GB2457016A

GB2457016A - Fairy light

Info

Publication number: GB2457016A
Application number: GB0801571A
Authority: GB
Inventors: Wei-Jen Tseng
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-01-29
Filing date: 2008-01-29
Publication date: 2009-08-05
Also published as: GB0801571D0

Abstract

A fairy light has a tubular casing 10, a connector 20 mounted in a wire mount 12 of the casing, a socket 30 in a light mount 11 of the casing, and a light-emitting diode (LED) 40, in the socket 30. The connector 20 has two wings 22 that engages a terminal mount 33 of the socket 30 and two resilient tabs 222 formed on the wings that engage the wire mount 12 of the casing. Latches 14,32 on the casing and socket can ensure that the socket 30 is securely mounted Therefore, the socket 30 and the connector 20 are securely mounted in the casing and the fairy light will not easily disassemble. Respective positive and negative contact plates 52,53 are mounted on wires 40,51; are held in respective slots 221a, 221b of the connector 20; make contact with LED leads 41; and may have a protruding contact (fig 5,521,531).

Description

1 2457016

FAIRY LIGHT

1. Field of the Invention

The present invention relates to a fairy light, especially to a fairy light with improved casing.

2. Description of Related Art

A fairy light has a light source and a lens and is generally connected in series to form a fairly light assembly. The traditional light source is an incandescent bulb. The lens covers the light source and may be colored for aesthetic effects. Light-emitting diodes (LEDs) have advantages including improved electrical efficiency and being more reliable than the incandescent bulb and are replacing the incandescent bulb in many applications.

With reference to Figs. 7 and 8, a conventional fairy light (60) comprises a casing (61), a socket (62), an LED (63), a lens (64), two wires (65) and a connector (66). The casing (61) is tubular and has a light mount and a wire mount. The socket (62) is mounted in the light mount of the casing (61) and has an LED seat (621), a terminal mount (622) and two through holes. The LED seat (621) has a bottom and a top. The terminal mount (622) is formed on the bottom of the LED seat (621). The through holes are formed respectively through the LED seat (621) and the terminal mount (622). The LED (63) is mounted in the top of the LED seat (621) and has two terminals (631). The terminals (631) are mounted respectively through the through holes of the socket (62) and are bent to abut the terminal mount (622) of the socket (62). The lens (64) is mounted on the top of the LED seat (621) of the socket (62) and around the LED (63). The wires (65) are mounted into the wire mount of the casing (61) and electrically connect

S

respectively with the terminals (631) of the LED (63). The connector (66) is mounted in the wire mount of the casing (61), between the wires (65) to prevent the wires (65) from disconnecting from the casing (61) or short-circuiting between one another.

However, the socket (62) is mounted in the casing (61) with a frictional force between the socket (62) and casing (61). Therefore, the socket (62) and the casing (61) must be manufactured to similar sizes to ensure they are securely mounted together. Further, the wires (65) need the connector (66) mounted therebetween to tightly abut the casing (61), or the wires may disconnect.

Therefore, the socket (62), the wires (65) and the connector (66) may disassemble from the casing (61) easily and cause failure of the conventional fairy light (60), such disconnection is a fire risk and is generally terminal failure for the fairy light assembly that thereafter requires entire replacement.

To overcome the shortcomings, the present invention provides a fairy light to mitigate or obviate the aforementioned problems.

The main objective of the present invention is to provide a fairy light that has a casing, a connector mounted in an wire mount of the casing, a socket mounted in an light mount of the casing, a light- emitting diode (LED) mounted in a top of the socket and a connector mounted in the wire mount of the casing.

The connector has two wings and two resilient tabs formed on the wings and engaging the wire mount of the casing. Therefore, the connector, the socket and the connector mounted securely in the casing.

Furthermore, each of the casing and the socket has a latch corresponding to and selectively latching with each other. Therefore, elements of the fairy light are securely mounted in the casing and will not disassemble easily.

Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

IN TFIE DRAWINGS: Fig. 1 is a top perspective view of a first embodiment of a fairy light in accordance with the present invention; Fig. 2 is an exploded top perspective view of the fairy light in Fig. 1; Fig. 3 is an exploded bottom perspective view of the fairy light in Fig. 1; Fig. 4 is a side view in partial section of the fairy light in Fig. 1; Fig. 5 is an exploded bottom perspective view of a second embodiment of a fairy light in accordance with the present invention; Fig. 6 is a side view in partial section of the fairy light in Fig. 5; Fig. 7 is a perspective view of a fairy light in accordance with the prior art; and Fig. 8 is a side view in partial section of the fairy light in Fig. 7.

With reference to Figs. 1, 2 and 5, a fairy light in accordance with the present invention comprises a casing (10), a connector (20), a socket (30, 30'), a light-emitting diode (LED) (40, 40') and a wire set (50, 50').

With further reference to Fig. 3, the casing (10) is tubular and has two ends, an outer surface, a light mount (11), a wire mount (12) and an optional latch (14). The light mount (11) is formed in one end of the casing (10), is circular arid may be keyed. The wire mount (12) is formed in the other end of the casing (10), communicates with the light mount (11), may be smaller than the light mount (11), has a bottom edge, an inner surface and may comprise two tab recesses (121). The tab recesses (121) are formed on the inner surface of the wire mount (12). The latch (14) is formed on the outer surface of the casing (10) adjacent to the light mount (11).

The connector (20) is mounted securely in the wire mount (12) of the casing (10) and has two opposite wing surfaces, two opposite mounting surfaces, two wings (22), two resilient tabs (222) and may have two wire recesses (211).

The wings (22) are respectively formed on and protrude from the wing surfaces of the connector (20). Each wing (22) has an inner surface, two opposite edges, an outer surface, a bottom edge and two grooves (221 a, 221 b). The inner surface is flat. The edges may be a negative edge and a positive edge. The negative edge of the wing (22) corresponds to the negative edge of the other wing (22). The positive edge of the wing (22) may be shorter than the negative edge and corresponds to the positive edge of the other wing (22). The grooves (221 a, 221 b) are formed respectively in the inner surface of the wing (22) near the two edges.

The resilient tabs (222) are formed respectively on the outer surfaces of the wings (22) adjacent to the bottom edge, engage the wire mount (12) of the casing (10), may correspond to and abut the bottom edge of the casing (10) and may correspond to and be mounted respectively in the tab recesses (121) of the casing (10) to allow the connector (20) to be mounted securely in the casing (10).

The wire recesses (211) are formed respectively in the mounting surfaces of the connector (20).

The socket (30, 30') is mounted securely in the light mount (11) of the casing (10) and has an LED seat (31, 31'), an optional latch (32) and a terminal mount (33, 33').

The LED seat (31, 31') is tubular, corresponds to and is mounted in the light mount (11) and may be keyed to hold the socket (30, 30') securely in the casing (10) and has a bottom, an outer edge and an outer wall. The LED seat (31') may have two terminal holes (312'). The terminal holes (312') are separately formed through the bottom of the LED seat (31').

The latch (32) of the socket (30, 30') is formed on the outer wall of the LED seat (31, 31') near the outer edge and corresponds to and selectively engages the latch (14) of the casing (10) to ensure the socket (30) is held securely in the casing (10).

The terminal mount (33, 33') is formed on and protrudes from the inner surface of the LED seat (31, 31'), corresponds to and is mounted between the wings (22) of the connector (20) and has two opposite wing surfaces and two opposite terminal surfaces. The terminal mount (33) may be tubular and communicates with the LED seat (31). The wing surfaces correspond to the inner surfaces of the wings (22). The terminal surfaces may align with the terminal holes (312') of the LED seat (31') and may be a positive surface and a negative surface. The positive surface corresponds to the positive edges of the wings (22) of the connector (20). The negative surface corresponds to the negative edges of the wings (22) of the connector (20).

With further reference to Figs 4 and 6, the LED (40, 40') is mounted in the outer edge of the LED seat (31, 31') and has two terminals (41, 41', 42,42').

The terminals (41, 41', 42, 42') are mounted respectively through the socket (30, 30') and may be a positive terminal (41, 41) and a negative terminal (42, 42').

The positive terminal (41, 41') corresponds to the positive surface of the terminal mount (33, 33'). The negative terminal (42, 42) corresponds to the negative surfaces of the terminal mount (33, 33').

