure containing part, engaging assembly can by stop to the 3rd position.That is, after engaging assembly is first moved to the 3rd position by user, the position of engaging assembly is just fixed, user does not need to continue to force in pulling part, and directly main frame is picked up in externally-connectedbattery battery module, therefore user can only with the above-mentioned action of one-handed performance, quite facility.In addition, after main frame is picked up in externally-connectedbattery battery module, pressure containing part is pushed out of body by the first elastic component, and the 4th holding section just departs from the mobile route of the 3rd holding section in engaging assembly, engaging assembly just can be retracted primary importance by the second elastic component, places for main frame next time.Portable electronic devices of the present invention can be connected with externally-connectedbattery battery module easily and remove in externally-connectedbattery battery module for main frame by aforesaid operations.
For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate institute's accompanying drawings to be described in detail below.
Accompanying drawing explanation
Fig. 1 is the perspective diagram of a kind of externally-connectedbattery battery module according to one embodiment of the invention.
Fig. 2 is the close-up schematic view of the externally-connectedbattery battery module of Fig. 1.
Fig. 3 is the externally-connectedbattery battery module of Fig. 1 and the schematic side view of main frame.
Fig. 4 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic diagram of assembly when being positioned at primary importance.
Fig. 5 be the engaging assembly of the externally-connectedbattery battery module of Fig. 1 when being positioned at primary importance pulling part relative to the schematic diagram of body.
Fig. 6 is the schematic diagram that main frame is fixed on the externally-connectedbattery battery module of Fig. 1.
Fig. 7 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 fastening state schematic diagram when being positioned at the second place.
Fig. 8 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic diagram of assembly when being positioned at the second place.
Fig. 9 be the externally-connectedbattery battery module of Fig. 1 the outward appearance of engaging assembly when being positioned at the 3rd position look up schematic perspective view.
Figure 10 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic perspective view of assembly when being positioned at the 3rd position.
Figure 11 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic top plan view of assembly when being positioned at the 3rd position.
Figure 12 be main frame pick up the outward appearance of the externally-connectedbattery battery module in Fig. 1 look up schematic perspective view.
Figure 13 is that main frame is picked up the 3rd holding section of the externally-connectedbattery battery module of rear Fig. 1 and suppresses the schematic perspective view of assembly.
[main element symbol description]
P1: primary importance
P2: the second place
P3: the three position
1: portable electronic devices
10: main frame
12: the first holding sections
14: the first connectivity ports
16: built-in battery module
100: externally-connectedbattery battery module
110: body
112: side
112a: the first perforate
114: end face
114a: the second perforate
114b: the three perforate
116: the five holding sections
120: engaging assembly
122: pulling part
124: the second holding sections
124a: the first cantilever
124b: hook part
126: the three holding sections
128: the six holding sections
128a: the second cantilever
128b: inclined-plane
128c: snap-latch surface
130: suppress assembly
132: the first elastic components
134: pressure containing part
134a: the four holding section
140: the second elastic components
150: battery
160: the second connectivity ports
Embodiment
Fig. 1 is the perspective diagram of a kind of externally-connectedbattery battery module according to one embodiment of the invention.Fig. 2 is the close-up schematic view of the externally-connectedbattery battery module of Fig. 1.Fig. 3 is the externally-connectedbattery battery module of Fig. 1 and the schematic side view of main frame.Fig. 4 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic diagram of assembly when being positioned at primary importance.Fig. 5 be the engaging assembly of the externally-connectedbattery battery module of Fig. 1 when being positioned at primary importance pulling part relative to the schematic diagram of body.Conveniently understand the position relationship of externally-connectedbattery battery module inner member, Fig. 1, Fig. 2 and Fig. 4 hide the end face of externally-connectedbattery battery module respectively.
Refer to Fig. 1 to Fig. 5, the externally-connectedbattery battery module 100 of the present embodiment is suitable for connecting for a main frame 10.In the present embodiment, main frame 10 can be a notebook computer or a panel computer, but the kind of main frame 10 is not as restriction.The main frame 10 of the present embodiment comprises at least one first holding section 12 and built-in battery module 16.In the present embodiment, the first holding section 12 is draw-in groove, but the kind of the first holding section 12 is not as restriction.
