1. Field of the Invention
The present invention relates to a socket for holding a base part of an electric lamp bulb.
2. Description of the Related Art
For example, PTL 1 discloses a structure of a socket having a frame body in a tubular shape into which a base part of an electric lamp bulb is inserted. In the frame body of this socket, a pair of terminal metal fittings which are electrically connected to the bulb, while clamping the base part of the bulb with pressure. The frame body of the socket is formed in a rectangular shape in conformity with the base part of the bulb. A pair of opposed side walls of this frame body are respectively provided with two slits extending from open ends of the side walls along an axial direction of the frame body. An arm piece for elastically supporting each of the terminal metal fittings is formed between these two slits. The terminal metal fitting has a folded part which is projected in a V-shape into the frame body.
In the above described structure, when the base part of the bulb is inserted into the frame body, convex parts which are respectively formed on opposed faces of the base part come into contact with the folded parts of the terminal metal fittings thereby to deform the folded parts. By further deeply inserting the convex parts, the folded parts which have been deformed press the arm pieces, and are spread outward together with the arm pieces, thereby allowing the convex parts to override the folded parts. As the convex parts are pushed in, the base part of the bulb is pressed with the terminal metal fittings from both sides, and the folded parts are positioned behind the convex parts. In this manner, the bulb is retained inside the frame body. According to this structure, when the base part is inserted into the frame body, the arm pieces are spread along with deformation of the terminal metal fittings. As the results, it is possible to prevent excessive deformation of the terminal metal fittings, and also to restrain permanent deformation of the terminal metal fittings.
By the way, a tolerance range of a projecting amount of the convex parts which are provided on the base part of the bulb is set to be larger as compared with a tolerance in size of the socket, for example. Therefore, in case where the bulb is designed in such a manner that a holding force (resistivity in an withdrawing direction) of the base part may satisfy prescription when the projecting amount of the convex parts is at a lower limit value of the tolerance, there is such anxiety that by inserting the base part where the projecting amount of the convex parts is at an upper limit value of the tolerance, the terminal metal fittings may be largely spread outward together with the arm pieces, and consequently, permanent deformation of the terminal metal fittings may occur. Moreover, there is such anxiety that due to the permanent deformation of the terminal metal fittings, the holding force of the bulb may be decreased, and electrical contact performance of the bulb may be deteriorated.
The invention provides a socket operable to prevent excessive deformation of terminal metal fittings, when a base part of an electric lamp bulb is inserted into a frame body of a socket.
An aspect of the invention provides a socket comprising: a tubular frame body into which a base part of an electric lamp bulb is to be inserted, the frame body in which a terminal metal fitting to be electrically connected with the base part is to be provided, the frame body having a side wall formed with two slits and formed with an arm piece between the slits, the arm piece which has a first face to be opposed to the terminal metal fitting and a second face opposite to the first face, the side wall formed with a butting face, when the arm piece is deformed outward of the frame body, a part of the second face of the arm piece is in contact with the butting face.
Each of the slits may have a step-like shape in a direction of thickness of the side wall.
The slits may be provided from an open end of the frame body.
One of the slits may be formed between the second face of the arm piece and the butting face.
The butting face may be formed at a distance from the arm piece by one of the slits.
According to an aspect of the invention, even though the terminal metal fitting is spread by the base part which is inserted into the frame body, and the arm piece is deformed outward, the back face of the arm piece comes into contact with the butting face, when the arm piece is deformed up to a predetermined position. In this manner, it is possible to prevent the terminal metal fitting and the arm piece from being excessively deformed. As the results, permanent deformation of the terminal metal fitting and breakdown of the arm piece due to the excessive deformation can be prevented, and hence, it is possible to restrain deterioration of the holding force of the bulb with respect to the socket.
According to an aspect of the invention, there is no necessity of providing a protuberance or the like on an outer peripheral face of the frame body for the purpose of forming a butting face on the frame body. As the results, the socket can be formed simple in shape, and freeness in designing the socket can be enhanced.
According to an aspect of the invention, it is possible to prevent the excessive deformation of the terminal metal fitting, when the base part of the bulb is inserted into the frame body.
Now, an embodiment of a lamp unit employing a socket according to the invention will be described referring to the drawings.
As shown in
As shown in
A connector part 21 into which a female connector can be inserted is provided at a bottom face side of the frame body 15, and a flange 23 is formed between the connector part 21 and the frame body 15. Moreover, a round-shaped body part 25 is provided between the flange 23 and the frame body 15, and a plurality of engaging projections 27 are provided on an outer peripheral face of the body part 25, at a predetermined interval in a circumferential direction. The engaging projections 27 are adapted to be engaged with predetermined fitting holes in cooperation with the flange 23.
