1. Field of the Invention
The present disclosure relates to the technical field of a lamp socket adapter.
2. Description of Related Art
Referring to
The conventional lamp electrical connection device has the drawbacks that since the electrical wire 31 is flexible, the lamp bulb is in a freely movable state when the lamp bulb is mounted on the electrical connector 30, and the position of the lamp bulb is easily shifted when an external force is applied thereon. The lamp bulb cannot be fixed, and is susceptible to being pulled, thereby resulting in a poor electrical connection. In addition, the electrical wire 31 occupies a larger volume after being stretched, and the usage amount of copper wire and insulating material is large.
In this regard, the present disclosure provides a lamp socket adapter to overcome the aforementioned drawbacks.
The object of the present disclosure is to provide a lamp socket adapter having an integral structure with an electrical connector and a main body of a lamp bulb, which is capable of fixing the lamp bulb, realizing electrical connection, saving material, and having a simple structure.
In order to achieve the object of the present disclosure, the lamp socket adapter includes a main body, a sleeve disposed outside of the main body, and a center electrode disposed at a rear end of the main body, in which a front end of the main body is provided with an insulating plug, the insulating plug has a through hole, the through hole is in air communication with a cavity of the main body, a first electrode sheet and a second electrode sheet each having a front end disposed in the through hole are arranged in the cavity, a rear end of the first electrode sheet is electrically connected to the center electrode, and a rear end of the second electrode sheet is electrically connected to the sleeve.
The outer surface of the main body is provided with a threaded conductive metal sleeve which can be made to fit various screw lamp caps so as to be mounted on the corresponding screw lamp socket. The front end of the main body is provided with an insulating plug so that when the lamp socket adapter is mounted on the lamp socket, the risk of electric shock caused by the human body being in contact with an end of the plug can be avoided. When the receptacle of the lamp bulb is connected to the insulating plug, the receptacle of the lamp bulb is sleeved on the insulating plug so that the lamp bulb is fixed. In addition, the corresponding electrode plug of the lamp bulb extends into the through hole and is in contact with the first electrode sheet and the second electrode sheet to realize the electrical connection. Therefore, the lamp bulb can be connected to the lamp socket adapter more tightly through the internal and external plug connection. In particular, the LED can be directly fixed onto the lamp socket adapter so that the installation and the replacement can be simpler.
For further understanding of the present disclosure, the following embodiments are provided along with illustrations to facilitate the disclosure of the present disclosure.
The aforementioned illustrations and following detailed descriptions are exemplary for the purpose of further explaining the scope of the instant disclosure. Other objectives and advantages related to the instant disclosure will be illustrated in the subsequent descriptions and appended drawings. In addition, for an easy instruction, similar reference numbers or symbols refer to elements alike.
Hereinafter, five specific embodiments of the lamp socket adapter according to the present disclosure will be described in more detail with reference to the accompanying drawings.
[First Embodiment]
Referring to
The main body 1 is made of plastic and has a hollow cavity 6 formed therein, thereby facilitating the manufacture of the main body 1 and saving material costs. The sleeve 2 is made of a conductive metal (i.e. copper), and the thread of the sleeve 2 is made to fit various lamp caps so as to be screwed with the corresponding lamp socket. The first electrode sheet 7 and the second electrode sheet 8 are stamped from copper sheets and have a certain elastic force. The first electrode sheet 7 and the second electrode sheet 8 are respectively fixed in the main body 1, the front ends thereof are respectively fixed in the corresponding through holes 5, and the rear ends thereof are respectively fixed to the center electrode 3 and the sleeve 2. Accordingly, the voltages of the live wire and the neutral wire are respectively conducted to the first electrode sheet 7 and the second electrode sheet 8 via the center electrode 3 and the sleeve 2. The usage amount of copper in the conductive structure of the present disclosure is particularly small, but the overall conductive cross-sectional area is particularly large. That is, the cross-sectional of the electrode sheet made of copper achieves the overcurrent that can withstand to the maximum extent practicable. In addition, the structure of the device is compact, and the insertion of the device is simple and convenient.
