FR2904475A1 - Conductive structure for electrode assembly of lithium secondary battery, includes electrode assembly having positive and negative layers that are formed with large uncoated negative and positive lead areas - Google Patents

Abstract

A conductive structure comprises an electrode assembly (40) having positive and negative layers and separating layer(s); lead terminal (50) formed with a flange (53) and a collecting area (54); and a clasping assembly (60) having screw rod(s) and two pressing pieces. Each pressing piece is formed with a through hole and is disposed outside the positive or negative lead area. The positive and negative layers are formed with large uncoated negative and positive lead areas.

Description

1 CONDUCTIVE STRUCTURE FOR A SET OF ELECTRODES OF A BATTERY

  The present invention relates to a secondary battery and, more particularly, to a conductive structure for a lithium secondary battery. Referring to FIGS. 1 and 2, it can be seen that a set of electrodes 10 of a conventional lithium secondary battery, disclosed by US Patent No. 5,849,431, comprise a positive layer 11 analogous to a web, a negative layer 13 and a separating layer 12 which are laminated sequentially on each other and are then wound around a core or core 14. One side of the positive layer 11 and the negative layer 13 are cut into rectangular teeth which serve as rectangular conductors 111 and 131. The rectangular conductors 111 and 131 are collected and then welded to the outer periphery of the conductive terminal 15 disc-shaped. By such arrangements, the electrical power can be emitted out of the electrode assembly 10. Referring to FIG. 3, it can be seen that a conventional lithium secondary battery disclosed by US Pat. 6,447,946, comprises a plurality of conductors 111a and 131a welded to the end periphery of the electrode assembly 10a, then the conductors 111a and 131a are soldered to the outer periphery of a conductive terminal 15a of the battery. . And welding such a large number of drivers is laborious and expensive. The main object of the present invention is to provide a conductive structure for an electrode assembly of a secondary battery. The electrical connection between the positive conductor, the negative conductor and the terminals of the conductors is achieved by clamping structures without the use of any welding operation. Therefore, the operating procedure of the present invention is effectively simplified, and the cost of the equipment is substantially reduced. In addition, the positive and negative conductors are in electrical contact over a large area with the collection area, thus reducing the internal resistance relatively. The present invention therefore relates to a conductive structure for an electrode assembly of a lithium secondary battery, comprising: a core 15 disposed in a housing, two terminals of conductors attached to both ends of the core, a set of electrodes wrapping around the core, two clamping structures to allow the electrode assembly to remain in electrical contact with the lead terminals, and two attachment nuts for securing these components and the housing; characterized in that the electrode assembly comprises a positive layer, a negative layer and at least one separation layer, the surfaces of the positive and negative electrode layers are respectively coated with a positive electrode material. and a negative electrode material, the separation layer is located between the positive and negative electrode layers, an uncoated area is formed on one side of the positive layer for use as a positive conductor area, and the negative layer has on another side thereof opposite the positive layer an uncoated zone for use as a negative conductor zone, the positive layer, the separation layer and the negative layer are superimposed on each other; the other, and the areas of positive and negative conductors protrude from both sides of an assembly consisting of the positive layer, the separation layer and the negative layer, after the set of electrodes is formed by the winding of the positive layer, the separation layer and the negative layer around the core, the two ends of the electrode assembly will protrude from the zones. 10-lead positive and negative; each of the lead terminals is a conductive structure having a connection end formed at one end thereof to connect to a core connection portion, another end of the respective lead terminals has an output end, each of In particular, the conductor terminals comprise a flange and a collection area which are located between the connection end and the outlet end, the collection area is located in correspondence of the positive conductor area or the conductor area. negative, the flange abuts against a housing cap; each of the clamping structures comprises a belt and a housing, a locking portion is disposed in the housing, the belt has on its surface a plurality of threads, a retaining hole will be formed after the belt is introduced through the housing, and the locking portion will be engaged with the teeth of the belt to stop movement toward the back of the belt, and thus the retaining hole will shrink, the clamping structure is mounted on the positive conductor and the negative conductor, narrowing the retaining hole, positive and negative conductors will be kept in close electrical contact with the collection area of the conductor terminals. The connecting portion of the core may be an insertion groove, and the connecting end of the lead terminals may be an insertion rod to be introduced into the insertion groove. According to a particular embodiment of the present invention, the belt and a rotary knob are introduced through the housing of the clamping structures, the rotary knob comprises, on its surfaces, a plurality of threads, the threads of the rotary knob are in engagement with the threads of the belt, the retaining hole may be narrowed or extended by rotation of the rotary knob.

