BE1023715B1 - ELECTRIC POWER SUPPLY PLUG AND ELECTRIC CONTRAST PLUG - Google Patents

Abstract

The invention relates to an improved electrical power plug and an improved electrical receptacle, both suitable for high currents and suitable for use on aircraft. The improvements concern, among other things, the contact surfaces between plug and socket, the housing of the plug and socket and the connection between the plug or socket and the associated cable.

Description

ELECTRIC POWER SUPPLY PLUG AND ELECTRIC CONTRAST PLUG.

This invention relates to an improved electrical supply plug, further called plug, in particular a plug suitable for large amperages as used for aircraft (both aircraft and helicopters), although the use is not limited to aircraft. The invention also relates to a socket connected to the plug. Here, the male element is meant by the plug and the female element by the socket.

With such power plugs, a low-resistance electrical connection is requested. With such an electrical connection, the plug is the male element while the socket is the female element. Low-voltage power plugs according to the present invention, both male and female, are preferably used between a mobile generator or a static electrical network on the one hand and the electrical circuit of aircraft, for example.

An important part of a plug and a socket consists of a contact element, over which the electric current flows. With a plug, the contact element consists of one or more pins. With a socket, the contact element consists of one or more tubular parts. Known sockets have the disadvantage that the electrical contact between the plug and socket is qualitatively reduced with frequent disconnection and re-tightening of the connection between the plug and the socket. After all, the tubular parts that make up the contact element of the socket are often split in the longitudinal direction so as to comprise the male element of a plug in a resilient manner. By frequently removing the plug from the socket, the contact element of the latter loses its resilience, which can adversely affect the electrical contact.

In those of the known plugs and sockets, the supply cable itself is often soldered or clamped to the male and / or female element that effects the electrical connection. This means that if the plug or socket is damaged, it is difficult to repair. The object of the invention is also to obtain an improved plug and / or an improved socket that is easy to use, that is less susceptible to wear and that is more robust in quality and easy to recover in the event of damage.

The aircraft plugs on the market to date only contain split pin plugs, with a ring. These plugs are very fragile and quickly lose their resilience.

The object of the present invention is to provide a socket that has improved contact, the contact surface being provided with a slat or resilient plate.

A further object of the invention is to provide electrical plugs and / or socket plugs that can be easily disconnected from the cable in case the plug or socket should be damaged during use. This is achieved by providing a screw connection.

This object is achieved by providing an electrical socket suitable for transmitting large currents which is characterized by a contact surface provided with a resilient plate.

The resilient plate can be provided with several resilient protrusions.

The resilient plate can be easily replaced.

The resilient plate can be made from a Beryllium-Copper alloy.

Furthermore, this object is achieved by providing an electrical plug or socket that comprises a conical cable shoe that is screwed to the connecting element of the electrical plug or socket.

The housing of the plug or socket can be made of rubber or polycarbonate.

The corners of the house can be chamfered.

The housing of the plug or the socket can be provided with an external registration number.

The slat contact used in the invention works as follows: instead of a tulip-shaped connector in the socket, a resilient plate is provided consisting of a Be-Cu alloy. A number of resilient protrusions (strips) are pressed into the plate, the whole is rolled up, then hardened and provided with a layer of silver. When the pins of the plug, for example provided on the aircraft, come into contact with this slat type connector, all the parallel strips are pressed flat and form a large contact with the current pins. The big advantage here is that these resilient plates (slats) can be replaced in their entirety and that the connectors are solid. Even when the current pins are not introduced axially, the spring cannot deform and no damage can be caused to the structure. This is not the case with the other products on the market. The contact surface has now become larger due to this slat contact invention.

A further drawback of the known plugs consists in that the housing of the known plugs and socket plugs has a substantially right angle at the free end, which can, for example, lead to damage to the plugs and socket plugs when sanding on the ground. At airports these plugs and sockets are sometimes treated fairly roughly, which can also lead to damage to the plugs.

Brief Description of the Figures:

FIG. 1 shows an example of a spring before it is rolled up and before it is inserted into the contact element of a contact plug.

FIG. 2 shows the longitudinal section of a contact element of a contact plug in which a slat is arranged

FIG. 3 shows the cross section of a contact element of a lamella contact plug and inside the contact element of a plug FIG. 4 shows an improved cable shoe.

