Patent Application
20150348724
1. Technical Field
The application relates to a key assembly, and more particularly to an electronic device using the key assembly.
2. Description of Related Art
Recent years, technology products mostly set mobility and functionality as their main goal. Accordingly, portable electronic devices such as smart phones, tablet PCs and notebook PCs, etc. have become the mainstream products in the market of electronic devices.
In general, a portable electronic device is usually equipped with a key on the housing thereof, and a switch component corresponding to the key is disposed in the housing. The key and the switch component are coupled to each other, such that a user may control the switch component by pressing the key, so as to control switch such as power, Bluetooth or wireless network switch, or control function such as volume adjusting, images recording or display pages scrolling up and down, etc. In general, the housing of the portable electronic device has to be equipped with the corresponding opening to dispose the switch component for convenience in use. However, an overall size of the conventional switch component is rather large, and in order to let the switch component be contained in the abovementioned opening or let a part of switch component pass through the abovementioned opening, the size of the abovementioned opening cannot be effectively reduced. Accordingly, dust and moisture may easily enter the electronic device through the gap between the switch component and abovementioned opening, so as to affect the function of the electronic device, and even shorten the life span of the electronic device. Moreover, it is hard to meet the requirements in miniature design for portable electronic devices.
The application provides a key assembly, which meets the requirements in miniature design.
The application provides an electronic device, which adopts the abovementioned key assembly to save the inner space for disposition, so as to meet the requirements in miniature design.
The application provides a key assembly, disposed at a housing of an electronic device. The housing has a first through hole. The key assembly includes a circuit board, a shaft, a limiting portion, a contact element and an elastic element. The circuit board is disposed on an inner side of the housing, wherein the circuit board has a second through hole, a first contact and a second contact. The shaft has a first end and a second end opposite to the first end. The shaft passes through the first through hole and the second through hole. The first end protrudes from an outer side of the housing, and the second end protrudes from the circuit board. The limiting portion is located at the second end of the shaft, so that the second end protrudes from the circuit board. The contact element is located between the housing and the circuit board and disposed on the shaft. The elastic element is coupled between the shaft and the circuit board. When the shaft drives the contact element to move toward the circuit board for the contact element to contact the second contact, the elastic element stores an elastic potential and the contact element is electrically connected to the first contact such that the second contact is electrically connected to the first contact through the contact element to generate an electrical signal.
The application further provides an electronic device which includes a body, a housing and a key assembly. The housing covers the body and has a first through hole. The key assembly is disposed at the housing. The key assembly includes a circuit board, a shaft, a limiting portion, a contact element and an elastic element. The circuit board is disposed on an inner side of the housing and has a second through hole. The circuit board has a first contact and a second contact. The shaft has a first end and a second end opposite to the first end. The shaft passes through the first through hole and the second through hole. The first end protrudes from an outer side of the housing, and the second end protrudes from the circuit board. The limiting portion is located at the second end of the shaft, so that the second end protrudes from the circuit board. The contact element is located between the housing and the circuit board and disposed on the shaft. The elastic element is coupled between the shaft and the circuit board. When the shaft drives the contact element to move toward the circuit board for the contact element to contact the second contact, the elastic element stores an elastic potential, and the contact element is electrically connected to the first contact such that the second contact is electrically connected to the first contact through the contact element to generate an electrical signal.
In light of the foregoing, the application provides a key assembly and an electronic device using the key assembly, wherein the shaft of the key assembly passes through the first through hole of the housing, such that the components such as the limiting portion, the contact element and the elastic element thereof are disposed in the housing so as to reduce the size of the first through hole. Accordingly, not only the requirement in miniature design of the electronic device can be met, but the possibility of moisture or dust from external environment entering the electronic device through the first through hole can also be reduce, so as to improve the life span and the reliability of the electronic device.
To be specific, the shaft passes through the second through hole of the circuit board at the same time. The contact element is located between the housing and the circuit board and clamps the shaft, and the elastic element is coupled between the shaft and the circuit board. When a user presses the part of the shaft protruding from the outer side of the housing, the shaft drives the contact element to move toward the circuit board, such that the contact element contacts the second contact of the circuit board. At the time, the second contact of the circuit board is electrically connected to the first contact of the circuit board through the contact element to generate an electrical signal, so as to actuate the corresponding control functions of the electronic device. Due to the key assembly of the application being highly integrated, an overall volume of the key assembly is effectively reduced, such that the electronic device using the abovementioned key assembly can achieve the goal of saving inner space for disposition, so as to meet the requirement in miniature design.
