FR2972854A3 - Secondary or rechargeable battery e.g. lithium battery, forming expandable device for car, has assembly part assembled with battery forming unit so as to provide electrical connection between electrode and battery forming unit - Google Patents

Abstract

The device (1) has a battery forming unit (10) comprising a battery core (11), and an external mounting (13) electrically connected to the battery core. An external side edge of the external mounting includes an assembly part i.e. projection. The assembly part comprises an electrode. The assembly part is assembled with another battery forming unit (20) so as to provide an electrical connection between the electrode and the latter battery forming unit.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a battery device, and in particular an expandable device forming a secondary battery.

Description of the Prior Art Lithium batteries (also referred to as secondary batteries or rechargeable batteries) have the advantages of high energy density, wide operating voltages and recharging capabilities. Accordingly, a plurality of lithium batteries are connected in series or in parallel to thereby form a battery device, which is widely used as a power supply for various electronic products such as automobiles or electric vehicles. There are many kinds of batteries having a battery core in them. However, these kinds of battery cores have different profiles respectively. As a result, it is not easy to find an appropriate type of battery because of the limited space in an electronic apparatus for receiving the battery, the desired operating voltage, the electric current, or the operating time. In the existing market, there is an assembled battery device, in which the number of batteries can be increased or decreased to meet the requirements of use. However, in order to prevent the batteries from being damaged, only the manufacturer of the assembled battery device can add or remove the battery units. In addition, replacement or maintenance of the assembled battery device is time consuming and expensive. Because of the foregoing, the inventor proposes a reasonable and implementable structure based on his thorough knowledge of this field and the research that has been conducted.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an expandable device formed from assembled batteries, wherein the addition or removal of the battery units can be performed to allow easy assembly and maintenance.

It is an object of the present invention to provide an expandable device formed of assembled batteries configured to be assembled with a second battery unit. The battery unit includes a first battery unit. The first battery unit has at least a first battery core and a first external mount electrically connected to the first battery core. The outer edge of the first outer mount forms a first assembly portion. The first assembly part comprises a first electrode. The first assembly portion is assembled with the second battery unit to thereby provide an electrical connection between the first electrode and the second battery unit.

It is an object of the present invention to provide an expandable device formed from assembled batteries, including at least a first battery pack, a second set of batteries, a third set of batteries, and a battery pack assembly. The first set of batteries has a plurality of first battery units engaging each other.

