Apparatus and method for testing cushioning components

The invention claimed is: 1. An apparatus for testing a cushioning component, the apparatus comprising: a jig with a three-dimensional anatomical shape; a base configured to support the cushioning component; an actuator operatively connected to at least one of the jig and the base, and activatable to move said at least one of the jig and the base toward and away from the other of the jig and the base to repeatedly contact the cushioning component and the jig with one another when the cushioning component is supported on the base; an electronic controller operatively connected to the actuator; wherein the electronic controller has a processor that executes a stored algorithm; wherein the stored algorithm is a first reliability test having at least one test condition substantially equivalent to an expected in-use condition of the cushioning component; wherein the electronic controller activates the actuator to move said at least one of the jig and the base according to the stored algorithm; wherein the base includes a pivotable base plate; wherein the pivotable base plate has a support surface on which the cushioning component is supported; wherein the pivotable base plate pivots from a first position to a second position upon compression of the cushioning component by the jig; and wherein an angle of application of the jig relative to the support surface of the base plate on which the cushioning component is supported is different when the base plate is in the first position than when the base plate is in the second position. 2. The apparatus of claim 1 , wherein the at least one test condition includes a rate of compression of the cushioning component; and wherein the actuator moves the jig from an initial height to a final height at the rate of compression. 3. The apparatus of claim 2 , wherein a difference between the initial height and the final height is a function of at least one of a corresponding size of the jig and a predetermined force of application of the jig on the cushioning component. 4. The apparatus of claim 1 , wherein the at least one test condition includes a number of cycles of compressing the cushioning component with the jig. 5. The apparatus of claim 1 , further comprising: a frame supporting the jig and at least partially surrounding the jig and the base to define an internal space; a climate control element operatively connected to one of the frame and the base; a gauge operable to measure a climate condition; wherein the climate control element and the gauge are operatively connected to the electronic controller; wherein the at least one test condition includes a predetermined level of a climate condition; and wherein the stored algorithm includes maintaining the internal space at the predetermined level of the climate condition by controlling the climate control element. 6. The apparatus of claim 5 , wherein the climate condition is one of temperature and humidity. 7. The apparatus of claim 1 , wherein the three-dimensional anatomical shape is a shape substantially identical to a human body part. 8. The apparatus of claim 7 , wherein the anatomical shape is any one of a foot shape, a shoulder shape, a knee shape, a hand shape, a head shape, and a buttocks shape. 9. The apparatus of claim 1 , wherein the at least one test condition includes multi-axial deformation of the cushioning component associated with compressing the cushioning component with the jig; and wherein the multi-axial deformation causes transverse shear stresses in the cushioning component. 10. The apparatus of claim 9 , further comprising: a rod pivotably connected to the jig and movable by the actuator to move the jig into contact with the cushioning component, the jig thereby pivoting relative to the rod in response to contact with the cushioning component; wherein the three-dimensional anatomical shape of the jig is a foot shape having a heel portion and a forefoot portion; and wherein the rod is connected to the jig closer to the heel portion than the forefoot portion. 11. The apparatus of claim 10 , further comprising: a biasing member connected at a first end to the rod and connected at a second end to the forefoot portion of the jig and biasing the jig to a first position relative to the rod; wherein the jig pivots from the first position to a second position relative to the rod upon compression of the cushioning component; and wherein the biasing member returns the jig to the first position when the actuator moves the jig away from the base, out of contact with the cushioning component. 12. The apparatus of claim 9 , further comprising: a rod pivotably connected to the jig and movable by the actuator to move the jig into contact with the cushioning component to compress the cushioning component; a first biasing member pivotably connecting the rod to a first side of the jig; and a second biasing member pivotably connecting the rod to a second side of the jig; the jig thereby being pivotable relative to the rod toward either the first side or the second side in response to the jig compressing the cushioning component. 13. The apparatus of claim 1 , wherein the base includes an angled plate; wherein the pivotable base plate is pivotably connected to the angled plate between the jig and the angled plate; and wherein the base includes a biasing member operatively connected to at least one of the base plate and the angled plate and biasing the base plate to the first position. 14. The apparatus of claim 13 , further comprising: a rod pivotably connected to the jig and movable by the actuator to move the jig into contact with the cushioning component to compress the cushioning component; wherein the three-dimensional anatomical shape of the jig is a foot shape having a heel portion; wherein the rod is connected to the jig such that the cushioning component is compressed by the heel portion; a first biasing member connecting the rod to a lateral side of the jig; a second biasing member connecting the rod to a medial side of the jig; the jig thereby being pivotable relative to the rod toward either the medial side or the lateral side, from an unpivoted position to a pivoted position, in response to contact with the cushioning component and pivoting of the base plate when the jig compresses the cushioning component; and wherein the biasing members return the jig to the unpivoted position when the jig is moved out of contact with the cushioning component. 15. A method of testing cushioning components comprising: moving at least one of a three-dimensional, anatomically-shaped jig and a base toward and away from the other of the jig and the base to repeatedly contact the jig and a cushioning component supported on the base with one another to compress the cushioning component by the jig; wherein the base includes a pivotable base plate; wherein the pivotable base plate has a support surface on which the cushioning component is supported; wherein the pivotable base plate pivots from a first position to a second position upon compression of the cushioning component with the jig; wherein an angle of application of the jig relative to the support surface of the base plate on which the cushioning component is supported is different when the base plate is in the first position than when the base plate is in the second position; wherein said moving is by executing an algorithm stored in a processor of an electronic controller to activate an actuator that moves said at least one of the jig and the base; wherein the stored algorithm is a first reliability test and wherein pivoting from the first position to