HUT76813A - Battery pack and method of forming same - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a battery holder structure and to a process for the preparation of this battery holder device.

The battery arrangement or battery holder used for various portable devices, such as two-way radios, comprises a plurality of cells that are welded together within the housing. The individual cells are connected by using metal plate tongues, which are connected by spot welding to the cell terminals. Generally, such connections are then spot-welded to a flexible circuit and then inserted into a housing designed for the battery. This production of power supply or battery arrangement is rather inefficient and, in addition, requires an unnecessarily large number of parts, thus producing unreasonably high manufacturing costs and a disproportionate reliability compared to production costs.

There are devices where the user inserts the battery into the power supply of a particular electrical device such as a camera, radio, CD player. In these power supplies, the batteries are generally connected to spring terminals at one end and a metal plate to the other end. User-installed battery packs do not require a special external circuit, which is typical for otherwise battery-powered layouts. Battery packs for portable radios typically include resistors, thermistors, diodes, and other components that make the te3 shielding capable of being recharged and / or provide internal protection. The compartments provided for the user-inserted batteries contain generally pressed metal elements formed on the housing, so that the electrical loss between the battery cells and the circuits is essentially irrelevant.

Other arrangements for battery packing in different ways, either requiring the user to replace the battery, or inserted and sealed properly by the manufacturer, typically include a set of cells that are either side-by-side packed together, or and they are in a separate plastic case. Typically, in this type of cell, a plurality of cells are interconnected such that steel tongues are welded to the respective terminals of the separated cells, as the cells are connected in series and the opposite terminals are interconnected. Subsequently, the cells so welded are then shrunk-wrapped and inserted into the housing. Again, producing cells in this way is not efficient, requires unnecessary lab work, and has high costs.

The object of the present invention was to reduce the weight of the batteries in the electrically powered equipment and the arrangement in which the batteries are located, while at the same time simplifying the manufacture and assembly of the battery holders made of the batteries. From Eb4's point of view, it was critical to keep the battery holder as few parts and elements as possible to reduce the number of assembly steps. There is a need for a battery holder, commercially available, that upgrades user-replaceable battery packs to further reduce the weight of the battery holder, while at the same time making production and assembly more efficient and less costly.

Accordingly, the present invention provides a battery pack device, optionally a battery holder, comprising at least one cell.

The essence of the invention is that: it has an outer housing which is adapted to receive at least one cell and the outer housing has an inner surface; and a connector binding adhesive surface which is applied to the inner surface of the outer housing portion, an inner housing portion adapted to receive at least one cell in the outer housing portion, and having a connecting surface of the outer housing portion and securing the bonding surface, that the inner housing portion is connected to the outer housing portion within the outer housing portion.

The invention also relates to a battery holder for receiving at least one cell.

The essence of this battery holder comprises an outer housing portion adapted to receive at least one cell, an energy guide arranged along the inner surface of the outer housing portion, and an inner housing portion configured to receive at least one cell housed in the outer housing portion. , the inner housing portion is provided with a plinth positioned above the energy guide and the plinth is ultrasonically coupled to the energy guide.

The invention further relates to a method of forming a battery holder, the method comprising forming a bonding surface along an inner surface of an outer housing portion, inserting at least one cell within the binding surface of the outer housing portion, and at least one cell in the outer housing portion forming a bonding surface on the inner housing portion at a location corresponding to the outer housing portion bonding surface, the inner housing portion and the outer housing portion bonding surfaces being joined together.

The invention will now be described in more detail by way of exemplary embodiments in the accompanying drawings.

The figure shows a perspective view of a battery holder packaging device showing each of the elements, a perspective view of a battery holder formed in accordance with a first embodiment of the present invention, according to a further exemplary embodiment of the invention.

Figure 4

Figure 5

Figure 6

Figure 7

Figure 8

Figure 9

Figure 10

Figure 11

Fig. 12 is a plan view of a battery holder showing each of its members, a perspective view of yet another third embodiment of the invention, a sectional view along line AA of the wall of the embodiment of Fig. 4, a first exemplary connection mechanism of the invention; Embodiment of the second embodiment of the present invention is illustrated with a spatial drawing of the second embodiment of the invention with a fourth embodiment of the present invention. Figure 11 is a sectional view, and an improved version of the embodiment shown in Figure 11 is a sectional view.