Each of the first battery units comprises at least a first battery core and a first external mount electrically connected to the first battery core. The outer edge of the first outer mount forms a plurality of first assembly portions, first engagement blocks, and first insertion cavities. Each of the first assembly parts comprises a first electrode. The first engagement block engages with the first insertion cavity of the first adjacent battery unit. The second set of batteries is located on one side of the first set of batteries and includes a plurality of units forming second batteries in engagement with one another. Each of the second battery units has at least one second battery core and a second external mount electrically connected to the second battery core. The outer edge of the second outer mount forms a plurality of second assembly portions, second engagement blocks, and second insertion cavities. The second assembly part comprises a second electrode. The second engagement block engages with the second insertion cavity of the second adjacent battery unit. The second assembly part is assembled with the first assembly part to thereby make an electrical connection between the first electrode and the second electrode. The third set of batteries is located on the other side of the first set of batteries and has a plurality of the third battery units engaging one another. Each of the third battery units has at least one third battery core and a third external mount electrically connected to the third battery core. The outer edge of the third outer mount forms a plurality of third assembly portions, third engagement blocks, and third insertion cavities. The third assembly part comprises a third electrode. The third engagement block engages with the third insertion cavity of the third adjacent battery unit. The third engagement block is assembled with a first cavity to thereby provide an electrical connection between the first electrode and the third electrode. The battery pack assembly is assembled with the lower portions of the first set of batteries, the second set of batteries, and the third set of batteries. It is an object of the present invention to provide an expandable device formed from assembled batteries, wherein the respective battery units can be assembled together to increase the overall cohesion of the battery device. It is an object of the present invention to provide an expandable device formed from assembled batteries, in which an increased number of battery cores can be received in the outer mount of the battery unit, thereby increasing the number of battery cores by unit of volume and thereby making more use of available space. It is an object of the present invention to provide an expandable device formed from assembled batteries, wherein battery units can be easily assembled together. Thus, a user can assemble or replace himself / herself battery units without calling the manufacturer, thereby saving time and cost for assembly and maintenance. It is an object of the present invention to provide an expandable device formed from assembled batteries, wherein the battery units can be freely assembled to one another to allow a flexible arrangement. In addition, components of the battery device can be used in common, thereby reducing the cost of the molds and increasing the efficiency of production. In comparison with the prior art, the extensible device formed from batteries assembled according to the present invention comprises connection means in connection parts located between the outer mounts of the respective battery units and the battery device. Thus, the battery units can be assembled together to form a battery device having a structure cohesion, which can be assembled and produced in a fast and easy manner. In addition, the number of battery units can be increased or decreased flexibly depending on the demand of a user. The battery device according to the present invention enables one or more battery units to be repaired, so that the time required to repair the battery device can be reduced and the efficiency of the battery device is improved. Therefore, the adaptation of the present invention and the practicability thereof are greatly improved. BRIEF DESCRIPTION OF THE FIGURES FIG. 1 is a perspective view showing the external appearance of the extensible device formed from assembled batteries, according to the present invention; Fig. 2 is an exploded perspective view showing the extensible device formed from batteries assembled according to the present invention; Fig. 3 is an assembled sectional view showing the extensible device formed from batteries assembled in accordance with the present invention; Fig. 4 is a sectional view, in the assembled state, showing the outer mount of the expandable device formed from batteries assembled in accordance with the present invention; Fig. 5 is a schematic view showing an embodiment of the present invention; and Fig. 6 is a schematic view showing the external aspect of the embodiment of the present invention. DETAILED DESCRIPTION OF THE INVENTION The detailed description and technical contents of the present invention will become apparent with the following detailed description accompanied by corresponding drawings. It should be noted that the drawings are provided for purposes of illustration only, but not intended to limit the scope of the present invention. Fig. 1 is a perspective view showing the external appearance of the extensible device formed from assembled batteries according to the present invention. Fig. 2 is an exploded perspective view showing the extensible device formed from batteries assembled according to the present invention. Figure 3 is an assembly sectional view showing the extensible device formed from batteries assembled in accordance with the present invention. The expandable device formed from assembled batteries 1 according to the present invention includes a first battery unit 10, a second battery unit 20, a third battery unit 30, a plurality of assembly means 40 and a battery base assembly 50 The first battery unit 10 comprises at least a first battery unit 11, a first grouping body 12, a first external mount 13 electrically connected to the first battery core 11, and a first support mount 14. The first core unit 11 is a lithium battery, a macromolecular lithium battery or other kinds of secondary batteries, which comprises a body 110 and two electrode rods 111, 112 extending outside the body 110. In the form embodiment shown, the first battery unit 10 comprises a plurality of first battery cores 11. The body 110 of the first r battery core 11 is a thin body comparable to a plate, but this is not limiting. The first grouping body 12 is used to protect and place the first battery cores 11 within it. The first grouping body 12 is made of an insulating material or a heat dissipating material. The first battery cores 11 are disposed in the first grouping body 12. The outer edge of the first external mount 13 forms a plurality of first joining parts 131, 132, a first engaging block 133 and a first engaging cavity. 134. The first joining portions 131 and 132 respectively comprise a first projection and a first cavity. Each of the first joining portions 131, 132 comprises a first electrode 130. The first external mount 13 comprises a first electrically conductive portion 1300 on its side facing the first battery core 11. The first electrically conductive portion 1300 is electrically connected to the first electrode 130. The electrode rods 111, 112 of the first battery core 11 are electrically connected to the first electrically conductive portion 1300. In addition, the first external mount 13 includes a first external battery core 135. The first outer core battery 135 is disposed in the first external mount 13 and is electrically connected to the first electrode 130. The first support mount 14 is configured to cover the outside of the first grouping body 12 and is located on the opposite side to the first mount 13. The second battery unit 20 is placed on a next to the first battery unit 10. The second battery unit 20 has at least one second battery core 21, a second cluster body 22, a second external mount 23 electrically connected to the second battery core 21, and a second mount 24. The structure of the second battery unit 20 is substantially identical to that of the first battery unit 10. The second battery cores 21 are disposed within the second grouping body 22. The outer edge of the second battery unit 21 second outer mount 23 forms a second joining portion 231, a second engaging block 232, and a second insertion cavity 233. The second joining portion 231 includes a second electrode 230. The second joining portion 231 is assembled with the first assembly part 131 to thereby make an electrical connection between the first electrode 130 and the second island 230. The first assembly portion 131 and the second assembly portion 231 are designed to correspond to one another. In the embodiment shown, the first assembly portion 131 is a first projection. The second assembly portion 231 is a second cavity.

