NO781294L - CONNECTORS. - Google Patents

Description

Coupling assembly e

The invention relates to connector assemblies which are produced in one piece, and in particular connection clamps for electric batteries produced in one piece.

A common device for temporarily connecting two or more objects is matching male and female connectors. The type of coupling used varies depending on the particular application. For example, in the case of battery applications, there are certain requirements that a connector must meet. A battery is expected to work for long periods of time. Accordingly, the connection clamp must be reliable and it must provide continuously satisfactory mechanical and electrical connections throughout the lifetime of the battery. Similar requirements can also be found for other applications where a long service life and reliability are required.

A further requirement for battery clamps is that they must seal the battery container so that no corrosive material can leak out. This requirement has previously been partially satisfied by the use of a two-piece connector in which a connecting device, such as a female mating device, is produced with a hole in the center of its base. A rivet is then inserted through a support device, which is usually an insulator, and through the hole in the connection device. One end of the rivet is riveted or hammered outward so that it solidly attaches the connection device to the insulator. The massive head of the nail is thereby pressed against the insulator to provide a seal and prevent leakage. All the internal connections in a conventional 9 volt battery are formed by welding (e.g. connections using electrically conductive tabs or tongues between the individual cells, and to the rivet heads) except for the mechanical connection between the end of the rivet and the connection device which thereby forming the "weakest link" in the battery's electrical continuity. The two-part construction and the necessary intermediate steps in the assembly of these previously known coupling pieces make these relatively expensive to manufacture.

Some one-piece couplings have been used in the past, but all have contained a small hole or eye or a boss with an open end. When such a coupling piece is attached to a support device, a hole is left in the coupling piece. This is particularly undesirable for some designs, e.g. those intended for use in electrochemical cells, as corrosive material may leak out.

The object of the invention is to provide a connector assembly which is cheap to manufacture and install and which, when used as a connection clamp for an electric battery, does not allow leakage.

According to the invention, a coupling piece assembly is provided, in particular a clamp for a. electric battery, comprising a connecting piece which is attached to a support device by means of a part extending through an opening in the latter, which assembly is characterized in that the connecting piece is formed in one piece and comprises a connecting device with one in one piece with this formed bottom wall, as the bottom wall has an i.one piece with this formed boss with a

closed end projecting from the bottom wall in a direction away from the fbr connection device, the boss extending through the opening in the support device, the bottom end of the boss being pressed flat against the support device in the form of a projecting shoulder with a diameter greater than the diameter of the opening, so that the support device is attached between the shoulder of the boss and the bottom wall in a sealing connection, and so that the coupling piece is securely attached to the support device.

There is no leakage path through the coupling assembly due to the fact that the entire coupling is formed of continuous material and has a closed end.

It has previously been believed that one-piece coupling pieces, such as those provided by the present invention, could not be formed, and that, even if they could be formed, they could not be assembled without forming cracks in the coupling piece metal.

However, it has now been discovered that it is possible to produce a one-piece connection piece which can be easily assembled. The coupling pieces produced in one piece. according to the invention is not only significantly cheaper to manufacture than two-part coupling pieces, but as the coupling piece is now a single piece, the mechanical connection by the rivet is also eliminated, together with the disadvantages of such a connection.

In the coupling piece assembly according to the invention, the part of the assembly which forms the connection device, e.g. the matching male and female elements, be the same as used up to now. Instead of the separate rivet, however, a one-piece manufactured boss is provided which is formed

during the manufacture of the coupling piece.

The boss part in the one-piece coupling piece according to the invention is designed to be inserted into an opening in a support device. The boss must be longer than the thickness of the support device, so that it will extend past its remote wall, thereby enabling the boss to be hammered out against the support device. This operation securely attaches the connector to the support and produces a connector assembly.

The boss's dimensions will vary in accordance with the material it is made from and the size of the coupling piece itself. The boss must be sufficiently long to penetrate and protrude beyond the support device. A sufficient portion of the end of the boss must protrude through the support device so that the closed end of the boss, when this is hammered out, will form a head which is sufficiently large to prevent the coupling piece from being pulled out of the support device, for example when the coupling piece is disconnected. The maximum length of the boss will be determined by the material used, which will affect the ability of the boss to form without penetrating the bottom wall of the mold forming the boss, which would produce an open-ended boss. A practical length of a boss used in a connector for a battery would be between approx. 1.25 and 2.55 mm in connection with an outer diameter of the boss between approx. 3.1 and 3.2 mm. The coupling piece can be made of almost any malleable or moldable material. Applicable materials include steel, brass, phosphor bronze, beryllium copper. The preferred embodiment is made of steel containing some carbon and manganese and limited amounts of sulfur and phosphorus. In one particular version, the coupling piece consists of steel which is approx. 0.25 mm thick and contains between approx. 0.48 and 0.55% carbon, between approx. 0.6 and 0.9% manganese, a maximum of approx. 0.035% phosphorus and a maximum of approx. 0.4 5% sulphur. This steel type is particularly suitable for female couplings. Other usable steel types contain between approx. 0.25 and 0.4% manganese and a maximum of 0.08% carbon, between approx. 0.3 and 0.51% manganese and a maximum of approx. 0.1% carbon, and between approx. 0.08 and 0.13% carbon and between approx. 0.3 and 0.6% manganese. Each of the above steel types contains a maximum of approx. 0.035% phosphorus and 0.045% sulfur. These steel types are particularly suitable for male couplings. Each of. the above materials are sufficiently malleable to permit the formation of a boss which has a closed end and is sufficiently long to be useful. When the boss is hammered out while attaching the connector to the support device, the material must also remain continuous, because if a break forms in the boss, the material from the battery can leak through the connector.