Several exemplary embodiments accompanied with figures are described in detail below to further describe the disclosure in details.
The accompanying drawings are included to provide further understanding, and are incorporated in and constitute a part of this specification. The drawings illustrate exemplary embodiments and, together with the description, serve to explain the principles of the application.
The following is a description directed towards the detailed structures of the key assembly 100. In the present embodiment, the key assembly 100 is disposed at the housing 12, and includes a circuit board 110, a shaft 120, a limiting portion 130, a seal element 140, a contact element 150 and an elastic element 160. The circuit board 110 is disposed at an inner side of the housing 12 and has a second through hole 111. In general, the circuit board 110 may be an inflexible printed circuit board or a complex circuit board, and the second through hole 111 may be formed on the circuit board 110 by processes such as etching or drilling, etc. The application is not limited thereto.
The shaft 120 passes through the first through hole 12a and the second through hole 111 respectively, and has a first end 121 and a second end 122 opposite to the first end 121. The first end 121 protrudes from an outer side of the housing 12 to function as a key for a user to press. The second end 122 protrudes from a second surface 115 of the circuit board 110, wherein the second surface 115 is opposite to the first surface 112. The limiting portion 130 is located at the second end 122 of the shaft 120, and a size of the limiting portion 130 is greater than a size of the second through hole 111, such that the second end 122 can be limited at a side of the circuit board 110 opposite to the second contact 114, i.e. the side where the second surface 115 is located. In general, the limiting portion 130 is, for example, a screw nut locking to the second end 122 of the shaft 120, or a limiting structure integrally formed with the second end 122 of the shaft 120. The application is not limited thereto.
Comparing to conventional opening for containing the whole switch component in prior art, the size of the first through hole 12a can be effectively reduced since the first through hole 12a is merely configured for disposing shaft 120, such that the requirement in miniature design can be met, and the possibility of moisture or dust from external environment entering the electronic device 10 through the first through hole 12a can also be reduced, so as to improve the life span and the reliability of the electronic device 10.
Due to the size of the limiting portion 130 being greater than the size of the second through hole 111, when the shaft 120 move toward outside from the housing 12, the limiting portion 130 structurally interferes with the circuit board 110, so that the second end 122 of the shaft 120 always protrudes from the second surface 115, and prevents the shaft 120 from falling out of the housing 12 through the first through hole 12a after the shaft 120 and the circuit board 110 are separated.
The seal element 140 is disposed between the shaft 120 and an inner wall of the first through hole 12a, wherein the seal element 140 may be an O ring, but the application is not limited thereto. To be more specific, a groove 120 containing the O ring is disposed around an outer circumferential surface of the shaft 120, such that the O ring can be limited in the groove 123 after being disposed on the shaft 120, and would not be separated from the shaft 120 easily. Moreover, the O ring leans against the inner wall of the first through hole 12a, so moisture or dust from external environment can be blocked by the O ring, such that the life span and the reliability of the electronic device can be improved.
The contact element 150 is located between the housing 12 and the circuit board 110, and the material may be metal with high conductivity such as copper, gold, silver or nickel, etc. In the present embodiment, the contact element 150 has a fix end 151 fixed to the shaft 120 and a free end 152 opposite to the fix end 151, wherein the fix end 151 is, for example, a C-type retaining ring, such that the contact element 150 can clamp the shaft 120 by the C-type retaining ring. On the other hand, the free end 152 corresponds to the location of the second contact 114, and the elastic element 160 is coupled between the shaft 120 and the circuit board 110. Herein, the elastic element 160 is, for example, a conductive spring washer disposed between the fix end 151 of the contact element 150 and the first contact 113 of the circuit board 110, and the shaft 120 passes through the spring washer.