In practice, the first assembly part 131 could be in the form of a cavity and the second assembly part 231 could be in the form of a projection. The second external mount 23 further comprises a second external battery core 234 and a first external electrode 235. The second external battery core 234 is disposed in the second external mount 23 and is electrically connected to the second electrode 230. The second mount external 23 includes a second electrically conductive portion 2300 on its lateral side facing the second battery core 21. The second electrically conductive portion 2300 is electrically connected to the second electrode 230. The second battery core 21 is electrically connected to the second portion 3200. The second support mount 24 is arranged to externally cover the second grouping body 22 and is located on the opposite side to the second external mount 23. In the embodiment shown, the first external electrode 235 is used to be connected to a source external energy.

The first external electrode 235 is arranged on the second engagement block 232 and is electrically connected to the second electrode 230. The third battery unit 30 is placed on the other side of the first battery unit 10 relative to the second battery unit 20. The structure of the third battery unit 30 is substantially identical to that of the second battery unit 20. The third battery unit 30 comprises at least a third battery core 31, a third grouping body 32, a third external mount 33 electrically connected to the third battery core 31, and a third support mount 34.

The third battery cores 31 are disposed within the third grouping body 32. The outer edge of the third external mount 33 forms a third assembly portion 331, a third engagement block 332, and a third cavity 33. insertion 333. The third joining portion 331 includes a third electrode 330 and is joined to the first joining portion 132, thereby producing an electrical connection between the first electrode 130 and the third electrode 330. The third portion of assembly 331 and the first joining portion 132 are designed to correspond to one another. The third joining portion 331 is in the form of a third projection, and the first joining portion 132 is in the form of a first cavity. In practice, the first assembly portion 132 could be in the form of a projection, and the third assembly portion 331 could be in the form of a cavity. Similarly, the third external mount 33 further includes a third external battery core 334 and a second external electrode 335. The third external battery core 334 is disposed in the third external mount 33 and is electrically connected to the third electrode 330 The third external mount 33 includes a third electrically conductive portion 3300 on its lateral side facing the third battery core 31. The third electrically conductive portion 3300 is electrically connected to the third electrode 330. The third battery core 31 is electrically connected. at the third electrically conductive portion 3300. The third support mount 34 is arranged to externally cover the third grouping body 32 and is assembled on the opposite side to the third external mount 33. In the embodiment shown, the second external electrode 335 is used to be connected to an external power source. The second external electrode 335 is disposed on the third engagement block 332 so as to be electrically connected to the third electrode 330. In the above structure, the connecting means 40 are arranged on the respective connection portions among the first outer mount 13, the second outer mount 23 and a third outer mount 33. The assembly means 40 comprises a resilient member 41 (such as a spring) and a pressing body 42 arranged on the elastic member 41. the embodiment shown, the assembly means 40 are arranged respectively on the first assembly part 132, the second assembly part 231 and the first engagement block 133. In addition, the outer edge of the first part assembly 131 and the first insertion cavity 134 comprise a first engagement hole 136. The second insertion cavity 233 comprises a second engagement hole 236. The outer edge and third insertion cavity 333 comprises a third engagement hole 336. By this structure, when the second joining portion 231 is assembled with the first joining portion 131, the elastic member 41 will be elastically compressed. The pressure body 42 located on the second assembly part 231 will abut against the first engagement hole 136. Similarly, when the third assembly part 331 is assembled with the first assembly part 132, the body pressure 42 on the first assembly portion 132 will abut against the third engagement hole 336. The assembly forming a battery base 50 is joined to the lower portions of the first battery unit 10, the second unit forming battery 20 and the third battery unit 30. The battery pack assembly 50 includes a first base 51, a second base 52, and a third base 53. The first base 51 is assembled in the first insertion cavity. 134 of the first external mount 13 through the assembly means 40. Similarly, the second base 52 is assembled in the second cavity 233 for insertion of the second outer mount 23. The second The second base 53 is assembled in the third insertion cavity 333 of the third external mount 33. The second base 52 and the third base 53 are assembled on both sides of the first base 51 respectively. Fig. 4 is an assembly sectional view showing the first outer mount, the second outer mount, the third outer mount, and the battery pack assembly of the expandable device formed from batteries assembled in accordance with the present invention. . It can be seen in FIG. 4 that the second external mount 23 and the third external mount 33 are respectively assembled on both sides of the first external mount 13 by the assembly means 40. The second electrode 230 and the third electrode 330 both are electrically connected to the first electrode 130. By this arrangement, after the first external electrode 235 and the second external electrode 335 have been electrically connected to an external power source, the first battery unit 10, the second battery unit 20 and the third battery unit 30 are electrically connected to each other, thereby charging or discharging the first battery core 11 (first external battery core 135), the second battery core 21 (the second outer core of the second battery 234) and the third battery core 31 (the third external battery core 334).

