Gas-blast circuit breaker

The invention claimed is: 1. A gas-blast circuit breaker comprising: a driving-side main contact and a driven-side main contact placed in a gas tank to face each other and configured to operate for opening and closing a circuit; a driving-side arc contact and a driven-side arc contact placed to face each other and configured to operate for opening and closing the circuit; a puffer shaft to which the driving-side arc contact is coupled; a puffer cylinder fixed at a location outside the puffer shaft coaxially with the puffer shaft, the puffer cylinder having an end provided with the driving-side main contact; an insulating nozzle fixed to the end of the puffer cylinder, the insulating nozzle providing a space in which an arc is generated when the circuit is opened by the driving-side arc contact and the driven-side arc contact; a driver configured to drive the puffer shaft; and a puffer chamber in which arc-extinguishing gas being to be supplied to the space is stored, wherein the insulating nozzle is coupled to a driving rod, the driving rod is connected to a driven rod via a lever, the driven rod is electrically connected to the driven-side arc contact, and an elastic electrically conductive material is provided on an outer surface of the insulating nozzle, the outer surface of the insulating nozzle facing an inner surface of the driving-side main contact, the inner surface of the driving-side main contact facing radially inward toward the driving-side arc contact, wherein a surface of the elastic electrically conductive material is arranged in contact with the inner surface of the driving-side main contact, wherein the elastic electrically conductive material is a resin or a metal, a reinforcing member is provided on an outer surface of the elastic electrically conductive material, and the elastic electrically conductive material is fixed by being sandwiched by the insulating nozzle and the reinforcing member. 2. The gas-blast circuit breaker according to claim 1 , wherein the elastic electrically conductive material is disposed in a gap between the inner surface of the driving-side main contact and the outer surface of the insulating nozzle. 3. The gas-blast circuit breaker according to claim 2 , wherein the elastic electrically conductive material is a metallic elastic body, and the metallic elastic body is disposed in a groove having a circular shape and being provided on the inner surface of the driving-side main contact, the inner surface of the driving-side main contact facing the outer surface of the insulating nozzle. 4. The gas-blast circuit breaker according to claim 3 , wherein direct-current voltage is applied across the driving-side main contact and the driven-side arc contact when the circuit is opened. 5. The gas-blast circuit breaker according to claim 2 , wherein direct-current voltage is applied across the driving-side main contact and the driven-side arc contact when the circuit is opened. 6. The gas-blast circuit breaker according to claim 1 , wherein direct-current voltage is applied across the driving-side main contact and the driven-side arc contact when the circuit is opened. 7. The gas-blast circuit breaker according to claim 1 , wherein direct-current voltage is applied across the driving-side main contact and the driven-side arc contact when the circuit is opened.