A force sensor includes a support member, a force receiving member to be displaced with respect to the support member by an action of an external force, and a strain generating member having a scale holding portion and an elastic connection portion connecting the support member and the force receiving member. The force sensor further includes scales each serving as a detection target object and disposed on the elastic connection portion and the scale holding portion, and displacement detection elements mounted on a sensor substrate of the support member to face the scales in a one-to-one correspondence to detect movements of the scales. The force receiving member includes metal, and the strain generating member includes resin.

A force sensor includes a support member, a force receiving member to be displaced with respect to the support member by an action of an external force, and a strain generating member having a scale holding portion and an elastic connection portion connecting the support member and the force receiving member. The force sensor further includes scales each serving as a detection target object and disposed on the elastic connection portion and the scale holding portion, and displacement detection elements mounted on a sensor substrate of the support member to face the scales in a one-to-one correspondence to detect movements of the scales. The force receiving member includes metal, and the strain generating member includes resin.

The invention relates to a force sensor 100 that detects a force acting from the outside, and provides the force sensor 100 whose reduction in size and cost can be achieved. The force sensor 100 includes a support member 20, a force receiving member 4 that is displaced with respect to the support member 20 by the action of an external force, an elastic connection member 5 connecting the support member 20 and the force receiving member 4, scales 8a to 8d, which are detection target object bodies, disposed at the elastic connection member 5, displacement detection elements 9a to 9d that are mounted on the sensor substrate 7 composing the support member 20 so as to face the scales 8a to 8d in a one-to-one manner, and that detect movements of the scales 8a to 8d.

The invention relates to a force sensor 100 that detects a force acting from the outside, and provides the force sensor 100 whose reduction in size and cost can be achieved. The force sensor 100 includes a support member 20, a force receiving member 4 that is displaced with respect to the support member 20 by the action of an external force, an elastic connection member 5 connecting the support member 20 and the force receiving member 4, scales 8a to 8d, which are detection target object bodies, disposed at the elastic connection member 5, displacement detection elements 9a to 9d that are mounted on the sensor substrate 7 composing the support member 20 so as to face the scales 8a to 8d in a one-to-one manner, and that detect movements of the scales 8a to 8d.

A force sensor that quantitatively detects an external force. The force sensor comprises a base unit, a displacement unit displacing by an external force, a first displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a first direction, and a second displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a second direction. Among four quadrants divided by two straight lines along each of the first direction and the second direction wherein, the straight lines passing through a midpoint of the two sets of sensors composing the first displacement sensor pair, the two sets of sensors composing the second displacement sensor pair are respectively disposed in two quadrants in which the two sets of sensors composing the first displacement sensor pair are respectively disposed.

A force sensor that quantitatively detects an external force. The force sensor comprises a base unit, a displacement unit displacing by an external force, a first displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a first direction, and a second displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a second direction. Among four quadrants divided by two straight lines along each of the first direction and the second direction wherein, the straight lines passing through a midpoint of the two sets of sensors composing the first displacement sensor pair, the two sets of sensors composing the second displacement sensor pair are respectively disposed in two quadrants in which the two sets of sensors composing the first displacement sensor pair are respectively disposed.

A force sensor includes a frame and an oscillation structure which has arms and can oscillate freely in the frame. The arms are fixed to suspension frame regions and run transverse to one another at least in sections. At least one conductor extends along at least two arms. An AC voltage can be applied to the at least one conductor to excite at least one oscillation mode of the oscillation structure with a resonant frequency using Lorentz force. The force sensor is designed such that the suspension regions are at least partially spatially displaced relative to one another when a force is applied to the frame, that the magnitude of the spatial displacement of the suspension regions depends on the magnitude of the force, and that the spatial displacement of the suspension regions causes detuning of the resonant frequency, the magnitude of which depends on the spatial displacement magnitude.

This invention relates to force/torque sensor and more particularly to multi-axis force/torque sensor and the methods of use for directly teaching a task to a mechatronic manipulator. The force/torque sensor has a casing, an outer frame forming part of or connected to the casing, an inner frame forming part of or connected to the casing, a compliant member connecting the outer frame to the inner frame, and one or more measurement elements mounted in the casing for measuring compliance of the compliant member when a force or torque is applied between the outer frame and the inner frame.

The invention provides a sensor assembly for force sensing, the sensor assembly comprising: a first portion having a first and a second through hole, a second portion having a third and fourth through hole, and a first pin and a second pin coupling the first portion to the second portion. At least one out of the first and the second pin comprises a magnetoelastic based sensor for outputting a signal corresponding to a stress-induced magnetic flux emanating from a magnetically polarized region of the pin. The magnetoelastic based sensor comprises at least one direction sensitive magnetic field sensor in an at least partially hollow portion of the pin, which field sensor is configured for determination of a shear force in at least one direction. The invention further provides a tow coupling comprising the sensor assembly. The invention further provides a method for detecting a load.

A pneumatic-based tactile sensor according to an exemplary embodiment of the present invention includes: a tactile sense transmitting pneumatic unit for generating pneumatic pressure by an external load applied to a first side; and a tactile sense receiving sensor unit for measuring the load by transforming a magnitude of pneumatic pressure of the tactile sense transmitting pneumatic unit into a displacement.