Fig. 5 is a schematic view showing an embodiment of the present invention. Fig. 6 is a schematic view showing the external aspect of the embodiment of the present invention. According to the present invention, the battery device can be freely expanded by assembling additional battery units, thereby generating an operating voltage, an electric current and a desired operating time for use. Thus, in practice, the battery device 1a may comprise at least a first set of batteries 100, a second set of batteries 200, a third set of batteries 300, a plurality of assembly means 40 and a set 50 forming a battery. battery base. The first set of batteries 100 has a plurality of first battery units 10 in engagement with one another. The structure of each battery unit 10 is identical to what has been mentioned above, so that a redundant description is omitted for the sake of clarity. In assembling the first battery units 10, the first engagement block 133 of the first battery unit 10 is brought into engagement with the first insertion cavity 134 of the first adjacent battery unit 10 (as shown in FIG. Figure 2). Thus, the first battery units 10 can be assembled together in the vertical and horizontal directions to form a first set of batteries 100. In addition, the second set of batteries 200 is located on one side of the first battery unit. The second set of batteries 200 includes a plurality of second battery units 20 engaging each other. When these second battery units 20 are assembled, the second engagement block 232 of the second battery unit 20 engages with the second insertion cavity 233 of the second adjacent battery unit 20. The first outer electrode 235 is disposed on the second outermost battery unit 20. In this way, these second battery units 20 are assembled to each other in the vertical and horizontal directions to form a second set of batteries 200. Similarly, the third set of batteries 300 is located on the other side of the first battery. battery pack 100 and has a plurality of third battery units 30 engaged with each other. When these third battery units 30 are assembled, the third engagement block 332 of the third battery unit 30 engages with the third insertion cavity 333 of the third adjacent battery unit 30. The second external electrode 335 is disposed on the third outermost battery unit 30. In this way, these third battery units 30 are assembled to each other in the vertical and horizontal directions to form a third set of batteries 300. According to the present invention, the user can increase the number of battery units according to the needs in order to freely extend the battery device. If necessary, one or more battery units can be easily removed. Thus, the adaptation of the present invention to the needs and the flexibility thereof are improved.

Claims (10)

