Multi-position tolerant contact gauge

The invention claimed is: 1. A shape measuring device comprising: a spindle having an elongate rod-like body and a tip end provided with a contact point brought into contact with an object to be measured; a body case supporting the spindle in such a manner as to move forward and backward in an axial direction; an adjustment unit to adjust measuring force on the spindle provided in the body case and capable of positioning by moving in a direction substantially parallel to a moving direction of the spindle and of thereafter fixed during spindle movement; and a biasing means for biasing the spindle toward the tip end and having one end directly or indirectly engaged with the spindle and the other end directly or indirectly engaged with the adjustment unit, wherein an outer face of the body case or an outer face of the adjustment unit has index values indicating measuring force applied to the spindle by the adjustment unit, wherein the index values are provided corresponding to a posture of the measuring device such that index values are provided for at least two of normal-posture measure force, an inverted-posture, and a lateral-posture, and wherein the body case includes a slide groove of the adjustment unit for adjusting a force level of the adjustment unit and provided in substantially parallel to the moving direction of the spindle, the slide groove includes an engaging groove formed in a direction orthogonal to an axial direction of the slide groove, and the adjustment unit is provided in such a manner as to have a portion slide in the slide groove, includes a key projection engaged with or disengaged from the engaging groove, and is positioned and fixed by engaging the key projection with the engaging groove indicating the posture of the adjustment unit. 2. The measuring device according to claim 1 , wherein the adjustment unit includes: an external thread portion; and a connection supporting member having one end screwed with the external thread portion and the other end coupled to the biasing means, the body case includes a through hole provided in substantially parallel to the moving direction of the spindle, the adjustment unit is disposed in the through hole, and the connection supporting member is screw-fed by rotationally operating the external thread portion in such a manner that a position of the connection supporting member is changed and thereafter fixed. 3. The measuring device according to claim 1 , wherein the index values indicating measuring force applied to the spindle by the adjustment unit are positioned with respect to a hole in the body case such that a mark on the adjustment unit is viewable through the hole and permits indication by the index values. 4. The measuring device according to claim 3 , wherein the index values are provided in a plurality of sequences corresponding to a plurality of posture patterns of the measuring device. 5. The measuring device according to claim 1 , wherein by changing and adjusting the position of the adjustment unit, the measuring force is changed and adjusted. 6. A shape measuring device comprising: a spindle having an elongate rod-like body and a tip end provided with a contact point brought into contact with an object to be measured; a body case supporting the spindle in such a manner as to move forward and backward in an axial direction; an adjustment unit to adjust measuring force on the spindle provided in the body case and capable of positioning by moving in a direction substantially parallel to a moving direction of the spindle and of thereafter fixed during spindle movement; and a biasing means for biasing the spindle toward the tip end and having one end directly or indirectly engaged with the spindle and the other end directly or indirectly engaged with the adjustment unit, wherein an outer face of the body case or an outer face of the adjustment unit has index values indicating measuring force applied to the spindle by the adjustment unit, wherein the index values are provided in the plurality of sequences each corresponding to when a posture of the measuring device is one of a normal posture, an inverted posture, or a lateral posture, wherein an outer face of the body case or an outer face of the adjustment unit has inter-graduation distance scale marks indicating the position of the adjustment unit, and wherein the body case includes a slide groove of the adjustment unit for adjusting a force level of the adjustment unit and provided in substantially parallel to the moving direction of the spindle, the slide groove includes an engaging groove formed in a direction orthogonal to an axial direction of the slide groove, and the adjustment unit is provided in such a manner as to have a portion slide in the slide groove, includes a key projection engaged with or disengaged from the engaging groove, and is positioned and fixed by engaging the key projection with the engaging groove indicating the posture of the adjustment unit. 7. A shape measuring method comprising: adjusting, using an adjusting unit, a measuring force on a spindle having an elongate rod-like body and a tip end provided with a contact point brought into contact with an object to be measured provided in a body case supporting the spindle in such a manner as to move forward and backward in an axial direction; positioning, using the adjusting unit, by moving in a direction substantially parallel to a moving direction of the spindle and of thereafter fixing during spindle movement; and biasing the spindle toward the tip end and having one end directly or indirectly engaged with the spindle and the other end directly or indirectly engaged with the adjustment unit, wherein an outer face of the body case or an outer face of the adjustment unit has index values indicating measuring force applied to the spindle by the adjustment unit, and wherein the index values are provided corresponding to a posture of the measuring device such that index values are provided for at least two of normal-posture measure force, an inverted-posture, and a lateral-posture.