The terminals (41, 42) may be mounted through the terminal mount (33), and are bent to respectively abut the terminal surfaces of the terminal mount (33).

The terminals (41', 42') may be mounted respectively through the terminal holes (312') of the LED seat (31') and respectively abut the surfaces of the terminal mount (33'). Each terminal (41', 42') has a protrusion (411', 412').

The protrusion (411', 412') abuts the bottom of the LED seat (31') to hold the LED (40') in the LED seat (31').

The wire set (50, 50') is mounted in the wire mount (12) of the casing (10) and between the wings (22) of the connector (20), is connected electrically to the terminals (41,41', 42,42') of the LED (40, 40') and has two wires (51) and two contact plates (52, 52', 53, 53').

The wires (51) are mounted between the wings (22) of the connector (20) respectively adjacent to the mounting surfaces of the connector (20) and may be mounted respectively in the wire recesses (211) of the connector (20). Each wire (51) has an end.

The contact plates (52, 52', 53, 53') are securely mounted respectively on the ends of the wires (51) and in the grooves (221 a, 221 b) between the wings (22) of the connector (20), are connected electrically to the terminals (41,41', 42, 42') of the LED (40, 40') and may be a negative contact plate (52, 52') and a positive contact plate (53, 53'). Each contact plate (52', 53') has an inner surface and may have a protruding contact (521', 531'). The negative contact plate(52, 52') is mounted in the grooves (221 a) of the wings (22) adjacent to the negative edges of the connector (20) and is connected electrically to the negative terminal (42, 42') of the LED (40, 40'). The positive contact plate (53, 53') is mounted in the grooves (22 ib) of the wings (22) adjacent to the positive edges of the connector (20) and is connected electrically to the positive terminal (41, 41') of the LED (40,40'). The protruding contact (521', 531') is formed on the inner surface of the contact plates (52', 53') and presses against the terminal (42', 41') of the LED (40') in the LED seat (31').

The fairy light as described has the following advantages. With the latches (14, 32) of the casing (10) and the socket (30, 30') latching each other and the contact plates (52, 52', 53, 53') of the wire set (50, 50') being mounted in the grooves (22 Ia, 221b) between the wings (22) of the connector (20), elements of the fairy light are securely mounted in the casing (10) and will not disassemble easily. Furthermore, each LED seat (31, 31') is easily removable and replaceable and since each terminal (41, 41', 42, 42') of the LED (40, 40') corresponds to a specific contact plate (52, 52', 53, 53') and cannot be inserted incorrectly so ensuring correct and safe operation.

Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and features of the invention, the disclosure is illustrative only.

Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.

