The present invention relates to a hinge, and in particular to a hinge having an adapted rotation friction which is induced by inserting a pin into a slit that is defined in a pintle of the hinge.
Hinges have been widely used in various electronic devices to couple two separate components together to allow for relative rotation therebetween. An example application of the hinge is coupling of a liquid crystal display to for example a notebook computer, a mobile phone, a personal digital assistant (PDA), a satellite-based global positioning system (GPS), and inspection equipments, to allow a user to flip up and closed down the display device with respect to an enclosure of the electronic device.
A conventional hinge comprises a bracket having an edge forming a cylindrical structure to receive a stem of a rotation shaft or pintle therein. When the stem of the rotation shaft is operated and rotated, a rotation friction induced between an inside surface of the cylinder and an outside circumference of the stem provides an operation torque for a subject device.
To provide similar torque in both opening and closing the subject device to which the hinge is applied, the conventional hinge comprises forward-surrounding cylinder section and a reversed-surrounding cylinder section both mounted to the edge of the bracket to form a dual-surrounding cylinder configuration.
A variety of designs for the hinges are known. An example of the prior art references includes U.S. Pat. No. 6,671,929, which discloses a hinge structure for a notebook computer, comprising a pintle and two barrels. The pintle is arranged at centers of the barrels and a sleeve encloses a middle section of the pintle. The barrels have extended sections to be mounted to a notebook computer. Further, U.S. Pat. No. 6,321,416 discloses another hinge for a notebook computer, comprising a leaf, an elastic receiver, and a pintle. The leaf is connected to a notebook computer. The elastic receiver comprises cylinder and a slit or gap is defined in the cylinder and extending axially. The cylinder also forms at least one slot for receiving lubricant. The pintle comprises a plurality of circumferential grooves to effect lubrication to the hinge by the lubricant flowing in the grooves. Further, U.S. Pat. No. 5,632,066 also discloses a hinge for a portable computer comprising two horizontal walls, at least one cylinder, and a pintle. The horizontal walls are connected to a body of a computer. The cylinder is connected to ends of the adjacent horizontal walls. The pintle forms at least one lubricant channel. Further, U.S. Pat. No. 5,894,635 discloses a hinge comprising a hollow cylinder and a pintle. The hollow cylinder is a hollow member extending in axial direction. The pintle forms a central slot and a plurality of circumferential grooves.
A lot of know hinges are currently available in the market, but all these known hinge have certain drawbacks. Further, most of the known hinges consist of a cylinder and a pintle or a shaft. The cylinder is often mechanically tough in resisting deformation. Thus, conventionally, the pintle is coupled to the cylinder by forcibly fitting an end of the pintle into the cylinder, usually with the aid of properly arranged jigs, after the pintle is put in correct alignment with the cylinder. Such an assembling process is time-consuming and offers only very poor passing rate of the final products for damages are easy to occur in both the cylinder and the pintle in case they are not properly aligned or they are subject to incorrect assembling steps. This often leads to complete waste of the whole hinge.
In addition to the damages caused by improper assembling operation, the conventional hinge is often subject to failure or breaking due to long term operation or incorrect operation. The hinge has to be completely replaced once this happens. This increases the costs of maintenance and repairing.
Thus, it is desired to have a hinge that overcomes the above drawbacks of the conventional hinge devices.
Thus, an objective of the present invention is to provide a pintle of a hinge, wherein the pintle has a stem in which at least one slit is formed for purposes of adjusting an overall outside diameter of the pintle so as to ease the operation of insertion of the pintle stem.
Another objective of the present invention is to provide a hinge pintle structure featuring adapted rotation friction, wherein when the pintle is inserted into a cylinder formed on a bracket, a pin is further inserted into the slit of the pintle to expand the pintle and to provide a predetermined rotation friction.
A further objective of the present invention is to provide a hinge pintle structure that is easy to assemble, wherein the pintle is first inserted into a cylinder formed on a bracket and then a pin is inserted into the pintle.
According to the present invention, a solution to realize the above discussed objectives resides in that a hinge comprises a pintle having a stem in which at least one slit is defined. When the stem of the pintle is inserted into a cylinder formed on a bracket, a pin is inserted into the slit to expand the pintle in a radial direction to an increased radial direction so that a predetermined rotation friction is induced between an outer circumference of the pintle stem and an inside surface of the bracket cylinder.
