Patent Application
20220216020
This application claims the priority benefit of Taiwan application serial No. 110200154, filed on Jan. 7, 2021. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of the specification.
The disclosure relates to a knob module, and in particular, to an electronic device and a knob module thereof.
With the development of technologies, users have increasingly high requirements for human interface device (HID). Compared with a key switch, a knob switch provides a user with more diverse operation manners and is especially advantageous in multi-option selection operations.
However, limited by a dial structure, a conventional knob switch cannot provide a light emitting function, resulting in inconvenient use in dim places.
The disclosure provides a knob module for an electronic device. The knob module includes a circuit board, a rotary encoder, a light guide structure, a plurality of light emitting units, and a rotation cover. The rotary encoder is disposed on the circuit board. The light guide structure is disposed on the circuit board. The light guide structure includes a light guide ring and an annular light guide wall.
The light guide ring surrounds the rotary encoder. The annular light guide wall extends downward from the light guide ring to abut against the circuit board. The plurality of light emitting units is disposed on the circuit board and located between the annular light guide wall and the rotary encoder for emitting light toward the annular light guide wall. The rotation cover is disposed on the rotary encoder.
The disclosure further provides an electronic device. The electronic device includes a working area, a keyboard module, a touchpad, and a knob module. The keyboard module and the touchpad are disposed on the working area. The knob module is disposed on the working area and is located between the keyboard module and the touchpad. The knob module includes a circuit board, a rotary encoder, a light guide structure, a plurality of light emitting units, and a rotation cover.
The rotary encoder is disposed on the circuit board. The light guide structure is disposed on the circuit board. The light guide structure includes a light guide ring and an annular light guide wall. The light guide ring surrounds the rotary encoder. The annular light guide wall extends downward from the light guide ring to abut against the circuit board. The plurality of light emitting units is disposed on the circuit board and located between the annular light guide wall and the rotary encoder for emitting light toward the annular light guide wall. The rotation cover is disposed on the rotary encoder.
By the knob module of the disclosure, light emitting elements (that is, the light guide structure and the light emitting units) are integrated into a knob in a limited space. In one aspect, a light emitting function is provided, thereby avoid the inconvenient use of a knob in dim places. In another aspect, the advantage of a small size of the knob module is beneficial to the integration of the knob module into a portable electronic device.
More detailed descriptions of the specific embodiments of the disclosure are provided below with reference to the accompanying drawings. The features and advantages of the disclosure are described more clearly according to the following description and claims. It is to be noted that all of the drawings are in very simplified forms and imprecise proportions, and is used only for assisting in conveniently and clearly explaining the objective of the embodiments of the disclosure.
The disclosure relates to a knob module. The knob module is configured to an electronic device. The electronic device is a desktop computer, a notebook computer, a screen, an external input device, a smartphone, a handheld game console, or the electronic products that alternatively controlled by a knob.
As shown in the figures, the knob module 100 includes a circuit board 110, a rotary encoder 120, a light guide structure 140, a plurality of light emitting units 160, and a rotation cover 180.
The rotary encoder 120 is disposed on the circuit board 110. In an embodiment, the rotary encoder 120 is a rotary encoder 120 including a pressing switch. That is, the rotary encoder 120 not only detects a rotation signal applied to the rotary encoder 120, but also detects a pressing signal applied to the rotary encoder 120 and is able to function as a switch.
The light guide structure 140 is disposed on the circuit board 110. The light guide structure 140 includes a light guide ring 142 and an annular light guide wall 144. The light guide ring 142 surrounds the rotary encoder 120. The annular light guide wall 144 extends downward from the light guide ring 142 to abut against the circuit board 110. In an embodiment, an outer side surface of the annular light guide wall 144 is flush with an outer side surface of the light guide ring 142, and an annular space A1 is defined between the light guide ring 142 and the annular light guide wall 144, to accommodate the light emitting units 160.
In an embodiment, as shown in the figures, the light guide structure 140 further includes a plurality of fixing columns 146. These fixing columns 146 are located on an outer side of the light guide ring 142 and are connected to the light guide ring 142, for positioning the light guide ring 142 above the light emitting units 160.
