DE1121681B - Electrical contact element - Google Patents

Description

The electrical contact elements, which are formed by non-deformable plug pins with Resilient bushings cooperate or vice versa, have the disadvantage that they are between the Establish connector pins and sockets for line contacts. It follows that the points of contact between the elements mentioned are relatively few in number, which on the one hand creates a resistance for the passage of current and on the other hand, a poor adhesive strength of one element on the other Consequence has; These elements run the risk of overheating and can become under the action of a separate with a slight pull.

A connector sleeve is known whose contact elements consist of hollowed-out shafts that extend up to are completely slotted to one end part, so that the elastic effect only in that part of the Lamellae, which are connected to the non-slotted end of the hollow shaft, takes place. Through this When the slats are pushed apart or pressed together, a conical shape is created, in which the cylindrical element is inserted (case of an elastic contact socket) or which also in a cylindrical member penetrates (case of an elastic connector pin).

The contact element according to the invention relates to a hollowed out and through longitudinal slots shaft divided into lamellas. The invention is that both ends of each lamella with a not slotted, inelastic part of the shaft are each firmly connected and that each lamella two Has elastic ends and a rigid central part, so that when the elastic is bent Ends of the slats of this central part remains cylindrical.

A very effective contact is achieved with the help of wide surfaces. The electric one Resistance is reduced in this way and the adhesive strength of the plug in the socket is increased. The purpose of the invention is therefore to maintain the cylindrical shape of the central part of the Connector, even if the elastic parts of the same are elastically deformed. This creates a ensures a large contact surface and a low electrical contact resistance as well as a great enlargement of the print.

In the case of the patent application, the length of the slots is through the unslotted ends of the Shank limited; this becomes the central part of the symmetrical action of both elastic functions exposed to the lamella ends and shifts parallel to itself, depending on the lamellae pushed apart or pressed together.

Applicant:
Jules Paul Camzi, Geneva (Switzerland)

Representative: Dipl.-Ing. K. Blank, patent attorney,
Munich 22, Widenmayerstr. 36

Claimed priority:
Switzerland of October 17, 1957 (No. 51 716)

Jules Paul Camzi, Geneva (Switzerland),
has been named as the inventor

The cylindrical shape of this central part is thus constantly maintained, and the coupling of one Plug and a socket of the same diameter can easily be done. In addition, lamellas, which are only connected to the shaft at one end are more easily exposed to the symptoms of fatigue as such lamellas, both ends of which are fused with a solid. The latter are also more resistant to gradual deformation. It should be noted that in order to use the cylindrical Maintain the shape of the central part of the contact element when the lamellas are bent, the central part of the lamellas should be much stronger than their ends.

FIGS. 1 to 6 of the drawing show, for example, two embodiments of the contact element according to the invention.

Fig. 1 shows a front view of a connector pin;

FIG. 2 shows the connector pin according to FIG. 1, partially cut open, from the front;

Fig. 3 is a cross section through the connector pin according to FIG. 1, as is FIG. 4, which shows the connector pin shows inserted in a socket;

Fig. 5 shows an external view of a socket from the front;

FIG. 6 is a longitudinal section through the socket according to FIG. 5.

According to the first described embodiment, the contact element is a plug pin that is formed by a hollowed shaft 1 (Fig. 1), the central part 2 of which is formed from a cylinder is, which has a larger diameter

109 759/313

Claims (1)

