Dust removing device and dust removing system

The invention claimed is: 1. A dust removing device configured to eject compressed fluid from a jet nozzle into a hole of an object and suction dust adhering to the hole and the compressed fluid by using a suction nozzle enclosing the jet nozzle, in a state that the jet nozzle is inserted into the hole and the hole is closed by the suction nozzle, the dust removing device comprising: a hollow nozzle body to which the jet nozzle and the suction nozzle are connected and through which the dust and the compressed fluid suctioned by the suction nozzle are discharged to an outside; an ejection volume adjustment part configured to adjust a flow rate of the compressed fluid ejected from the jet nozzle; and a suction volume adjustment part configured to adjust an amount of the dust and an amount of the compressed fluid suctioned by the suction nozzle, wherein: the nozzle body includes a first fluid supply route for supplying part of the compressed fluid supplied from the outside as first compressed fluid to the jet nozzle, wherein the jet nozzle is configured to eject the part of the compressed fluid, and a second fluid supply route for discharging another part of the compressed fluid supplied from the outside as second compressed fluid toward a downstream side in a discharge direction; the discharging of the second compressed fluid toward the downstream side in the discharge direction causes the dust and the first compressed fluid to be discharged to the outside via the suction nozzle and the nozzle body; the ejection volume adjustment part is configured to adjust a flow channel area of the first fluid supply route to thereby adjust a flow rate of the first compressed fluid ejected from the jet nozzle; the suction volume adjustment part is configured to adjust a flow channel area of the second fluid supply route to thereby adjust a flow rate of the second compressed fluid discharged on the downstream side in the discharge direction, whereby the amount of the dust and the amount of the compressed fluid suctioned by the suction nozzle are adjusted; a base end portion of the jet nozzle is secured to the suction nozzle; the suction nozzle is attached to an inner circumferential surface of the nozzle body so as to be movable in an axial direction of the nozzle body; the second fluid supply route is a gap formed between a base end portion of the suction nozzle and the inner circumferential surface of the nozzle body; and the suction volume adjustment part is configured to adjust an opening degree of the gap by moving the suction nozzle in the axial direction relative to the inner circumferential surface of the nozzle body to thereby adjust the flow rate of the second compressed fluid, wherein the ejection volume adjustment part is a needle screw provided on the nozzle body to narrow down the first fluid supply route, and the suction volume adjustment part comprises an adjustment thread formed in an outer circumferential surface of the suction nozzle and an adjustment thread fon led in the inner circumferential surface of the nozzle body, the adjustment threads being configured to be screw-engaged with each other. 2. The dust removing device according to claim 1 , wherein: an ejection port through which the first compressed fluid is ejected is formed in at least one of an outer circumferential surface and a distal end surface of a tip portion of the jet nozzle: and the tip portion of the jet nozzle is replaceable. 3. The dust removing device according to claim 2 , wherein the ejection port extends in one of an axial direction of the jet nozzle, a radial direction of the jet nozzle, and a direction inclined at a predetermined angle with respect to the radial direction. 4. The dust removing device according to claim 3 , wherein: the tip portion of the jet nozzle includes an inner cylindrical part connected to the jet nozzle and an outer cylindrical part attached onto the inner cylindrical part so as to be rotatable about a central axis of the jet nozzle; the inner cylindrical part has an inner ejection port extending in the radial direction; and the outer cylindrical part has an outer ejection port inclined at a predetermined angle with respect to the radial direction. 5. The dust removing device according to claim 1 , wherein: the suction nozzle includes a tubular mounting portion attached to the nozzle body, and a tubular attachment portion detachable from the tubular mounting portion and to which a base end portion of the jet nozzle is attached; a protrusion is formed on an outer circumferential surface of the tubular attachment portion; and the tubular mounting portion is provided with a locking part protruding inward of the tubular mounting portion to lock the protrusion. 6. The dust removing device according to claim 1 , further comprising: a first tubular body attached to a distal end portion of the suction nozzle so as to be movable along an outer circumferential surface of the suction nozzle; a first spring member interposed between the nozzle body and the first tubular body; and a first plunger provided on the nozzle body and extending in the axial direction of the nozzle body toward the first tubular body; wherein: the nozzle body further includes an inlet channel through which the compressed fluid supplied from the outside is supplied to the first fluid supply route and the second fluid supply route; a first seal body configured to open and close the inlet channel is attached to a base end portion of the first plunger; the first seal body is configured to open the inlet channel due to displacement of the first plunger in the axial direction as the nozzle body moves toward the object when the first tubular body comes into contact with the object and the nozzle body moves toward the object against an elastic force of the first spring member to thereby bring the first plunger into abutment on the first tubular body; and the first seal body is configured to close the inlet channel due to displacement of the first plunger in the axial direction when the first tubular body is separated from the object and the nozzle body is relatively separated from the first tubular body by the elastic force of the first spring member. 7. The dust removing device according to claim 1 , wherein: a tip of the jet nozzle is provided with an ejection port for ejecting the first compressed fluid and a valve element configured to close the ejection port; and the jet nozzle is inserted into the hole and the valve element is configured to come into contact with a bottom portion of the hole to thereby displace the valve element in an axial direction of the jet nozzle, whereby the ejection port is opened, and the first compressed fluid is ejected from the ejection port. 8. The dust removing device according to claim 1 , further comprising: a second tubular body attached to a distal end portion of the suction nozzle so as to be movable along an outer circumferential surface of the suction nozzle; a second spring member interposed between the nozzle body and the second tubular body; and a second plunger provided on the nozzle body and extending in the axial direction of the nozzle body toward the second tubular body; wherein: a second seal body configured to open and close the first fluid supply route is attached to a base end portion of the second plunger; the second seal body is configured to open the first fluid supply route due to displacement of the second plunger in the axial direction as the nozzle body moves toward the object, when the second tubular body comes into contact with the object and the nozzle body moves toward the object against an elastic force of the second spring member to thereby bring the second plunger into abutment on the second