The present invention is concerned with a support system. Particular embodiments of the invention are concerned with a moveable support arm for a monitor or display device.
Modern screen-based display devices are typically flat-screen monitors such as liquid crystal display (LCD) or plasma screen displays. Such devices can be mounted on elevated support devices such as a support arm which can then be secured to a surface such that the flat-screen monitor is held above or in front of the surface.
Support systems for monitors are known which allow for movement in three dimensions of the head, mount or bracket on which the monitor is mounted. This is so as to allow for a full range of adjustment of the monitor. GB 2 438 581 and U.S. Pat. No. 7,438,269 both disclose mounts or brackets including an arcuate connection which allows a monitor to be pivoted about a substantially horizontal virtual pivot axis. In U.S. Pat. No. 7,438,269, the virtual pivot axis passes through the centre of gravity of a monitor or display so as to reduce the forces necessary to hold the mount in place at a selected position on the arcuate connection.
In order to allow for adjustment about a substantially vertical axis (or an axis orthogonal to the axis of the arcuate connection), known arrangements such as those disclosed in GB 2 438 581 and U.S. Pat. No. 7,438,269 have a second pivoting mechanism entirely separate from the first. The second pivot is a separate vertical rod-like element defining a vertical axis. This second pivot is distinct and separated from the pivot of the arcuate connector.
These prior art arrangements require two separate and distinct pivot arrangements. They are therefore relatively complicated and expensive to build, have two pivots (and therefore more moving parts) which can fail and are relatively unsightly.
Support systems for monitors comprising an articulated arm arrangement for raising and lowering a monitor are known with tiltable mount or bracket mechanisms which keep the monitor in the same plane as the arm moves up and down. The known arrangements such as those disclosed in US 2004/0245419 have a four bar linkage or parallelogram arrangement in which there is a second link or arm below (or above) and parallel to the main support arm and pivotally coupled to the tiltable mount or bracket on which a monitor is mounted. The second link or arm is pivotally coupled to the mount or bracket below (or above) the pivot between the main support arm and the mount, and also pivotally coupled to the base or support element to which the other end of the main support arm is pivotally coupled at a point below (or above) the pivot between the main support arm and the base or support element. The main support arm and the second link arm are parallel to each other and the linkage (which can be considered to be a line drawn between) the pairs of pivots on each of the base element and mount are also parallel to each other.
This parallelogram four-bar linkage means that as the support arm is moved up and down the linkage between the two pivots on the tilt mount remains in the same plane parallel to the linkage between the two pivots on the base element.
A disadvantage of the known four-bar parallelogram linkage arrangements is the need to provide a second link parallel to and separate from the support arm. Such arrangements therefore must have a second visible (and therefore unsightly) link or arm parallel to the main support arm. Alternatively, such parallelogram arrangements have a large deep casing which can house the main support arm, the second parallel link and the space therebetween. This is bulky and therefore also unsightly.
Another problem with articulated support arms for loads such as monitors or display devices which move up and down as they pivot about a horizontal axis, is the varying torque created by the constant weight of the monitor applied about the horizontal axis. As the arm moves up and down the distance from the load at the end of the support arm to the other end of the support arm and the pivot between the support arm and its base varies.
In order to oppose this varying torque it is known (see, for example, US 2004/0245419) to provide a compression spring which provides a variable force to create a torque to oppose and match the torque created by the weight of the load. The spring is subject to a cam arrangement which controls the degree of compression of the spring and hence the force it applies. Cam arrangements of the type disclosed in US 2004/0245419 are relatively complex and hence expensive to make.
Another problem with arrangements in which a biased mechanical spring, gas spring or other biasing element provides the force necessary to balance the weight of the monitor is the need to set up or adjust the spring or biasing element when a monitor is placed on it so that the torque provided by the spring closely hatches the torque provided by the weight of the monitor. This is done by a manual adjustment of the spring position of a surface against which the spring rests for a compression or expansion spring, and for a gas spring (which provides a constant force) by adjustment of the orientation and position of the end of the gas spring relative to the monitor mount, monitor and principal longitudinal axis of the support arm (i.e. the geometry of the lines of application of the various forces/torques is adjusted to achieve balance).
