This invention relates to electrical circuit protection, and in particular, it relates to a power plug with leakage current detection interrupter (LCDI).
A power plug with LCDI includes a plug head containing the circuit interrupter, where the electrical cord of the power plug is physically joined to the plug head and electrically connected to the circuit interrupter. In conventional power plugs with LCDI, the conductor wires of the cord at the tail end are typically connected to the plug head by soldering or by crimping using screws. These methods are time consuming to assemble.
To address the above problem, embodiments of the present invention provide a power plug with LCDI, which includes: a shell; a plurality of input insertion prongs, partially exposed to an exterior of the shell; a movement assembly disposed in the shell and coupled to the plurality of input insertion prongs; a male end assembly disposed in the shell; a female end assembly disposed in the shell; and a plurality of output conductors; wherein a first end of the male end assembly is connected to the movement assembly and electrically coupled to the plurality of input insertion prongs via the movement assembly, a second end of the male end assembly is inserted into a first end of the female end assembly, a second end of the female end assembly is electrically coupled to the plurality of output conductors, and the movement assembly is configured to establish or cut off an electrical connection between the plurality of input insertion prongs and the plurality of output conductors.
In some embodiments, the power plug further includes a connector disposed in the shell, the connector including affixing components to affix the female end assembly.
In some embodiments, the affixing components include a plurality of holding notches on the connector.
In some embodiments, the affixing components include a plurality of clamps on the connector.
In some embodiments, the plurality of input insertion prongs include a first insertion prong and a second insertion prong, the male end assembly includes a first male terminal and a second male terminal, the female end assembly includes a first female terminal and a second female terminal, and the plurality of output conductors include a first output conductor and a second output conductor, wherein the first insertion prong and the second insertion prong are respectively coupled to a first end of the first male terminal and a first end of the second male terminal via the movement assembly, a second end of the first male terminal and a second end of the second male terminal are respectively coupled to a first end of the first female terminal and a first end of the second female terminal, and a second end of the first female terminal and a second end of the second female terminal are respectively coupled to the first output conductor and the second output conductor.
In some embodiments, the plurality of input insertion prongs further include a third insertion prong, the male end assembly further includes a third male terminal, the female end assembly further includes a third female terminal, and the plurality of output conductors further include a third output conductor, wherein the third insertion prong is coupled to a first end of the third male terminal via the movement assembly, a second end of the third male terminal is coupled to a first end of the third female terminal, and a second end of the third female terminal is coupled to the third output conductor.
In some embodiments, the plurality of output conductors further include a first shield conductor, the male end assembly further includes a fourth male terminal, and the female end assembly further includes a fourth female terminal, wherein a second end of the fourth male terminal is coupled to a first end of the fourth female terminal, and a second end of the fourth female terminal is coupled to the first shield conductor.
In some embodiments, the shell includes a lower shell portion and an upper shell portion.
In some embodiments, the upper shell portion includes a first upper shell portion and a second upper shell portion.
In some embodiments, the power plug further includes a reset switch or a test switch or both a reset switch and a test switch, coupled to the movement assembly.
In the power plug according to embodiments of the present invention, the output conductors are connected to the internal components of the plug head using an insertion-type connection, which improves efficiency of assembly of the power plug.
Preferred embodiments of the present invention are described with reference to the drawings. These drawings serve to explain the embodiments and their operating principle, and only illustrate structures that are necessary to the understanding of the principles of the invention. These drawings are not necessarily to scale. In the drawings, like features are designated by like reference symbols.
Preferred embodiments of the present invention are described below with reference to the drawings. These drawings and descriptions explain embodiments of the invention but do not limit the invention. The described embodiments are not all possible embodiments of the present invention. Other embodiments are possible without departing from the spirit and scope of the invention, and the structure and/or logic of the illustrated embodiments may be modified. Thus, it is intended that the scope of the invention is defined by the appended claims.
In the descriptions below, terms such as “including” are intended to be open-ended and mean “including without limitation”, and can include other contents. “Based on” means “at least partly based on.” “An embodiment” means “at least one embodiment.” “Another embodiment” means “at least another embodiment,” etc.
