Patent Application
20130009034
The present invention relates to a support apparatus and more particularly an adjustable support bracket for adjustably supporting a display device and input apparatus at variable heights.
In order to maximize accurate and convenient data input and retrieval, it has become common for industries and particularly the hospital industry to have computer terminals located at various locations throughout the building instead of a dedicated office or desk. These locations include hallways and patient rooms as well as offices so that these terminals or workstations can be used by various individuals on different shifts. Few, if any of the workstations are dedicated to an individual user. Therefore, instead of having office space dedicated to a single user and workstation, the workstations are placed where they are accessible by staff as needed and are usually accessed from a standing position.
Therefore it is important to have a workstation that does not take up much space and accommodates frequent use for short periods at a time. Furthermore, since users come in a variety of heights, it is necessary that the support bracket for the workstation be vertically adjustable to accommodate the height requirements of the various users and maintain the monitor and keyboard in vertical and horizontal positions, respectively relative to the floor. The invention as described herein addresses these issues and provides advantageous solutions.
One object of the invention is to provide a mounting bracket for a supporting a monitor and a keyboard.
Yet another object of the invention is to provide a height-adjustable support arm.
Still another object of the invention is to provide an auto-leveling support arm.
Yet another object of the invention is to provide internal link arms for providing stability and parallel movement.
Still another object of the invention is to provide a gas spring tension adjustment using a leadscrew on the base pivot block to eliminate the necessity for adjustment screws on the upper leveler block.
It must be understood that no one embodiment of the present invention need include all of the aforementioned objects of the present invention. Rather, a given embodiment may include one or none of the aforementioned objects. Accordingly, these objects are not to be used to limit the scope of the claims of the present invention.
In summary the present invention is directed to an adjustable support member for mounting a device including a support arm having a base pivot block assembly and a right link arm connected at a first end to said base pivot block assembly and a left link arm connected at a first end to said base pivot block assembly and spaced from said right lower link arm and an upper leveler block wherein the right link arm is connected at a second end to the upper leveler block and the left link arm connected at a second end to the upper leveler block and a gas spring assembly having first and second ends with a first end of the gas spring assembly having a piston being connected to the base pivot block assembly and the second end of the gas spring assembly having a rod connected to the right link arm and to the left link arm at a position spaced from both the first and second ends of the right link arm and the left link arm and the base pivot block assembly having a gas spring tension adjustment assembly. The engagement of a pivot pin through the clockwise or counter clockwise adjustment of a dog screw pulls the right and left link arms forward or back along the available slot length held under tension by the gas spring. This adjustment lifts or lowers the angle of the leveler block to ensure a level perpendicular position to the floor is achieved. Through the leveling of the leveler block all other components suspended off the end of the arm (mounted to the leveler block), for example, primarily the computer monitor and keyboard, will be level or perpendicular to the floor. This prevents any further necessary adjustments to level off the keyboard or monitor when pivoting the mounting arm from left to right or positioning up or down.
As shown in
Now with reference to
The opposite ends of link arms 22 and 24 have openings 58 and 60, respectively and the link arms 22 and 24 are retained on the upper leveler block 16. Link arms 22 and 24 are retained on the leveler block 16 by a pin 66 extending through opening 68 in the upper leveler block 16 and opening 58 and 60 respectively of the link arms 22 and 24. Nylon washers 70 are located on the pin 66 between the arms 22 and 24 and the upper leveler block 16. Another pair of nylon washers 72 are located on the pin 66 outside the arms 22 and 24 and the pin 66 is retained on the upper leveler block 16 by a pair of retainer clips 74.
The link arms 22 and 24 each include a gas spring connection point 90 and 92. The connection points 90 and 92 are preferably spaced inwardly from openings 58 and 60 and are offset from the longitudinal axis of the link arms 22 and 24. Gas spring 30 includes a head 94 attached to the end of the rod 96. The head 94 includes an opening 98. A pin 100 extends through the opening 98 and through connection points 90 and 92. Nylon washers 102 are preferably located on the pin 100 between the head and the connection points 90 and 92. Nylon washers 104 are preferably located on the pin 100 on the outside of the connection points 90 and 92. A pair of retainer clips 106 retain the pin 100 in place.
The gas spring 30 is connected to the base pivot block 12 at an adjustment block 110. The gas spring 30 includes a U-shaped bracket 112. The adjustment block 110 includes a first opening 114. The U-shaped bracket 112 includes openings 116 that cooperate with first opening 114 to receive a pivot pin 118 which is held in place by retainer clips 120. Nylon washers 122 placed on the pivot pin 118 reduce friction between the bracket 112 and the adjustment block 110.
Now with reference to
As shown in
Now with reference to
Similarly, the upper leveler block 16 includes an opening 170 for receiving a press fit pivot pin 172. A slide through pivot shaft 174 slides into the central opening 176 of the pivot pin 172. Standoff bushings 178 are mounted on the pivot shaft 174 on both sides of the base pivot block 12. Next a spring washer stack 180 formed of preferably four spring washers to create an applied friction assembly is mounted on the pivot shaft 174. Next a compression cap 182 is mounted on the pivot shaft 174 and finally a compression screw 184 engages a threaded opening 186 in each end of the pivot shaft 174 to retain the compression cap 182 on the pivot shaft 174.
Thus in operation, the support arm can be adjusted for balance using the gas spring adjustment block 110 along with the autoleveling feature of the compression spring 140 and dog screw 142 as well as frictional adjustment of the bushings 158, 178 and washer stacks 160 and 180 of the base pivot block 12 and of the upper leveler block 16 so that equipment such as a computer can be supported and easily moved to different heights to account for a user's preference.
While this invention has been described as having a preferred design, it is understood that it is capable of further modifications, uses and/or adaptions of the invention following in general the principle of the invention and including such departures from the present disclosure as come within the known or customary practice in the art to which the invention pertains and as maybe applied to the central features hereinbefore set forth, and fall within the scope of the invention and the limits of the appended claims.