The installation technician manually adjusts the position of an end of the spring using trial and error until the torque provided by the weight of the monitor is balanced by the torque from the spring and the monitor can be moved easily and yet remains in position when positioned at a particular elevation by an operator. The process of such manual installation is particularly cumbersome and time consuming when a large number of monitors and support arms are being installed as is often the case when, for example, an office is being fitted out with a number of identical monitors and support arms.
In a first aspect, one embodiment of a support system provides a single simple mechanism which allows adjustment about two orthogonal pivots. This mechanism is easier and cheaper to make than the know arrangements and is aesthetically more pleasing.
In a second aspect, a support system eliminates the need for a second parallel link separated from the first and a vertical separation between the two parallel links. This second aspect therefore allows for a more compact and aesthetically pleasing support arm which keeps its load mount in the same plane as the support arm moves up and down.
In third and fourth aspects, a support system provides alternative arrangements for varying the torque applied to oppose the variations in torque resulting as the support arm is pivoted about a horizontal axis. One embodiment of the third aspect provides a mechanism which allows the variations in torque provided by the support arm as its pivots and which opposes the weight of a load on the support arm to better match the variations in torque provided by the weight as the support arm pivots. The inventors of the subject application are the first to realize that taking the step of moving the proximal force transmission link pivot away from its usual position on the line through the proximal support arm pivot and substantially orthogonal to the longitudinal axis of the support arm when this is at the mid-point of its range of movement about the proximal support arm pivot allows one to better match the shape of the graphs of variation in supporting torque and load weight torque with support arm movement to each other and hence better support a load on the support arm. The inventors are the first to appreciate that the counter-intuitive step of moving away from the essentially symmetrical proximal support arm pivot and proximal force transmission pivot arrangement of the prior art actually allows one to produce a more symmetrical variation in supporting torque to better match load weight torque.
In a fourth aspect, a mechanism reduces undesirable variations in the dimensions, and hence compression or expansion, of the spring. This reduction in the undesirable variations means that the forces produced by the spring as the support arm moves better match the torque required to support a load weight on the distal end of the support arm.
The inventors of the invention described in this application also have appreciated that it possible to significantly reduce the time taken to install a number of identical monitors and support arm arrangements by providing a mechanism for copying or carrying over the adjustment necessary for a first installation to other further installations without the need for further time consuming trial and error based manual adjustment.
In another aspect, one embodiment of a support arm for supporting a load such as a display device includes a balancing mechanism providing a force or torque to balance the weight of a display device on or near a first end of the support arm, an adjustment mechanism to adjust the magnitude of the force or torque provided by the balancing mechanism, and an indicator arrangement on the support arm for providing a visual indication of the magnitude of force or torque provided by the balancing mechanism.
Embodiments of this support arm allow an installation operative to note what adjustment was necessary for a particular support arm and monitor combination and then carry over that noted level of adjustment to further installations of the same pair of support arm and monitor type.
In one embodiment, the balancing mechanism is a resilient member acting against a movable biasing surface and the adjustment mechanism adjusts the position of the biasing surface and thereby alters the force exerted by the resilient member against the biasing surface, and the indicator arrangement indicates the position of the biasing surface. Such an arrangement is easy to construct and operate.
Preferred embodiments of the present invention will now be described, by way of non-limiting example only, with reference to the attached figures. The figures are only for the purposes of explaining and illustrating preferred embodiments of the invention and are not to be construed as limiting the claims. The skilled man will readily and easily envisage alternative embodiments of the invention in its various aspects.
Referring to
Referring to
Referring to
The projecting arms 16 can rotate relative to the motion joint 14 such that the support arm can rotate about horizontal axis X′″. Projecting portions 60 on the inside of the upper arm projections 16 engage a track 61 on the motion joint 14 to allow this relative rotation about axis X′″.