REVENDICATIONS1. Expandable device formed from assembled batteries, characterized in that it is configured to be assembled to a second battery unit (20), the battery device comprising a first battery unit (10), the first battery unit (10) having at least a first battery core (11) and a first external mount (13) electrically connected to the first battery core (11), an outer edge of the first outer mount (13) comprising a first mounting portion (131) ), the first assembly part (131) having a first electrode (130), the first assembly part (131) being assembled with the second battery unit (20) so as to thereby make an electrical connection between the first electrode (130) and the second battery unit (20). An expandable device formed from assembled batteries according to claim 1, characterized in that the first external mount (13) further includes an external battery core (135) electrically connected to the first electrode (130). 3. Extensible device formed of assembled batteries according to claim 1, characterized in that it further comprises a plurality of assembly means (40) arranged in a connecting portion between the first external mount (13) and the second battery unit. (20), the assembly means (40) having an elastic member (41) and a pressure body (42) located on the elastic member (41). An expandable device formed from assembled batteries according to claim 3, characterized in that an outer edge of the first joining portion (131) forms a first engagement hole (136), in that the first portion of assembly (131) is a projection, in that the second joining portion (231) is a cavity, in that the first outer mount (13) comprises a first electrically conductive portion (1300) on its lateral side facing the first battery core (11), and in that the first electrically conductive portion (1300) is electrically connected to the first electrode (130). Expandable device formed from assembled batteries according to claim 1, characterized in that it further comprises a first grouping body (12), a first support mount (14) located on the opposite side to the first external mount (13). ), and a first base (51) joined to a lower portion of the first outer mount (13), the first battery core (11) being disposed in the first grouping body (12), and the first support mount ( 14) being arranged to cover the outside of the first grouping body (12). An expandable device formed from assembled batteries, characterized in that it includes: at least a first set of batteries (100) having a plurality of first battery-forming units (10) engaging each other, each of the first battery units (10) having at least a first battery core (11) and a first external mount (13) electrically connected to the first battery core (11), an outer edge of the first outer mount (13) comprising a plurality first joining portions (131,132), a first engagement block (133) and a first insertion cavity (134), the first joining portion (131) having a first electrode (130), the first block engagement member (133) engaged with the first insertion cavity (134) of the first adjacent battery unit; a second set of batteries (200) located on one side of the first set of batteries (100) and having a plurality of second battery units in engagement with each other, each of the second battery units (20) having at least one at least one second battery core (21) and a second external mount (23) electrically connected to the second battery core (21), an outer edge of the second outer mount (23) comprising a second mounting portion (231), a second engagement block (232) and a second insertion cavity (233), the second assembly portion (231) having a second electrode (230), the second engagement block (232) being engaged with the second insertion cavity (233) of the second adjacent battery unit (20), the second fitting portion (231) being assembled to the first connecting portion (131) so as to thereby provide an electrical connection between the first elect rode (130) and a second electrode (230); a third battery unit (30) located on the other side of the first battery pack (100) and having a plurality of the third battery units (30) engaged with each other, each of the third battery units (30); ) having at least a third battery core (31) and a third external mount (33) electrically connected to the third battery core (31), an outer edge of the third outer mount (33) comprising a third mounting portion ( 331), a third engagement block (332) and a third insertion cavity (333), the third assembly portion (331) having a third electrode (330), the third engagement block (332) being in engagement with the third insertion cavity (333) of the adjacent third battery unit (30), the third assembly portion (331) being connected to the first connecting portion (131) so as to thereby provide a connection electrical between the first electrode (130) and the third electrode (330); and a battery pack assembly (50) assembled to the lower portions of the first battery pack (100), the second battery pack (200), and the third battery pack (300). An expandable device formed from assembled batteries according to claim 6, characterized in that it further comprises a first grouping body (12), a second grouping body (22) and a third grouping body (32), the first battery core (11) being disposed in the first grouping body (12), the second battery core (21) being disposed in the second grouping body (22), the third battery core (31) being disposed in the third grouping body (32). Expandable device formed from assembled batteries according to claim 6, characterized in that it further comprises a first support mount (14), a second support mount (24) and a third support mount (34) disposed respectively opposite the first outer mount (13), the first support mount (14) being disposed outside the first grouping body (12), the second support mount (24) being arranged outside the second grouping body (22), the third support mount (34) being disposed outside the third grouping body (32). An expandable device formed from assembled batteries according to claim 6, characterized in that the first external mount (13) further comprises a first external battery core (135) electrically connected to the first electrode (130), in that the second external mount (23) further comprises a first external electrode (130) electrically connected to the second electrode (230), in that the third external mount (33) further comprises the second external electrode (230) electrically connected to the second third electrode (330), the first electrode (130) and the second electrode (230) being electrically connected to an external power source, the first external mount (13) having a first electrically conductive portion (1300) on its side making facing the first battery core (11), the first electrically conductive portion (1300) being electrically connected to the first electrode (130), the second electrically conductive portion (1300) being external structure (23) having a second electrically conductive portion (2300) on its side facing the second battery core (21), the second electrically conductive portion (2300) being electrically connected to the second electrode (230), the third mount external device (33) having a third electrically conductive portion (3300) on its side facing the third battery core (31), the third electrically conductive portion (3300) being electrically connected to the third electrode (330), the assembly forming a battery base (50) including a first base (51), a second base (52), and a third base, the first base (51) being joined to a lower portion of the first outer mount (13), the second base (52) being assembled to a lower portion of the second outer mount (23), the third base (53) being assembled to a lower portion of the third mount exte rne (33), the second base (52) and the third base (53) being respectively assembled on both sides of the first base (51). 10. An expandable device formed from assembled batteries according to claim 6, characterized in that it further comprises a plurality of assembly means (40) arranged on the respective connection portions of the first outer mount (13), the second outer mount (23) and the third outer mount (33), the connecting means (40) being arranged on the first engagement block (133), on the second engagement block (232) and on the third engagement block (332), the first insertion cavity (134) including another first engagement hole (136), the second insertion cavity (233) comprising another second engagement hole (236) , the third insertion cavity (333) comprising another third engagement hole (336), the connecting means (40) comprising an elastic element (41) and a pressure body (42) arranged on the element elastic member (41), the first joining parts (131, 132) being designed to correspond to the second assembly parts (231) and the third assembly parts (331) respectively, the first assembly part (131) having a first projection and a first cavity, the second assembly part ( 231) being a second cavity, the third assembly part (331) being a third projection, the assembly means (40) being arranged on the first cavity and the second cavity respectively, an outer edge of the first projection comprising a first engagement hole (136), and an outer edge of the third projection comprising a third engagement hole (336).