The resilient plate (slat) shown in FIG. 1, consists of a rectangular piece of conductive material, preferably consisting of a strip (1) made of a copper / beryllium alloy. Punching removes a portion (2) of the material from the strip so that a number of lips (3) are formed. Each of those lips (3) is then rotated about its longitudinal axis (4) so that a strip is formed with a number of protruding parts (bulges) on both sides. The strip is then rolled into a ring about an axis that is parallel to the said longitudinal axis. The longitudinal edges of the spring shown in FIG. 1 are serrated which can effect an improved fixation in the tube of the contact plug. However, this cartel is optional;

The whole is then hardened and provided with a layer of silver and finally placed in the tube of the contact plug (Fig. 2). When a pin (25) of a plug is pushed into the tube (26) of the contact plug, the projecting parts of the spring (27) are compressed and a good electrical contact (for example due to large surface area) is created between the tube of the socket and the pin of the plug: see Fig. 3: the tube of the socket 36 the pin of the socket 35 and the spring 37.

Other embodiments of the spring are obvious to those skilled in the art. An additional advantage of using such a spring is its easy replacement. With other sockets, if the contact is poor, the entire socket must be replaced. The plugs and jacks according to the invention are relatively expensive because of the high current intensity, so that the recovery of damaged plugs and jacks is a major advantage. Moreover, the spring cannot deform when non-axially inserting the current pins.

When using a socket provided with a spring according to FIG. 1 and with large currents, the risk of sparking when the contact is broken is greatly reduced. This leads to a lower risk of fire. An advantage that should not be underestimated at airports, given the presence of volatile fuels.

The majority of connectors on the market are solidly melted or soldered to the cable (especially for military applications). This means that it is not possible to repair only the plug or the socket. In the case of the product which is the subject of the present patent application, on the other hand, the cable is screwed to the plug or socket by means of conical cable lugs (Figure 4). Herein 48 represents a tubular portion into which the conductor of the cable 49 can be slid and secured by, for example, crimping or soldering. The end of this tubular section ends, for example, at a conical section 50 which fits into a recess of the contact element of the plug or socket. This recess preferably also has a conical section that fits with the conical portion 50. The conical portion can be provided with a central axial opening with an inner thread. The cable shoe can then be fixedly connected to the corresponding contact element by means of a screw connection. The great advantage of this conical shape is a large contact surface between the cable and plug and a very firm adhesion.

The housing of the plug and / or the socket is preferably made of rubber or polycarbonate. The latter substance has a high resistance to oil and fuels, both substances used in aviation. Polycarbonate is also very resistant to high temperatures.

On the plug-in side, the corners of the housing of the plug and / or the socket are preferably chamfered. As a result, the damage that can occur when sanding the plug or the socket on the ground can be limited.

The housing of the plug can also be provided with an external license plate (eg a spherical disk, a + or - sign, etc.) that is both perceptible and visible. This way errors with regard to the desired polarity can be avoided.

Optionally, this plug can also be placed in series with a portable socket (male version). made from the same construction as described above. This application entails that pipes are not damaged with a large axial tensile force. The plug is only pulled out of its socket in case of excessive forces. However, the connection between aircraft and plug remains untouched.

The invention is not limited to the embodiments shown. Variations of the embodiments shown are obvious to the skilled person.

Claims (8)

Conclusions An electrical socket-plug suitable for transmitting large currents characterized by a contact surface which is provided with a high-powered plate. The electrical socket according to claim 1, wherein the resilient plate is provided with a plurality of resilient projections. 3. Electrical socket according to claim 1 or 2, wherein the resilient plate is easy to replace. The electrical socket according to claim 1 or 2 or 3, wherein the resilient plate is made from a Beryllium-Copper alloy. 5. Electrical plug or socket plug characterized by a conical cable shoe that is screwed to the connecting element of the electrical plug or socket. An electrical plug or socket according to any one of the preceding claims wherein the housing of the plug or socket is made of rubber or polycarbonate. 7. Electrical plug or socket according to one of the preceding claims, wherein the corners of the housing are chamfered. 8. Electrical plug or socket according to one of the preceding claims, wherein the housing of the plug or of the socket is provided with an external registration number.