Vibration detector and method

The invention claimed is: 1. A vibration detector comprising: a first support member arranged to vibrate; and a first sensor arranged to detect a first vibration frequency of the first support member, the first vibration frequency to be detected being dependent on the first support member's mechanical structure; wherein the first support member's mechanical structure is mechanically reconfigurable to vary the first vibration frequency to be detected by the sensor; and wherein the vibration detector further comprises a second support member arranged in a different orientation as the first support member, and a second sensor arranged to detect a second vibration frequency of the second support member, the first vibration frequency includes frequency caused by horizontal vibration and the second vibration frequency includes frequency caused by vertical vibration. 2. The vibration detector of claim 1 , further comprising means for varying the mass of the first support member. 3. The vibration detector of claim 2 , further comprising attachment means for selectively attaching a plurality of predefined mass to the first support member for varying the mass. 4. The vibration detector of claim 1 , wherein the first support member includes two plates movable relative to each other to adjust the first support member's stiffness to vary the first vibration frequency. 5. The vibration detector of claim 4 , further comprising an attachment device coupled to one of the plates, and a guide slot arranged to guide movement of the attachment device to create the relative movement between the two plates. 6. The vibration detector of claim 5 , wherein the attachment device is replaceable by another attachment device of a different size to adjust the support member's stiffness. 7. The vibration detector of claim 5 , wherein the attachment device includes a bracket. 8. The vibration detector of claim 1 , wherein the first sensor is reconfigurable to adjust the support member's stiffness. 9. The vibration detector of claim 8 , wherein the first sensor is reconfigurable by being replaceable with another sensor of a different size and/or thickness. 10. The vibration detector of claim 1 , further comprising a third support member arranged in a same orientation as the first support member, and a third sensor arranged to detect a third vibration frequency different from the first vibration frequency of the sensor. 11. The vibration detector of claim 1 , wherein the vibration detector is a seismic wave detector. 12. A vibration detector comprising: a plurality of slot members arranged to receive a respective one of a plurality of support members and which enables the support members to vibrate, each support member having a sensor arranged to detect the vibration frequency of the support member; wherein a first one of the slot members is arranged in a different orientation as a second one of the slot members to respectively receive a first one of the support members in a different orientation as a second one of the support members, the vibration frequency to be detected by the sensor associated with the first one of the support members includes frequency caused by horizontal vibration, and the vibration frequency to be detected by the sensor associated with the second one of the support members includes frequency caused by vertical vibration. 13. A method of varying a vibration frequency of a vibration detector, the method comprises: providing the vibration sensor, the vibration detector including a first support member arranged to vibrate, a first sensor arranged to detect the vibration frequency of the first support member, the first vibration frequency to be detected being dependent on the first support member's mechanical structure, and a second support member arranged in a different orientation as the first support member, and a second sensor arranged to detect a second vibration frequency of the second support member, the first vibration frequency includes frequency caused by horizontal vibration and the second vibration frequency includes frequency caused by vertical vibration; mechanically reconfiguring the first support member to vary the vibration frequency to be detected by the first sensor. 14. The method of claim 13 , further comprises attaching a plurality of predefined mass to the first support member to mechanically reconfigure the first support member to vary the first vibration frequency. 15. The method of claim 13 , wherein the first support member includes two plates arranged to be movable relative to each other, and the method further comprises moving one of the plates to redefine a separating distance therebetween to adjust the first support member's stiffness to vary the first vibration frequency. 16. The method of claim 15 , wherein the vibration detector further includes an attachment device coupled to one of the plates and a guide slot, and the method further includes moving the attachment device along the guide slot to move the plate. 17. The method of claim 13 , further comprises replacing the attachment device with another attachment device of a different size to adjust the first support member's stiffness. 18. The method of claim 13 , further comprises reconfiguring the first sensor to adjust the first support member's stiffness. 19. The method of claim 18 , wherein reconfiguring the first sensor comprises replacing the first sensor with another sensor of a different size and/or thickness. 20. A vibration detector comprising: a support member arranged to vibrate; and a sensor arranged to detect a vibration frequency of the support member, the vibration frequency to be detected being dependent on the support member's mechanical structure; wherein the support member's mechanical structure is mechanically reconfigurable to vary the vibration frequency to be detected by the sensor; wherein the support member includes two plates movable relative to each other to adjust the support member's stiffness to vary the vibration frequency; and wherein the vibration detector further comprises an attachment device coupled to one of the plates, and a guide slot arranged to guide movement of the attachment device to create the relative movement between the two plates, the attachment device being replaceable by another attachment device of a different size to adjust the support member's stiffness. 21. A vibration detector comprising: a support member arranged to vibrate; and a sensor arranged to detect a vibration frequency of the support member, the vibration frequency to be detected being dependent on the support member's mechanical structure; wherein the support member's mechanical structure is mechanically reconfigurable to vary the vibration frequency to be detected by the sensor; and wherein the sensor is reconfigurable to adjust the support member's stiffness. 22. A method of varying a vibration frequency of a vibration detector, the method comprises: providing the vibration detector, the vibration detector including a support member arranged to vibrate, and a sensor arranged to detect the vibration frequency of the support member, the vibration frequency to be detected being dependent on the support member's mechanical structure, the support member including two plates movable relative to each other to adjust the support member's stiffness to vary the vibration frequency, and further comprising an attachment device coupled to one of the plates, and a guide slot arranged to guide mov