Referring to
As illustrated in
In a particularly preferred embodiment of the invention, the hoop 13 lies on the circumference of a circle whose centre lies at or near the centre of gravity of the monitor or other element being supported on the mounting head. This reduces the magnitude of the frictional force which the bearing surfaces 15 of the motion joint must apply to the hoop in order to hold its position on the hoop. As illustrated in
The mount fixing portion 12 is held in a turntable like portion of the monitor supporting plate 6 such that the monitor supporting plate 6 can rotate relative to the mount fixing portion 12 about axis Z′″ (see
The upper support arm 4 is a two-part metal casting whose two halves 24, 37 are held together by a screw and nut coupling 36, 22 towards the distal end of the upper support arm and a pair of proximal mid-joint button screws 23 which each pass through a pair of holes in the upper end of the mid joint 31 and engage opposite ends of the mid joint pivot pin 29, which defines a proximal support arm pivot, so that the upper support arm 4 can pivot about that mid joint pivot pin 29 and hence about horizontal axis X″ (see
The spring slider 43 has a compression spring 35 (not shown in
Referring to
As shown in
The best orientation for adjustment is as shown in
An installation operative places the monitor and support arm in the position shown in
Referring to
As will be discussed in more detail below, the combination of the support arm outer casing 47 pivotally coupled at its proximal end to the mid-joint 31 and at its distal end to the motion joint 14, combined with the internal slider 43 coupled at its distal end via the front link 21 and at its proximal end via the rear power link 28 means that a monitor supported on the mounting head remains in substantially the same plane as the upper support arm 4 pivots about the mid-joint 31 in the manner shown in
Referring to
As shown in, for example,
As can be seen from
This means that (as shown in
The known arrangements (see
Referring to
In the embodiment of the invention shown in
As shown in
As illustrated in
The placing of the proximal pivot 45 for the rear link at a position forward or distal from the vertical was through the proximal support arm pivot 29 (i.e. forward or distal from an axis through the pivot 29 and orthogonal to the support arm longitudinal axis at the mid-point of the range of movement of the support arm about axis X″ (i.e. position shown in
Referring to
In an alternative embodiment of the invention illustrated in
In the alternative embodiment of
As the upper support arm 4 moves from its uppermost position (
Although the present invention has been described with reference to preferred embodiments, those skilled in the art will recognize that changes may be made in form and detail without departing form the spirit and scope of the invention. As such, it is intended that the foregoing detailed description be regarded as illustrative rather than limiting and that is the appended claims, including all equivalents thereof, which are intended to define the scope of the invention.
Number | Date | Country | Kind |
---|---|---|---|
GB1009680.8 | Jun 2010 | GB | national |
001742438-0001 | Aug 2010 | EM | regional |
001742438-0002 | Aug 2010 | EM | regional |
001742438-0003 | Aug 2010 | EM | regional |
001742438-0004 | Aug 2010 | EM | regional |
001742438-0005 | Aug 2010 | EM | regional |
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DPG, Cygnus Gas Lift Arm (Silver) up to 10kg, 1 page. |
Ergotron, 45-241-026 LX Desk Mount LCD Arm, 3 pages. |
Ergotron, 45-214-026 MX Desk Mount LCD Arm, 2 pages. |
Ergotron, 45-174-300 Neo Flex® LCD Arm, 2 pages. |
Ergotron, 33-310-060 Neo Flex® LCD Stand, 2 pages. |
Hafele UK Ltd., Heavy Duty Spring/Long Arm, 2 pages. |
Humanscale, M2 Articulating Monitor Arm, 1 page. |
Humanscale, M4 Articulating Monitor Arm, 1 page. |
Humanscale, M7 Articulating Monitor Arm, 1 page. |
Innovative Office Products, 7Flex® LCD Arm (24″), 1 page. |
Innovative Office Products, EVO® LCD Arm 5545, 1 page. |
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Colebrookbossonsaunders line drawing and pricing sheet entitled “Two sets of Whshbone arm on 400mm post,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Daisyone arms on 500 mm post,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Wishbone Rotation arms on 400 mm post with Back to back bracket,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Zorro arms on 300mm post with Back to back bracket,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Gissele gas lift arms on 200mm post with Back to back bracket,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Two sets of Rodney arm,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Wishbone arms mounted to 1000mm toolbar on 400mm posts,” dated May 17, 2010, 1 page. |
Colebrookbossonsaunders line drawing and pricing sheet entitled “Wishbone Plus on 500mm post with SP1320 dual monitor mount,” dated May 17, 2010, 1 page. |
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Number | Date | Country | |
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20110303805 A1 | Dec 2011 | US |