3 4 exerts a pressure than the diameter of the element mentioned forming the outer ends. 2 shows the cylinder 3 and 4, which shows an elastic central cylinder 2 on either side of the inside of the contact element. Longitudinal slots 5 are provided in this type of device. Elastic lamellae 9 are fitted in the cylinder, which parts of these into lamellae 6 in the form of a cylinder open along a longitudinal slot. Said lamellae are in their length 5 or are limited to the interior of the cylinder 2 of the contact by the fact that their ends are connected to the non-element and are connected to the internally slotted, hollowed-out shaft part. wall of said cylinder. Said La-The upper part 3 of the contact element, whose mellen 9 have the effect that their elasticity is smaller in diameter than the bore of one of those of the flexible blades 3 and 4 adds, socket socket (Fig. 4), fits easily into a such io what on the one hand the pressure of the contact element against the socket, while the central part 2 of the larger increases the inner walls of the socket socket and diameter than the bore of the socket socket only on the other hand reduces the possible fatigue of the said flexible slats under the effect of pressure . Since the lamellae 9, which causes the outer ends 3 and 4 to bend and play no role whatsoever in terms of conductivity, lamellae 6 result. The elasticity of the ge 15 they can be provided in a material, the so-called lamellae, seeks to be the diameter of the zy- has a very good elasticity without keeping a good conductor linders 2 at its original value, such as steel. According to the desired degree of elasticity a pressure of the walls of said cylinder zittigkeit one can introduce into the interior of the contact against the inner walls of the socket socket 8 protruding element the required number of elastic, calls and thus an effective contact, ao split lamellas,
since this contact takes place along the entire surface of the cylinder 2; The outer ends 3 a section through a contact socket. Such and 4 of the lamellas 6 have along their entire length element is designed to receive a non-deformable parallel inner and outer surface, which is a plug, which is formed by a full zygiven shape for the elasticity of the said lamellar shaft. In this case, the pressure that creates the light contact, as well as the continuation of this elasticity, is created by the elasticity. In the case shown in Fig. 1, the outer ends of the lamellas of the bushing contactors are six in number, which ensures the lamellas of. This element is due to a reduced width, which therefore has a good bending cavity and is divided into lamellae by slots 10, and the shape of which is that of the shaft. The lamellas mentioned are - like flat lamellas with parallel surfaces, said very strongly - limited in their length by the fact that their approximations. It is clear that one with a different end with the unslotted, hollowed out number of slots 5 has an analogous effect on the shaft part. The central part 11 has could be enough. a smaller hole than that of the plug, with In order to practically make contact between the surfaces which it has to couple and the outer ends, the central cylindrical part 2 in FIGS. 12 and 13 needs a larger bore than that of the unloaded state, not a cylinder of the circular connector mentioned. The plug easily penetrates the moderate cut. The lamellae 6 seen in section in FIG. 3, then it enters the central TdI 11, must have a curvature of the same radius as that of the bushing 40 which creates the required pressure, forcing its lamellas to retreat evokes. The upper version, thus smaller than that of the enveloping surface of the plug, is thus in contact with the circle 7 when the contact element is in the spread-apart state in the entire surface of the central part. If the lamellas are pressed together at the moment, which results in a very effective contact and penetration into the socket socket - strong adhesive strength for the two elements, the diameter of the 45 result is reduced. The necessary cross-section for the centralization of the cylinder in order to be the same as the bore of the bushing of the contact along the entire upper frame 8. Since the lamellas 6 can have a surface of the cylinder by a peeling process curvature that can be achieved with that of the aforesaid, which is the same as that provided for the plug socket, effectively a contact similar to that obtained. In the embodiment shown in FIGS. 5 and 6, which extends over the entire surface of each lamella, the walls of the central cyst are stretched, as the section in FIG. 4 shows. The transverse cylindrical part externally reinforced in thickness, section, which FIG. 4 shows, can be made in a simple manner in order to increase its stiffness and to maintain the elasticity. The contact element which, after being baked, only leaves the outer ends of the lamellas circular for machining on the lathe. /
Has cross-section, is by a tool with 55 η, _Τ πχ, τΑ _Μ ο ₀ οίΐ ™ _Ε
cutting edges, which requires a bore hole:
sits, which is the same as that of the socket socket 8. 1. Electrical contact element, which consists of a shaft of adapted diameter, which is inserted into the hollowed out and through longitudinal slots in lamellas inside of the contact element, divided shaft, characterized in that the compression of the lamellae restricts to 60 that both ends of each lamellae with a value that is not required so that the cutting edges of the slotted, inelastic part of the shank of each tool are firmly connected to the difference in curvature and that each lamella removes excess material and thus called the two elastic ends and one inherently rigid Lamellae gives the desired curvature. Has middle part. In order to increase the elasticity of the slats 6, 65 2. Electrical contact element according to Ankann in a manner known per se in claim 1, characterized in that this hollow part of the contact element an elastic element fulfills the function of a plug pin, Introduce organ, which on the inner walls of the central part (2) has a larger diameter has a knife than the outer ends of the lamellae (3, 4). 3. Electrical contact element according to claim 1, characterized in that this element fulfills the function of a socket by the central part (11) inside the element a has a smaller diameter than the outer ends (12, 13). 4. Electrical contact element according to claim 1 to 3, characterized in that the Curvature of the contact surface of the lamellae (6) of the central part (2) is the same in cross section is the curvature of the contact elements with which the contact element is intended to couple is. 5. Electrical contact element according to claim 1 and 2, characterized in that it has an elastic device (9) known per se in its inner, hollowed-out part, which exerts a pressure on the inner walls, the effect of which is similar to that of the flexible ones Adds lamellas (6) to allow them to return to their original position, as soon as the compression exerted on the lamellae ceases. 6. Electrical contact element according to claim 1 to 5, characterized in that the resilient device (9) located in the inner, hollowed-out part is formed by a lamella which has the shape of a cylinder open along a longitudinal slot. Considered publications:
German patent specification No. 592 797. 1 sheet of drawings ® 109 759/313 1.62