In-situ barrier device with internal injection conduit

It is claimed: 1. A device for post-installation in-situ barrier creation, comprising: a multi-layer fluid delivery device comprising first and second substantially coextensive layers defining an intermediate open-matrix layer for an injection fluid; the first layer having an inwardly facing surface and an outwardly facing surface, the first layer being permeable to the injection fluid but at least nearly impermeable to a structural construction material to be applied against the outwardly facing surface of the first layer, such that the structural construction material can flow into interstices of the first layer to create a bond with the structural construction material when the structural construction material hardens but the structural construction material cannot entirely penetrate into the intermediate open-matrix layer, and the second layer being water-impermeable and having an inwardly facing first side and an outwardly facing second side, the inwardly facing first side of the second layer being affixed, directly or indirectly to the inwardly facing surface of the first layer such that all or a substantial portion of the second layer is spaced apart from the first layer, using an open-matrix structure to create air space between the first layer and the second layer and thereby defining the open-matrix layer for conducting the injection fluid between said first and second layers; and at least one injection conduit member disposed in parallel orientation with respect to the first layer and second layer and extending at least a full width or length of the substantially co-extensive first and second layers, the at least one injection conduit member for conveying the injection fluid into the open-matrix layer air space to form a continuous grout wall within the open-matrix layer between the second layer and a combination of the second layer and a combination of the first layer and the hardened structural construction material; and the at least one injection conduit member being: (i) located within the open-matrix layer and thus between the first and second layer, (ii) located adjacent the open-matrix layer; (iii) located against the outwardly facing surface of the first layer which is permeable to injection fluid; or (iv) located in a combination of all of the foregoing locations (i), (ii), and (iii). 2. The device of claim 1 wherein the first layer, which is permeable to the injection fluid and nearly impermeable to the structural construction material, comprises a non-woven or woven fabric. 3. The device of claim 1 wherein the first layer and second layer each have linear width or length edges, and the least one injection conduit member is parallel to one of the linear width or length edges. 4. The device of claim 3 wherein the at least one injection conduit member is located between the first and second layers, extends within the intermediate open-matrix layer, and extends the width or length of the multi-layer fluid delivery device. 5. The device of claim 1 wherein the at least one injection conduit member comprises polymer tubing having openings which are resiliently movable from a closed to open position when the conduit member is filled with an injection fluid under positive pressure. 6. The device of claim 1 wherein the at least one injection conduit member comprises at least one spiral wrap sleeve member. 7. The device of claim 6 wherein the at least one injection conduit member further comprises at least one mesh sleeve member. 8. The device of claim 7 wherein the at least one injection conduit member comprises at least two spiral wrap members having the same spiral directions, the at least two spiral wrap members being surrounded by the at least one mesh sleeve member. 9. The device of claim 1 wherein the at least one injection conduit member comprises a first injection conduit member disposed parallel with respect to a linear edge of the device in the width dimension, and a second injection conduit member disposed perpendicularly with respect to a linear edge of the device in a length or width dimension, wherein the first and second injection conduit members form a “T” junction. 10. The device of claim 1 wherein the at least one injection conduit member does not terminate flush with a width edge or length edge of the first and second layers, in that the at least one injection conduit extends beyond a width edge or length edge of the first and second layers. 11. The device of claim 1 , further comprising a pressure-sensitive adhesive layer disposed on the outwardly facing second side of the second layer for adhering the multi-layer fluid delivery device to a substrate, formwork, a building structure, or other surface. 12. The device of claim 1 wherein an end of the at least one injection conduit member is closed, and the first and second layers of the device are sealed to define a containment cavity for containing an injection fluid that is injected into the at least one injection conduit member which is closed at an end. 13. The device of claim 1 wherein the at least one injection conduit member penetrates the first layer. 14. The device of claim 1 wherein the at least one injection conduit member is located at an edge of the device, the edge-located at least one injection conduit member having openings for allowing an injection fluid to be injected into a second multi-layer fluid delivery device installed against the edge-located at least one injection conduit member. 15. The device of claim 1 further comprising a gel activator located between the first layer and the second layer for initiating or accelerating gelation of an injection fluid introduced in the intermediate open-matrix layer. 16. A method for waterproofing a concrete structure comprising: installing against a substrate chosen from a formwork, wall, foundation, or other existing building surface, at least one multi-layer device according to claim 1 ; and subsequently applying concrete against the at least one multi-layer device. 17. The method of claim 16 comprising installing against a substrate at least two multi-layer devices each having at least one conduit member (i) located within the intermediate open-matrix layer, (ii) located at the edge of a multi-layer device and adjacent to an intermediate open-matrix layer, (iii) located along an outward face of the first layer, or (iv) located at a mixture of locations (i), (ii), and (iii), the conduit members being connected together to enable injection fluid to be injected into the at least two multi-layer devices from a common source. 18. Method for establishing a continuous grout wall curtain against a concrete structure, comprising: providing at least two multi-layer fluid delivery assemblies, each assembly having substantially coextensive first and second layers defining intermediate open-matrix layers for an injection fluid; the first layers having an inwardly facing surface and an outwardly facing surface, the first layers being permeable to the injection fluid but at least nearly impermeable to a structural construction material to be applied against the outwardly facing surface of the first layer, and the second layers being water-impermeable and having an inwardly facing first side and an outwardly facing second side, the inwardly facing first side of the second layers being affixed directly or indirectly to the inwardly facing surface of the first layers such that all or a substantial portion of the second layers is spaced apart from the first layers to create air space between the first layers and the second layers; and e