The present invention also provides a conductive structure for an electrode assembly of a lithium secondary battery, comprising: a core disposed in a housing, two lead terminals attached to both ends of the core, a set of electrodes Wrapping around the core, two clamping structures to allow the electrode assembly to remain in electrical contact with the lead terminals, and two securing nuts for securing these components and the housing; characterized in that the electrode assembly comprises a positive layer, a negative layer and at least one separation layer, the surfaces of the positive and negative electrode layers are respectively coated with a positive electrode material. and a negative electrode material, the separation layer is located between the positive and negative electrode layers, an uncoated area is formed on one side of the positive layer for use as a positive conductor area and the negative layer has, on another side thereof opposite to the positive layer, an uncoated area for use as a negative conductor area, the positive layer, the separating layer and the layer 5. the positive and negative conductor areas protrude from both sides of an assembly consisting of the positive layer, the separating layer After the electrode assembly is formed by winding the positive layer, the separating layer and the negative layer around the core, both ends of the electrode assembly will protrude. areas of positive and negative conductors; each of the lead terminals is a conductive structure having a connection end formed on one end thereof to connect to a core connection portion, another end of the respective lead terminals has an output end, each in particular, conductor terminals comprise a flange and a collection area which are located between the connection end and the outlet end, the collection area is located in correspondence of the positive conductor area or the negative conductor, the flange abuts against a housing cap; each of the clamping structures comprises a belt, a rotating knob and a casing, the rotary knob comprises, on its surfaces, a plurality of threads, and the belt also comprises on its surface a plurality of threads, a retaining hole will be formed after the turning knob and the belt are introduced through the housing, the threads of the rotating knob are engaged with the threads of the belt, the retaining hole 2904475 6 may shrink or expand by rotation of the rotary knob the clamping structure is mounted on the positive and negative conductors, the positive and negative conductors will be kept in close electrical contact with the collection area of the lead terminals, when the retaining hole is narrowed. To better illustrate the object of the present invention, will be described below, by way of indication and not limited to several embodiments with reference to the accompanying drawings. On these drawings. Figure 1 is a perspective view showing a conventional electrode assembly described in U.S. Patent No. 5,849,431; Figure 2 is an illustrative view showing the solder structure of the conductors and the lead terminal of the conventional electrode assembly described in US Patent No. 5,849,431; Figure 3 is a sectional view of another conventional lithium battery; Figure 4 is a perspective view of an electrode assembly according to the present invention; Figure 5 is a perspective view in accordance with the present invention showing the clamping structure and the electrode assembly before they are assembled; Figure 6 shows the clamping structure and the set of electrodes once assembled; Figure 7 is a partially enlarged view in accordance with the present invention showing the clamping structure and electrode assembly after they are assembled; Figure 8 is a sectional view according to the present invention showing the inside of the battery case; Figure 9 is a perspective view in accordance with a second embodiment of the present invention, showing the clamp structure and the integrally formed conductors before they have been assembled; Figure 10 is a perspective view in accordance with the second embodiment of the present invention, showing the clamp structure and the integrally formed conductors after they have been assembled; Fig. 11 is a perspective view in accordance with a third embodiment of the present invention, showing the clamp structure and the integrally formed conductors after they have been assembled; Figure 12 is a perspective view in accordance with a fourth embodiment of the present invention, showing the clamping structure and the electrode assembly after they have been assembled; and Fig. 13 is a partially enlarged view in accordance with the fourth embodiment of the present invention showing the clamping structure and electrode assembly after they have been assembled. Referring to Figures 4 to 8, it can be seen that a conductive structure for an electrode assembly of a lithium secondary battery according to the present invention is shown and comprises a core, a housing, two conductor terminals, a set of electrodes, at least one positive and negative conductor, two clamping structures and two fixing nuts. The housing 20 has at each end thereof an opening 21 for receiving the battery components, and each of the openings 21 is sealed by a cap 22. An orifice 221 is formed in the cap 22 for passage. battery components. The core 30 is an insulating structure disposed in the housing 20 and has, at each of its ends, a connecting portion 31, and the connecting portion 31 may be an insertion groove. The electrode assembly 40 comprises a positive layer 41, a negative layer 42 and at least one separation layer 43. The positive and negative electrode layers 41, 42 are respectively coated with a positive electrode material 411. and a negative electrode material 421. The separation layer 43 is located between the positive and negative electrode layers 41, 42. At least one positive conductor 44 is soldered to one side of the positive layer 41, and at least one negative conductor 45 is soldered to another side thereof. The positive layer 41, the separation layer 43 and the negative layer 42 are superposed on one another. After the positive layer 41, the separation layer 43 and the negative layer 42 are wound around the core 30, the positive conductor 44 and the negative conductor 45 will protrude from both ends of the electrode assembly 40. Conductor terminals 50 is a conductive structure having a connecting end 51 formed on one end thereof. The connecting end 51 may be an insertion rod structure 511 to be connected to the connecting portion 31 of the core 30. Another end of the respective lead terminals 50 has an output end 52 which may be a structure Threaded rod. Each of the lead terminals 50 includes in particular a flange 53 and a collection area 54 which are located between the connection end 51 and the outlet end 52. The collection area 54 is located in correspondence of the positive conductor 44. or the negative conductor 45. The flange 53 abuts against the cap 22 of the housing 20.

