Shot processing device

The invention claimed is: 1. A shot processing device comprising: a blasting device configured to blast shot media onto a wire rod which is an object to be processed and conveyed in a predetermined conveying direction; a cabinet including a blasting area in which the wire rod is surface-processed by the shot media blasted by the blasting device, the blasting area being provided inside of the cabinet; first guide pipes disposed on both sides of the blasting area, respectively, each of the first guide pipes having a first insertion hole formed to penetrate in the conveying direction of the wire rod and through which the wire rod is inserted, the first insertion hole having a diameter gradually reduced toward a downstream side in the conveying direction; and a second guide pipe disposed on at least one of both sides of the blasting area and having a second insertion hole formed to penetrate in the conveying direction of the wire rod and through which the wire rod is inserted, the second insertion hole having a diameter gradually reduced toward the downstream side in the conveying direction, the second guide pipe being installed in a state in which a downstream-side end portion in the conveying direction is inserted into the first insertion hole from an inlet side of the first guide pipe, wherein a gap for shot media passage is set at least in a part between a portion of the second guide pipe disposed inside the first guide pipe and an inner surface of the first guide pipe. 2. The shot processing device according to claim 1 , wherein three or more of the blasting areas are provided and set along the wire rod conveying direction, and the second guide pipe is disposed at least between the blasting areas adjacent to each other. 3. The shot processing device according to claim 1 , wherein the second guide pipe includes a plurality of convex portions formed on an outer peripheral surface side of the portion disposed inside the first guide pipe, protruding toward an inner surface side of the first guide pipe and coming into contact with the inner surface, and a flange portion formed at an upstream-side end portion in the conveying direction and protruding radially outward, the flange portion being formed with a plurality of positioning holes, and among the first guide pipes, an insert-receiving first guide pipe installed in a state in which the second guide pipe is inserted into the insert-receiving first guide pipe includes a positioning shaft portion protruding toward the upstream side in the conveying direction at an upstream-side end portion in the conveying direction and positioning an axial center of the first insertion hole of the insert-receiving first guide pipe and an axial center of the second insertion hole of the second guide pipe on a same straight line in a state in which the positioning shaft portion is inserted into the positioning hole. 4. The shot processing device according to claim 1 , wherein a downstream-side end portion of the first guide pipe in the conveying direction and an upstream-side end portion of the second guide pipe or the other first guide pipe in the conveying direction disposed to face the downstream-side end portion of the first guide pipe in the conveying direction with the blasting area therebetween are connected with a connection member. 5. The shot processing device according to claim 3 , wherein the downstream-side end portion of the first guide pipe in the conveying direction and an upstream-side end portion of the second guide pipe or the other first guide pipe in the conveying direction disposed to face the downstream-side end portion of the first guide pipe in the conveying direction with the blasting area therebetween are connected with a connection member. 6. The shot processing device according to claim 5 , wherein an upstream-side first guide pipe disposed on a most upstream side in the conveying direction of the wire rod among the first guide pipes is fixed to a first vertical wall portion on the cabinet side, and the shot processing device includes: a pair of mounting rods on which the first guide pipe and the second guide pipe are mounted, the mounting rods extending in the conveying direction of the wire rod and being supported on the cabinet side and disposed parallel to each other with a space between the mounting rods; and a fixed plate member fixed to a second vertical wall portion on the cabinet side in a state in which a downstream-side first guide pipe disposed on a most downstream side in the conveying direction of the wire rod among the first guide pipes is fitted into the fixed plate member. 7. The shot processing device according to claim 3 , wherein an outer shape of the flange portion of the second guide pipe is a regular hexagon, and the positioning holes are formed on a same imaginary circle with a center of the regular hexagon as a center point and on straight lines connecting the center and corner portions on an outer peripheral side of the regular hexagon. 8. The shot processing device according to claim 1 , wherein either of the first guide pipe and the second guide pipe is supported on the cabinet side through a vibration absorbing member. 9. The shot processing device according to claim 1 , wherein the cabinet is formed with an inlet opening for carrying in the wire rod and an outlet opening for letting out the wire rod, at least either of an inlet opening side of the cabinet and an outlet opening side of the cabinet is provided with a seal structure portion having an adjacent chamber communicating with an internal space of the cabinet, and the seal structure portion includes a brush body having a brush tip arranged on a center side of a conveyance path of the wire rod as seen in the conveying direction of the wire rod, the brush body being helical about an axis in the conveying direction of the wire rod and elastically deformable. 10. The shot processing device according to claim 2 , wherein the second guide pipe includes a plurality of convex portions formed on an outer peripheral surface side of the portion disposed inside the first guide pipe, protruding toward an inner surface side of the first guide pipe and coming into contact with the inner surface, and a flange portion formed at an upstream-side end portion in the conveying direction and protruding radially outward, the flange portion being formed with a plurality of positioning holes, and among the first guide pipes, an insert-receiving first guide pipe installed in a state in which the second guide pipe is inserted into the insert-receiving first guide pipe includes a positioning shaft portion protruding toward the upstream side in the conveying direction at an upstream-side end portion in the conveying direction and positioning an axial center of the first insertion hole of the insert-receiving first guide pipe and an axial center of the second insertion hole of the second guide pipe on a same straight line in a state in which the positioning shaft portion is inserted into the positioning hole. 11. The shot processing device according to claim 2 , wherein a downstream-side end portion of the first guide pipe in the conveying direction and an upstream-side end portion of the second guide pipe or the other first guide pipe in the conveying direction disposed to face the downstream-side end portion of the first guide pipe in the conveying direction with the blasting area therebetween are connected with a connection member. 12. The shot processing device according to claim 5 , wherein an outer shape of the flange portion of the second guide pipe is a regular hexagon, and the positioning holes are formed on a same imaginary circle with a center