Camera holder

A camera holder includes a support member which is removably mounted on a belt worn about a consumer's waist, and an attachment block removably connected to a support arm projecting from the support member. The attachment block has a rotatable threaded bolt projecting therefrom which may be threaded in a threaded aperture on the base of a camera to connect the camera to the attachment block. A pocket formed in the support arm removably and slidably receives the attachment block, and has a V-shaped slot formed in the forward wall. A generally V-shaped bearing projecting forwardly from the attachment block corresponds with the V-shaped slot in a wedging action to positively engage the attachment block within the pocket. An adjustable retention strap extends from the base of the support member around a camera mounted on the camera holder and is removably connected to the end of the support arm to securely retain a camera on the camera holder.

TECHNICAL FIELD 
The present invention relates generally to an apparatus for holding a 
camera, and more particularly to a camera holder which permits simple and 
unencumbered transport of a camera on a person. 
BACKGROUND OF THE INVENTION 
Recent efforts in the video camera industry have reduced the size and 
weight of video cameras in order to enable the consumer to more easily 
carry and utilize a video camera. Similarly, 35mm cameras have 
incorporated electronics which permit a reduction in size and weight for 
these types of cameras as well. While the reduction in size and weight has 
been beneficial to the consumer, transporting cameras can still be a 
problem. These problems reside in the specific mode of transport, which 
may be grouped into two major categories: (1) a carrying strap, or (2) a 
carrying case. 
Most conventional carrying cases include a fabric or rigid container which 
is padded to receive the camera. The top of such cases is typically 
operable to allow easy access to the camera. Such cases may be transported 
by the use of a handle fastened to the case, or by virtue of a shoulder 
strap connected to the case. 
While such carrying cases are convenient for transporting the camera, they 
do not permit quick access to the camera to take a picture or record a 
video. Furthermore, such cases require the consumer to occupy at least one 
hand and arm to transport the camera. For consumers that are hiking or 
require the use of both hands to carry other equipment, the carrying case 
is not a desirable transport method. 
While conventional neck straps for cameras permit quick access to the 
camera to take a picture or shoot video, the weight of any camera on the 
neck strap may become uncomfortable in a relatively short period of time. 
In addition, walking or hiking with a camera on a neck strap typically 
requires the consumer to hold the camera so that it does not bounce 
against the chest in response to the movement required for hiking or the 
like. 
It is therefore a general object of the present invention to provide an 
improved apparatus for holding a camera for transport. 
Another object of the present invention is to provide a camera holder which 
leaves the hands and arms of the consumer completely free and 
unencumbered. 
Still another object is to provide a camera holder which permits quick and 
simple access to the camera. 
Yet another object of the present invention is to provide a camera holder 
which permits a consumer to carry the camera without supporting the camera 
around the neck or shoulders. 
These and other objects of the present invention will be apparent to those 
skilled in the art. 
SUMMARY OF THE INVENTION 
The camera holder of the present invention includes a support member which 
is removably mounted on a belt worn about a consumer's waist, and an 
attachment block removably connected to a support arm projecting from the 
support member. The attachment block has a rotatable threaded bolt 
projecting therefrom which may be threaded in a threaded aperture on the 
base of a camera to connect the camera to the attachment block. A pocket 
formed in the support arm removably and slidably receives the attachment 
block, and has a V-shaped slot formed in the forward wall. A generally 
V-shaped bearing projecting forwardly from the attachment block 
corresponds with the V-shaped slot in a wedging action to positively 
engage the attachment block within the pocket. An adjustable retention 
strap extends from the base of the support member around a camera mounted 
on the camera holder and is removably connected to the end of the support 
arm to securely retain a camera on the camera holder.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to the drawings, in which similar or corresponding parts are 
identified with the same reference numeral, and more particularly to FIG. 
1, the camera holder of the present invention is designated generally at 
10 and includes a support member 12 removably mounted on a belt 14 worn by 
a consumer 16, and an attachment block 18 removably mounted to a 
conventional camera 20. Attachment block 18 is operably slidably mounted 
on support member 12, as described in more detail hereinbelow, so as to 
permit quick and simple removal of camera 20 from the support member 12. 
Referring now to FIG. 2, support member 12 includes a base block 22 having 
an outward face 24, an inward face 26, a forward face 28, rearward face 30 
and top and bottom ends 32 and 34 respectively. Support member 12 has a 
support arm 36 projecting outwardly from the rearward end of outward face 
24. Support arm 36 has an outward face 38, forward and rearward walls 40 
and 42 respectively, and upper and lower ends 44 and 46 respectively. 