Each of the clamping structures 60 comprises a belt 61, a rotary knob 62 and a housing 63. The rotary knob 62 has on its surfaces a plurality of threads 621, and the belt 61 also has on its surfaces a plurality of threads 611.

Rotary knob 62 and belt 61 are introduced through housing 63, so that belt 61 defines a retaining hole 64, and threads 621 are engaged with threads 611. Retaining hole 64 narrows or widens when rotating knob 62 is rotated. Clamping structure 60 is mounted on the positive and negative conductors 44, 45. By narrowing the retaining hole 64, the positive and negative conductors 44, 2904475 45 will be kept in close electrical contact with the collection zone 54 of the lead terminals 50. When the electrode assembly 40, the core 30 and the lead terminals 50 are assembled by the clamping assemblies 60, and the outlet end 52 of the conductor terminals 50 passes through the orifice 221 of the cap 22 until the flange 53 bears against the inner surface of the cap 22, the fastening nuts 70 will be screwed onto the end of the cap 22. exit 52, allowing 10 to the respective components of the battery to be assembled in the housing 20 more stably. Since the electrical connection between the positive lead 44, the negative lead 45 and the lead terminals 50 is achieved by the clamping structures 60 without the use of any welding operation, the operating mode is effectively simplified, and the resulting cost is significantly reduced. In addition, the positive and negative leads 44 and 45 are in electrical contact in a large area with the collection area, thus reducing the internal resistance relatively. On the other hand, the positive conductor or negative conductor mentioned in the above embodiment has an end welded to the electrode assembly, as shown in FIGS. 9 and 10. The positive layer 41a or the negative layer of the electrode assembly 40a is provided with an uncoated area which is not coated with the positive or negative electrode material. And the uncoated area is cut along the positive leads 44a or the negative leads. As shown in FIG. 11, the respective positive leads 44a or the negative leads are located very close to each other and are separated by a narrow seam or cut-off weld 80. It should be noted that the housing of the 60c can be integral with the rotary knob, as shown in FIGS. 12 and 13. A locking portion 631 with a unidirectional tooth (ratchet) for replacing the rotary knob is integrally formed in the housing 63a. When the belt 61a is introduced through the housing 63a, the unidirectional tooth of the locking portion 631 will be engaged with the teeth 611a of the belt 61a to stop a backward movement of the belt 61a, and thus the The retainer 64a will shrink, allowing the positive and negative conductors to be kept in close electrical contact with the collection area 54c of the lead terminals 50c. While we have shown and described various embodiments of the present invention, it will be apparent to those skilled in the art that other embodiments can be made without departing from the scope of the present invention.

Claims (4)

