Gait cycle force monitor
First Claim
1. A force monitoring system comprising a foot-pad unit and a remote unit whereinthe foot-pad unit comprisesa power source,a tactile force sensor selected from the group consisting of a resistance sensor and a capacitance sensor,means to translate a force applied to the tactile force sensor to a voltage,a comparator circuit having a set point and an amplifier that is activated when the voltage from the force sensor is greater than the set point,a piezo electric annunciator that oscillates at a frequency greater than 22 khz and is driven by the comparator amplifier, anda housing made of a protecting material encasing the tactile force sensor, the means to translate the force, the comparator circuit, and the piezo electric annunciator;
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Accused Products
Abstract
A foot-pad monitor to detect the amount of force translated though a patient'"'"'s heel in each gait cycle is described. The foot-pad has a tactile force sensor, means to translate a force applied to the sensor to a voltage, a comparator circuit and an annunciator. The comparator, which can be analog or micro-processor controlled, has a set point and an amplifier that is activated when the voltage from the sensor exceeds the set point. The piezo-electric annunciator is driven by the amplifier to warn the patient that excessive force is being translated through the heel. In the analog embodiment the reference voltage can be varied by adjusting linearly variable pots. Also described is a remote unit to set the set point limit in the micro-processor controlled embodiment.
51 Citations
9 Claims
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1. A force monitoring system comprising a foot-pad unit and a remote unit wherein
the foot-pad unit comprises a power source, a tactile force sensor selected from the group consisting of a resistance sensor and a capacitance sensor, means to translate a force applied to the tactile force sensor to a voltage, a comparator circuit having a set point and an amplifier that is activated when the voltage from the force sensor is greater than the set point, a piezo electric annunciator that oscillates at a frequency greater than 22 khz and is driven by the comparator amplifier, and a housing made of a protecting material encasing the tactile force sensor, the means to translate the force, the comparator circuit, and the piezo electric annunciator; - and
the remote unit comprises a receiver matched to the frequency of the piezo-electric annunciator, a convertor, a microprocessor, and a visual display wherein the micro processor is programmed to activate the visual display upon receipt of a signal from the piezo-electric annunciator. - View Dependent Claims (2, 3, 4, 8, 9)
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5. A force monitoring system comprising a foot-pad unit and a remote unit wherein
the remote unit comprises a remote unit annunciator that oscillates at a frequency greater than 22 khz, means to set a new set point, and a micro-processor programmed to drive the remote unit annunciator to transmit a new set point to the foot-pad unit; -
the foot-pad unit comprises a power source, a tactile force sensor selected from the group consisting of a resistance sensor and a capacitance sensor, means to translate a force applied to the tactile force sensor to a voltage, a foot-pad piezo-electric annunciator driven by the comparator amplifier, a receiver matched to the frequency of the remote unit annunciator, means to decode a signal received from the remote unit annunciator, a comparator circuit having a set point and an amplifier that is activated when the voltage from the force sensor is greater than the set point, the comparator circuit being an analog-to-digital convertor and a micro-processor programmed both to drive the foot pad piezo electric annunciator when the voltage from the tactile force sensor is greater than the set point and to replace the set point when a new set point is received from the remote unit; and a housing made of a protecting material encasing the tactile force sensor, the means to translate the force, the comparator circuit and the foot-pad piezo electric annunciator;
the receiver, and the means to decode. - View Dependent Claims (6)
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7. A foot-pad unit comprising:
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a power source, a tactile force sensor selected from the group consisting of a resistance sensor and a capacitance sensor, means to translate a force applied to the tactile force sensor to a voltage, a comparator circuit having a set point and an amplifier that is activated when the voltage from the force sensor is greater than the set point, a piezo-electric annunciator driven by the comparator amplifier, and a housing made of a protecting material encasing the tactile force sensor, the means to translate a force, the comparator circuit and the piezo-electric annunciator; wherein the comparator is an analog voltage comparator having a reference circuit and the set point is the voltage of the reference circuit which comprises at least first and second linearly adjustable pots each of which has a dial extending to an external surface of the housing wherein the first linearly adjustable pot has a dynamic range permitting adjustment of the set point from values of five pounds to five hundred pounds and the second linearly adjustable pot has a dynamic range permitting adjustment of the set point in increments of 1 pound.
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Specification
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- Resources
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Current AssigneeHW Technologies, Inc.
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Original AssigneeHW Technologies, Inc.
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InventorsWanderman, Steven M., Bader, Glenn F.
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Primary Examiner(s)SYKES, ANGELA D
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Application NumberUS07/976,549Time in Patent Office1,261 DaysField of Search128/774, 128/779, 128/903-904, 33/3 A, 340/573, 340/626, 73/172, 73/715, 73/723-731US Class Current600/592CPC Class CodesA61B 5/1036 Measuring load distribution...