It has surprisingly been discovered that the formation of the boss causes the steel to be strain-hardened, so that . the springing of the fingers in the female connector is increased. This makes it unnecessary to heat treat the fingers.

The support device must be able to hold the coupling piece in place while it is in use, and thus prevent it from being pulled out. Furthermore, the support device must not be damaged during the hammering out of the end of the boss and the attachment of the coupling piece to it. When the connecting device is to be used in a battery, the support device will preferably be formed from an insulating material. Suitable such materials vary greatly and include vulcanized fiber made from paper that has been soaked in zinc chloride, washed and dried, and epoxy resin with a glass fiber filler. In a preferred embodiment, the support device has a thickness of between approx. 0.5 and 1.0 mm.

As the coupling piece has only a single boss which is passed through the support device, the coupling piece can rotate. The coupling piece can therefore be provided with means to prevent rotation. A currently preferred arrangement involves the use of at least one, and preferably two rosettes which are formed in the bottom wall of the connecting piece which must rest against the support arrangement. The rosette is formed by pressing a matrix or sinking through the bottom wall of the coupling piece, so that one or more pointed edges or lances are formed, each lance or point extending towards the calculated position of the support device. Each rosette may be small and have as few as one point projecting from it, or the rosette may be larger and have many more lances or points projecting from it. Where leakage is a possible problem, it is desirable that the length of each tip is less than the thickness of the support device. In an alternative embodiment of the invention, it is possible that the sinker which forms the rosette does not penetrate the bottom wall, in which case a recess is formed in the bottom wall. A further, alternative means of preventing rotation is the use of a bent edge of an annular flange which extends around the connecting device. This can be formed by pressing one or more parts of the edge of the ring-shaped flange into the support device.

The device for preventing turning or rotation works by the device partially penetrating the support device. Usually this partial penetration occurs at the same time as the boss end is hammered out. The force exerted by hammering out the end of the boss is sufficient to cause the tip, recess or bent edge to partially penetrate the support.

The invention will be described in more detail below with reference to the drawing, where, fig. 1 shows an isometric view of a female connector assembly according to the invention,

fig. 2 shows a view from above of the connecting piece in fig. 1 before it is attached to the support device, fig. 3 shows a vertical, diametrical sectional view of the one-piece connection piece shown in fig. 2, and fig. 4 shows a corresponding vertical sectional view of an alternative embodiment in which a male connector is shown attached to a support device.

Figs. 1-3 show a female coupling piece 10 produced in one piece with a female connection device 12 consisting of an outer discontinuous cylindrical wall 14, an inner discontinuous cylindrical wall 16, a connection device 20 which is arranged between and in one piece with the walls, and a number of axial slots 18 which pass both through the said walls and the connecting device. The discontinuous cylindrical walls form a number of resilient fingers which are adapted to grip the corresponding parts of a male connector. The connecting device 12 is formed in one piece with a planar bottom wall 22 from which a boss 24 produced in one piece extends in a direction opposite to the connecting device 12. The boss 24 has a substantially cylindrical neck 26, an enclosing flange 27 which is formed in one piece with the outer wall 14, and a closed disc-shaped bottom 28. The enlarged diameter of the bottom 28 together with the planar wall 22 holds the coupling piece 10 securely in place on a support device 32 which has a hole 30 which occupies the neck 26.

Two one-piece rosettes 34 are formed in the bottom wall 22. The rosettes 34 prevent pivotable rotation of the coupling piece as a result of four lances or tips 36 projecting from the wall 22 and partially penetrating the support device 32. A metal tongue 38 from the cells of a conventional 9 volt electro-chemical cell (not shown) is welded to the closed bottom 28-,

Fig. 2' and 3 show the one-piece manufactured female coupling piece 10 before attachment to the support device 32.

In this state, the boss 24 has a cylindrical shape without any flange 27. The closed bottom 28 has a diameter smaller than the diameter of the hole 30 (Fig. 1). After inserting the boss 24 into the hole 30, the closed bottom 28 of the boss 24 is flattened against the bottom of

the support device 32, so that the flange 27 is formed and expansion of the bottom 28 occurs while at the same time the lances 3 6 penetrate into the support device 32.