On the other hand, the key assembly 100 further includes a spacer 170. The spacer 170 is disposed between the spring washer and the first contact 113 of the circuit board 110. The fix end 151 of the contact element 150, the elastic element 160 and the spacer 170 are electrically connected to each other, and the spacer 170 is electrically connected to the first contact 113. That is to say, in the present embodiment, the contact element 150 and the first contact 113 are electrically connected to each other by, for example, the elastic element 160 respectively leaning against the fix end 151 of the contact element 150 and the spacer 170, and the spacer 170 contacting the first contact 113. Herein, the shaft 120 can be made of non-conductive material such as plastic, acrylic or other suitable material, and the contact element 150 may, at first, not lean against the elastic element 160, but may be electrically connected to the first contact 113 when the shaft 120 drives the contact element 150 to move toward the circuit board 110 to lean against the elastic element 160, however, the application is not limited thereto. Herein, the elastic element 160 is illustrated as above as a spring washer, so as to achieve the purpose of saving the inner space of the electronic device 10 for disposition, and meet the demands in miniature design, but the application is not limited thereto. In other embodiments, the elastic component 160 may also be a compressive spring or other suitable elastic structure. Under a condition of the spacer 170 not being disposed, the elastic element 160 may also lean against the first contact 113 and the contact element 150 respectively, such that the first contact 113 and the contact element 150 are electrically connected to each other.
Even though the shaft 120 in the abovementioned embodiment is illustrated as being made of non-conductive material, in other embodiments, however, the shaft 120 may also be made of conductive material such as metal. Namely, the contact element 150 may be electrically connected to the first contact 113 through the conductive shaft 120 and the elastic element 160. At the time, the fix end 151 of the contact element 150 may or may not lean against the elastic element 160. The application is not limited thereto. For example, under a condition of the fix end 151 of the contact element 150 not leaning against the elastic element 160, the conductive path between the contact element 150 and the first contact 113 is, for example, the contact element 150—conductive shaft 120—elastic element 160—spacer 170—first contact 113, wherein it can be chosen to not dispose the spacer 170 and let the elastic element 160 lean against the first contact 113 instead.
After the second contact 114 is electrically connected to the first contact 113 through the contact element 150, the elastic element 160 and the spacer 170, an electrical signal is generated, and the second contact 114, the contact element 150, the elastic element 160, the spacer 170 and the first contact 113 which are electrically connected to each other can form an electrical loop. The abovementioned electrical signal may further transmit to the body 11 since the circuit board 110 and the body 11 are electrically connected to each other, such that the corresponding process unit (not shown) in the body 11 can generate a control signal according to the electrical signal, and the control signal may be, for example, power switch signal, volume adjustment signal or image scrolling signal, etc. After an electronic component (not shown) of the electronic device 10 receive the control signal described above, the electronic component (not shown) can be driven to execute the corresponding functions such as switching power on and off, turning volume up and down or scrolling images on display up and down, etc.
Next, when an external force applied on the first end 121 of the shaft 120 is removed, the elastic potential stored by the deformed elastic element 160 is released, so as to drive the elastic element 160 to restore to the initial status shown in
In sum, the application provides a key assembly and an electronic device using the same, wherein the shaft of the key assembly passes through the first through hole of the housing such that the components such as limiting portion, contact element and elastic element, etc. can be disposed in the housing, and the size of the first through hole can be reduced. Thereby, not only the demands in miniature design for the electronic device can be met, but the possibility of moisture or dust from external environment entering the electronic device can be reduced, so as to enhance the life span and reliability of the electronic device.
To be more specific, the shaft passes through the second through hole of the circuit board at the same time, the contact element is located between the housing and the circuit board and clamps the shaft, and the elastic element is coupled between the shaft and the circuit board. When the user presses a part of the shaft protruding from an outer side of the housing, the shaft drives the contact element to move toward the circuit board for the free end of the contact element to contact the second contact of the circuit board. At the time, the second contact of the circuit board is electrically connected to the first contact through the contact element to generate an electrical signal, so as to actuate the corresponding control functions of the electronic device. Due to the key assembly of the application being highly integrated, an overall volume can be effectively reduced, such that the electronic device using the abovementioned key assembly can achieve the goal of saving inner space for disposition, so as to meet the requirement in miniature design.
Although the application has been described with reference to the embodiments thereof, it will be apparent to one of the ordinary skills in the art that modifications to the described embodiments may be made without departing from the spirit of the application. Accordingly, the scope of the application will be defined by the attached claims not by the above detailed description.
