Force sensor assembly
First Claim
1. An apparatus for measuring the weight of a seat occupant, the apparatus of the type comprising:
- a seat cushion;
a seat frame;
a load support structure positioned between the seat cushion and the seat frame;
a force sensor assembly mounted in a load transmitting manner within the load support structure;
the improvement comprising;
the force sensor assembly having a body, wherein portions of the body define a cavity within which a pressure transducer is positioned, an integrated circuit connected to the pressure transducer and a quantity of pressure transmitting fluid or gel covering the integrated circuit and pressure transducer within the cavity, a plurality of leads passing through the housing into the cavity wherein each lead is electrically isolated from the housing; and
a load transmitting member extending upwardly from the force sensor to engage in load supporting relation with the load support structure, the load transmitting member engaged with the fluid or gel so that a fluid pressure develops within the fluid or gel which is proportional to a load supported by the load transmitting member.
6 Assignments
0 Petitions
Accused Products
Abstract
Several force sensor assemblies are disposed within a vehicle seat to determine seat loading and assist in safety device activation. Each force sensor assembly has a sealed body filled with a liquid or a gel. A pressure transducer, together with a supporting integrated circuit, is positioned to respond to the pressure of the liquid or gel. Loads are applied to the pressure transducer through the gel by a piston riding within the body. Compressive loads are thereby transformed into a pressure on the sensor and its support electronics, resulting in a low cost, accurate, and durable sensor. The sensor functions well for relatively low loads of less than a few hundred pounds.
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Citations
24 Claims
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1. An apparatus for measuring the weight of a seat occupant, the apparatus of the type comprising:
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a seat cushion; a seat frame; a load support structure positioned between the seat cushion and the seat frame; a force sensor assembly mounted in a load transmitting manner within the load support structure;
the improvement comprising;the force sensor assembly having a body, wherein portions of the body define a cavity within which a pressure transducer is positioned, an integrated circuit connected to the pressure transducer and a quantity of pressure transmitting fluid or gel covering the integrated circuit and pressure transducer within the cavity, a plurality of leads passing through the housing into the cavity wherein each lead is electrically isolated from the housing; and a load transmitting member extending upwardly from the force sensor to engage in load supporting relation with the load support structure, the load transmitting member engaged with the fluid or gel so that a fluid pressure develops within the fluid or gel which is proportional to a load supported by the load transmitting member. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A force sensor assembly comprising:
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a body, the body defining a cylindrical cavity open on a first end; portions of the body forming a member which extends across the cylindrical cavity and forms a bottom to the cylindrical cavity, the member having a first side facing the first end; portions of the member defining a plurality of holes which extend through the member; an electrically conducting lead positioned within each of the plurality of holes, wherein each lead is electrically isolated from and sealed to the member; a pressure transducer mounted to the member on the first side, the pressure transducer electrically connected to at least one of said plurality of leads; portions of the body defining a circumferential groove spaced from the member; an elastomeric member filling the circumferential groove and creating a sealed cavity formed by the body, the member and the elastomeric member; a quantity of low shear modulus, substantially incompressible, material filling the sealed cavity; and
a load supporting member engaged with the elastomeric member and extending along the cylindrical cavity, wherein a load applied to the load supporting member is transmitted through the elastomeric member and generates a pressure within the substantially incompressible material which can be measured by the pressure sensor. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A method of constructing a force sensor assembly comprising the steps of:
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forming a body having a generally cylindrical shape and having a cylindrical cavity formed therein coaxial with the body, a portion of the body forming a disk which each extends across the cylindrical cavity; forming a plurality of holes in the metal disk; sealing a metal lead within each hole; positioning a pressure sensor on a surface formed by the disk; electrically connecting the pressure sensor to at least one of said metal leads; placing liquid silicone in the cylindrical cavity; catalyzing the silicone to form a gel; placing an elastomeric substance on top of the gel and sealing the gel between the elastomeric substance and the disk; curing the elastomeric substance to form an elastomeric seal; and bonding a load supporting member onto the elastomeric seal. - View Dependent Claims (16)
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17. A force sensor assembly comprising:
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a body having a generally cylindrical shape, the body defining a coaxial generally cylindrical cavity formed therein, the cavity defining a first radius, the cylindrical shape of the body defining a top and a bottom; portions of the body adjacent the top extending radially inwardly to form a portion of the cylindrical cavity with a second radius smaller than the first radius; a load transmitting member having a generally cylindrical shape positioned substantially within the cylindrical cavity and having a portion extending through the portions of the body extending radially inward to form the portion of the cylindrical cavity with the second radius; an elastomeric hat-shaped seal positioned below the load transmitting member, the hat-shaped seal having a top, a cylindrical side and a brim, the brim opening downwardly and forming a seal with a disk; a ring engaged with the body and positioned below the disk, the ring locking the disk against the brim. - View Dependent Claims (18, 19, 20)
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21. A force sensor assembly comprising:
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a body, the body defining a cylindrical cavity open on a first end; portions of the body forming a member which extends across the cylindrical cavity and forms a bottom to the cylindrical cavity, the member having a side facing the first end; portions of the member defining a plurality of holes which extend through the member; an electrically conducting lead positioned within each of the plurality of holes, wherein each lead is electrically isolated from and sealed to the member; a pressure transducer mounted to the side of the member facing the first end of the cylindrical cavity, the pressure transducer electrically connected to at least one of said plurality of leads; portions of the body defining a circumferential groove external to the cylindrical cavity; a sealing disk joined to the body and creating a sealed cavity formed by the body, the member and the sealing disk; a quantity of low shear modulus, substantially incompressible, material filling the sealed cavity; and a load supporting member engaged with the sealing disk and and positioned over the cylindrical cavity; a retaining cap overlying the first end having portions defining a cylindrical sleeve, the retaining cap being attached to the body portions of the cylindrical sleeve engaging with the circumferential groove and retaining the load supporting member positioned about the cylindrical cavity; and wherein a load applied to the load supporting member is transmitted through the sealing disk and generates a pressure within the substantially incompressible material which can be measured by the pressure sensor. - View Dependent Claims (22, 23, 24)
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Specification