Each of the terminal metal fittings 5a, 5b is formed by folding a plate formed of heat resistant copper alloy, and includes a fitting part 29, an electrode part 31, a movable contact part 33, and a connecting part 35 for connecting these parts. The fitting part 29 is inserted into a through hole (not shown) which is formed in the frame body 15 of the socket 7 thereby to support the terminal metal fitting 5 inside the frame body 15, and at the same time, a distal end of the fitting part 29 is protruded into the connector part 21 at a back side thereby to function as a male terminal. The electrode part 31 is extended from the connecting part 35 up to a position to be opposed to an electrically conductive part (a lead wire, for example) which is exposed from the base part 11 of the bulb 3, and formed by folding its distal end in a U-shape inward into the frame body 15. The movable contact part 33 is extended from the connecting part 35 to an opposite side to the fitting part 29, and formed by folding its distal end outward of the frame body 15.
The terminal metal fittings 5a, 5b having the above described structure are mounted to an inside of the frame body 15, by inserting the respective fitting parts 29 into the through holes in the frame body 15, and the movable contact parts 33 are positioned so as to be opposed to the corresponding arm pieces 19. On this occasion, the folded distal ends of the movable contact parts 33 are positioned at a predetermined distance from the arm pieces 19.
Now, a structure of the arm piece 19 in this embodiment will be described.
As shown in
The frame body 15 is provided with a butting face 37 which is formed by cutting out the frame body 15 in the direction of thickness, and the arm piece 19 has a back face 39 to be opposed to the butting face 37, at an opposite side to its face opposed to the terminal metal fitting 5 (the movable contact part 33). By cutting out each of the side walls of the frame body 15 in a step-like shape, the arm piece 19 and the butting face 37 are formed in each of the side walls. The butting face 37 and the back face 39 are arranged so as to be opposed to each other at a predetermined distance by way of the slits 17a, 17b. As the results, when the arm piece 19 is deformed outward of the frame body 15, a part of the back face 39 of the arm piece 19 comes into contact with the butting face 37.
Then, operation when the base part 11 of the bulb 3 is inserted into the frame body 15 will be described referring to
As shown in
Then, as shown in
Then, as shown in
On this occasion, as shown in
In this respect, according to the embodiment, when the arm piece 19 is pressed against the movable contact part 33 and deformed outward of the frame body 15 by a predetermined amount, as shown in
A distance between the back face 39 of the arm piece 19 and the butting face 37 of the frame body 15 can be appropriately determined considering relations among, for example, the amount of deformation of the movable contact part 33, presence or absence of the permanent deformation of the terminal metal fitting 5 including the movable contact part 33, and the prescribed value of the holding force of the base part 11. The distance can be set in such a manner that the back face 39 of the arm piece 19 may be butted against the butting face 37 of the frame body 15, at least before the permanent deformation of the movable contact part 33 occurs.
According to the structure of the socket 7 in this embodiment, it is possible to retrain the deformation of the arm piece 19 in addition to the deformation of the movable contact part 33. Therefore, even in case where the base part 11 of the bulb 3 is inserted diagonally with respect to an axis of the frame body 15, or even in case where the base part 11 comes into contact with the arm piece 19, the arm piece 19 will not be broken because of the excessive deformation. As the results, it is possible to prevent breakdown of the arm piece 19 when the bulb 3 is inserted, and workability can be enhanced.
Although the embodiment according to the invention has been heretofore described referring to the drawings, the embodiment shows the invention only by way of example, and the invention is not limited to the structure in the embodiment. It is apparent that the invention includes any modification in design within a scope not deviating from a gist of the invention.
For example, in this embodiment, the slits 17a, 17b are formed in a step-like shape in the direction of the thickness of the frame body 15, and the back face 39 of the arm piece 19 and the butting face 37 of the frame body 15 are arranged inside the frame body 15. However, it is also possible to arrange the back face of the arm piece 19 in flush with the outer peripheral face of the frame body 15. In this case, a protuberance may be formed so as to project from the outer peripheral face of the frame body 15 in a manner surrounding this back face, and a butting face may be provided inside the protuberance.
This embodiment can be applied mainly to a socket of a bulb which is mounted on a mobile unit such as an automobile, but not limited to this. It is also possible to apply the embodiment to structures for holding various types of bulbs.
Number | Date | Country | Kind |
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2011-174846 | Aug 2011 | JP | national |
This application is a continuation of PCT application No. PCT/JP2012/070871, which was filed on Aug. 10, 2012 based on Japanese Patent Application (No. 2011-174846) filed on Aug. 10, 2011, the contents of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/JP2012/070871 | Aug 2012 | US |
Child | 14174451 | US |