Load applicator and power storage apparatus

What is claimed is: 1 . A load applicator for applying a restraint load to a power storage module including a plurality of power storage cells, the load applicator comprising: an elastic mechanism that includes elastic bodies; a first member placed between the elastic mechanism and the power storage module in one direction, the first member being configured to move along the one direction along with contraction of the plurality of power storage cells; a second member provided on a side in the one direction, the side being opposite to a side where the first member is placed, across the elastic mechanism; a switching device; and a restriction member, wherein: the elastic mechanism contracts so as to correspond to a distance between the first member and the second member in the one direction; the elastic mechanism applies the restraint load to the power storage module via the first member in accordance with a contraction amount of the elastic mechanism; the elastic mechanism has a first form in which a first restraint load is applied to the power storage module when the power storage module expands by a first dimension, and a second form in which a second restraint load larger than the first restraint load is applied to the power storage module when the power storage module expands by the first dimension; the switching device is configured to perform an operation to switch from the first form to the second form in a case where the restraint load smaller than the first restraint load is applied to the power storage module when the power storage module expands by the first dimension; and the restriction member is configured to maintain at least one elastic body of the elastic bodies to be shorter than a natural length in the first form, with a space between the at least one elastic body and the first member. 2 . The load applicator according to claim 1 , wherein the restriction member includes an inclined surface facing the first member, and the restriction member is configured to, in response to the inclined surface receiving a direct contact from the first member, move to release an engagement between the restriction member and the at least one elastic body. 3 . The load applicator according to claim 2 , wherein the first member includes a main body portion configured to directly contact a first elastic body of the elastic bodies in the first form and receive the first restraint load from the first elastic body, and an expansion portion projecting from the main body portion toward a second elastic body being the at least one elastic body, the expansion portion having an inclined surface facing the inclined surface of the restriction member and spaced away from the second elastic body in the first form. 4 . The load applicator according to claim 3 , wherein the first member is configured to, in response to the switching device performing the switching from the first form to the second form, move along the one direction to directly contact the inclined surface of the restriction member, through the inclined surface of the expansion portion, and release the engagement between the restriction member and the second elastic body. 5 . The load applicator according to claim 4 , wherein the switching device is configured to change the number of elastic bodies by performing the switching from the first form to the second form. 6 . The load applicator according to claim 1 , wherein the one direction is a direction in which the plurality of power storage cells are stacked. 7 . A power storage apparatus, comprising: a power storage module including a plurality of power storage cells; and a load applicator for applying a restraint load to the power storage module, the load applicator comprising: an elastic mechanism that includes elastic bodies; a first member placed between the elastic mechanism and the power storage module in one direction, the first member being configured to move along the one direction along with contraction of the plurality of power storage cells; a second member provided on a side in the one direction, the side being opposite to a side where the first member is placed, across the elastic mechanism; a switching device; and a restriction member, wherein: the elastic mechanism contracts so as to correspond to a distance between the first member and the second member in the one direction; the elastic mechanism applies the restraint load to the power storage module via the first member in accordance with a contraction amount of the elastic mechanism; the elastic mechanism has a first form in which a first restraint load is applied to the power storage module when the power storage module expands by a first dimension, and a second form in which a second restraint load larger than the first restraint load is applied to the power storage module when the power storage module expands by the first dimension; the switching device is configured to perform an operation to switch from the first form to the second form in a case where a restraint load smaller than the first restraint load is applied to the power storage module when the power storage module expands by the first dimension; the restriction member is configured to maintain at least one elastic body of the elastic bodies to be shorter than a natural length in the first form, with a space between the at least one elastic body and the first member; and the switching device is configured to, in a state where respective state of charge (SOC) values of the plurality of power storage cells constituting the power storage module are set to values out of a predetermined range, perform switching from the first form to the second form.