The present invention relates generally to a wire plug-in aid sleeve structure for wire connection terminal, and more particularly to an aid sleeve mounted in a wire plug-in hole of the terminal to guide a conductive wire and help in fixing the conductive wire.
A conventional terminal device or wire pressing terminal has an insulation case (generally made of plastic material), a metal component (or so-called electrical conductive component) and a leaf spring conductor (or so-called metal leaf spring). The metal component and the leaf spring conductor are enclosed in the insulation case to press and electrically connect with or release a conductive wire plugged in the terminal device.
Such electrical terminal device can be generally classified into three types. The first type of electrical terminal device is inserted on a circuit board.
The second type of electrical terminal device is latched with a grounding rail (or conductive rail) in a row to set up a common grounding device of an electrical apparatus or mechanical equipment for conducting out the residual voltage or static of the machine.
Such electrical terminal device (or rail-type electrical connection terminal) generally includes an insulation case having a wire plug-in hole for the conductive wire to plug into the interior of the case. The case defines a chamber in which a conductive support (or conductive component) and metal leaf spring. The metal leaf spring and the conductive component serve to press the conductive wire plugged into the case and contact or electrically connect with the conductive wire. Unless an operator uses a tool to extend into the case and push/press the metal leaf spring, the conductive wire cannot be released from the electrical connection or contact with the metal leaf spring and the conductive component. A switch wire connection device is a power switch component for connecting with a circuit and. The switch wire connection device is installed on the operation panel or distributor box of an electronic or an electrical apparatus for connecting with the wiring circuit.
The third type of electrical terminal device is the switch wire connection device including a junction box or contact case (generally made of plastic material), a conductive component and a metal leaf spring (or a screw). The conductive component and the metal leaf spring are mounted in the junction box to press a wiring circuit or a conductive wire of an electronic or electrical apparatus. By means of operating a pushbutton of the switch, the conductive component and the metal leaf spring are controlled to electrically connect with or disconnect from the wiring circuit or the conductive wire so as to power on or power off the circuit.
In order to permit different diameters of conductive wires to plug into the terminal, the diameter of the wire plug-in hole of the terminal must be considerably larger than the diameter of the conductive wire to facilitate the operation. The assembling structure of the conventional wire connection terminal or device has some shortcomings in structural form and operation application as follows:
In order to improve the shortcoming of the conventional wire connection terminal that dust, water or moisture is apt to enter and accumulate in the terminal, a conventional conic guide sleeve structure is provided to guide the conductive wire to plug into the terminal. The rear end of the guide sleeve is relatively tightly fitted with the conductive wire so as to prevent the dust, water or moisture from entering the terminal.
However, as well known by those who are skilled in this field, when the guide sleeve guides the conductive wire to the central axis of the guide sleeve, the metal leaf spring will press the conductive wire and linearly contact the conductive wire. Therefore, the electro-conductive area or electro-conductive performance can be hardly enhanced. Moreover, when the metal leaf spring presses the conductive wire, the metal leaf spring will press the conductive wire in a direction to the conductive component. At this time, the conic guide sleeve will be deformed to affect the dustproof, waterproof or moisture-proof effect. This is not what we expect.
To speak representatively, the above reveals some shortcomings existing in the conventional wire connection terminal or device in assembling structure design and application. In case the structure and assembling form of the metal leaf spring (or the conductive component) and the wire plug-in hole of the terminal and the guide sleeve are redesigned to be different from the conventional wire connection terminal, the use form of the wire connection terminal can be changed to practically widen the application range thereof.
For example, in the condition that the structure will not be deformed due to operation as the conventional terminal, a guide sleeve or an aid sleeve structure is provided to guide the conductive wire and help in fixing the conductive wire so as to truly prevent the dust, water or moisture from entering and accumulating in the terminal. Moreover, the electro-conductive contact area between the metal leaf spring (or the conductive component) of the terminal and the conductive wire is increased. Also, the structural form is changed to improve the shortcoming of the conventional terminal that an operator needs to additionally use a tool to push away the metal leaf spring and the operation is troublesome and time-costing. Furthermore, the aid sleeve eliminates the problem of the conventional terminal that the conductive wire is apt to deflect or swing due to incautious touch of an operator to lead to poor contact and insecurity.
