The present invention relates to methods and devices for attaching accessories to cameras. Specifically, it relates to the removably attaching light transmissive elements and other optical devices to a camera lens or lens housing.
The following is a list of prior art that presently appears relevant:
Camera filters have long been used to improve the quality of photographs and video footage. Camera filters allow a user to improve image quality in a variety of settings. When in use, camera filters must be removably attached to the camera lens or lens housing. Advancements in camera technology have enabled a decrease in size of cameras and lenses, with concurrent improvements in quality. Cameras can now be configured to the dimensions best suited to their desired function. This enables cameras, both video graphic and photographic, to be affixed and integrated into a variety of objects and devices. Cameras are now used in a greater array of circumstances and the need for versatility in coupling camera filters and optical devices has increased.
Many methods have been developed for directly coupling camera filters to camera lenses and lens housing. The use of threading, adhesive, magnetic, pressure fitting, and other methods have all been used to attach filters directly to lenses and lens housing. With the integration and attachment of cameras to a greater variety of devices these methods are often no longer adequate or optimal. Variety in camera size and shape often make it problematic to couple the filters directly to the camera lens or lens housing. Many cameras do not permit coupling by threading or magnetism. Some cameras and lens configurations or dimensions do not permit mounting by external pressure.
The present invention allows removable coupling to a remote area on the camera or object the camera is integrated into or affixed to. This enables the filter to be attached when it cannot be directly coupled to the lens or lens housing. A flexion arm conjoined with the filter frame enables remote coupling. The flexion arm is removably couples with the camera using through external pressure created by flexural rigidity. The flexion arm extends from lens filter element to the desired location of coupling, allowing versatility in coupling the filter to the camera or other object in areas non-proximate to the lens. This allows attachment when the lens, lens housing, or camera does not permit coupling by the methods discussed earlier, or it is not optimal to couple the filter directly to or around the lens. It also eliminates the need to permanently or temporarily attach the filter by use of adhesives, which can damage the lens and camera, and leave residue.
The flexion arm allows quicker installation and removal than coupling by hooking, threading or other more invasive methods of coupling. The flexion arm requires no permanent alteration to the camera. The ability to couple is not dependent on the material the coupled to object is made from, as the flexion arm is configured to contour or couple by other means.
A method for attaching a camera filter to a lens or camera lens housing using a flexion arm or arms is disclosed. The flexion arm is made of metal, polycarbonate, or other material allowing flexural rigidity. The flexion arm is configured to contour to the camera. Camera is used to denote cameras or other devices to which a camera may be integrated into or attached to. The flexion arm expands to facilitate attachment and removal from the camera. The flexion arm is conjoined with a frame. In the exemplary embodiment, the frame is attached by riveting. The frame is conjoined with the light transmissive element, i.e. a camera filter, or other optical device. The frame is configured to abut the camera lens or camera lens housing.
The flexion arm is configured to be slightly smaller or have the same dimensions as the object it couples with. This enables exertion of force when removably attached. External force is used to install the flexion arm mount on the camera. The flexion arm presses, slides, or snaps over the camera. The flexion arm expands to facilitate attachment and removal from the camera. When external pressure ceases, the flexion arm attempts to return to its unstressed position and couples with the camera. External force created by flexural rigidity allows the flexion arm to couple with the camera. The pressure exerted by the flexion arm secures the frame and light transmissive element in a stationary position over the lens or lens housing.
The exemplary embodiment below has one flexion arm. Alternate embodiments can include a plurality of flexion arms. While one flexion arm is sufficient to couple the filter, additional flexion arms can augment coupling when the camera restricts extension of a single flexion arm. Multiple arms can allow greater coupling capacity with objects of certain materials and dimensions. Additional flexion arms are also comprised of material allowing for flexural rigidity.
Alternate embodiments can include additional means of coupling to augment the coupling ability of the flexion arm. Hooks, snap-hooks, or other mechanisms could be used to reinforce non-proximate coupling to the camera.
Alternate embodiments can include ventilation openings on the flexion arm or arms. Cameras and other devices to which the flexion arm can be attached produce electrical heat. The openings would provide ventilation, keeping the camera cooler and reducing heat conduction by the flexion arm mount.
The exemplary embodiment is utilized to attach a light transmissive element over the lens. In alternative embodiments lens caps and other camera accessories could be attached by the flexion arm method.
Although the description above contains many specificities, these should not be construed as limiting the scope of the embodiments but as merely providing illustrations of some of several embodiments. Thus, the scope of the embodiments should be determined by the appended claims and their legal equivalents, rather than by the examples given.
An exemplary embodiment of the invention will now be discussed with reference to the following figures. These figures are provided for illustrative purposes only. The invention is not limited to the subject matter illustrated in the figures.
A flexion arm 21 is conjoined with a frame 22. A light transmissive element 23 can be seen in the front of the embodiment depicted in
Alternate embodiments can include additional flexion arms as depicted in