• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A battery assembly structure according to the invention comprises: carriers stacked on top of each other and each having a support surface for holding a polymer battery with flaps, a side wall arranged on the support surface and two arms extending from the side wall to form two slits between the support surface and the arms for the flaps to pass therebetween, two cam-shaped first electrical connecting elements attached to the outer sides of the arms and with band-shaped projecting parts and slots alternately arranged, the band-shaped slots corresponding to the slots of the carriers for the flaps to pass therethrough, and the protrusions the parts correspond to the arms so that the flaps are bent into electrical contact with the protruding parts, as well as other electrical connection elements attached to the protruding parts for fastening the flaps between the protruding parts and the other electrical connection elements. The total structure thereby has a total reduced weight and cost.
    公开号:SE1151207A1
    申请号:SE1151207
    申请日:2011-12-15
    公开日:2012-12-29
    发明作者:Yung-Shen Lin
    申请人:Yung-Shen Lin;
    IPC主号:
    专利说明:

    It is therefore a requirement to provide a carrier and a battery assembly structure using the same in order to overcome the above-mentioned disadvantages. The purpose of. The present invention therefore aims to provide a low cost battery assembly structure which can be easily moved and assembled.
    In order to achieve the above-mentioned object and also other objects, according to the present invention there is provided a carrier which comprises: a supporting surface for a polymer battery to be placed thereon, a side wall which is vertically arranged on the supporting surface, and two arms which extend away from the two ends. of the side wall. and. placed on it. the support surface so that two slits are located between the support surface and the arms so that the flaps of the polymer battery can pass therethrough.
    The present invention further provides a battery assembly structure that allows the assembly of a plurality of polymer batteries with power take-off tabs. The battery assembly structure comprises a plurality of carriers stacked on top of each other and each having a bearing surface for one of the polymer batteries to be placed thereon, a side wall vertically mounted on the bearing surface, and two arms extending away from the two the ends of the side wall and placed on the support surface so that two slits are located between the support surface and the arms so that the flaps of the polymer battery can pass therethrough, two cam-shaped first electrical connection elements attached to opposite outer sides of the arms of the carriers, each of the cam-shaped first electrical connection elements having a plurality of band-shaped projecting parts and a plurality of band-shaped slots arranged alternately, the band-shaped H: DOCWORK Application text.d0cx, 2011-12-15 110050SE the slots in position corresponding to the slots of the carriers so that the flaps can pass therethrough, and the band-shaped projecting parts correspond in position to the arms h the carriers so that after passing through the strip-shaped slots, the flaps bend to come into electrical contact with the strip-shaped projecting projections, and a plurality of other electrical connection elements are attached to the first electrical connection elements so that the flaps are attached between the band-shaped projecting projections on the first electrical connection elements and the second electrical connection elements.
    In one embodiment, the two cam-shaped first electrical connection elements are printed circuit boards with built-in circuits, and the side walls of the carriers are stacked in a zigzag manner.
    Compared to the prior art, the present invention facilitates the assembly process and significantly reduces the weight of the overall. the structure. by using the cam-shaped first electrical connection elements with a plurality of band-shaped slots which in their position correspond to those of the slots of the carriers so that the tabs of a plurality of polymer batteries can pass therethrough and the band-shaped protruding portions of the tabs being in contact therewith.
    In the drawings, Fig. 1 shows an exploded view of a battery assembly structure according to the present invention, Fig. 2 a composite view of the battery assembly structure according to Fig. The present invention, 3 is a larger scale view of the carrier in Figs. 1 and 2, and Fig. 4 is an assembly view of the battery assembly structure according to another embodiment of the present invention.
    H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN The following illustrative embodiments are merely to illustrate the description of the present invention. These and other advantages and effects of the invention may become apparent to those skilled in the art upon reading this specification.
    With reference to Pig. 1, the battery assembly structure 1 has a support module formed by a plurality of carriers 10 stacked on top of each other, two cam-shaped first electrical connection elements 11 and a plurality of band-shaped second electrical connection elements 12.
    Each of the carriers 10 of the support module has a support surface 100 for a polymer battery 14 to be. placed thereon, a side wall 101 vertically placed on one side of the bearing surface 100, and two arms 102, 103 extending away from two ends of the side wall 101 and placed on opposite sides of the bearing surface 100 so that two slots 104, 105 are formed between the support surface and the arms 102, 103 for the flaps 140, 141 of the polymer battery 14 to pass therethrough.
    The two cam-shaped first electrical connection elements 11 are attached to opposite outer sides of the arms 102, 103 on the carriers 10. Each of the first electrical connection elements 11 has a plurality of band-shaped projecting parts 110 and a plurality of band-shaped slots 111 alternately arranged. The band-shaped slits 111 correspond in position to the slits 104, 105 of the carriers 10 so that the flaps 140, 141 can pass therethrough, and the band-shaped projecting projections 110 correspond in position to the arms 102, 103 of the carriers 10 so that after passing through the strip-shaped slots 111, the flaps 140, 141 are bent to come into electrical contact with the strip-shaped projecting parts 110.