It should be further understood that when describing the various components, directional terms such as “up,” “down,” “top,” “bottom” etc. are not absolute but are relative. These terms are consistent with the view in
Embodiments of the present invention provide a power plug with LCDI, which includes a shell, a plurality of input insertion prongs, a movement assembly, a male end assembly, a female end assembly, and a plurality of output conductors. The plurality of input insertion prongs are partially exposed to an exterior of the shell, and are coupled to the movement assembly. The movement assembly is disposed in the shell, and both the male end assembly and the female end assembly are disposed in the shell. A first end of the male end assembly is connected to the movement assembly and electrically coupled to the plurality of input insertion prongs via the movement assembly, and a second end of the male end assembly is inserted into a first end of the female end assembly. A second end of the female end assembly is electrically coupled to the plurality of output conductors. The movement assembly is configured to establish or cut off an electrical connection between the plurality of input insertion prongs and the plurality of output conductors.
The power plug according to embodiments of the present invention is described in more detail below with reference to the drawings.
In the following descriptions, directional terms such as front, rear, left, right, up, down, front end, rear end, left end, right end, upper portion, lower portion, left side, right side, longitudinal, transverse, etc. are relative terms with reference to the orientation of
Referring to
The male end assembly 108 includes first to fifth male terminals 108a to 108e. As shown in
The output conductor bundle 112 of the cord include a hot (L) conductor 112a (the first output conductor), a neutral (N) conductor 112b (the second output conductor), a ground (G) conductor 112c (the third output conductor), a shield conductor 112d (the first shield conductor), and another shield conductor 112e (the second shield conductor). The movement assembly 106 includes control elements, such that the movement assembly 106 is configured to control the electrical connection between the input insertion prongs 104 and the output conductor bundle 112.
It should be understood that in alternative embodiments, the first upper shell portion 102b and second upper shell portion 102c may be formed integrally to form an upper shell portion. In other alternative embodiments, the output conductor bundle 112 may include only one shield conductor, i.e. only one of the first and second shield conductors 112d and 112e, or include three or more shield conductors.
As shown in
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As shown in
The assembly process of the LCDI power plug 100 includes:
(1) The input insertion prongs 104 and male end assembly 108 are mounted on the movement assembly 106.
(2) The movement assembly 106 is placed in a receiving cavity 1032 of the lower shell portion 102a.
(3) The conductors of the output conductor bundle 112 are respectively connected to the conductors of the female end assembly 110.
(4) The output conductor bundle 112 and female end assembly 110, which have been connected together, are affixed to the connector 116.
(5) The male end assembly 108 is inserted into the female end assembly 110, and the connector 116 is placed in another receiving cavity 1036 of the lower shell portion 102a.
(6) The cable strain relief 114 is placed around the output conductor bundle 112.
(7) An auxiliary shell portion 1024b (see
(8) The first upper shell portion 102b is placed above the lower shell portion 102a to cover the movement assembly 106, with the input insertion prongs 104 extending out of the first upper shell portion 102b through the corresponding holes.
(9) The second upper shell portion 102c is placed above the lower shell portion 102a to cover the connector 116.
(10) The first upper shell portion 102b and second upper shell portion 102c are affixed to the lower shell portion 102a by screws.
It should be noted that in alternative embodiments, the auxiliary shell portion 1024b may be omitted.
As shown in
It should be understood that while in the illustrated embodiments, the input insertion prongs include three insertion prongs, in alternative embodiments the input insertion prongs group may include only two insertion prongs (i.e. the insertion prong is omitted); correspondingly, the male end assembly may include only four male terminals, two of which being coupled to the shield lines. In further alternative embodiments, the male end assembly may only include two male terminals, and does not include male terminals for coupling to the shield lines. In these alternative embodiments, the female end assembly may be modified accordingly. In other alternative embodiments, the group of input insertion prongs may include three or more (any number) insertion prongs.
In LCDI power plugs according to embodiments of the present invention, the output power lines and their internal components are connected together using insertion-type connection, which improves efficiency of assembly of the LCDI power plug.
While the present invention is described above using specific examples, these examples are only illustrative and do not limit the scope of the invention. It will be apparent to those skilled in the art that various modifications, additions and deletions can be made to the LCDI power plug of the present invention without departing from the spirit or scope of the invention.
Number | Date | Country | Kind |
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202122205079.X | Sep 2021 | CN | national |
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Number | Date | Country | |
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20230082601 A1 | Mar 2023 | US |