1. Field of the Invention
The present invention relates to an automatic positioning hinge for doors, and more particularly to an adjustable automatic positioning hinge for a glass door in a doorway system.
2. Description of Related Art
A glass door in a doorway system comprises a glass panel, a doorframe and two conventional hinges. The glass panel is pivotally mounted in the doorframe with the hinges. However, exact alignment of the glass panel with the doorframe is important because the glass door will not close completely when the glass panel is not aligned exactly with the doorframe.
However, accurately installing the glass panel in the doorframe with the hinges is difficult because the glass panel is generally bulky, as well as being extremely heavy due to the security and strength requirements. If the glass panel is not be exactly aligned with the doorframe, small adjustments will be needed to align the glass panel exactly with the doorframe. Conventional hinges in accordance with prior art for glass doors are complex to assemble and cannot be adjusted to align the glass panel with the doorframe after the glass panel has been mounted on the doorframe.
Therefore, installing the glass panel in the doorframe with conventional hinges requires talent and experience or repeated assembly, disassembly and reassembly to ensure the exact alignment of the glass panel with the doorframe. Installation of the glass door with the conventional hinges is inconvenient, slow and costly.
To overcome the shortcomings, the present invention provides an adjustable automatic positioning hinge for a glass door to mitigate or obviate the aforementioned problems.
The main objective of the invention is to provide a simple adjustable automatic positioning hinge for a glass door comprised of a glass panel, a doorframe and multiple hinges, by which small adjustments can be made to align the glass panel with the doorframe. The adjustable automatic positioning hinge has a doorframe mount, a body, a spindle, a door bracket, at least one positioning device and an adjusting assembly. The body is securely attached to the doorframe mount. The spindle is mounted in the body and has an exterior surface with a middle portion. The door bracket is pivotally connected to the body with the spindle to attach to the glass panel of the glass door. The at least one positioning device is mounted between the door bracket and the spindle to position the glass panel in a specific position. The adjusting assembly is mounted between the body and the spindle and comprises a holding device and an adjusting device. The holding device is mounted on the middle portion of the exterior surface of the spindle. The adjusting device is mounted in the body and fits with the holding device on the spindle. Consequently, the structure of the adjustable hinge is simplified, and small adjustments can be made to align the glass panel with the doorframe of the glass door with the adjusting assembly when the glass panel is not exactly aligned.
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 FIGS. 1 to 3, an adjustable automatic positioning hinge for a glass door in accordance with the present invention comprises a doorframe mount (10), a body (20), a spindle (30), a door bracket (40), at least one positioning device (46) and an adjusting assembly. The doorframe mount (10) is securely attached to a doorframe (70) of the glass door. The body (20) is securely attached to the doorframe mount (10). A spindle hole (22) is defined through the body (20). The spindle (30) is mounted in the spindle hole (22) in the body (20) and has an exterior surface with a middle portion and two ends exposed from the spindle hole (22).
The door bracket (40) is pivotally connected to the body (20) with the spindle (30) to attach to a glass panel (72) of the glass door. The door bracket (40) comprises a male bracket (42) and a female bracket (41). The male bracket (42) has a cavity (422) and two protrusions (44) formed respectively at two sides of the cavity (422). Each protrusion (44) has a spindle hole (442) aligning with the spindle hole (22) in the body (20), and two ends of the spindle (30) extend respectively into the spindle holes (442) in the protrusions (44). The female bracket (41) is attached to the male bracket (42) and has a cavity (412) to hold the body (20) in cooperation with the cavity (422) in the male bracket (42). Accordingly, the glass panel (72) is clamped between the female and male brackets (41,42) to securely attach to the door bracket (40).
The at least one positioning device (46) is mounted between the door bracket (40) and the spindle (30) to position the glass panel (72) in a specific position. In a preferred embodiment, the hinge has two positioning devices (46) mounted in the door bracket (40). Each positioning device (46) comprises a threaded hole (444), an inner cap (462), a biasing member (464), and an outer plug (466). Two positioning flats (32) are formed on opposed ends of the spindle (30) and face the same direction. The threaded hole (444) is defined in one of the protrusions (44) on the male bracket (42) and communicates with the spindle hole (442) in the protrusion (44). The inner cap (462) is mounted inside the threaded hole (444). The biasing member (464) is mounted inside the threaded hole (444) and presses against the inner cap (462). The outer plug (466) is screwed into the threaded hole (444) to close the threaded hole (444) and to hold the inner cap (462) and the biasing member (464) inside the threaded hole (444). The inner cap (462) selectively abuts the respective positioning flat (32) of the spindle (30).
With the positioning devices (46), the glass panel (72) is held in a closed position by the inner caps (462) pressing respectively against the positioning flats (32) on the spindle (30). Pulling or pushing the glass panel (72) will open the glass door and will pivot the glass panel (72) and the spindle (30). The inner caps (462) slide respectively out of full contact with the positioning flats (32) and compress the biasing member (464). The compressed biasing member (464) press the inner caps (462) that cause the spindle (30) to rotate until the inner caps (462) are in full contact with the positioning flats (32) again, such that the glass door will automatically close.
With further reference to
With further reference to
With reference to
When the glass panel (72) does not exactly align with the doorframe (70), the adjusting screws (27) are rotated to back out of the corresponding threaded holes (26). Consequently, the spindle (30′) can be rotated relative to the body (20′) to change the angular position of spindle (30′) with the door bracket (40) relative to the body (20′), such that exact alignment of the glass panel (72) with the doorframe (70) can be accomplished after the adjusting screws (27) reengage with the teeth (36) on the spindle (30′).
With reference to
The adjusting screws (29,292) are screwed respectively into and held respectively in the threaded holes (28) in the body (20″), and each adjusting screw (29,292) has an inside end selectively extendable into one of the adjusting holes (38,382) in the spindle (30″). With the arrangement between the adjusting holes (38,382) in the spindle (30″) and the threaded holes (28) in the body (20″), only one of the adjusting screws (29,292) will extend into the corresponding adjusting hole (38,382) at one time.
When the glass panel (72) does not exactly align with the doorframe (70), the adjusting screw (29) is rotated to back out of the corresponding adjusting hole (28). The spindle (30″) is then rotated to make the other adjusting hole (382) align with the corresponding threaded hole (28), such that the angular position of spindle (30″) with the door bracket (40) relative to the body (20″) will be changed. Accordingly, exact alignment of the glass panel (72) with the doorframe (70) can be accomplished after the adjusting screw (292) is rotated to extend into the corresponding adjusting hole (382) in the spindle (30″).
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 function of the invention, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the scope of the appended claims.
This application is a continuation-in-part (CIP) application of a patent application Ser. No. 10/843,567, filed on May 12, 2004 that is a continuation-in-part application of patent application Ser. No. 10/411,231, filed on Apr. 11, 2003.
Number | Date | Country | |
---|---|---|---|
Parent | 10843567 | May 2004 | US |
Child | 11028564 | Jan 2005 | US |
Parent | 10411231 | Apr 2003 | US |
Child | 10843567 | May 2004 | US |