    H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN The other electrical connection elements 12 can be made of metal, e.g. of copper or iron. The second electrical connection elements 12 are attached to the protruding portions 110 of the respective first electrical connection elements 11, so that the tabs 140, 141 of the polymer batteries 14 are attached between the second electrical connection element parts 12 and the band-shaped protrusions 110 of the the first electrical connection elements 11.
    In particular, the side walls 101 of the carriers 10 may be stacked in a zigzag offset manner. Ie. the side wall 101 of an upper carrier and the side wall 101 of an adjacent lower carrier are located at opposite sides of the stack structure. Furthermore, the stacked carriers 10 have projections 1020, 1030 located at 103, respectively upper sides of the arms 102, and corresponding heels 1002 arranged on the supporting surfaces 100 and further have projecting sheets 1012 arranged on upper sides of the side walls 101 and corresponding heel 1000 arranged on the bearing surfaces 100. 103 screw heel 1021, Furthermore, the arms 102, 1031 have arranged on the respective outer sides thereof, and the first and second electrical connection elements 11 have screw holes 1100 and screw holes 1021, respectively 120 arranged thereon. 1031 on the arms 102, 103, the screw heel. 1100 on the first electrical connection elements 11 and the screw heel 120 on the second electrical connection elements 12 are located in a corresponding manner so that screws can pass therethrough. Furthermore, the bearing surface 100 of each of the carriers 10 may have a plurality of heat dissipating holes. 1001 arranged to facilitate the dissipation of heat from the polymer batteries 14. The two cam-shaped first electrical connection elements 11 may be printed circuit boards with built-in circuits.
    H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN Referring to Fig. 1, in an embodiment of the present invention, the battery assembly structure 1 further has a control module 13 for controlling the output from the battery module, i.e. said plurality of polymer batteries 14. The control module 13 has built-in control circuits (not shown) and is located on an upper side of the supporting module, i.e. said plurality of stacked carriers 10, to be attached to the arms 102, 103 of the uppermost carrier 10 and electrically connected to the two cam-shaped first electrical connection elements 11.
    Preferably, the arms 102, 103 have projections 1020, 1030 arranged on the respective upper side thereof, and the control module 13 has corresponding heel 130 arranged on a lower surface thereof to receive the projections 1020, 1030, thereby fixing the control module 13 on the upper side of the load-bearing module. In order to achieve a preferred fastening effect, screw holes 1011, In addition, 131 are arranged on the upper sides of the side walls 101 and the lower surface of the control module 13, respectively, in such a way that a corresponding screw (not shown) can pass therethrough, thereby securely attaching the control module 13 to the upper side of the support module.
    Furthermore, with reference to Fig. 4, in another embodiment of the present invention, the control module 13 of the battery assembly structure 1 is attached to the outer sides of the side walls 101 of the carriers 10 and electrically connected to the two cam-shaped first electrical connection elements 11.
    In this embodiment, screw holes 1010, 131 are provided on the outer sides of the side walls 101 and the lower surface of the control module 13 in a corresponding manner for the screws to be able to pass therethrough, and. thereby securely attaching the control module 13 to the outer sides of the side walls 101.
    In a practical assembly process, the flaps 140, 141 of the polymer batteries 14 are placed in line with the slots 104, 105 H: DOCWORK Application text.d0cx, 2011-12-15 110050EN under respective arms 102, 103 to move the polymer batteries 14 to the supporting members. the surfaces 100 with the flaps 140, 141 passing through the slots 104, 105 and projecting outwards.
    Then, the carriers 10 carrying the polymer batteries 14 are stacked on top of each other so that the side walls 101 are stacked zigzagged, the projections 1020, 1030 on each lower carrier engaging the corresponding holes 1002 on the bearing surface of the adjacent upper carrier, and the projecting sheet. 1012 on each lower carrier engages the corresponding heel 1000 on the bearing surface of the adjacent upper carrier.
    Thereafter, the flaps 140, 141 are inserted through the band-shaped slits 111 of the first electrical connection elements 11 and are bent to come into electrical contact with the projecting parts 110 of the first electrical connection elements 11.
    Then, the second electrical connection elements 12 are fixed to the respective projecting members 110, so that the tabs 140, 141 are fixed between the projecting parts 110 of the first electrical connection elements 11 and the second electrical connection elements 12. Finally, the control module 13 is selectively fixed to the upper side of the load-bearing module, ie the upper side of the top carrier 10, or attached to the outer sides of the side walls of the carrier electrically to the first electrical module, and connecting the connecting elements 11.
    They understand. electrical connection elements. 11 kan. have electrical connections (not shown) prepared to be connected to electrical connections (not shown) on the control module 13. Furthermore, the electrical connections have corresponding shapes or colors to reduce the risk of faulty connections.
