Gas sensor

The invention claimed is: 1. A gas sensor comprising: a sensor element for sensing a concentration of a specific gas, wherein the sensor element extends in an axial direction; a metal shell surrounding and supporting the sensor element; an exterior tube that is tubular and is mounted to a rear end of the metal shell; a metal terminal including a first end connected to a lead wire and a second end electrically connected to the sensor element; a separator that is tubular and is disposed in the exterior tube and contains the metal terminal and the sensor element; and a holder being in contact with the separator in the axial direction, wherein: the holder includes a tubular portion and a plurality of ribs; the tubular portion surrounds an outer periphery of the separator; the plurality of ribs are formed in a frontward face or a rearward face of the holder and arranged at predetermined intervals in a circumferential direction; each of the plurality of ribs occupies a region having a length L 76 in the radial direction that is within a range of from 50% of a maximum length LA up to the maximum length LA, wherein the maximum length LA is equal to a length from an end of the rib to an outer periphery of the tubular portion; the frontward face of the holder is closer to the sensor element in the axial direction than the rearward face of the holder; and either the following (A) or (B) is satisfied: (A) when the plurality of ribs are formed in the frontward face of the holder, each of the plurality of ribs includes at an end portion thereof in the radial direction a depression extending from the frontward face of the holder toward the rearward face of the holder and extending in the radial direction over the entire length L 76 ; or (B) when the plurality of ribs are formed in the rearward face of the holder, each of the plurality of ribs includes at an end portion thereof in the radial direction a depression extending from the rearward face of the holder toward the frontward face of the holder and extending in the radial direction over the entire length L 76 . 2. The gas sensor as claimed in claim 1 , wherein each of the plurality of ribs includes an unevenness with a difference in elevation. 3. The gas sensor as claimed in claim 1 , wherein: the holder further includes an outer bent portion, and supporter portions; the outer bent portion is connected to a rear end of the tubular portion over a circumference thereof, and is bent inwardly in the radial direction such that the holder decreases in diameter in the radial direction; the supporter portions are connected to an inner end in the radial direction of the outer bent portion, and are arranged at intervals in the circumferential direction, and extend inwardly in the radial direction so as to support the separator in the axial direction; and each of the plurality of ribs is formed in a corresponding one of the supporter portions. 4. The gas sensor as claimed in claim 3 , wherein: the holder further includes a plurality of inner extension portions connected to the inner end in the radial direction of the outer bent portion; each of the plurality of inner extension portions is disposed between a pair of the supporter portions adjacent to each other, and includes an inner bent portion bent to a front end side in the axial direction, and includes a front-end-side end being in contact with the outer periphery of the separator; and the plurality of inner extension portions support the separator pinchingly in the radial direction due to the contact between the front-end-side ends of the plurality of inner extension portions and the outer periphery of the separator. 5. The gas sensor as claimed in claim 1 , wherein: the plurality of ribs are formed in the frontward face of the holder. 6. The gas sensor as claimed in claim 1 , wherein: the plurality of ribs are formed in the rearward face of the holder.