Externally-connectedbattery battery module 100 comprises body 110, engaging assembly 120 and and suppresses assembly 130.Body 110 comprises side 112 and an end face 114 (as shown in Figure 3), and side 112 comprises one first perforate 112a, and end face 114 comprises at least one second perforate 114a and the 3rd perforate 114b.Engaging assembly 120 is arranged in body 110 along one first mobile route.In the present embodiment, engaging assembly 120 is bolt structures (latch) of a strip, but the kind of engaging assembly 120 is not as restriction.Engaging assembly 120 comprises a pulling part 122 of mutual interlock, at least one second holding section 124 and one the 3rd holding section 126, and pulling part 122 exposes to the first perforate 112a, and each second holding section 124 protrudes from each second perforate 114a.In the present embodiment, the second holding section 124 is snap fit, but the kind of the second holding section 124 is not as restriction.Suppress assembly 130 and comprise one first elastic component 132 and a pressure containing part 134, first elastic component 132 is arranged between body 110 and pressure containing part 134, with make pressure containing part 134 along perpendicular to the first mobile route one second mobile route telescopically protrude or retraction in the 3rd perforate 114b of body 110.Pressure containing part 134 comprises one the 4th holding section 134a being positioned at body 110.When engaging assembly 120 and being positioned at a primary importance P1 (can be considered initial position), pulling part 122 is positioned at the position (as shown in Figure 5) of central authorities relative to the first perforate 112a of body 110.
When engaging assembly 120 and being positioned at primary importance P1 relative to body 110, externally-connectedbattery battery module 100 can connect for main frame 10.The first holding section 12 of main frame 10 can be stretched in second holding section 124 of engaging assembly 120.In the present embodiment, second holding section 124 of engaging assembly 120 comprises one first cantilever 124a and is connected to a hook part 124b of the first cantilever 124a, as shown in Figure 3, second holding section 124a of engaging assembly 120 is not fully in alignment with the first holding section 12 (as shown in the dotted line on Fig. 3) of main frame 10, but due to the design of the first cantilever 124a and hook part 124b, when engaging assembly 120 and being positioned at primary importance P1, if main frame 10 is placed in externally-connectedbattery battery module 100, the hook part 124b of the second holding section 124a along the first holding section 12 edge and slightly bend the first cantilever 124a to drawing right, until hook part 124b enters in main frame 10, first cantilever 124a just can recover.Owing to engaging the second holding section 124 of assembly 120 not fully in alignment with the first holding section 12 of main frame 10, when hook part 124b enters in main frame 10, the second holding section 124 of engaging assembly 120 is only sticked in the first holding section 12 of main frame 10 slightly.
Fig. 6 is the schematic diagram that main frame is fixed on the externally-connectedbattery battery module of Fig. 1.Fig. 7 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 fastening state schematic diagram when being positioned at the second place.Refer to Fig. 6 and Fig. 7, in the present embodiment, body 110 comprises one the 5th holding section 116, and engaging assembly 120 comprises at least one 6th holding section 128, and each 6th holding section 128 is linked in pulling part 122, second holding section 124 and the 3rd holding section 126.In the present embodiment, engaging assembly 120 comprises two the 6th holding sections 128, but the quantity of the 6th holding section 128 is not as restriction.In the present embodiment, engage pulling part 122, second holding section 124 of assembly 120, the 3rd holding section 126 and the 6th holding section 128 to be integrated, but in other embodiments, engage pulling part 122, second holding section 124 of assembly 120, the 3rd holding section 126 and the 6th holding section 128 also by the mutual interlock of mode locked or weld.
When main frame 10 being fixed on externally-connectedbattery battery module 100, first main frame 10 is positioned in externally-connectedbattery battery module 100, now, the second holding section 124 of externally-connectedbattery battery module 100 can be stretched into the first holding section 12 of main frame 10 and slightly engage with it (now engage assembly 120 and be positioned at primary importance P1).Then, force in pulling part 122 and move to a second place P2 (can be considered fixed position) to make engaging assembly 120, Fig. 6 shows the outward appearance that main frame 10 is positioned over externally-connectedbattery battery module 100, moved the right of pulling part 122 towards Fig. 6, pulling part 122 can push up the position, right that the first perforate 112a from the appearance goes.If with the schematic internal view that Fig. 7, Fig. 7 are externally-connectedbattery battery module 100, due to contrary with Fig. 6 on its direction, move so engaging assembly 120 is moved into second place P2 from primary importance P1 towards the left of Fig. 7.
As shown in Figure 7,6th holding section 128 comprises one second cantilever 128a, an inclined-plane 128b and a snap-latch surface 128c, move in the process of second place P2 at engaging assembly 120 from primary importance P1, engaging assembly 120 moves to the left of drawing, the inclined-plane 128b of the 6th holding section 128 can move along the 5th holding section 116 of body 110 and make the second cantilever 128a slightly towards outer bending, until when engaging assembly 120 moves to second place P2, the inclined-plane 128b of the 6th holding section 128 departs from and recovers in the 5th holding section 116, second cantilever 128a of body 110.Now, the snap-latch surface 128c of the 6th holding section 128 is resisted against the 5th holding section 116, is sticked in the 5th holding section 116 to make the 6th holding section 128.