A slot 48 extends horizontally through base block 22 from forward face 28 
to rearward face 30, and has dimensions so as to receive a conventional 
belt 50, as shown in FIG. 1. Inward face 26 of base block 22 curves 
slightly outwardly at its lower end, as shown in FIGS. 1 and 2, to more 
closely follow the body of the consumer. When the camera is connected to 
support arm 36, the weight of the camera is distributed over a larger 
surface area of inward face 26, due to the curvature of the lower end of 
inward face 26. The inventor has found that a flat vertical face causes 
the majority of the weight from a camera supported on camera holder 10 to 
be directed along the edge between the inward face 26 and the bottom end 
34 of base block 22. The curvature along the lower end of inward face 26 
has been found to avoid this problem by distributing the weight over the 
surface area of the curvature. 
Support arm 36 has an upwardly opening pocket 52 formed therein which will 
removably and slidably receive attachment block 18. A generally V-shaped 
slot 54 is formed in forward wall 40 downwardly from the upper end 44, 
which will receive a correspondingly V-shaped bearing 56 mounted on a 
forward face 58 of attachment block 18. The V-shape of bearing 56 and slot 
54 provides a wedging action to positively engage attachment block 18 
within pocket 52. In order to assure a tight fit of attachment block 18 
within pocket 52 between forward and rearward walls 40 and 42, a pair of 
strips 60 of resilient material are affixed to the interior face of 
rearward wall 42. Such strips could be eliminated by utilizing resilient 
yet rigid materials for attachment block 18 and support arm 36, with 
attachment block 18 having a dimension to snugly fit within pocket 52. 
Referring to FIG. 1, video cameras and 35mm cameras typically have a 
threaded aperture 62 formed in the bottom surface thereof, to permit the 
camera to be mounted on a tripod or the like. A smaller unthreaded 
aperture 64 is also found on many cameras adjacent threaded aperture 62, 
to prevent pivotal movement of the camera about threaded aperture 62 when 
mounted on a tripod or the like. As best shown in FIG. 3, attachment block 
18 has a threaded bolt 66 extending forwardly through an opening 68 so as 
to project forwardly from bearing 56. Bolt 66 has a knurled knob 70 on one 
end to permit finger-operated rotation of the bolt within opening 68. Bolt 
66 is sized so as to correspond with threaded aperture 62 to fasten 
attachment block 18 to camera 20, as shown in FIG. 1. A resilient rubber 
washer 72 may be positioned on bolt 66 to cushion the connection between 
attachment block 18 and camera 20. 
As shown in FIG. 2, a pin 74 is mounted on the forward surface of bearing 
56 and located to correspond with aperture 64 conventionally found on 
camera 20. Since not all cameras have the unthreaded aperture 64 shown in 
FIG. 1, pin 74 may be spring loaded in an aperture in bearing 56 to permit 
biased retraction into the attachment block. In the alternative, an 
accessory attachment block 18 may be provided without pin 74, to permit 
attachment to cameras without aperture 64. 
The rearward face 76 of attachment block 18 has a generally circular 
depression 78 formed therein coaxial with bolt 66 with a diameter greater 
than the diameter of bolt head 70, to permit bolt head 70 to be recessed 
flush with rearward surface 76. Depression 78 is preferably large enough 
to allow access to bolt head 70 to permit the consumer to rotate bolt head 
70 and disconnect camera 20 from attachment block 18. 
As shown in FIG. 2, a retention strap 80 is pivotally mounted at one end 82 
to the forward face 28 of base block 22. The opposite end 84 of strap 80 
has the first half 86 of a cooperable fastener mounted thereon for 
selective connection to the corresponding half 88 of the cooperable 
fastener mounted on the outward face of support arm 36. As shown in FIGS. 
1 and 3, strap 80 is utilized to assist in retaining camera 20 on camera 
holder 10, and prevent undesirable movement relative to the camera holder. 
Strap 80 is preferably length adjustable to permit secure retention of 
cameras of various sizes. 
A resilient soft pad 90 is mounted to the outward face 24 of base block 22 
to cushion the side of a camera mounted on the camera holder. Pad 90 not 
only assists in preventing scratches on the camera, but also reduces 
shaking or rattling of the camera when strapped on to support arm 36. A 
well 92 is formed in base block 22, as shown in FIG. 1, which is designed 
to receive camera accessories, such as battery 94 shown in the drawings. 
Depending upon the dimensions of the camera holder 10, well 92 may be of a 
size to permit various different accessories for the particular camera 
utilized. 
Whereas the invention has been shown and described in connection with the 
preferred embodiment thereof, it will be understood that many 
modifications, substitutions and additions may be made which are within 
the intended broad scope of the appended claims. There has therefore been 
shown and described an improved camera holder which accomplishes at least 
all of the above stated objects.