Patent Application
20200368885
The technical field relates to a socket, in particular, to a fastening socket.
It has been found that plugs inserted into conventional socket are prone to disengage therefrom under external forces applied thereon. To prevent the disengagement of the plugs, a fastening device is further installed. Nevertheless, the currently existing fastening devices are of complicated structures, such that the manufacturing costs thereof are high.
To overcome the aforementioned drawback, the present invention provides a fastening socket of simple structure and low manufacturing cost.
In an exemplary embodiment of the present invention, a fastening socket comprises a socket main body having a first insertion hole formed thereon, the first insertion hole configured to match with a plug; a securement base installed inside the socket main body, and having a second insertion hole formed thereon; the second insertion hole configured to match with the first insertion hole; an insertion bracket secured inside the securement base and configured to match with the second insertion hole; a fastening seat rotatably installed on the securement base and having a side surface formed with a fastening surface; the fastening surface configured to press the insertion bracket onto the plug firmly; and a rotational handle secured onto the fastening seat and configured to locate at a surface of the socket main body.
Through the use of the aforementioned exemplary technical solution, after inserting the plug and rotating the rotational handle, the rotational handle drives the fastening seat to rotate, and the fastening surface of the fastening seat presses the insertion bracket firmly onto the plug. Accordingly, it is able to achieve the fastening of plug in order to prevent the plug from disengagement with the socket under the effect of external force applied thereon.
The fastening of plug is achieved by rotating the fastening seat, such that a device of simple structure, facilitated use and low manufacturing cost is provided.
Preferably, the fastening surface of the fastening seat comprises a fastening protrusion, and the fastening protrusion is configured to press onto the insertion bracket firmly.
Preferably, the side surface of the fastening seat further comprises a restricting surface, and the restricting surface is used to restrict a rotational position of the fastening seat.
With the use of the aforementioned exemplary technical solution, the restricting surface is able to restrict the rotational position of the rotational handle in order to allow the rotational handle to correspond with the position label marked on the surface of the socket main body.
Preferably, the insertion bracket comprises an insertion bracket seat secured onto the securement base; a fixed clamp arranged at one end of the insertion bracket seat; a movable clamp arranged at one end of the insertion bracket seat, the fixed clamp and movable clamp arranged opposite from each other, and the movable clamp arranged at one side of the fastening surface.
Through the use of the aforementioned exemplary technical solution, the plug is inserted between fixed clamp and the moveable clamp such that it is able to ensure a reliable contact of the plug.
Preferably, the moveable clamp comprises two clamps, and a gap is formed between the two moveable clamps.
Through the use of the aforementioned exemplary technical solution, the two moveable clamps press firmly onto the plug respectively, and the two moveable clamps are able to ensure the firm press onto the plug in comparison to the use of only one movable clamp; therefore, it is able to prevent the failure of the moveable clamp in achieving a firm press onto the plug.
Preferably, an outer side surface of the moveable clamp and the fixed clamp respectively comprises a reinforced protrusion having an elongated shape; the reinforced protrusion is arranged along a length direction of the moveable clamp and the fixed clamp.
Through the use of the aforementioned exemplary technical solution, the reinforced protrusion is able to increase the strength of the moveable clamp and the fixed clamp in order to prevent any permanent bending of the movable clamp and the fixed clamp that may cause failure in the fastening of the plug.
Preferably, the fastening seat is made of a Polycarbonate and glass fiber material.
Through the use of the aforementioned exemplary technical solution, a Polycarbonate and glass fiber mixed material is able to effectively ensure the strength and wear resistance of the device in order to prolong its useful lifetime.
Preferably, the device further comprises a sealing ring secured inside a sealing slot of the fastening seat.
Through the use of the aforementioned exemplary technical solution, the sealing ring is able to prevent water from entering the internal of the fastening socket.
Preferably, the socket main body comprises removal auxiliary rods arranged at a rear end of the socket and located at two sides of the socket respectively.
