Full bridge strain gage deflection sensor
First Claim
1. A deflection sensor, comprising:
- a flexible housing;
means, connected to one end of said housing, for connecting said housing to a support;
a strain gage, disposed within said housing and comprising;
a circuit board;
first, second, third and fourth strain gage elements disposed on a side of said circuit board and interconnected as a full resistance bridge; and
an amplifier circuit disposed on said circuit board and connected to said bridge, for amplifying a differential voltage from said bridge corresponding to a flexure of said circuit board; and
wherein said first and second strain gage elements have more of their length than that of said third and fourth strain gage elements in a first common direction and are connected in said bridge to oppose one another;
and wherein said third and fourth elements have more of their length than that of said first and second strain gage elements in a second common direction perpendicular to said first common direction and are connected in said bridge to oppose one another; and
means, connected to an opposing end of said housing, for connecting said housing to a taut wire, and wherein said means for connecting said housing to a taut wire comprises;
a threaded bolt extending from said housing and including a slot for receiving said taut wire; and
a nut for engaging said threaded bolt and securing said taut wire thereto.
3 Assignments
0 Petitions
Accused Products
Abstract
A taut wire perimeter fence intrusion detection system is disclosed. The taut wire deflection sensors in the system each include a flexible housing into which is disposed a full resistance bridge having strain gages for each leg. Opposing strain gages in the bridge circuit have predominant directions in common directions. The strain gages are formed directly onto a printed circuit board. An amplifier circuit is also mounted onto the circuit board, for amplifying the differential bridge voltage from the bridge. The taut wire is connected to the housing, for example by way of a slotted bolt and nut, so that horizontal deflection of the taut wire creates strain on the circuit board which is sensed by the strain gage bridge, amplified by the amplifier, and communicated to a data processing system which generates the appropriate alarm condition.
41 Citations
20 Claims
-
1. A deflection sensor, comprising:
-
a flexible housing; means, connected to one end of said housing, for connecting said housing to a support; a strain gage, disposed within said housing and comprising; a circuit board; first, second, third and fourth strain gage elements disposed on a side of said circuit board and interconnected as a full resistance bridge; and an amplifier circuit disposed on said circuit board and connected to said bridge, for amplifying a differential voltage from said bridge corresponding to a flexure of said circuit board; and wherein said first and second strain gage elements have more of their length than that of said third and fourth strain gage elements in a first common direction and are connected in said bridge to oppose one another; and wherein said third and fourth elements have more of their length than that of said first and second strain gage elements in a second common direction perpendicular to said first common direction and are connected in said bridge to oppose one another; and means, connected to an opposing end of said housing, for connecting said housing to a taut wire, and wherein said means for connecting said housing to a taut wire comprises; a threaded bolt extending from said housing and including a slot for receiving said taut wire; and a nut for engaging said threaded bolt and securing said taut wire thereto. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A system for detecting intrusion into an area having a perimeter fence, comprising:
-
a support post; a fence member; a sensor connected to said support post and to said fence member, said sensor comprising; a flexible housing; a strain gage disposed within said housing, comprising; a circuit board; a first pair of strain gage resistive elements disposed on said circuit board, wherein current flows through each of said first pair of strain gage elements predominantly in a first common direction; a second pair of strain gage resistive elements disposed on said circuit board, wherein current flows through each of said second pair of strain gage elements predominantly in a second common direction oriented perpendicularly to said first common direction; wherein said first pair of strain gage resistive elements have more of their length than that of said second pair of strain gage resistive elements in said first common direction and are connected in a full bridge to oppose one another; and wherein said second pair of strain gage resistive elements have more of their length than that of said first pair of strain gage resistive elements in said second common direction perpendicular to said first common direction and are connected in said full bridge to oppose one another; and an amplifier circuit disposed on said circuit board for receiving a differential voltage from said pairs of strain gage elements corresponding to flexure of said circuit board, amplifying the differential voltage to generate an amplified differential voltage, and presenting the amplified differential voltage at an output; and a data processing system, coupled to the output of said amplifier circuit and receiving the amplified differential voltage, for determining the flexure and determining the direction of the flexure and for indicating an alarm condition responsive to said amplified differential voltage exceeding a limit. - View Dependent Claims (9, 10, 11, 12, 13)
-
-
14. A strain gage assembly, comprising:
-
a circuit board; first, second, third and fourth resistance elements, each formed of metallization printed directly onto said circuit board, said first, second, third and fourth resistance elements interconnected with one another to form a bridge circuit; wherein said first and third resistance elements oppose one another in said bridge circuit and have more of their length than that of said second and fourth resistive elements in a first common direction; and wherein said second and fourth resistance elements oppose one another in said bridge circuit and have more of their length than that of said first and third resistive elements in a second common direction, such that the flexure of the circuit board in a first direction generates an output of the bridge circuit having a first polarity and flexure of the circuit board in a second direction generates an output of the bridge circuit having a second polarity. - View Dependent Claims (15, 16, 17, 18)
-
-
19. A deflection sensor, comprising:
-
a flexible housing; means, connected to one end of said housing, for connecting said housing to a support; a strain gage, disposed within said housing and comprising; a circuit board; first, second, third and fourth strain gage elements disposed on a side of said circuit board and interconnected as a full resistance bridge; and an amplifier circuit disposed on said circuit board and connected to said bridge, for amplifying a differential voltage from said bridge corresponding to a flexure of said circuit board; and wherein said first and second strain gage elements have more of their length than that of said third and fourth strain gage elements in a first common direction and are connected in said bridge to oppose one another, wherein said first common direction is horizontal; and wherein said third and fourth elements have more of their length than that of said first and second strain gage elements in a second common direction perpendicular to said first common direction and are connected in said bridge to oppose one another; wherein said circuit board is oriented vertically within said housing, so that the flexure of said circuit board in a first direction results in a differential voltage of a first polarity, and so that the flexure of said circuit board in a second direction results in a differential voltage of a second polarity.
-
-
20. A deflection sensor, comprising:
-
a flexible housing; means, connected to one end of said housing, for connecting said housing to a support; a strain gage, disposed within said housing and comprising; a circuit board; first, second, third and fourth strain gage elements disposed on a side of said circuit board and interconnected as a full resistance bridge, wherein said first, second, third and fourth elements each comprise conductors in a serpentine pattern printed directly onto said circuit board; and an amplifier circuit disposed on said circuit board and connected to said bridge, for amplifying a differential voltage from said bridge corresponding to a flexure of said circuit board; and wherein said first and second strain gage elements have more of their length than that of said third and fourth strain gage elements in a first common direction and are connected in said bridge to oppose one another; and wherein said third and fourth elements have more of their length than that of said first and second strain gage elements in a second common direction perpendicular to said first common direction and are connected in said bridge to oppose one another.
-
Specification