Fig. 4 shows an alternative embodiment of the invention in which a one-piece male coupling piece 50 has a male connection device 52 which consists of an outer cylindrical wall 54 and an inner cylindrical wall 56. Near the support device 32, the outer wall has 54 a diameter which is smaller than the diameter of the wall 54 in the area closer to its opposite end,

so that a female coupling piece will be held securely in place on

this. In the embodiment shown, the extended part forms a cylinder with a slightly larger diameter than the cylindrical shape of the small part, but other designs can also be used.

The outer wall 54 is formed in one piece with an annular flange 58 which helps to stiffen the connection device 52 against the support device 32. The flange 58 also provides a device 60 to prevent rotation. The device 60 is formed by pressing the outer edge 62 of the annular flange 58 into the support device 32 at one or more places around the circumference of the flange 58. The attachment of the male coupling piece 50 to the support device 3 2 is otherwise essentially the same as the attachment method described above in connection with the one in fig. 1-3 showed female coupling piece. The inner wall 56 of the connecting device 5 2 is formed in one piece with a bottom wall 122 which lies in the same plane as the flange 58 and from which extends a boss 124 formed in one piece. The boss 124 has a mainly cylindrical neck 126, a flange part 127 and a closed bottom 128 in the form of a disc. The closed bottom 128 of the boss 124 has a larger diameter than the diameter of the opening 130 in the support device 32, so that the boss 124 and the planar wall 122 securely hold the support device 32 in between after expansion of the bottom of the boss.

Claims (9)

1. Connector assembly, in particular a clamp for an electric battery, comprising a connector which is attached to a support device by means of a part extending through an opening in the latter, characterized in that the connector .(10; 50) is formed in one piece and comprises a connecting device (12; 52) with a bottom wall (22; 122) formed in one piece with this, the bottom wall having a boss (24; 124) formed in one piece with this with a closed end (28; 128) which protrudes from the bottom wall in the direction away from the connection device (12; 52), as the boss (24; 124) extends through the opening (50) in the support device (32), as the bottom end of the boss (28; 128) is pressed flat against the support device in the form of a projecting shoulder (27; 127) with a diameter larger than the diameter of the opening (30), so that the support device (32) is fixed between the shoulder (27; 127) of the boss (24; 124) and the bottom wall (22; 122) in a sealing connection, and so that the coupling piece is securely attached to the support the north arrangement (32). 2. Coupling piece assembly according to claim 1, characterized in that it comprises a device (34; 60) to prevent rotating movement of the coupling piece (10; 50). 3. Coupling assembly according to claim 2, characterized in that the device for preventing rotating movement comprises at least one rosette (34) which contains at least one tip (36) which extends from the rosette, the tip partially penetrating the support device (32) so that the connection device (12; 52) is held stationary against the support device. 4. Coupling piece assembly according to claim 1, 2 or 3, characterized in that the boss (24; 124) is hollow and consists of a neck part (26; 126) which is essentially cylindrical, and the aforementioned ■ bottom part (28;' 128) which is mainly disc-shaped. 5. Connecting piece assembly according to one of claims 1-4-, characterized in that the connecting piece (10, 50) is made of steel, brass, phosphor bronze or berylium copper. 6. Coupling assembly according to one of the preceding claims, characterized in that the connection device (12) comprises an inner, essentially cylindrical wall (16) with axial slots (18.) • for. providing a circular array of resilient fingers forming bearing surfaces adapted to resiliently rest and make contact against an outer surface of a mating connector, and an integrally formed outer, generally cylindrical wall (14) through which the axial slits (18) of the inner wall pass, the outer wall (14) being bent from the upper edge of the inner wall (16) and extending downwards until it merges into the one-piece bottom wall (22). 7. Coupling piece assembly according to claim 6, k a r a k - •terized in that the connection device has been strain-hardened during the shaping of the boss (24), so that the springing of the said springing fingers has been increased. 8. Connector assembly according to one of claims 1-5, characterized in that the connection device (52) comprises a mainly cylindrical outer wall (54) whose diameter is close to the support device (32). is smaller than the diameter of the wall at a point closer to its opposite end, the outer wall (54) being adapted to form good contact with the inner wall (16) by a matching connecting device, and a substantially cylindrical inner wall (56) which is bent from the outer wall's ( 54) upper edge and extends downwards until it merges into the one-piece bottom wall (122). 9. Coupling piece assembly according to claim 8, characterized in that it comprises a device to prevent rotating movement of the coupling piece (50), the device comprising an annular flange (58) which extends outwards from the outer wall (54) and lies in the same plane as the bottom wall (122), in that at least one outer edge (62) of the annular flange (58) is bent towards the support device and penetrates into the support device so that the connection device (52) is kept stationary in the support device..