Through the use of the aforementioned exemplary technical solution, the removal auxiliary rods are able to facilitate the gripping to remove the plug from the socket.
Preferably, the socket main body comprises three first insertion holes arranged in a delta shape, a rear portion of each of two sides of the first insertion holes comprises an arched slot corresponding to the removal auxiliary rod.
Through the use of the aforementioned exemplary technical solution, the multiple number of insertion holes increases the utilization rate of the socket and facilitates the use thereof.
In comparison to the existing technology, the present invention has the following beneficial effects.
The present invention provides a fastening socket that is of simple structure, facilitated use, reliable fastening and prolonged useful lifetime.
The following provides a detailed technical content of the present invention along with the accompanied drawings.
Through the rotation of a fastening seat 3, the present invention is able to provide a fastening socket that is able to press a plug firmly with simple structure, facilitated use and low manufacturing cost.
Please refer to
After the plug is inserted into the socket, the rotational handle 6 is rotated, and the rotational handle 6 then drives the fastening seat 3 to rotate. The fastening surface 31 of the fastening seat 3 is able to press the insertion bracket 4 onto the plug firmly in order to achieve the fastening of the plug, thereby preventing the plug from disengagement under the effect of external force applied thereon.
Specifically, as shown in
As shown in
A side surface of the fastening seat 3 further comprises a restricting surface 33. The restricting surface 33 is used for restricting a rotational position of the fastening seat 3. When the fastening seat 3 rotates inside the rotating slot 21 of the securement base 2, the restricting surface 33 and the side surface of the rotating slot 21 are able to contact with each other to stop the rotation in order to restrict the rotational position of the rotational handle 6, thereby allowing the rotational handle 6 to correspond to the position label marked on the surface of the socket main body 1.
A bottom of the fastening seat 3 comprises a rotating axle 34. The rotating axle 34 is rotatably installed inside the socket main body 1.
The fastening seat 3 further comprises a sealing slot 35. The sealing slot 35 includes a sealing ring 7 installed at an internal thereof, and the sealing ring 7 is located inside the rotating hole 22. The sealing ring 7 is able to prevent water from entering the internal of the fastening socket in order to protect the socket and occurrence of short-circuit.
The fastening seat 3 is made of Polycarbonate and glass fiber material. A Polycarbonate and glass fiber mixed material is able to effectively ensure the strength and wear resistance of the device as well as to prolong its useful lifetime.
As shown in
The plug is inserted between the fixed clamp 42 and the moveable clamp 43 in order to effectively ensure a reliable contact with the socket.
The moveable clamp 43 can be configured to include two clamps, and a gap is formed between the two moveable clamps 43.
The two moveable clamps 43 respectively press onto the plug firmly. The use of two moveable clamps 43 is able to effectively ensure the firm press onto the plug in comparison to only one moveable clamp 43 only, such that it is able to prevent the moveable clamps 43 from failing to press onto the plug firmly.
An outer side of the moveable clamp 43 and the fixed clamp 42 comprises a reinforced protrusion 44 having an elongated shape formed thereon respectively. The reinforced protrusion 44 is arranged along a length direction of the moveable clamp 43 and the fixed clamp 42.
The reinforced protrusion 44 is able to increase the strength of the moveable clamp 43 and the fixed clamp 42 in order to prevent any permeable bending of the moveable clamp 43 and the fixed clamp 42 that may cause failure in the fastening of the plug.
As shown in
The socket main body 1 comprises three first insertion holes 13, and the first insertion holes are arranged in a delta shape. A rear portion of two sides of the first insertion holes 13 respectively comprises an arched slot 12, and the arched slots 12 are formed to correspond with the removal auxiliary rods 11. The arched slots 12 are provided to facilitate the gripping of the socket main body 1 during the insertion of the plug. The multiple number of insertion holes increases the utilization rate of the socket and facilitates the use thereof.
