Hidden fastener unit and related method of use

What is claimed is: 1. A fastener unit adapted to secure at least one board to a support, the fastener unit comprising: a spacer block with a thickness extending between a first surface and a second surface, the thickness configured to set a preselected gap between a first board and an adjacent second board, the spacer block defining a grip element recess extending through the thickness of the spacer block from the first surface to the second surface, and defining a first fastener hole, the spacer block including a lower surface; a grip element positioned in the grip element recess and extending through the thickness between the first surface and the second surface within the grip element recess, the grip element defining a second fastener hole aligned with the first fastener hole and receiving a fastener therethrough; and a resilient compression element projecting from the spacer block and being bendable relative to a reference plane that is aligned with the grip element, the resilient compression element configured to engage a first groove of the first board with the grip element to secure the fastener unit adjacent the first board, wherein the spacer block is a monolithic polymeric block that extends directly downward under the grip element and includes a lower portion that extends to the lower surface, wherein the first fastener hole is defined through the lower portion of the monolithic polymeric block. 2. The fastener unit of claim 1 , wherein the resilient compression element comprises at least one wing that is upwardly angled toward a wing end, wherein the wing end is configured to directly engage the first groove of the first board. 3. The fastener unit of claim 1 , wherein the resilient compression element comprises a first wing disposed laterally outwardly from the grip element, wherein another resilient compression element projects from the spacer block and comprises a second wing disposed laterally outwardly from the grip element, distal from the first wing. 4. The fastener unit of claim 1 , wherein the first fastener hole and the second fastener hole are disposed one over the other, wherein the fastener is installed in the first fastener hole and the second fastener hole, wherein the fastener threadably engages the spacer block around the first fastener hole, but does not threadably engage the grip element around the second fastener hole. 5. The fastener unit of claim 1 , wherein the resilient compression element is configured to engage a first surface of the first groove and the grip element is configured to engage a second surface of the first groove, the first surface of the groove being opposite the second surface of the first groove. 6. The fastener unit of claim 1 , wherein the grip element includes a planar upper surface, wherein the grip element includes a first cleat extending downward from the planar upper surface on a first side of the grip element, and a second cleat extending downward from the planar upper surface on an opposing second side of the grip element. 7. The fastener unit of claim 1 , wherein the spacer block includes a height, with a portion of the height extending directly below the grip element. 8. The fastener unit of claim 1 , wherein the spacer block and grip element are secured to one another via the fastener extending through the first fastener hole and the second fastener hole. 9. The fastener unit of claim 1 , wherein the grip element includes an upper surface, wherein the spacer block projects above and below the upper surface. 10. The fastener unit of claim 9 , wherein the resilient compression element comprises a wing, wherein the wing projects upward, above the upper surface of the grip element. 11. A fastener unit adapted to secure at least one board to a support, the fastener unit comprising: a spacer block including a thickness extending between a first surface and a second surface and configured to set a preselected gap between a first board, having a first groove, and an adjacent second board, the spacer block defining a recess extending through the thickness, and defining a first fastener hole, the spacer block including a lower surface; a grip element disposed in the recess and engaged with the spacer block in the recess, the grip element having a length greater than the thickness, the first fastener hole aligned with a second fastener hole defined by the grip element so that a fastener extends through the first fastener hole and the second fastener hole; and a resilient compression element extending from the spacer block adjacent the grip element so that the grip element and the resilient compression element can be simultaneously disposed in the first groove, wherein the spacer block is a monolithic polymeric block that extends directly downward under the grip element and includes a lower portion that extends to the lower surface, wherein the first fastener hole is defined through the lower portion of the monolithic polymeric block. 12. The fastener unit of claim 11 , wherein the first fastener hole and the second fastener hole are disposed one over the other, wherein the fastener is installed in the first fastener hole and the second fastener hole, wherein the fastener threadably engages the spacer block around the first fastener hole and does not threadably engage the grip element around the second fastener hole. 13. The fastener unit of claim 11 , wherein the resilient compression element comprises a first wing, wherein another resilient compression element comprises a second wing distal from the first wing, wherein a bisecting plane extends through the spacer block dividing the spacer block into a front side and a rear side, wherein the resilient compression element and the other resilient compression element extend from the spacer block only on the front side, with no resilient compression element extending from the rear side. 14. The fastener unit of claim 13 , wherein the bisecting plane intersects the grip element, wherein the first surface is disposed on the first side, wherein the second surface is disposed on the second side of the bisecting plane. 15. The fastener unit of claim 11 , wherein the resilient compression element is configured to engage a first surface of the first groove and the grip element is configured to engage a second surface of the first groove, the first surface of the first groove being opposite the second surface of the first groove. 16. The fastener unit of claim 11 , wherein the grip element includes a planar upper surface, wherein the grip element includes a first cleat extending downward from the planar upper surface on a first side of the grip element, and a second cleat extending downward from the planar upper surface on an opposing second side of the grip element, thereby forming a channel. 17. A fastener unit adapted to secure at least one board to a support, the fastener unit comprising: a spacer block including a thickness extending between a first surface and a second surface and configured to set a preselected gap between a first board, having a first groove, and an adjacent second board, the spacer block including a bisecting plane dividing the spacer block into a first side and a second side, the spacer block including a lower surface; a grip element including an upper surface, a first end and a second end, the first end extending outward from the first surface of the spacer block on the first side in a cantilevered manner, the second end extending outward from the second surface of the spacer block on the