Claims

CLAIMS: 1. A fairy light comprising a casing (10) being tubular and having two ends; an outer surface; a light mount (11) being formed in one end of the casing (10) and being circular; and a wire mount (12) being formed in the other end of the casing (10) and communicating with the light mount (11) and having a bottom edge; and an inner surface; a connector (20) being mounted securely in the wire mount (12) of the casing (10) and having two opposite wing surfaces; two opposite mounting surfaces; two wings (22) being respectively formed on and protruding from the wing surfaces of the connector (20) and each wing (22) having an inner surface being flat; two opposite edges; an outer surface; a bottom edge; two grooves (221a, 221b) being formed respectively in the inner surface of the wing (22) near the two edges; and two resilient tabs (222) being formed respectively on the outer surface of the wings (22) adjacent to the bottom edge and engaging the wire mount (12) of the casing (10); a socket (30, 30') being mounted securely in the light mount (11) of the casing (10) and having a light-emitting diode (LED) seat (31, 31') being tubular, corresponding to and being mounted in the light mount (11) and having a bottom; an outer edge; and an outer wall; and a terminal mount (33, 33') being formed on and protruding from the inner surface of the LED seat (31, 31'), corresponding to and being mounted between the wings (22) of the connector (20) and having two opposite wing surfaces corresponding to the inner surfaces of the wings (22); and two opposite terminal surfaces; an LED (40, 40') being mounted in the outer edge of the LED seat (31, 31') and having two terminals (41,41', 42, 42') being mounted respectively through the socket (30, 30'); and a wire set (50, 50') being mounted in the wire mount (12) of the casing (10) and between the wings (22) of the connector (20), being connected electrically to the terminals (41, 41', 42, 42') of the LED (40,40') and having two wires (51) being mounted between the wings (22) of the connector (20) respectively adjacent to the mounting surfaces of the connector (20) and each wire (51) has an end; and two contact plates (52, 52', 53, 53') being securely mounted respectively on the ends of the wires (51) and in the grooves (221 a, 221 b) between the wings (22) of the connector (20), being connected electrically to the terminals (41,41', 42,42') of the LED (40, 40') and each contact plate (52, 52', 53, 53') having an inner surface.
2. The fairy light as claimed in claim 1, wherein the terminal mount (33) of the socket (30) is tubular and communicates with the LED seat (31); and the terminals (41, 42) of the LED (40) are mounted through the terminal mount (33) and being bent to respectively abut the terminal surfaces of the terminal mount (33).
3. The fairy light as claimed in claim 1, wherein the LED seat (31') of the socket (30') further has two terminal holes (312') being separately formed through the bottom of the LED seat (31'); the terminal surfaces of the terminal mount (33') align with the terminal holes (312') of the LED seat (31'); the terminals (41', 42') of the LED (40') are mounted respectively through the terminal holes (312') of the LED seat (31'), respectively abut the surfaces of the terminal mount (33') and each terminal (41', 42')has a protrusion (411', 412') abutting the bottom of the LED seat (31'); and each contact plate (52', 53') has a protruding contact (521', 531') being formed on the inner surface of the contact plates (52', 53') and pressing against the terminal (41', 42') of the LED (40') in the LED seat (31').
4. The fairy light as claimed in claim 1, 2 or 3, wherein the casing (10) further has a latch (14) being formed on the outer surface of the casing (10) adjacent to the light mount (11); and the socket (30, 30') further has a latch (32) being formed on the outer wall of the LED seat (31, 31') near the outer edge and corresponding to and selectively engaging the latch (14) of the casing (10).
5. The fairy light as claimed in claim 4, wherein the edges of each wing (22) of the connector (20) are a negative edge corresponding to the negative edge of the other wing (22); and a positive edge corresponding to the positive edge of the other wing (22); the surfaces of the terminal mount (33, 33') are a positive surface corresponding to the positive edges of the wings (22) of the connector (20); and a negative surface corresponding to the negative edges of the wings (22) of the connector (20); the terminals (41, 41', 42, 42') of the LED (40, 40') are a positive terminal (41, 41') corresponding to the positive surface of the terminal mount (33, 33'); and a negative terminal (42, 42') corresponding to the negative surfaces of the terminal mount (33, 33'); and the contact plates (52, 52', 53, 53') of the wire set (50, 50') are a negative contact (52, 52') plate being mounted in the grooves (22 Ia) of the wings (22) adjacent to the negative edges of the connector (20) and being connected electrically to the negative terminal (42, 42') of the LED (40, 40'); and a positive contact plate (53, 53') being mounted in the grooves (221b) of the wings (22) adjacent to the positive edges of the connector (20) and being connected electrically to the positive terminal (41, 41') of the LED (40, 40').
6. The fairy light as claimed in claim 5, wherein the light mount (11) is keyed; and the LED seat (31, 31') of the socket (30, 30') further is keyed.
7. The fairy light as claimed in claim 6, wherein the connector (20) further has two wire recesses (211) being formed respectively in the mounting surfaces of the connector (20); and the wires (51) of the connector (20) are mounted respectively in the wire recesses (211) of the connector (20).
8. The fairy light as claimed in claim 7, wherein the wire mount (12) of the casing (10) further comprises two tab recesses (121) being formed on the inner surface of the wire mount (12); and the resilient tabs (222) of the wings (22) correspond to and are mounted respectively in the tab recesses (121) of the casing (10).
9. The fairy light as claimed in claim 1, wherein the resilient tabs (222) correspond to and abut the bottom edge of the casing (10).
10. The fairy light as claimed in claim 1, wherein the wire mount (12) is smaller than the light mount (11).