    The present invention thereby facilitates the assembly process by using the cam-shaped first electrical connection elements with a plurality of band-shaped slots which in position correspond to the slots of the carriers so that the flaps on a plurality of polymer batteries can pass therethrough.
    Furthermore, the present invention eliminates the need for two-layer electrical connection elements made of metal as according to the prior art, thereby reducing the weight of the overall structure. In addition, the electrical connections of the first electrical connection elements in shape or color correspond to the electrical connections of the control module, thus reducing the risk of incorrect connections.
    H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN
    权利要求:
    Claims (16)
    [1]
    A battery assembly structure * for assembling a plurality of polymer batteries with flaps, comprising: a plurality of carriers stacked on top of each other and each having a bearing surface for one of the polymer batteries to be placed thereon, a side wall vertically located. on the support surface, and two arms extending away from two ends of the side wall and placed on the support surface so that two slits are formed between the support surface and the arms for the flaps of the polymer battery to pass therethrough, two cam-shaped first electrical connection elements attached to opposite outer sides of the arms of the carriers, each of the cam-shaped first electrical connection elements having a plurality of band-shaped projecting parts and a plurality of band-shaped slots alternately arranged, the band-shaped slots corresponding in position to the slots of the carriers to the flaps should be able to pass therethrough, and the strip-shaped protruding parts correspond in position to the arms of the carriers so that after passing through the strip-shaped slits, the flaps are bent to come into electrical contact with the strip-shaped protruding parts, and a plurality of other electrical connection elements attached to the first electrical connection elements so that the flaps are fixed between the strip-shaped projecting parts of the first. electrical connection elements. and. the other electrical connection elements.
    [2]
    A battery assembly structure according to claim 1, further comprising a control module for controlling the output from the polymer batteries, wherein. the control module. is placed. on an upper side of the carriers to be attached to the arms of the upper carrier and electrically connected to the two cam-shaped first electrical connection elements. H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN 10 15 20 25 30 lO
    [3]
    A battery assembly structure according to claim 2, wherein the arms have projections arranged on the upper side thereof and the control module has corresponding holes arranged on a lower side thereof for receiving the projections.
    [4]
    Battery assembly structure according to claim 2, wherein screw heels are formed on the upper sides of the side walls for screws to be able to pass therethrough, thereby securely securing the control module on the upper side of the carriers.
    [5]
    A battery assembly structure according to claim 2, wherein the control module and the first electrical connection elements have electrical connections which in shape or color correspond to each other.
    [6]
    The battery assembly structure of claim 1, further comprising a control module for controlling the output from the polymer batteries, the control module being located on outer sides of the side walls of the carriers and electrically connected to the two cam-shaped first electrical connection elements.
    [7]
    Battery assembly structure according to claim 6, wherein screw heels are formed on the outer sides of the side walls and a lower surface of the control module in a corresponding manner so that the screws can pass therethrough, thereby securely securing the control module on the outer sides of the side walls.
    [8]
    A battery assembly structure according to claim 6, wherein the control module. and. they understand. electrical, the connecting elements have electrical connections that in shape or color correspond to each other. H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN 10 15 20 25 30 ll
    [9]
    Battery assembly structure according to claim 14, wherein the carriers stacked on top of each other have projections arranged on the upper sides of the arms and corresponding holes arranged on the supporting surfaces and further have projecting sheets arranged on the upper sides of the side walls and corresponding holes formed on the bearing surfaces. claim 1, wherein
    [10]
    10. Battery assembly structure according to screw holes are arranged on the arms, the first electrical connection elements and the second electrical connection elements in a corresponding manner so that screws can pass therethrough.
    [11]
    The battery assembly structure of claim 1, wherein the sidewalls. on the carriers. are stacked in a zigzag shape.
    [12]
    The battery assembly structure of claim 1, wherein the bearing surface of each of the carriers has a plurality of heat dissipation holes disposed thereon. whereby they
    [13]
    Battery assembly structure according to claim 1, two cam-shaped first electrical connection elements are printed circuit boards with built-in circuits.
    [14]
    A carrier, comprising: a carrier for a polymer battery arranged to be located thereon, a side wall vertically arranged on the supporting surface, and two arms extending away from two ends of the side walls and arranged on the supporting surface so that two slots are provided. arranged between the bearing surface and the arms so that the flaps of the polymer battery can pass therethrough. H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN 10 12
    [15]
    A carrier according to claim 14, wherein the arms have projections arranged on the upper sides thereof and the supporting surface has corresponding holes arranged thereon, and the side wall has at least one projecting sheet arranged on an upper side thereof and the supporting surface has at least a corresponding hole provided thereon.
    [16]
    The carrier of claim 14, wherein the support surface has a plurality of heat dissipating holes disposed thereon. H: DOCWORK Ansökstext.d0cx, 2011-12-15 110050EN
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    法律状态:
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    优先权:
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    TW100122575A|TW201301633A|2011-06-28|2011-06-28|Bearing member and the applied battery assembly structure|
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