  1 - Conductive structure for an electrode assembly of a lithium secondary battery comprising: a core (30) disposed in a housing (20), two lead terminals (50) attached to both ends of the core (30), a electrode assembly (40) wrapping around the core (30), two clamping structures (60) to allow the electrode assembly (40) to remain in electrical contact with the lead terminals (50), and two attachment nuts (70) for securing these components and the housing (20); characterized in that the electrode assembly (40) comprises a positive layer (41), a negative layer (42) and at least one separation layer (43), the surfaces of the positive electrode layers (41). and negative (42) are respectively coated with a positive electrode material (411) and a negative electrode material (421), the separation layer (43) is located between the positive electrode layers (41). ) and negative (42), an uncoated area is formed on one side of the positive layer (41) for use as a positive conductive area, and the negative layer (42) has on another side thereof opposite to the positive layer (41) an uncoated zone for use as a negative conductor zone, the positive layer (41), the separation layer (43) and the negative layer (42) are superimposed on one another, and the areas of positive and negative conductors protrude from both sides of a set constituted by the positive layer (41), the separation layer (43) and the negative layer (42), after the electrode assembly (40) is formed by the winding of the positive layer (41), the separation layer (43) and the negative layer (42) around the core (30), the two ends of the electrode assembly (40) will protrude from the positive and negative conductor areas; Each of the lead terminals (50) is a conductive structure having a connection end (51) formed at one end thereof to connect to a connection portion (31) of the core (30), a further end respective lead terminals (50) have an output end (52), each of the lead terminals (50) includes in particular a flange (53) and a collection area (54) which are located between the end connection (51) and the outlet end (52), the collection zone (54) is located in correspondence of the positive conductor zone or the negative conductor zone, the flange (53) abuts against a cap (22) of the housing (20); each of the clamping structures (60) comprises a belt (61) and a housing (63), a locking portion (631) is disposed in the housing (63), the belt (61) has on its surface a plurality of threads (611), a retaining hole (64) will be formed after the belt (61) is introduced through the housing (63), and the locking portion (631) will be engaged with the teeth of the belt (61) to stop a backward movement of the belt (61), and thus the retaining hole (64) will be narrowed, the clamping structure (60) is mounted on the positive conductor (44) and the conductor Negative (45), by narrowing the retaining hole (64), the positive and negative leads will be kept in close electrical contact with the collection area (54) of the lead terminals (50). 2904475 14   2 - conductive structure for a set of electrodes of a lithium secondary battery according to claim 1, characterized in that the connecting portion (31) of the core (30) is an insertion groove, and the connecting end (51) of the lead terminals (50) is an insertion rod (511) to be inserted into the insertion groove.   3 - conductive structure for an electrode assembly of a lithium secondary battery according to claim 1, characterized in that the belt (61) and a rotary knob (62) are introduced through the housing (63) clamping structures (60), the rotary knob (62) has on its surfaces a plurality of threads (621), the threads (621) of the rotary knob (62) are engaged with the threads (611) of the belt (61), the retaining hole (64) can be narrowed or extended by rotation of the rotary knob (62).   4 - Conductive structure for an electrode assembly of a lithium secondary battery, comprising: a core (30) disposed in a housing (20), two lead terminals (50) attached to both ends of the core (30) , an electrode assembly (40) wrapping around the core (30), two clamping structures (60) to allow the electrode assembly (40) to remain in electrical contact with the conductor terminals ( 50), and two fixing nuts (70) for fixing these components and the housing (20); characterized in that - the electrode assembly (40) comprises a positive layer (41), a negative layer (42) and at least one separation layer (43), the surfaces of the positive electrode layers ( 41) and negative (42) are respectively coated with a positive electrode material (411) and a negative electrode material (421), the separation layer (43) is located between the layers of positive (41) and negative (42) electrodes, an uncoated area is formed on one side of the positive layer (41) for use as a positive conductor area, and the negative layer (42) comprises, on a another side thereof opposite the positive layer (41), an uncoated area for use as a negative conductor area, the positive layer (41), the separation layer (43) and the negative layer (42); ) are superimposed on each other, and the areas of positive and negative conductors are On both sides of an assembly consisting of the positive layer (41), the separating layer (43) and the negative layer (42), after the electrode assembly (40) is formed by winding the positive layer (41), the separation layer (43) and the negative layer (42) around the core (30), the two ends of the electrode assembly (40) will protrude from the positive and negative; Each of the lead terminals (50) is a conductive structure having a connection end (51) formed on one end thereof to connect to a connection portion (31) of the core (30), another end respective lead terminals (50) have an output end (52), each of the lead terminals (50) includes in particular a flange (53) and a collection area (54) which are located between the end of connection (51) and the outlet end (52), the collection zone (54) is located in correspondence of the positive conductor zone or the negative conductor zone, the flange (53) abuts against a cap (22) of the housing (20); Each of the clamping structures (60) comprises a belt (61), a rotary knob (62) and a housing (63), the rotary knob (62) has, on its surfaces, a plurality of threads (621). , and the belt (61) also has on its surface a plurality of threads (611), a retaining hole (64) will be formed after the rotary knob (62) and the belt (61) are introduced through the housing (63), the threads (621) of the rotary knob (62) are engaged with the threads (611) of the belt (61), the retaining hole (64) can be narrowed or enlarged by rotation of the knob rotating (62), the clamping structure (60) is mounted on the positive (44) and negative (45) conductors, the positive (44) and negative (45) conductors will be kept in close electrical contact with the collection zone. (54) conductor terminals (50) when the retaining hole (64) is narrowed.