Weighing scales – Self-positioning – Electrical current generating or modifying
Patent
1984-09-04
1987-09-08
Miller, Jr., George H.
Weighing scales
Self-positioning
Electrical current generating or modifying
177255, 177DIG9, G01G 314, G01G 2124
Patent
active
046917942
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
This invention generally relates to weight scales and, more particularly, to electronic weight scales and strain gauge assemblies used therein.
Electronic weight scales are well known which employ strain gauges that are attached to a flexible member. Compression or stretching of the strain gauge during flexing of the member causes it to produce a voltage which is related to the load, or weight, causing the member to flex. This voltage is then amplified and applied to an LED or other suitable display for visually indicating the weight placed on the scale.
In particular, it is known to employ an elongate flexible, cantilevered beam which is tightly secured to a rigid frame at one end and which receives a load intermediate the secured end and its distal end that causes it to flex and thereby energize a strain gauge attached thereto. In order to prevent excessive flexing, it is often necessary to provide the flexible, cantilevered beam with a substantial thickness which prevents incorporating it in a scale of desirable low profile. Customarily, the load is applied to the beam at a single fixed point spaced a substantial relative distance from the fixed end which defines a single movement arm. The precise length of this movement arm is critical for accurate measurement but is difficult to achieve. In addition, non-linearity in the relationship between the load and amount of resultant flexing is caused by the flexing. As the beam flexes more, an increasing large component of the load force becomes directed along the length of the beam instead of transverse to the beam. Further, since the force is applied to only one point on the beam, uniform distribution of the load to this one point is difficult to achieve.
An electronic scale is known which alleviates some of these problems but which has other disadvantages. In this electronic scale, the ends of an elongate flexible member with a strain gauge are torqued, or rotated, in opposite direction to cause the intermediate portion of an elongate flexible member to flex downwardly in response to a load. The ends pass through slots through intermediate portions of elongate, load distribution arms which are caused to twist about their elongate axis in response to a load. These arms are supported on one side by knife edge supports and receive loads at their other sides through knife edge load transmission members to cause them to twist and thus apply a torque to the ends of the flexible member at the edges of the slots.
This approach may enable a lower profile than the cantilevered structure noted above and achieves a certain degree of load distribution by virtue of the spaced, elongate arms. However, position of the flexible member relative to the edges of the slots in the arms is not fixed and non-linearities are still introduced. Such non-linearities are introduced in part because of high friction sliding movement between the arms and the flexible member which resist flexing to an increasing degree with increasing loads. In addition, the flexing of the member causes apparent foreshortening between the load points which introduces further non-linearities.
A further problem with known weight scales is that only the scale housing protectively encloses the relatively fragile strain gauges. Accordingly, the strain gauges are relatively unprotected prior to assembly or during repair when the housing is removed. In addition, known scales are constructed in a way which does not facilitate substantial sub-assembly of modular units and the cost reducing advantages resultant therefrom.
SUMMARY OF THE INVENTION
It is therefore a principal object of the present invention to provide weight scales and strain gauge assemblies which solve or alleviate the problems and disadvantages of known electronic scales and strain gauge assemblies.
In keeping with this objective, a weight scale having a housing and a display responsive to a strain gauge signal for visually indicating weight measured by the scale is provided with an improved strain gauge assembly com
REFERENCES:
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patent: 2899191 (1959-08-01), Hunt
patent: 4225002 (1980-09-01), Soderholm
patent: 4281727 (1981-08-01), Meeks
patent: 4411327 (1983-10-01), Lockery et al.
patent: 4457385 (1984-07-01), Provi
patent: 4483404 (1984-11-01), Weihs
patent: 4580645 (1986-04-01), Shoberg
patent: 4581948 (1986-04-01), Reichow
Hogel Joseph E.
Larsen Larry D.
Leung Wing K.
Yung Richard C. S.
Fyrnetics, Inc.
Miller Jr. George H.
Potthast James W.
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