DE202004020204U1 - Plug-in structure for electronic cables attaches a power cable with a conductive core and an insulating layer surrounding the conductive core - Google Patents

Abstract

A power cable (a) has a conductive core and an insulating layer that surrounds the conductive core. There is a connection area, in which the conductive core is not insulated and not protected by the insulating layer. A plug connection (a1) links to the power cable in the connection area with a connecting through-hole.

Description

Field of the invention

The The present invention relates to a power cable having a Plug and in particular on a connection structure used is used to connect electrical elements to each other electrically through a power cable and to connect a plug, for the transmission of electricity.

background the invention

The Power supply is an essential factor affecting the operational stability and quality of a computer system certainly. In the course of technological development is the need on electronic elements (such as hard disks, processors, Burners or similar) with a need for high quality power supply also bigger. A unstable power supply results in poor quality of performance and leads to interrupt the computer system and the operation of the electronic Components. In important situations important data can be lost go, causing serious damage to lead can.

In addition to the quality of the electrical output, cabling with power cables to a power supply is also a problem that users often have to deal with. The 1 shows a conventional wiring a and a connector a1 (such as for SATA, AT / ATX connector), which are usually connected to each other horizontally. Once a plug a1 has been plugged into an electronic component, a cabling end for the power supply a is provided to the already existing length of the connecting cable a1. However, since today's computer systems have a limited internal space, the cables a and the plugs a1 take up too much space. Wiring the spare area of a cable thus becomes a problem. Ineffective cabling results in unwanted ventilation of heated air and thus results in degraded heat dissipation, which may also affect the operation of a computer. This results in a fundamental concern of the designers and manufacturers of computer cases. Because computer enclosures generally adopt a side connection design to alleviate the problem of a small gap between the electronic components and the power supply, the distribution of heat and cabling is compromised, and a hot swap for electronic devices is difficult to provide. However, if the length of the power cord a and the plug a1 become too large, the computer case must be redesigned (for example, to increase the overall width of the case), thereby increasing the design and manufacturing cost. This is not effective economically.

To avoid this problem, the in 2 chosen alternative, in which some manufacturers make a clamping cutting connection with the power cable b, as it is often used for example in telephone cables. The concept here is that a power cable b is connected to a connector b1 in a vertical manner. The wiring length required for the cable a1 can be saved, and the aforementioned problems are also avoided. However, in order to pierce the power cord b, the plug b1 must have sharp ends in the area of the terminal block b2 to penetrate through the insulating layer on the outside. The sharp end communicates with the conductive core of the power cord b in the form of a dotted or linear contact to make an electrical connection. However, because the electronic components require large amounts of power, the aforementioned type of connection tends to generate a spark. Furthermore, manufacturers and users often can not ensure that the electrical connection has been made sufficiently well by such a connection. This can lead to poor electrical transmission quality. Furthermore, the piercing of the power cord b and the conventional wiring a make them easy to pull out and plug in. Because of these drawbacks, the power cord b and the plug b1 are not currently widely used in computer systems.

Overview of the invention

A The essential objects of the present invention is that solve the disadvantages mentioned above. The present invention uses a vertical connection for a power cable and a plug to make a power connection. The power cable has an uninsulated conductive core exposed from the insulation layer to thereby provide a connection area over which a connection is made to a connector. The plug has a contact opening having a contact strip to over here with to make a flat contact with the bare conductive core, so that a secure electrical connection can be established and making the wiring with the power cables and with the corresponding Plugs becomes easier.

One Another object of the present invention is to provide power cables to provide that have a variety of cables or wires. Of the out of contact area of the power cord is in a flat cable form connected to simplify the wiring within the housing.

Yet Another object of the present invention is to provide a plug to provide a cap to cover the plug. The cap has two axle receptacles to engage with a clip element to be connected, which is pushing in and pulling out of the plug simplified.

The previously mentioned as well as additional Objects and features as well as advantages of the present invention become clearer from the following detailed description, the reference to the attached Drawings.