In general, the various battery holders comprise a first housing member with which an integral locking member is formed, further comprising a distribution frame which is detachably secured to the first housing element and further comprising cells between the distribution frame and the first housing. they are mounted on the frame structure and further comprise a circuit connected to the distribution frame which interconnects the series of cells and further comprises a charger arrangement and power connectors. The battery holder further comprises a second housing member which is substantially flat and may preferably be bonded to the first housing member.

Referring now to the drawings, with the help of the drawing tprbelow in Fig. 1, a battery holder 10 is shown. It is disclosed in U.S. Patent No. 4,600,500, which is also owned by Motorola, and is substantially in the state of the art. The battery holder 10 comprises a housing having an upper part 2 and a lower part 4. The housing parts are preferably snap-connected to each other. Of course, the housing parts can be connected to each other in other ways, for example by ultrasonic welding. The double upper housing portion further comprises a locking device 3 which engages in an opening 5 formed in a cut-out portion of the lower portion 4, allowing the battery holder 10 to be detachably connected to a radio not shown, for example.

Figure 2 is a perspective view of a battery holder 100 constructed in accordance with the present invention. The battery holder 100 includes a first housing member 104 on which a latching device 103 is disposed which is integral with, and substantially integral with, the first housing member 104. The next element of the battery holder 100 is a distribution frame 111 mounted on the first housing element 104. The distribution frame 111 is preferably snap-connected to the first housing member 104 by means of slots 150 and mounting rails 152 disposed in the first housing member 104.

Optionally, the distribution frame 111 may be integrally formed with the first housing member 104. Another possibility is to form the battery holder 100 in this embodiment by ultrasonically welding the distribution frame 111 to the first housing member 104. The figure also shows the cells 112 having their respective positive terminals 114 and negative terminals 113 interconnected and respectively mounted in the distribution frame 111. Optional circuit elements for battery holder 100 may be resistors not shown, or may be a polar switch 30, shown in the figure, and mounted on a distributor frame 111 to provide charge or power to the contacts 100. the batteries in the battery compartment work safely and can be recharged. These circuit elements are known per se. In another embodiment, the connection circuit comprises a resilient circuit having the same components, i.e. resistors, switches and thermistors, which also interconnect the cells. The second housing element 102, after the individual elements have been mounted on the first housing element 104, can be glued, for example, to the first housing element 104. In order to maximize weight loss, the second housing member 102 is preferably a flat plastic material, such as polycarbonate, which has an adhesive coating on its inner surface and adheres to the first housing member 104. Optionally, the second housing member 102 may be ultrasonically welded to the first housing member 104. The second housing element 102 may also serve as a label for the battery holder 100.

Figure 3 illustrates a further second embodiment of the invention, wherein individual elements of the battery holder 200 are observed. The battery holder 200 includes a first housing member 202 for forming snap-in coupling members 204 as a unit. The cell holder 206 is preferably pre-packaged in the battery holder 200 where it can be secured by the snap-in coupling members 204. The battery holder 200 further includes a flexible circuit 212 that provides additional cell-to-cell connections, in addition to providing various contacts, and can be coupled to other circuit elements not shown in the figure, such as resistors and thermistors. Finally, the second housing member 220 can simply be mounted on top of the cell holder 206 and snap into the first housing member 202. The second housing member 220 is preferably provided with openings 214 which

10 fit into the snap-on couplers 204. Further openings 216 are provided on the second housing member 220 to provide contact points, if such contact points are provided on the flexible circuit 212. Likewise, the first housing members 202 may include apertures 205 suitable for forming contact points on the flexible circuit 212. The battery holder 200 formed in accordance with this exemplary embodiment of the invention may comprise a double-sided adhesive 208, e.g., a tape positioned between the first housing member 202 and the bottom of the cell carrier 206; and top of cell pack 210.

Figure 4 illustrates a battery holder 300 formed in accordance with a third exemplary embodiment of the invention. The roof rack 300 includes a base member or outer housing portion 302 configured to receive cells 304 (here there is a pause and nothing is heard). The cells 304 may be provided with any flexible ribbon cable or circuit, such as those used in the embodiments described above. In order to properly hold the cells 304 in the outer housing portion 302, one or more layers of adhesive 306 may be used. This adhesive 306 may be simply an adhesive or a double-sided adhesive tape. Adhesive material 306 may also be used to secure the cells 304 to the outer housing portion 302. Another 306 Adhesive Layer Can Be Applyed · · · · 4>

11 on top of the batteries 306, whereby the inner housing portion 308 is secured, while ensuring that the cells 304 also engage the outer housing portion 302.