Be integrated owing to engaging pulling part 122, second holding section 124 of assembly 120, the 3rd holding section 126 and the 6th holding section 128, the second holding section 124 of engaging assembly 120 can be moved by the left toward drawing jointly.Therefore, the second holding section 124 of engaging assembly 120 is more in depth sticked in the first holding section 12 of main frame 10, is firmly fixed on externally-connectedbattery battery module 100 to make main frame 10.
That is, when engaging assembly and being positioned at primary importance, engaging assembly is in one first fastening state, when engaging assembly and being positioned at the second place, engaging assembly is in one second fastening state, and the engaging scope under the second fastening state between the first holding section with the second holding section is greater than the engaging scope under the first fastening state between the first holding section with the second holding section.
In the present embodiment, externally-connectedbattery battery module 100 more comprises one second elastic component 140, second elastic component 140 and is arranged at body 110 along the first mobile route and engages between assembly 120, and that is, the second elastic component 140 is parallel to the moving direction of pulling part 122.When engaging assembly 120 and being positioned at primary importance P1 relative to body 110, the elasticity potential energy of second elastic component 140 of the present embodiment is zero, and when engaging assembly 120 is positioned at second place P2, the second elastic component can be out of shape and accumulate elasticity potential energy.But because the frictional force between the 6th holding section 128 of the present embodiment and the 5th holding section 116 is greater than the elastic force of the second elastic component 140, engaging assembly 120 still can stay in second place P2.
Fig. 8 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic diagram of assembly when being positioned at the second place.Refer to Fig. 8, when main frame 10 is positioned in externally-connectedbattery battery module 100, the pressure containing part 134 suppressing assembly 130 of externally-connectedbattery battery module 100 can be depressed by main frame 10,4th holding section 134a of pressure containing part 134 just can be positioned on the mobile route of the 3rd holding section 126 of engaging assembly 120, but the 3rd holding section 126 engaging assembly 120 at this moment still can not contact with the 4th holding section 134a of pressure containing part 134.
Fig. 9 be the engaging assembly of the externally-connectedbattery battery module of Fig. 1 outward appearance when being positioned at the 3rd position look up schematic perspective view.Figure 10 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic perspective view of assembly when being positioned at the 3rd position.Figure 11 is the engaging assembly of the externally-connectedbattery battery module of Fig. 1 the 3rd holding section and suppress the schematic top plan view of assembly when being positioned at the 3rd position.Refer to Fig. 9 to Figure 11, due to the outward appearance that Fig. 9 is display portable electronic devices 1 (namely main frame 10 and externally-connectedbattery battery module 100), moved the left of pulling part 122 towards Fig. 9, pulling part 122 can push up the left location that the first perforate 112a from the appearance goes.If with Figure 10 and Figure 11, due to the inside top schematic diagram that Figure 10 and Figure 11 is externally-connectedbattery battery module 100, therefore the direction watched is different from Fig. 9, and engaging assembly 120 is moved into one the 3rd position P3 from primary importance P1 and moves towards the right of Figure 10 and Figure 11.3rd position P3 can be regarded as a departure from position.
When the engaging of main frame 10 with externally-connectedbattery battery module 100 will be removed, force in pulling part 122 (as shown in Figure 9) and move to the 3rd position P3 to make engaging assembly 120.Because the strength imposing pulling part 122 is greater than the frictional force between the 6th holding section 128 and the 5th holding section 116, the snap-latch surface 128c of the 6th holding section 128 just moves along the 5th holding section 116 and the second cantilever 128a outwards bends and these the 6th holding sections 128 are departed from the 5th holding section 116.
Engaging assembly 120 moves toward the right of Figure 10, although do not show the second holding section 124 of engaging assembly 120 in Figure 10, will be understood that the second holding section 124 can be moved to the right jointly and remove the engaging with the first holding section 12 of main frame 10.Now, main frame 10 is only be positioned in externally-connectedbattery battery module 100, although the second holding section 124 of externally-connectedbattery battery module 100 is still stretched in main frame 10, does not engage with the first holding section 12.