Short description the drawings

1 Fig. 10 is a schematic view of a conventional power cable that is in a connection state.

2 Figure 11 is a schematic view of another conventional cable having a cut connection with the cable.

3 Fig. 12 is a schematic view of the power cable of the present invention in a connection state.

4 Fig. 12 is a schematic view of the power cable and the plug of the present invention in a connected state.

5 Figure 11 is an exploded view of the power cable and plug of the present invention.

6 Fig. 10 is a sectional view of the power cable and the plug of the present invention in a connected state.

7 Figure 4 is a schematic view of the power cable and plug of the present invention in use.

detailed Description of the Preferred Embodiments

The 3 . 4 and 5 of the present invention include a power cable 10 , which consists of a plurality of wires or cables, each a conductive core 11 having, through an insulating layer 12 is surrounded. The power cable 10 has at least one connection region, in the region of which the conductive core 11 an area or a whole segment, which is uninsulated and without insulation 12 is open. The areas of the cable that are not making connections are thus together as power cables 10 connected to provide a ribbon cable, which simplifies bending and cable management. Each cable connection area of the power cable 10 is with a plug 20 connected, the connection breakthrough 21 has, in its execution the power cable 10 equivalent. The connection breakthrough 21 has a terminal block 22 on top of the uninsulated conductive core 11 corresponds so that a flush-fitting connection can be made in a vertical orientation. The plug 20 has a flap 23 on to the terminal strips 22 cover. The connection breakthrough 21 has a retention area 211 on that to an anchoring area 231 is formed corresponding, the latter on the cap 23 is formed so as to establish a clamping and anchoring connection with the plug. How out 7 becomes clear, assigns the cap 23 furthermore two axle shots 232 on which a handle element 233 rotatably mounted, which allows the insertion and removal of the plug 20 is relieved.

The 6 shows that the invention allows a flat surface contact to make an electrical connection between the conductive terminal block 22 and the plug 20 emerges, as well as the guiding core 11 of the power cable 10 and the terminal block 22 , Due to the flat-lying planar contact, a larger contact area is provided, and thus the electrical connections between the power cable 10 and the plug 20 much safer without sparking when a larger current flows through the cable. The conductive terminal block 22 has a bent conductive channel 221 and a major breakthrough 222 on that with the conducting channel 221 communicating and in contact with the surface of the conductive core 11 of the cable. The leading channel 221 has a width equal to or smaller than the diameter of the conductive cable 11 or which is elastic, leaving the conductive core 11 and the terminal block 22 can be in electrical contact without being interrupted. Furthermore, it follows 7 that once the power cable 10 and the plug 20 be used in a vertical manner, the handle 233 can be placed so that he does not have the flexible power cord 10 interferes with and can be positioned in parallel with the power cable 10 , so that no additional space is required. To insert or remove the plug is the handle 233 in his axle 232 turned into a position parallel to the plug 20 is, so the plug 20 can be pulled out or inserted without much effort.

The plug 20 according to the present invention is not limited to the SATA specification as shown in the drawings. It can also be designed to be used for AT / ATX electrical connections or for similar electrical transmissions supply claims. The use and assembly are usually similar, so details are not taught.

Also when the preferred embodiments of the present invention for the purpose of disclosure were to be so modifications of the disclosed embodiments The invention as well as other embodiments, for the on the field of expertise Those skilled in the art are to be covered by the invention. Accordingly, the attached serve claims to all the embodiments that is within the spirit of the invention and scope are located.

Claims (11)

An electronic power cable plug structure characterized by: a power cable ( 10 ) with a conductive core ( 11 ) and an insulating layer ( 12 ), which surrounds the conductive core, and wherein there is at least one connection region in which the conductive core ( 11 ) is uninsulated and lies unprotected by the insulating layer; and with at least one plug ( 20 ) connected to the power cable ( 10 ) is connected in the connection area, the connection breakthrough ( 21 ), which corresponds to the power cable, the connection opening has a contact strip ( 22 ), which is designed such that a plane-contacting contact with the uninsulated conductive core ( 11 ) arises. The electronic power cable plug structure according to claim 1, wherein the contact strip ( 22 ) electrically to the conductive core ( 11 ) is connected in a vertical orientation. The electronic power cable plug structure according to claim 1 or 2, wherein the power cable ( 10 ) has a plurality of wires. The electronic power cable plug structure after Claim 3, wherein the wires outside the connection area are connected in the form of a flat cable. The electronic power cable plug structure according to one or more of claims 1 to 4, wherein the plug ( 20 ), a cap ( 23 ) to the contact strips ( 22 ) cover. The electronic power cable plug structure according to one or more of claims 1 to 4, wherein the connection breakthrough ( 21 ) a hooking area ( 211 ) on two sides, with a hook area ( 231 ) on the cap ( 23 ) is formed, corresponds. The electronic power cable plug structure according to one or more of claims 1 to 6, wherein the cap ( 23 ) two axis shots ( 232 ), in which a clip element ( 233 ) is rotatably mounted. The electronic power cable plug structure according to one or more of claims 1 to 7, wherein the contact strip ( 22 ) a conductive channel ( 221 ) and a conductive breakdown-like end region ( 222 ) connected to the conductive channel ( 221 ) and the planar contact with the conductive core ( 11 ). The electronic power cable connector structure according to claim 8, wherein said conductive channel ( 221 ) has a width narrower than the diameter of the conductive core ( 11 ). The electronic power cable plug structure according to one or more of claims 1 to 9, wherein the plug ( 20 ) is an electrical connector that complies with the SATA specification. The electronic power cable plug structure according to one or more of claims 1 to 9, wherein the plug ( 20 ) is an electrical connector that complies with the AT / ATX specification.