In an embodiment, as shown in the figures, upper edges of these fixing columns 146 slightly protrude from an upper surface of the light guide ring 142. In an embodiment, these fixing columns 146 are fixed on the circuit board 110 through clamping, locking, or the like, so that the light guide structure 140 is fixed on the circuit board 110.
The plurality of light emitting units 160 is disposed on the circuit board 110 and is disposed around the rotary encoder 120. These light emitting units 160 are disposed between the annular light guide wall 144 and the rotary encoder 120, and emit light toward the annular light guide wall 144. In an embodiment, these light emitting units 160 are in the annular space A1 defined by the light guide ring 142 and the annular light guide wall 144.
In an embodiment, these light emitting units 160 are symmetrically distributed around the rotary encoder 120, or arranged around the rotary encoder 120 at fixed intervals, to ensure the uniformity of illumination generated by the light guide ring 142. In an embodiment, to improve the uniformity of light emitted upward from the light guide ring 142, a light diffusion agent is added to the light guide structure 140. In an embodiment, to improve the uniformity of light emitted upward from the light guide ring 142, a rough surface is formed on a surface 144a of the annular light guide wall 144 facing the light emitting units 160.
The rotation cover 180 is disposed on the rotary encoder 120 for a user to operate. In an embodiment, an inner side of the rotation cover 180 includes a support member 182. The support member 182 is sleeved on a control member 122 of the rotary encoder 120.
In an embodiment, as shown in the figures, the light guide ring 142 further includes at least one fixing member 148, to fix a housing (not shown) on the light guide structure 140. The housing is a casing of an electronic device.
In an embodiment, the rotary encoder 120 is a rotary encoder including a pressing switch. The control member 122 is not only for rotating to generate a rotation signal, but also for pressing to generate a pressing signal. In an embodiment, a minimum height (that is, a height when the rotary encoder 120 is pressed to the limit) of the rotary encoder 120 is greater than a height of the light guide structure 140, so as to prevent the rotation cover 180 from colliding with the light guide structure 140 and ensure a pressing stroke of the rotary encoder 120.
In an embodiment, a diameter of the rotation cover 180 is greater than an inner diameter of the light guide ring 142 and less than an outer diameter of the light guide ring 142, so as to ensure that uniform annular light generated by the light emitting units 160 through the light guide ring 142 is projected outward from an outer edge of the rotation cover 180 to provide illumination. In an embodiment, the rotation cover 180 is made of a transparent material to improve the overall luminous brightness.
In an embodiment, the circuit board 110 includes a connector 112 to facilitate the installation and integration of an electronic system. The connector 112 is electrically connected to the rotary encoder 120 for transmitting a signal generated by the rotary encoder 120 to outside. However, the disclosure is not limited thereto. In an embodiment, the knob module 100 is alternatively integrated on a circuit board of another input device such as a circuit board of a keyboard module.
As shown in the figure, an electronic device 10 includes a main unit 12 and a screen 14. The main unit 12 includes a working area 12a. The working area 12a is a main operation region for the user to operate the electronic device 10.
To meet use requirements, a keyboard module 20, a touchpad 30, and the knob module 100 of the disclosure are disposed on the working area 12a of the electronic device 10. The keyboard module 20 is a mechanical keyboard, an electronic keyboard, or a virtual keyboard. The touchpad 30 is a capacitive touchpad, a resistive touchpad, or an optical touchpad.
In an embodiment, as shown in the figure, the knob module 100 is located between the keyboard module 20 and the touchpad 30, which is convenient for the user to operate. In another embodiment, the knob module 100 is located on a left side of the touchpad 30.
By the knob module 100 of the disclosure, the light guide structure and the light emitting units are integrated into a knob in a limited space. In one aspect, a light emitting function is provided, thereby avoids the inconvenient use of a knob in dim places. In another aspect, the advantage of a small size of the knob module is beneficial to the integration of the knob module into a portable electronic device.
The above is merely exemplary embodiments of the disclosure, and does not constitute any limitation on the disclosure. Any form of equivalent replacements or modifications to the technical means and technical content provided in the disclosure made by a person skilled in the art without departing from the scope of the technical means of the disclosure still fall within the content of the technical means of the disclosure and the protection scope of the disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 110200154 | Jan 2021 | TW | national |