In addition, because the pressure containing part 134 suppressing assembly 130 is pressed down by main frame 10, the 4th holding section 134a of pressure containing part 134 is positioned on the mobile route of the 3rd holding section 126 of engaging assembly 120.When engaging assembly 120 and moving to the 3rd position P3, the 3rd holding section 126 of engaging assembly 120 can be sticked in the 4th holding section 134a of the pressure containing part 134 pressed down by main frame 10.Now, engaging assembly 120 just can be stayed in the 3rd position P3, and the second elastic component 140 accumulates elasticity potential energy because of deformation.
As shown in Fig. 5, Fig. 6 and Fig. 9, primary importance P1 is between second place P2 and the 3rd position P3.User, only need with the mobile pulling part 122 of one hand just removable card seaming element 120 and make engaging assembly 120 move between second place P2 and the 3rd position P3 when operating the externally-connectedbattery battery module 100 of the present embodiment.That is, main frame 10 is placed on after in externally-connectedbattery battery module 100, as long as promote pulling part 122 so that engaging assembly 120 is moved to second place P2, main frame 10 can be made easily to be fastened in externally-connectedbattery battery module 100.If promote pulling part 122 so that engaging assembly 120 is moved to the 3rd position P3, the 3rd holding section 126 of engaging assembly 120 is fixed by the 4th holding section 134a of pressure containing part 134, and is stayed in the 3rd position P3.Now, user does not need to allow engaging assembly 120 rest on the 3rd position P3 (namely the second holding section 124 of externally-connectedbattery battery module 10 engage with the first holding section 12 of main frame 10 position) and exerts a force to pulling part 122 is lasting, directly main frame 10 can be picked up in externally-connectedbattery battery module 100 and main frame 10 just can be made to be separated with engaging assembly 120, user only can use the above-mentioned action of one-handed performance, quite convenient.
Figure 12 be main frame pick up the outward appearance of the externally-connectedbattery battery module in Fig. 1 look up schematic perspective view.Figure 13 is that main frame is picked up the 3rd holding section of the externally-connectedbattery battery module of rear Fig. 1 and suppresses the schematic perspective view of assembly.Refer to Figure 12 to Figure 13, by main frame 10 after engaging assembly 120 is picked up, what be no longer subject to main frame 10 due to pressure containing part 134 presses down gravity, the elasticity potential energy that first elastic component 132 is accumulated just is released, and pressure containing part 134 will push away (as shown in figure 13), with the 3rd perforate 114b making pressure containing part 134 stretch out in body 110.Now, because the 4th holding section 134a of pressure containing part 134 moves up jointly, just depart from the 3rd holding section 126 in engaging assembly 120.Snap-fit relationship between 3rd holding section 126 and the 4th holding section 134a is removed, and the elasticity potential energy that the second elastic component 140 is accumulated just is released, and engaging assembly 120 is retracted primary importance P1.
As shown in figure 12, the main frame 10 of the present embodiment more comprises one first connectivity port 14 of exposing.Further, as shown in Figure 1, externally-connectedbattery battery module 100 more comprises a battery 150 and is electrically connected to one second connectivity port 160 of battery 150.When main frame 10 is positioned in externally-connectedbattery battery module 100, the first connectivity port 14 of main frame 10 is connected to the second connectivity port 160 of externally-connectedbattery battery module 100, supplies power to main frame 10 to make externally-connectedbattery battery module 100.
In sum, externally-connectedbattery battery module of the present invention is by suppressing assembly and the design engaging assembly, when main frame is positioned in externally-connectedbattery battery module, the pressure containing part suppressing assembly is pressed down and makes the 4th holding section be positioned on the mobile route of the 3rd holding section of engaging assembly, when user is for removing main frame in externally-connectedbattery battery module, only need mobile pulling part engaging assembly can be moved to the 3rd position and the 3rd holding section of engaging assembly is engaged mutually with the 4th holding section of pressure containing part, engaging assembly can by stop to the 3rd position.That is, after engaging assembly is first moved to the 3rd position by user, the position of engaging assembly is just fixed, user does not need to continue to force in pulling part, and directly main frame is picked up in externally-connectedbattery battery module, therefore user can only with one-handed performance, quite facility.In addition, after main frame is picked up in externally-connectedbattery battery module, pressure containing part is pushed out of body by the first elastic component, and the 4th holding section just departs from the mobile route of the 3rd holding section in engaging assembly, engaging assembly just can be retracted primary importance by the second elastic component, places for main frame next time.Portable electronic devices of the present invention can be connected with externally-connectedbattery battery module easily and remove in externally-connectedbattery battery module for main frame by aforesaid operations.
Although the present invention discloses as above with embodiment; so itself and be not used to limit the present invention; have in any art and usually know the knowledgeable; without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.