Opening and closing device

The invention claimed is: 1. A switchgear, comprising: a stationary contact; a movable contact, which is configured to be shifted between a closed position where the movable contact is brought into contact with the stationary contact and an opened position where the movable contact is separated from the stationary contact; a drive unit, which is configured to generate power for shifting the movable contact, the drive unit comprising: a stator; and a movable element, which is configured to be shifted relative to the stator; and a power transmission unit, which is configured to shift the movable contact through transmission of the power generated by the drive unit, and to press the movable contact against the stationary contact when the movable contact is located at the closed position, the power transmission unit comprising: a drive unit-side spring bearing portion, which is configured to be shifted together with the movable element; a contact-side spring bearing portion, which is provided so as to be opposed to the drive unit-side spring bearing portion, and is configured to be shifted together with the movable contact; and a spring member, which is provided between the drive unit-side spring bearing portion and the contact-side spring bearing portion, and is configured to push the drive unit-side spring bearing portion and the contact-side spring bearing portion in directions in which the drive unit-side spring bearing portion and the contact-side spring bearing portion are separated from each other, the spring member comprising: a radially outer spring; and a radially inner spring, which is provided on a radially inner side of the radially outer spring, connected in parallel to the radially outer spring, and is arranged so as to be contracted by the same amount as the radially outer spring during a period in which the movable contact is shifted from a state of being located at the opened position to a state of being located at a terminal end of switch-on action, wherein a repulsive force of the radially outer spring is set to be larger than a repulsive force of the radially inner spring. 2. A switchgear according to claim 1 , wherein the power transmission unit further comprises a center shaft, which is fixed to the contact-side spring bearing portion and provided on an inner side of the radially inner spring, and has an outer diameter equal to an inner diameter of the radially inner spring. 3. A switchgear according to claim 1 , wherein a natural frequency of the radially outer spring is set as a natural frequency of a lowest order of a system. 4. A switchgear according to claim 1 , wherein the drive unit further comprises an impact-generation suppressing portion, which is provided between the stator and the movable element, and is configured to suppress generation of an impact between the stator and the movable element when the movable contact is shifted from the opened position to the closed position. 5. A switchgear according to claim 1 , wherein the power transmission unit further comprises an impact-transmission suppressing portion, which is provided between the movable element and the movable contact, and is configured to suppress transmission of the impact generated between the stator and the movable element to the movable contact when the movable contact is shifted from the opened position to the closed position. 6. A switchgear according to claim 1 , wherein the power transmission unit further comprises a regulating portion which is provided to at least one of the drive unit-side spring bearing portion or the contact-side spring bearing portion and is configured to regulate movement of the radially outer spring in a radial inward direction of the radially outer spring, which radially inward direction is a direction toward the radially inner spring. 7. A switchgear comprising: a stationary contact; a movable contact which is configured to be shifted between a closed position where the movable contact is brought into contact with the stationary contact and an opened position where the movable contact is separated from the stationary contact; a drive unit which is configured to generate power for shifting the movable contact, the drive unit comprising: a stator; and a movable element which is configured to be shifted relative to the stator; and a power transmission unit which is configured to shift the movable contact through transmission of the power generated by the drive unit and to press the movable contact against the stationary contact when the movable contact is located at the closed position, the power transmission unit comprising: a drive unit-side spring bearing portion which is configured to be shifted together with the movable element; a contact-side spring bearing portion which is provided so as to be opposed to the drive unit-side spring bearing portion and is configured to be shifted together with the movable contact; and a spring member which is provided between the drive unit-side spring bearing portion and the contact-side spring bearing portion and is configured to push the drive unit-side spring bearing portion and the contact-side spring bearing portion in directions in which the drive unit-side spring bearing portion and the contact-side spring bearing portion are separated from each other, the spring member comprising: a radially outer spring; and a radially inner spring which is provided on a radially inner side of the radially outer spring, connected in parallel to the radially outer spring, and is arranged so as to be contracted by the same amount as the radially outer spring during a period in which the movable contact is shifted from a state of being located at the opened position to a state of being located at a terminal end of switch-on action, wherein a natural frequency of the radially outer spring is set as a natural frequency of a lowest order of a system.