The present invention relates to a rotary switch, particularly to an architecture effectively connecting a rotary switch and a casing.
As to the conventional rotary switches, R.O.C Patent Publication No. 252616 discloses an “improved rotary switch structure”, wherein a rotary axle is installed inside a casing; the upper end of the rotary axle is pressed to engage with an operational knob; an electrically-conductive element is also pressed to engage with the rotary axle at an appropriate position near the lower end thereof; the lower end of the rotary axle is also engaged with a disc, which can be fixed to the casing with screws; a common terminal and multiple contact terminals are installed at appropriate positions of the disc; two protrusions of the electrically-conductive element can respectively contact the common terminal and one of the contact terminals. When such a rotary switch is used to control the rotation speed of an electric fan, a power wire is connected to the common terminal, and the wires for controlling different rotation speeds (such as low, middle, and high speeds) are respectively connected to those contact terminals of the disc. The user rotates the operational knob, and the operational knob drives the rotary axle to actuate the protrusions of the electrically-conductive element to respectively contact the common terminal and one of the contact terminals of the disc. Thus, the electric fan is turned on, and the rotation speed thereof is also determined. However, the abovementioned rotary switch has the following disadvantages:
Therefore, the conventional rotary switch still has much room to improve.
The primary objective of the present invention is to utilize a snap-fit method to connect a rotary switch and a casing so that the casing can be securely engaged with the rotary switch lest the gap and abrasion influence the driving of the rotary switch and so that the problems of the conventional rotary switch can be effectively solved.
To achieve the abovementioned objective, the present invention comprises a rotary switch, and the rotary switch further comprises a base and a rotary disc that is engaged with the base and can rotate with respect to the base. An accommodation space is formed between the rotary disc and the base for a signal module. The signal module outputs instructions corresponding to the rotation track of the rotary disc. A casing is disposed above the rotary switch and engaged with the rotary disc. The casing has multiple snap-fit parts corresponding to snap-fit slots of the rotary disc to form a snap-fit interconnection therebetween. When the casing is rotated, the casing will actuate the rotary switch to rotate via the interconnection between the snap-fit parts and the snap-fit slots. Thereby, the rotated casing can drive the rotary disc to rotate synchronically and create signals. As the casing is engaged with the rotary disc via a snap-fit method, the assemblage structure of the rotary switch and the casing is secured, and the casing is hard to deviate or loosen, and thus, correct instructions will be exactly output.
The technical contents of the present invention are to be described in detail in cooperation with the drawings below. Refer to
Summarily to speak, in the present invention, a casing 30 is installed above the rotary disc 10, and the casing 30 has a through-hole 32 corresponding to the rotary disc 10; multiple snap-fit parts 31 are disposed around the perimeter of the through-hole 32, and the snap-fit parts 31 can be snap-fitted to the snap-fit slots 13 of the rotary disc 10. Thereby, when the user rotates the casing 30, the casing 30 can firmly drive the rotary disc 10 to rotate synchronically, and the signal module 2 can generate a corresponding signal. As the casing 30 is engaged with the rotary disc 10 via a snap-fit method, the casing 30 is hard to deviate or loosen, and the ineffectual rotation or wrong instructions can be effectively avoided.
The present invention has been clarified via the preferred embodiments described above; however, it is not intended to limit the scope of the present invention; any equivalent modification and variation according to the spirit of the present invention is to be also included within the scope of the present invention. As the technical characteristics of the present invention have not been published before, the present invention undoubtfully possesses novelty. Further, in view of those stated above, the present invention also really possesses utility and non-obviousness. Thus, the present invention meets the requirements for applying a patent. Therefore, the inventors file the patent application of the present invention. It will be greatly appreciated by the inventors that the patent of the present invention can be rapidly approved and licensed.