The present invention may be used in the electrical power industry, electronics industry, electrical industry and especially the industrial control industry.
Prior art electrical connector wiring is generally screw connection or pull-back spring connection. Screw connection has an advantage of reliability but disadvantages of large space occupation, slow wiring, low efficiency, and occasional screw looseness or failure. Pull-back spring connection has advantages of small space occupation and fast wiring but disadvantage of needing special tools for wire disconnection.
An object of the present invention is to avoid the above-mentioned existing deficiencies and to provide a novel electrical connector. The present invention features high connection density, ease of wiring connection, high efficiency, being shock-resistant, loosening-proof and reliable, while meeting the IEC 60603-2 standard. The present invention may be used in several combined applications based on actual needs.
Technical Scheme of the Present Invention
An electrical connector, comprising a connector main body and screws, wherein:
the connector main body including a housing, a multi-socket wire connection structure, a multi-socket plug-in connection structure, a multi-socket wire disconnection structure and a screw mounting structure;
the wire connection structure, the plug-in connection structure and the wire disconnection structure are arranged in the housing, wherein the wire connection structure and the wire disconnection structure are mounted in a front opening of the housing, the wire connection structure and the wire disconnection structure for a same socket are arranged adjacent to the outside of a same belleville spring, and the wire connection structure has an opening for receiving an accessed conductor, which is jammed by spring force of the belleville spring; the wire disconnection structure is arranged as a button; the belleville spring is jacked by pressing the wire disconnection structure so as to release the conductor connected to the wire connection structure;
the plug-in connection structure consists of a spring clip, which forms an opening located behind the housing; the spring clip of the plug-in connection structure and the belleville spring at one side of the wire connection structure are integrated for a same socket; the spring clip of the plug-in connection structure has a guide and rounded accessible structure facilitating to plug-in and plug-out; the plug-in connection structure is used for plugging of pins of terminals into the electrical connector;
the screw mounting structure is arranged at both ends of the housing, and has a screw hole matching the screws; the screw mounting structure may either be integrated with the housing, or be made as an independent part mounted onto the housing.
The housing of the connector main body is generally made of non-metallic materials such as plastic. This makes it have such advantages as good processing performance, mechanical performance, and electrical insulation performance. The wire connection structure generally made of metal materials is used for accessing conductors and is like a belleville spring structure. The wire connection structure may or may not be subjected to heat treatment and surface treatment depending on material selection, service conditions, etc. The plug-in connection structure is generally made of metal materials, and the plug-in connection structure and the wire connection structure are electrically conductive for a same socket. In order to reduce complexity and cost of the electrical connector, the plug-in connection structure is usually integrated with the wire connection structure as one part and mounted within the housing of the connector main body.
The set screws are generally made of metal materials. They may or may not be subjected to heat treatment and surface treatment depending on material selection, service conditions, etc.
The specific use may be flexible and variable according to needs.
The present invention features high connection density, ease of wiring connection, and high efficiency, while being shock-resistant, loosening-proof and reliable, and meeting the IEC 60603-2 standard.
The technical scheme of the present invention is now further described in detail in combination with the drawings.
As shown in
The screw mounting structure 7 is a plate part protruding from the main body 1. Screw holes matching with the set screws 2 and 3 are provided on the plate part. The set screws 2 and 3 that can pass through the screw holes fix the electrical connector at a desired position. The screw mounting structure 7 may either be integrated with the housing 4, or be made as an independent part to be mounted on the housing 4.
As shown in
Two elastic contact chips forming a spring clip are used in the plug-in connection structure 8. The elastic contact chips are arc-shaped, and they may be tightly pressed at one point under their own elastic force. The spring clip forms an opening located behind the housing 4. The plug-in connection structure 8 has a guide and rounded accessible structure facilitating to plug-in and unplug, so that it is easy to plug in and unplug the pins of other terminals.
The wire disconnection structure 6 is generally made of non-metallic materials such as plastic. The wire connection structure 5 is generally made of metal material and it may or may not be subjected to heat treatment and surface treatment depending on material selection, service conditions, etc. The plug-in connection structure 8 is generally made of metal materials, and the plug-in connection structure 5 and the wire connection structure 8 are electrically conductive for a same socket. In order to reduce complexity and cost of the electrical connector, the plug-in connection structure is usually integrated with the wire connection structure 5 as one part and mounted within the housing 4 of the connector main body 1. The minimum wiring spacing between the wire connection structure 5 and the plug-in connection structure 8 is 5.08 mm.
During wiring, solid conductors or stranded conductors with cold cable lugs are directly inserted into the holes of the wire connection structure 5. Since the conductors are jammed by the spring force of the belleville spring and the conductors are under the influence of the sharp corner of the fracture of the belleville spring, the inserted conductors will not fall off by itself, and they only can be pulled down with certain a pulling force. When disconnecting the conductors, it is only required to use a slotted screwdriver to slightly press the wire disconnection structure 6, which then jacks the belleville spring to release the conductors so that the conductors can be disconnected easily.
As shown in
In
As shown in
There are several kinds of specific use, including:
1. As shown in
2. As shown in
3. As shown in
The use of the electrical connector according to the present invention may be flexible and variable as per demands.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2014/090303 | 11/5/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/035962 | 3/19/2015 | WO | A |
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