It is therefore a primary object of the present invention to provide a wire plug-in aid sleeve structure for wire connection terminal, which provides dustproof and waterproof effects and is able to enhance the security of the conductive wire assembled with the terminal. The aid sleeve is assembled in a wire plug-in hole of the terminal. The aid sleeve includes a head section, a belly section connected with the head section and a tail section connected with the belly section. The head section, the belly section and the tail section together define a guide hole for the conductive wire to plug in. The tail section has a first side and a second side positioned on a peripheral section of the guide hole and two lateral sides connected with the first and second sides. After the conductive wire passes through the guide hole into the terminal, the metal leaf spring (and/or the conductive component) disposed in the terminal is facilitated to press the conductive wire toward the first side or the second side. This improves the shortcomings of the conventional terminal that the conductive wire is apt to deflect and swing and the contact is insecure to affect the electro-conductive efficiency and safety.
In the above wire plug-in aid sleeve structure for wire connection terminal, the first side and the second side of the tail section are notched, whereby the lateral sides of the tail section are formed as wing structures on two sides of the notches for restricting the plug-in direction of the conductive wire.
In the above wire plug-in aid sleeve structure for wire connection terminal, the wing structures (or positions) of the two lateral sides of the tail section are parallel to the moving path of the metal leaf spring, while the first side and the second side are normal to the moving path of the metal leaf spring. In a preferred embodiment, the position where the guide hole adjoins the first side or the second side has the form of a straight line (or plane face). This facilitates the metal leaf spring to press the conductive wire to the first side or the second side and flatten the conductive wire, whereby the conductive wire can linearly contact (or face contact) the metal leaf spring so as to enhance the effect and electro-conductive performance of the conductive wire. Also, the deflection or swing of the conductive wire due to collision of external force or assembling operation is as minimized as possible.
The present invention can be best understood through the following description and accompanying drawings, wherein:
Please refer to
As shown in the drawings, the aid sleeve 100 includes at least one head section 10, a belly section 20 connected with the head section 10 and a tail section 30 connected with the belly section 20. In this embodiment, the head section 10 of the aid sleeve 100 is connected with two cylindrical belly sections 20 and two tail sections 30 corresponding to the structural form of the terminal 90 that has two wire plug-in holes 91 on each side.
As shown in
As shown in
In this embodiment, the tail section 30 has a first side 31 and a second side 32 positioned on a peripheral section of the guide hole 40 and two lateral sides 33 connected with the first and second sides 31, 32. The first side 31 and/or the second side 32 of the tail section 30 are notched, whereby the lateral sides 33 of the tail section 30 are formed as wing structures on two sides of the notches for restricting the plug-in direction of the conductive wire 80 (or the core 81 of the conductive wire 80).
As shown in
It should be noted that the wing structures (or positions) of the two lateral sides 33 are parallel to the moving path of the metal leaf spring 70, while the first side 31 and/or the second side 32 are normal to the moving path of the metal leaf spring 70. In a preferred embodiment, the position where the guide hole 40 adjoins the first side 31 has the form of a straight line (or plane face). This facilitates the metal leaf spring 70 to press the conductive wire 80 (or the core 81) to the first side 31 and flatten the core 81 of the conductive wire 80, whereby the conductive wire 80 can linearly contact (or face contact) the metal leaf spring 70 so as to enhance the effect and electro-conductive performance of the conductive wire 80. Also, the deflection or swing of the conductive wire 80 due to collision of external force or assembling operation is as minimized as possible. This improves the shortcoming of the conventional terminal that the conductive wire is apt to deflect or swing and the contact is insecure to affect the electro-conductive efficiency and safety.
Please now refer to
The phantom lines of the drawing show that a conductive wire 80 with larger diameter frictionally interferes with the rib sections 41 (or the rib sections 41 press the conductive wire 80). In this case, the conductive wire 80 with larger diameter is prevented from rotating or swinging.
It should be noted that the rib sections 41 of the guide hole 40 of the aid sleeve 100 enable the aid sleeve 100 or the guide hole 40 to assemble with or fix different diameters and specifications of conductive wires 80. Accordingly, the aid sleeve 100 can be commonly applied to different diameters and specifications of conductive wires 80 to widen the application range of the aid sleeve 100.
Please now refer to
To speak representatively, in comparison with the conventional terminal device, the wire plug-in aid sleeve structure for wire connection terminal of the present invention has the following advantages:
In conclusion, the wire plug-in aid sleeve structure for wire connection terminal of the present invention is different from the conventional terminal device in space form and is advantageous over the conventional terminal device. The wire plug-in aid sleeve structure for wire connection terminal of the present invention is greatly advanced and inventive.
The above embodiments are only used to illustrate the present invention, not intended to limit the scope thereof. Many modifications of the above embodiments can be made without departing from the spirit of the present invention.
Number | Date | Country | Kind |
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106206955 | May 2017 | TW | national |