In general, the inner housing portion 308 fits into a wall 310 that is flanged along the periphery of the outer housing portion 302. This combination of wall 310, support members 311, and any adhesive layer 306 prevents the cell 304 from being displaced or displaced in the outer housing portion 302. The inner housing portion 308 is preferably provided with a label which forms a unit with it and is thermoformed or heat-coated plastic. Preferably, wall 310 includes an energy guide 312, as shown in more detail in FIG. 5, a sectional view taken along line A-A of FIG. 4, formed by ultrasonic bonding of energy guide 312. The outer housing portion 302 has a shoulder portion 314 that can be ultrasonically coupled to the energy guide 312. The ultrasonic bandage may be formed along the entire wall 310 or pre-selected portions thereof as required. The ultrasonic bonding mechanism itself is known.

Tabs 316 are formed around the base of the wall 310, which are part of the engaging and connecting mechanism and allow the inner housing portion 308 to be connected to the outer housing portion 302. Suitable receiving portions 318 are formed in the inner housing portion 308 along a base 320. 6 to 8 illustrate various exemplary embodiments of the latch 316 as a locking member and the corresponding receiving portion 318. FIGS. Finally, during production, a suitable adhesive may be placed around the base 320 and thus the inner housing portion 308 may be bonded to the outer housing portion 302. Various variations of the bonded bond may be applied, and ultrasonic bonding or locking may be used instead of bonding.

Figure 6 is an enlarged view of the coupling mechanism as one of the first examples! the shape of the stone. The attachment mechanism includes a tab 322 which engages in a recess 324. For the coupling mechanism shown in Figure 6, the relative position of the inner housing portion 308 and the outer housing portion 302 may be maintained, for example, by ultrasonic bonding.

In Fig. 7, the coupling mechanism is a second example. embodiment is shown in detail and enlarged. Here, the coupling mechanism also includes a tab 326 which is connected to a cut-out 328 formed in the inner housing portion 308. Like the exemplary embodiment of Figure 6, the embodiment of Figure 7 may be implemented such that the inner housing portion 308 and the outer housing portion 302 are ultrasonically coupled to each other.

Finally, Figure 8 is an enlarged view of a third exemplary embodiment of the coupling mechanism. This mechanism includes a locking member 330 which engages with a cavity 332 formed in the receiving portion 318 of the inner housing portion 308. Other types of locking mechanisms, known per se, can also be used for positive connection of the upper housing portion.

Figure 9 shows a battery holder according to the invention as a fourth example. is shown. The battery holder 400 includes an outer housing portion 402 adapted to receive cells 404 or colonies. In order to secure the cell row 404 in the outer housing portion 402, adhesive 406 may be applied to either side or both sides of the cell row 404. The adhesive 406 may be an adhesive or may be a double-sided tape having both sides optionally provided with an adhesive layer. The inner housing portion 408 thus grips the batteries 404 by engagement with the outer housing portion 402.

The embodiment shown in Figures 4 and 9 does not include the wall 310, which holds the batteries so that they cannot be displaced in the outer housing, and also provides an opportunity to ultrasonically connect the energy guide to the outer box body. In FIG. 4, the energy guide 410 is disposed along the surface of the outer housing portion 402 and also forms a base 412 that provides an opportunity for ultrasonic coupling of the outer housing portion 402.

Optionally, the outer housing portion 402 further includes an adapter tab 414 that allows the position of the inner housing portion 408 to be properly aligned with the outer housing portion 402 during ultrasonic bonding. The adjustment mechanism is shown in detail in Figure 10. The base 412 is provided with a notch 415 which is adapted to engage the tabs 414. Finally, the guide member 416 may be configured and positioned to facilitate battery insertion. 11 and 12, taken along line B-B in FIG.

