Electronic device and method for detecting filter status

What is claimed is: 1 . A method for detecting filter status applicable to an electronic device having a filter, comprising: starting timing and obtaining an accumulated operating time in response to activation of the electronic device; detecting a level of dirtiness of the filter through an optical sensing element in response to the accumulated operating time being greater than or equal to a time threshold value; adjusting the time threshold value according to the level of dirtiness of the filter; and providing a notification related to the filter according to the level of dirtiness of the filter, wherein the step of adjusting the time threshold value according to the level of dirtiness of the filter comprises: maintaining the time threshold value at a first value in response to determining the level of dirtiness of the filter being a first level; and increasing the time threshold value from the first value to a second value according to a first weight corresponding to a second level in response to determining the level of dirtiness of the filter being the second level. 2 . The method for detecting the filter status according to claim 1 , wherein the step of increasing the time threshold value from the first value to the second value according to the first weight corresponding to the second level comprises: determining a time increase factor according to the first weight; and multiplying the first value by the time increase factor and obtaining the second value. 3 . The method for detecting the filter status according to claim 1 , wherein the step of adjusting the time threshold value according to the level of dirtiness of the filter further comprises: increasing the time threshold value from the first value to a third value according to a second weight corresponding to a third level in response to determining the level of dirtiness of the filter being the third level. 4 . The method for detecting the filter status according to claim 1 , wherein the step of providing the notification related to the filter according to the level of dirtiness of the filter comprises: providing the notification related to the filter in response to the accumulated operating time being greater than or equal to the time threshold value and determining the level of dirtiness of the filter being the first level. 5 . The method for detecting the filter status according to claim 1 , wherein the step of detecting the level of dirtiness of the filter through the optical sensing element comprises: emitting a light ray through a light emitter of the optical sensing element; sensing reflected light of the light ray and generating a sensing voltage through a light sensor of the optical sensing element; and determining the level of dirtiness of the filter according to the sensing voltage. 6 . The method for detecting the filter status according to claim 5 , wherein the light sensor comprises a photo transistor, and the sensing voltage is determined by the photo transistor operating in a linear region according to the reflected light. 7 . The method for detecting the filter status according to claim 1 , further comprising: regularly detecting the level of dirtiness of the filter every predetermined period of time through the optical sensing element; and setting the time threshold value equal to the accumulated operating time in response to determining the levels of dirtiness of the filter at a plurality of fixed time points all being a first level. 8 . The method for detecting the filter status according to claim 7 , wherein the step of providing the notification related to the filter according to the level of dirtiness of the filter comprises: providing the notification related to the filter in response to determining the levels of dirtiness of the filter at the fixed time points all being the first level. 9 . The method for detecting the filter status according to claim 1 , further comprising: resetting the accumulated operating time to a predetermined value in response to receiving a reset signal. 10 . An electronic device, comprising: a filter; an optical sensing element; a human-machine interface device; and a processor coupled to the optical sensing element and the human-machine interface device and configured to: start timing and obtain an accumulated operating time in response to activation of the electronic device, detect a level of dirtiness of the filter through an optical sensing element in response to the accumulated operating time being greater than or equal to a time threshold value, adjust the time threshold value according to the level of dirtiness of the filter, provide a notification related to the filter according to the level of dirtiness of the filter through the human-machine interface device, maintain the time threshold value at a first value in response to determining the level of dirtiness of the filter being a first level, and increase the time threshold value from the first value to a second value according to a first weight corresponding to a second level in response to determining the level of dirtiness of the filter being the second level. 11 . The electronic device according to claim 10 , wherein the processor is further configured to: determine a time increase factor according to the first weight, and multiply the first value by the time increase factor and obtain the second value. 12 . The electronic device according to claim 10 , wherein the processor is further configured to: increase the time threshold value from the first value to a third value according to a second weight corresponding to a third level in response to determining the level of dirtiness of the filter being the third level. 13 . The electronic device according to claim 10 , wherein the processor is further configured to: control the human-machine interface device to provide the notification related to the filter in response to the accumulated operating time being greater than or equal to the time threshold value and determining the level of dirtiness of the filter being the first level. 14 . The electronic device according to claim 10 , wherein the optical sensing element comprises a light emitter and a light sensor, and the processor is further configured to: control the light emitter to emit a light ray, control the light sensor to sense reflected light of the light ray and generate a sensing voltage, and determine the level of dirtiness of the filter according to the sensing voltage. 15 . The electronic device according to claim 14 , wherein the light sensor comprises a photo transistor, and the sensing voltage is determined by the photo transistor operating in a linear region according to the reflected light. 16 . The electronic device according to claim 10 , wherein the processor is further configured to: regularly detect the level of dirtiness of the filter every predetermined period of time through the optical sensing element, and set the time threshold value equal to the accumulated operating time in response to determining the levels of dirtiness of the filter at a plurality of fixed time points all being a first level. 17 . The electronic device according to claim 16 , wherein the processor is further configured to: control the human-machine interface device to provide the notification related to the filter in response to determining the levels of dirtiness of the filter at the fixed time points all being the first level. 18 . The electronic device according to claim 10 , wherein th