Analyzer, and method of detection liquid level in an analyzer

What is claimed is: 1. An analyzer comprising: a reagent installation section in which a container is installable, the container being storable of a liquid inside; an aspirating tube operable to travel up-and-down in the container to aspirate the liquid from the container installed in the reagent installation section; a drive part configured to drive the aspirating tube to travel up-and-down in the container; a detector configured to detect a change of a physical property of the aspirating tube attributable to an interaction between the aspirating tube and environmental objects surrounding the aspirating tube; and a controller programmed to operate the drive part to drive the aspirating tube to travel up-and-down and read detection signals from the detector during descending or ascending of the aspirating tube, the controller having a memory configured to that stores first detection signals obtained from the detector during a first operation including descending or ascending the aspirating tube in an environment exclusive of the liquid, the controller further programmed to: perform a second operation for operating the drive part to drive the aspirating tube to descend inside the container containing the liquid; subtracting the first detection signals from second detection signals from the detector during the second operation, and identify a change of the second detection signals attributable to a contact of the aspirating tube with a surface of the liquid in the container to detect a liquid level of the liquid position in the container. 2. The analyzer of claim 1 , wherein the controller is programmed to perform the first operation, the first operation including: operating the drive part to drive the aspirating tube to descending or ascending; and obtaining the first detection signals from the detector. 3. The analyzer of claim 1 , wherein the controller is programmed to: compare a difference between the second detection signals and the first detection signals with a first predetermined threshold; and upon a determination that the difference exceeds the first predetermined threshold, identify a change in the second detection signals as the change attributable to a contact of the aspirating tube with the surface of the liquid in the container. 4. The analyzer of claim 3 , further comprising a position sensor configured to detect height positions of the aspirating tube while the aspirating tube is descending or ascending, wherein the controller is programmed to: find a first detection signal, which is derived at a height position of the aspirating tube detected by the position sensor at which the second detection signal is obtained; and determine the level of the liquid in the container from a height position of the aspirating tube detected by the position sensor at which the difference between the second detection signal and the first detection signal exceeds the first predetermined threshold. 5. The analyzer of claim 4 , wherein the memory is storable of a range of an estimated level of the liquid, and the controller is programmed to identify a change of the second detection signal as the change attributable to a contact of the aspirating tube with the surface of the liquid in the container only when the change occurs within the range of estimated level. 6. The analyzer of claim 5 , further comprising a washer configured to wash a length from a tip of the aspirating tube wherein the controller is programmed to operate the washer to: wash the aspirating tube at a first length subsequent to a determination by the controller that the difference between the second detection signal and the first detection signal exceeds the first predetermined threshold outside the range of estimated level of the liquid; and wash the aspirating tube at a second length subsequent to a determination by the controller that the difference between the second detection signal and the first detection signal exceeds the first predetermined threshold within the range of estimated level of the liquid, wherein the first length is longer than the second. 7. The analyzer of claim 6 , further comprising a display, wherein the controller is programmed to show bubble detection information on the display responsive to a determination by the controller that the difference between the second detection signal and the first detection signal exceeds the first predetermined threshold outside the range of estimated level of the liquid. 8. The analyzer of claim 5 , wherein the controller is further programmed to perform a third operation for: operating the drive part to drive the aspirating tube to ascend inside the container; and subtract the first detection signals from third detection signals obtained form the detector during the third operation, and identify a change of the third detection signals attributable to a separation of the aspirating tube from the surface of the liquid in the container. 9. The analyzer of claim 8 , wherein the controller is programmed to: compare a difference between the third detection signal and the first detection signal with a second predetermined threshold; and upon a determination that the difference between the third detection signal and the first detection signal exceeds the second predetermined threshold, identify a change of the third detection signal as the change attributable to a separation of the aspirating tube from the surface of the liquid in the container. 10. The analyzer of claim 9 , wherein the position sensor is configured to detect a height position of the aspirating tube while the aspirating tube is ascending, and the controller is programmed to: find the first detection signal, which is obtained at a height position of the aspirating tube detected by the position sensor at which the third detection signal is obtained; determine the level of the liquid in the container from a height position of the aspirating tube detected by the position sensor at which a difference between the third detection signal and the first detection signal exceeds the second predetermined threshold; and derive the range of estimated level of the liquid from the determined level. 11. The analyzer of claim 1 , wherein the controller is programmed to perform the first operation when the container is empty of the liquid or contains the liquid below a dead volume. 12. The analyzer of claim 2 , wherein the controller is programmed to perforin the first operation each time the analyzer is switched on. 13. The analyzer of claim 2 , wherein the controller is programmed to perform the first detection each time the container becomes empty or the liquid in the container becomes below a dead volume. 14. The analyzer of claim 1 , wherein the controller is programmed to compare latest first detection signals stored in the memory with previously obtained first detection signals stored in the memory and warn a user in response to a determination by the controller that a difference between the latest first detection signals the previously obtained first detection signals exceeds a third threshold value. 15. The analyzer of claim 1 , comprising a plurality of aspirating tubes including the aspirating tube, and the controller is programmed to store in the memory the first detection signals relation to each aspirating tube. 16. The analyzer of claim 1 , comprising a container containing a liquid installed in the reagent installation section, wherein the liquid is either a sample supplied to the analyzer, or a reagent used in analysis of the sample by the analyzer. 17. The analyzer