Fig. 11 is a sectional view taken along line B-B of Fig. 9, showing how the inner housing portion 408 and outer housing portion 408 and the ultrasonic welding line 410 are aligned and aligned. Guide member 416 provides a reference point for inner housing portion 408. In addition, a step-like member 418 may be provided to prevent the foot 412 from moving within the housing 408 during ultrasonic coupling. This is because the energy guide is disposed on an oblique portion of the inner housing portion 402, which is generally horizontal and is forced into a slightly oblique position during ultrasonic welding. The step member 418 prevents the foot 412 from moving away from the guide 416. The plinth 412 is positioned along the inner housing portion 402, but the energy guide 410 can be positioned anywhere along the wall. The surface 430 prevents the foot 412 from being inclined during ultrasonic welding.

In conclusion, the present invention, on the one hand, reduces the number of technology steps and also allows the weight of the finished battery holder to be reduced. The combination of ultrasonic welding and adhesive allows weight loss throughout the system. Virtually a wall can hold the battery. The power controller, which is located at the top of the wall, contains the cells of the battery, and practically an ultrasonic connection area can be provided. The inner housing part can be placed over the wall so that the batteries are properly sealed. The shoulder section of the inner housing can be ultrasonically coupled to the power controller at the top of the wall. Optionally, the wall may be replaced by an energy guide located on the outer housing portion, wherein the base of the inner housing portion is connected to the energy guide.

Claims (10)

Claims A battery pack device, optionally a battery holder, comprising at least one cell, characterized by: an outer housing (302, 402) configured to receive at least one cell and an outer surface of the outer housing (302,402). ; and a bonding adhesive surface applied to the inner surface of the outer housing portion (302, 402), and an inner housing portion (308,408) configured to receive at least one cell in the outer housing portion (302,402) and having an outer housing a jointing surface of the connector, and the bonding on the bonding surface ensures that the inner housing portion (302, 402) is connected to the outer housing portion (308,408) within the outer housing portion (308,408). Battery holder according to claim 1, characterized in that the inner housing part (408,308) is molded of thermoplastic plastic, has a shoulder part (314) and a foot (320), and the bonding surface is formed at the foot (320). The battery holder according to claim 1, characterized in that the bonding surface comprises an energy guide (312, 412) for ultrasonic connection of the inner housing part (308,408). Battery holder according to claim 1, characterized in that the connecting surface is provided with a wall (310) for receiving the batteries. 5. Battery holder with at least one cell on it * * · * 17 ve, characterized in that it comprises an outer housing part (302,402), which, in principle, has an internal surface, a wall (310) formed to receive at least one cell extending from the inner surface, comprising a connecting surface which is provided on the outer housing part. (302) is provided, comprising an inner housing portion (308) configured to cover the wall (310), and the inner housing portion (308) is connected to the outer housing portion (302) along a bonding surface. The battery holder according to claim 5, characterized in that the bonding surface comprises an energy guide (312) for ultrasonic bonding. A battery holder for receiving at least one cell, comprising an outer housing part (302,402) configured to receive at least one cell, an energy guide (312,412) disposed along the inner surface of the outer housing part (302,402) and an inner housing part (308, 402). 408) configured to receive at least one cell disposed in the outer housing portion (302, 402), the inner housing portion (308,408) is provided with a foot (320) positioned above the energy guide (312), and the plinth (320) is ultrasonically coupled to the energy guide (312). 8. A method of forming a battery holder comprising forming a bonding surface along an inner surface of an outer housing portion, at least one cell being positioned within the bonding surface of the outer housing portion, and at least one cell in the outer housing portion covering the inner housing portion. · * • · »· · · ♦ * · · · · ····························································································································· - forming a bonding surface on the inner housing portion at a location corresponding to the outer housing portion bonding surface, the inner housing portion and the outer housing portion bonding surfaces being joined together. 9. The method of claim 8, wherein the bonding surfaces of the inner housing portion are connected to the bonding surfaces of the outer housing portion by ultrasonically coupling the base portion of the inner housing portion to an energy guide formed on the outer housing portion. A battery holder for receiving at least one cell, characterized in that it has an outer housing part having a wall extending from its inner surface to receive at least one cell, an energy guide arranged on an inner surface adjacent this wall of the outer housing part, the inner housing part being formed with the wall and formed to cover at least one cell in the outer housing portion, the inner housing portion has a foot located above the energy guide of the outer housing portion.