The main body 1 includes a rear base 13 and an end cap 14. The sleeve 2 is disposed on the rear base 13. The insulating plug 4 is disposed on the end cap 14. The rear base 13 has an engaging slot 15. The end cap 14 has a holding hook 16. The holding hook 16 is hooked into the engaging slot 15 so that the end cap 14 is engaged with the rear base 13. Each of the first electrode sheet 7 and the second electrode sheet 8 has a curved hook 23. A center rivet (11) and a barrel rivet (12) are respectively riveted on the main body 1. The curved hooks 23 of the two electrode sheets are respectively and elastically abutted against the insides of the center rivet 11 and the barrel rivet 12. When the rear base 13 and the end cap 14 are engaged together, the first electrode sheet 7 and the second electrode sheet 8 are appropriately bent in the cavity 6 of the main body 1 so that the rear ends thereof are respectively and elastically abutted against the center electrode 3 and the sleeve 2 to realize electrical connection.
Referring to
The insulating plug 4 has a notch 10 capable of receiving the conductor (i.e. electrode) of the receptacle. The arrangement of the notch 10 allows the conductor of the receptacle to insert into the square-shaped through holes 5 from the side edge of the insulating plug 4 and to contact the first electrode sheet 7 and the second electrode sheet 8 to realize electrical connection.
[Second Embodiment]
Referring to
The rear base 13 is provided with two barrel rivets 12 riveted on the rear end of the sleeve 2. The sleeve 2 and the second electrode sheet 8 are riveted on the rear end of the rear base 13 via one of the barrel rivets 12. The barrel rivets 12 not only can fix the second electrode sheet 8 to the main body 1, but also can allow the barrel rivets 12 to be electrically connected to the second electrode sheet 8. Moreover, the electrical connection realized in this way can withstand higher current than that realized by welding or plugging can.
[Third Embodiment]
Referring to
The barrel rivet 12 is disposed on the rear end of the second electrode sheet 8. The barrel rivet 12 is a C-shaped tubular structure formed by bending a portion of the second electrode sheet and is integrated with the second electrode sheet. Similar to the center rivet 11 described above, the barrel rivet 12 is also stamped from a copper strip. More specifically, the barrel rivet 12 is formed by folding a segment of the rear end of the copper strip; crimping the segment upward to form a tubular body; inserting the tubular body into the corresponding riveting hole of the main body 1; and electrically connecting the barrel rivet 12 to the second electrode sheet 8 after riveting. The tubular body not only has the riveting function that allows the first electrode sheet 7 and the second electrode sheet 8 to be fixed to the main body 1, but also realizes the direct electrical connection so that the electrical contact point on the electrical connection path can be omitted. Accordingly, the electrical connection realized in this way is more reliable than riveting of individual rivets and electrode sheets is.
The assembling steps include: riveting the first electrode sheet 7 and the second electrode sheet 8 to the sleeve 2 and the center electrode 3 disposed on the rear base 13, respectively; inserting the first electrode sheet 7 and the second electrode sheet 8 into the through holes 5 of the insulating plugs 4, respectively; and engaging the end cap 14 with the rear base 13.
[Fourth Embodiment]
Referring to
The rear end of the sleeve 2 has a surrounding surface 21. The insulating ring 20 is clamped and fixed to the inner side of the surrounding surface 21. The center electrode 3 is a self-tapping screw screwed into the center hole 22. The insulating ring 20 is an injection molded plastic member on the surrounding surface 21 of the sleeve 2, and has insulating properties and a certain plasticity. When the self-tapping screw is screwed into the circular center hole 22, the rear end of the first electrode sheet 7 becomes curve-shaped and is clamped and fixed to the wall of the circular center hole 22. Moreover, the self-tapping screw enables the wall of the circular center hole 22 to be formed with the corresponding threads so that the center electrode 3 can be securely fixed to the main body 1 and is not easily loosened while the first electrode sheet 7 can be electrically connected to the center electrode 3.
[Fifth Embodiment]
Referring to
In view of the above, the lamp socket adapter of the present disclosure omits the electrical wire in the prior art. Therefore, the material costs can be greatly saved, and the structure of the lamp socket adapter can be made more compact. Moreover, the lamp socket adapter of the present disclosure facilitates the fixing, mounting and replacement of a lamp bulb, and makes the electrical connection more secure and reliable. In particular, a LED bulb, due to its light weight characteristic, can be directly installed, plugged and fixed to the lamp socket adapter, and is not easily loosened.
The descriptions illustrated supra set fifth simply the preferred embodiments of the present disclosure; however, the characteristics of the present disclosure are by no means restricted thereto. All changes, alterations, or modifications conveniently considered by those skilled in the art are deemed to be encompassed within the scope of the present disclosure delineated by the following claims.
Number | Date | Country | Kind |
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201621215287.0 | Nov 2016 | CN | national |
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Number | Date | Country | |
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Parent | 15688947 | Aug 2017 | US |
Child | 16453207 | US |