1. Field of the Invention
The present invention relates to a hinge assembly, and more particularly to a hinge assembly that connects a cover to a base and allows the cover to open lightly and close heavily.
2. Description of the Prior Arts
Electronic devices such as laptops, mobile phones, personal digital assistants (PDA), etc. have a base, a cover and a hinge. The hinge connects the cover to the base to allow the cover to pivot relative to the base and to reduce a volume of the electronic device.
When people open the cover relative to the base, they might expect that the cover could be opened lightly and fast to allow the electronic device being used as quickly as possible. Additionally, when people close the cover relative to the base, they might expect that the cover could be closed heavily and slowly to prevent the base from being stricken by the cover.
However, no matter the cover is opened or closed, the conventional hinge provides the same friction. Therefore a balance is struck between low resistance and easy to open but not preventing damage and high resistance, preventing damage but hard to open.
To overcome the shortcomings, the present invention provides a hinge assembly to mitigate or obviate the aforementioned problems.
The main objective of the present invention is to provide a hinge assembly that connects a cover to a base and further has a pressing member. The pressing member has a stationary pressing spacer and a rotating pressing spacer. Each of the pressing spacers has at least one inclined protrusion formed on an abutting surface. The inclined protrusions of the pressing spacers correspond to each other.
When the cover is opening until an upper edge of one inclined protrusion corresponds to a lower edge of another inclined protrusion, people may open the cover lightly and fast. Alternative, when the cover is closing until the upper edges of the inclined protrusions and the lower edges of the inclined protrusions respectively correspond to each other, people may close the cover heavily and slowly to prevent the base from being stricken by the cover.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
With further reference to
The rotating bracket (20) connects to the cover (91) of the electronic device (90) and is mounted securely around the distal end of the fastening rod (11).
The stationary bracket (30) connects to the base (92) of the electronic device (90), is mounted rotatably around the extension rod (12), may be adjacent to the stop (13), has an outer surfaces and may have a limiting protrusion (31) and a positioning hole (32). The limiting protrusion (31) is formed on the outer surface of the stationary bracket (30) and selectively abuts the stop (13) of the shaft (10) to limit the rotating angle of the rotating bracket (20) and the shaft (10) relative to the stationary bracket (30). The fastening hole (32) is formed through the stationary bracket (30).
With further reference to
The stationary positioning spacer (41) is mounted around the extension rod (12), has an inner surface, an outer surface, an optional fastening protrusion (411) and multiple positioning detents (412). The fastening protrusion (411) is formed on the inner surface of the stationary positioning spacer (41) and is mounted securely in the fastening hole (32) of the stationary bracket (30). The positioning detents (412) are formed separately on the outer surface of the stationary positioning spacer (41).
The rotating positioning spacer (42) is mounted securely around the extension rod (12) adjacent to the outer surface of the stationary positioning spacer (41) and has an inner surface and multiple positioning protrusions (421). The positioning protrusions (421) are formed separately on the inner surface of the rotating positioning spacer (42) and respectively correspond to and selectively engage the positioning detents (412) of the stationary positioning spacer (41).
With further reference to
The stationary pressing spacer (51) is mounted around the extension rod (12), is attached securely to the stationary bracket (30) and has an abutting surface, a central hole and at least one inclined protrusion (511). The central hole is formed through the stationary pressing spacer (51) and is mounted around the extension rod (12). The at least one inclined protrusion (511) is formed on the abutting surface and around the central hole of the stationary pressing spacer (51). Each one of the at least one inclined protrusion (511) has a lower edge, an upper edge and a step (512) and may have a flat (513). The upper edge is thicker than the lower edge. The step (512) is formed between the upper edge of the inclined protrusion (511) and the abutting surface of the stationary pressing spacer (51). The flat (513) is formed on the inclined protrusion (511) adjacent to the upper edge.
The rotating pressing spacer (52) is mounted securely around the extension rod (12) adjacent to the abutting surface of the stationary pressing spacer (51) and has an abutting surface, a central hole and at least one inclined protrusion (521). The abutting surface corresponds to the abutting surface of the stationary pressing spacer (51). The central hole is formed through the rotating pressing spacer (52), is non-circular in cross-section and is mounted securely around the extension rod (12). The at least one inclined protrusion (521) is formed in the abutting surface and around the central hole of the rotating pressing spacer (52). Each one of the at least one inclined protrusion (521) selectively abuts a corresponding inclined protrusion (511) of the stationary pressing spacer (51) and has a lower edge, an upper edge and a step (522) and may have a flat (523). The upper edge is thicker than the lower edge. The step (522) is formed between the upper edge of the inclined protrusion (521) and the abutting surface of the rotating pressing spacer (52) and selectively abuts the step (512) of the corresponding inclined protrusion (511) of the stationary pressing spacer (51). The flat (523) is formed on the inclined protrusion (521) adjacent to the upper edge and selectively abuts the flat (513) of the corresponding inclined protrusion (511) of the stationary pressing spacer (51).
The resilient rings (60) are mounted around the extension rod (12) between the stationary bracket (30) and the rotating pressing spacer (52) and may be mounted between the rotating positioning spacer (42) and the rotating pressing spacer (52) to press the positioning member (40) and pressing member (50) firmly abuts to each other.
The washers (70) are mounted securely around the extension rod (12) and are respectively mounted adjacent to the stationary pressing spacer (51) and rotating pressing spacer (52) of the pressing member (50) and may adjacent to the stationary positioning spacer (41) and the rotating positioning spacer (42) of the positioning member (40).
The fasteners (80) is mounted securely on the distal end of the extension rod (12), has an inner surface and may have an internal thread. The internal thread is formed around the inner surface of the fastener (80) and is screwed onto the external thread of the extension rod (12) of the shaft (10).
With further reference to
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and features of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.