Tactile sensor and multi-axial tactile sensor

The invention claimed is: 1. A tactile sensor comprising: a sensor element provided in a plane substantially at the same level as a surface of a substrate, and an outer package member covering around the sensor element and transmitting external force to the sensor element, wherein the substrate has a hole in a rectangular shape, the sensor element includes: a flexible doubly-supported beam stretched between one side and the other side of the hole facing each other and having both ends supported by the substrate; or a flexible cantilever having one end supported by the substrate so as to extend from the one side toward the other side of the hole opposite to the one side, the outer package member covers a top surface, a surface opposite to the top surface and side surfaces opposite to each other of the doubly-supported beam or the cantilever, and the sensor element detects deformation of the doubly-supported beam or the cantilever, the deformation being caused in a direction in parallel with the surface of the substrate. 2. The tactile sensor according to claim 1 , wherein the doubly-supported beam or the cantilever includes a deformation section with a resistive layer formed on the surface of the beam, the surface being extended or compressed to be deformed by the external force. 3. The tactile sensor according to claim 2 , wherein the deformation section includes: a first deformation section having a first resistive layer formed on a surface of the first deformation section, the surface being extended or compressed to be deformed by the external force; and a second deformation section having a second resistive layer formed on a surface of the second deformation section, the surface being compressed or extended to be deformed by the external force in the direction opposite to the deformation of the first deformation section, and a voltage corresponding to a ratio between a resistance value of the first resistive layer and a resistance value of the second resistive layer is measured. 4. The tactile sensor according to claim 3 , wherein the doubly-supported beam or the cantilever includes a conductive layer formed at a central portion on the top surface of the doubly-supported beam or the cantilever so as to be conductive to the first and second resistive layers. 5. The tactile sensor according to claim 3 , wherein the first and second deformation sections of the doubly-supported beam or the cantilever are formed to be thinner than the other portions of the doubly-supported beam or the cantilever. 6. The tactile sensor according to claim 3 , wherein one of the first and second resistive layers is configured by a layer having a fixed resistance value. 7. The tactile sensor according to claim 1 , wherein a surface of the outer package member facing the surface of the substrate is formed substantially in parallel with the surface of the substrate. 8. The tactile sensor according to claim 1 , wherein the outer package member includes a filling section covering around the sensor element, and a surface section covering the surface of the filling section and made of a material having an elastic modulus different from the elastic modulus of the filling section. 9. The tactile sensor according to claim 1 , wherein the outer package member includes a first filling section covering around the sensor element, and a second filling section made of a material having a bulk modulus different from the bulk modulus of the first filling section. 10. The tactile sensor according to claim 7 , wherein the doubly-supported beam or the cantilever of the sensor element is deformed by shearing force applied to the surface of the outer package member. 11. The tactile sensor according to claim 3 , wherein the sensor element includes two doubly-supported beams arranged in parallel with each other and horizontally with respect to the substrate, one of the doubly-supported beams is provided with the first deformation section, and the other of the doubly-supported beams is provided with the second deformation section, and the first and second deformation sections are extended or compressed to be deformed by shearing force applied to the surface of the outer package member. 12. The tactile sensor according to claim 3 , wherein the sensor element includes three cantilevers arranged in parallel with each other and horizontally with respect to the substrate, and the sensor element includes a connection section connecting ends of the cantilevers to each other, one of two cantilevers of the three cantilevers arranged on outer sides is provided with the first deformation section, and the other of the two cantilevers of the three cantilevers arranged on the outer sides is provided with the second deformation section, and the first and second deformation sections are extended or compressed to be deformed by shearing force applied to the surface of the outer package member. 13. A multi-axial tactile sensor comprising a plurality of sensor elements provided in a plane substantially at the same level as the surface of a substrate, and an outer package member covering around the sensor elements and transmitting external force to the sensor elements, wherein the substrate has a hole in a rectangular shape, the sensor elements each include: a flexible doubly-supported beam stretched between one side and the other side of the hole facing each other and having both ends supported by the substrate; or a flexible cantilever having one end supported by the substrate so as to extend from the one side toward the other side of the hole opposite to the one side, the outer package member covers a top surface, a surface opposite to the top surface and side surfaces opposite to each other of the doubly-supported beam or the cantilever, and the sensor elements detect deformation of the doubly-supported beam or the cantilever, the deformation being caused in the direction in parallel with the surface of the substrate.