In a preferred embodiment of the present invention, the stem of the pintle further defines a central bore, whereby when the pin is inserted into the pintle stem, contact area is increased and a proper amount of rotation friction force can be induced between the outer circumference of the pintle stem and the inside surface of the cylinder when the hinge of the present invention is operated and rotated, thereby ensuring a desired torque applied to the hinge.
Due to the slits defined in the stem of the pintle, the present invention does not need to use force fitting that is conventionally used to combine a pintle to a cylinder of a bracket. Thus, the assembling process is simplified. Further, the non-adjustable nature of the conventional hinge is overcome so that the tough mechanical structure does not affect the convenience of assembling hinges. In addition, since the hinge is formed by individual components, replacement of any failure or broken parts can be easily carried out without the need of replacing the whole device. To conclude, the structure provided by the present invention allows the pintle to easily insert into the bracket cylinder with a simple operation so that the product passing rate is enhanced.
The present invention will be apparent to those skilled in the art by reading the following description of preferred embodiments thereof, with reference to the attached drawings, in which:
With reference to the drawings and in particular to
Also referring to
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The pintle 2 comprises a stem 21 and an end plate 22. The stem 21 has a free end 211 and a mounting end 212 mounted to the end plate 22. The stem 21 is divided into an upper portion 213 and a lower portion 214 by a slit 23 that extends in an axial direction IV from the free end 211 to the mounting end 212. Preferably, the stem 21 forms a central bore 24 that extends from the free end 211 to the mounting end 212 and communicates the slit 23. Thus, the stem 21 features resiliency to adapt to deformation of outward expansion or inward contraction in radial direction V.
The stem 21 of the pintle 2 is inserted into the cylinder 13 with the free end 211 thereof. The slit 23 of the stem 21 allows adaptive adjustment of outside diameter of stem 21 so that the stem 21 can be easily inserted into the cylinder 13. The pin 3 is then fit into the central bore 24 of the stem 21 to outward expand the stem 21 in the radial direction V and thus providing an increased radial dimension of the stem 21. Thus, an outer circumference 25 of the stem 21 induces a predetermined rotation friction with an inside surface 14 of the cylinder 13 to apply a desired torque to the hinge 100.
The pin 3 has an insertion end 31 and a distal end 32. The distal end 32 of the pin 3 is expanded for abutting against an end of the cylinder 13 when the pin 3 is being inserted into the central bore 24 of the stem 21 and also functioning to prevent the cylinder 13 to separate in the axial direction IV.
The bracket 1 forms a plurality of fastening holes 16 for receiving conventional fasteners (not shown) therethrough to secure the hinge 100 to for example an enclosure of a notebook computer. An end of the stem 21 of the pintle 2 is mounted to an end plate 22, which forms a plurality of fastening holes 221 for receiving conventional fasteners (not shown) therethrough to secure the pintle 2 to for example a liquid crystal display of the notebook computer.
To assemble the hinge 200 of the second embodiment, the stem 21a of the pintle 2a is inserted into the cylinder 13 with the free end 211a thereof. The plurality of slits 23a formed in the stem 21a allows adjustment of the outside diameter of the stem 21a to ease the insertion operation of the stem 21a into the cylinder 13. The pin 3 is then fit into the central bore 24a of the stem 21a to outward expand the stem 21a in the radial direction V to an increased radial dimension. Thus, an outer circumference 25a of the stem 21a induces a predetermined rotation friction with an inside surface 14 of the cylinder 13 to apply a desired torque to the hinge 200.
The end plate 22a forms a plurality of fastening holes 221a for receiving conventional fasteners (not shown) therethrough to secure the pintle 2 to for example a liquid crystal display of the notebook computer.
The stem 21 of the pintle 2 is inserted into the cylinder 13a with the free end 211 thereof. Once again, the slit 23 of the stem 21 allows for adjustment of the outside diameter of the stem 21 to ease insertion of the stem 21. The pin 3 is then fit into the central bore 24 of the stem 21 to outward expand the stem 21 in the radial direction V to an increased radial dimension. Thus, an outer circumference 25 of the stem 21 induces a predetermined rotation friction with an inside surface 14a of the cylinder 13a to apply a desired torque to the hinge 300.
The bracket 1a forms a plurality of fastening holes 16a for receiving conventional fasteners (not shown) therethrough to secure the hinge 200 to for example an enclosure of a notebook computer.
Although the present invention has been described with reference to the preferred embodiments thereof, it is apparent to those skilled in the art that a variety of modifications and changes may be made without departing from the scope of the present invention which is intended to be defined by the appended claims.
Number | Date | Country | Kind |
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96104235 | Feb 2007 | TW | national |