Hydraulic time delay actuated by the energetic output of a perforating gun

What is claimed is: 1. A mechanical delay comprising: a first perforating gun; a first cylindrical body located downhole from and coupled to the first perforating gun, having a first inner bore with radial break plugs disposed therein, a communication piston located uphole from the radial break plugs; a second cylindrical body coupled to and located downhole from the first cylindrical body having: a second inner bore; a first cylindrical piston slidably disposed therein with a face exposed to the first inner bore of the first cylindrical body; a first rod coupled to and located axially downhole from the first cylindrical piston; a second cylindrical piston located downhole from and coupled to the first rod and being slidably disposed within the second inner bore, the cylindrical piston having a first face and a second face, with a thru bore located transversely between the first face and the second face; a second rod located downhole from and coupled to the second cylinder; hydraulic fluid located between the second rod and the second inner bore; and wherein explosive energy from the first perforating gun causes the communication piston to fracture the radial break plugs, thus flooding the first inner bore with wellbore fluid and forcing the combination of first cylindrical piston, first rod, second cylindrical piston, and second rod downward, thus causing the hydraulic fluid located in the second inner bore to meter through the transverse thru bore of the second cylindrical piston. 2. The apparatus of claim 1 further comprising the first cylindrical body having one or more ports located radially and connecting the first inner bore with the outside of the first cylindrical body. 3. The apparatus of claim 1 further comprising a firing sub coupled to and located downhole of the second cylindrical body containing a ball retaining rod coupled to a firing pin located axially proximate to a percussion detonator. 4. The apparatus of claim 1 wherein the firing sub is further adapted to accept a booster and detonating cord combination proximate to the percussion detonator. 5. The apparatus of claim 1 wherein the firing sub further coupled to and located uphole from a second perforating gun. 6. The apparatus of claim 1 further comprising the thru bore having a orifice disposed therein adapted to meter hydraulic fluid. 7. The apparatus of claim 6 wherein the orifice is a JEVA jet. 8. A method for creating a firing delay between two perforating guns comprising: detonating a first perforating gun; transferring energy from the first perforating gun to a first sub containing a break plugs blocking thru ports; converting the transferred energy into momentum in a piston; breaking the break plugs with the piston; flooding the first sub; acting on a piston assembly within a second sub using wellbore fluid causing it to translate downward; metering the speed of the piston assembly translation using hydraulic fluid passing through a sized orifice; engaging the piston assembly against a firing head sub; and detonating a second perforating gun using the firing head sub, wherein the metering of the speed of the piston assembly using hydraulic fluid causes a desired time delay between the detonating of the first perforating gun and the second perforating gun. 9. The method of claim 8 further comprising shearing pins holding the piston assembly in place. 10. The method of claim 8 further comprising metering the hydraulic fluid using an orifice. 11. The method of claim 10 wherein the orifice is a JEVA jet. 12. The method of claim 8 further comprising a detonating cord and booster supplying the energy from the first perforating gun. 13. The method of claim 8 further comprising the firing head sub igniting a detonating cord and booster assembly coupled to the second perforating gun. 14. A hydraulic delay apparatus comprising: a housing 106 having a frangible communication piston bore 154 , a fluid communication bore 155 , a working piston bore 170 , and a hydraulic delay bore 145 , each aligned axially with each other and the housing 106 , the housing 106 also having ports 107 opening fluid communication between an area outside the housing 106 and the fluid communication bore 155 ; a frangible communication piston 133 positioned within the frangible communication piston bore 154 , the frangible communication piston having a frangible element too large to pass through frangible communication piston bore 154 and adapted to break when exposed to an explosive input; at least one frangible port plug 135 positioned within and sealing the at least one port 107 ; a working piston 101 within working piston bore 170 and having a top side exposed to the fluid communication bore 155 ; a middle rod 105 attached at a top end to the working piston 101 opposite the top side of the working piston; a hydraulic delay piston 112 within hydraulic delay bore 145 and attached to a bottom end of middle rod 105 at a top side of hydraulic delay piston 112 , the hydraulic delay piston having a flow restrictor 134 allowing fluid communication between the top side and a bottom side of hydraulic delay piston 112 ; a bottom rod 104 attached at a top end to the bottom side of hydraulic delay piston 112 ; wherein hydraulic delay bore 145 is filled with a hydraulic fluid, frangible port plug 135 is adapted to be broken by frangible communication piston 133 and allow fluid to flow through port 107 once broken; and wherein a wellbore fluid entering the fluid communication bore 155 through ports 107 applies pressure to the top side of working piston 101 , which applies force to the hydraulic delay piston 112 through middle rod 105 causing the hydraulic fluid to flow through the flow restrictor 134 to the top side of hydraulic delay piston 112 allowing hydraulic delay piston 112 to move downward relative to housing 106 . 15. The apparatus of claim 14 wherein the flow restrictor is a JEVA style jet. 16. A hydraulic delay apparatus comprising: a housing having a frangible communication piston bore, a fluid communication bore, a working piston bore, and a hydraulic delay bore, each aligned axially with each other and the housing, the housing also having at least one port opening fluid communication between an area outside the housing and the fluid communication bore; a frangible communication piston positioned within the frangible communication piston bore, the frangible communication piston having a frangible element too large to pass through frangible communication piston bore and adapted to break when exposed to an explosive input; at least one frangible port plug each positioned within and sealing a respective port of the at least one port; a working piston within working piston bore and having a top side exposed to the fluid communication bore; a middle rod attached at a top end to the working piston opposite the top side of the working piston; a hydraulic delay piston within hydraulic delay bore and attached to a bottom end of middle rod at a top side of hydraulic delay piston, the hydraulic delay piston having a flow restrictor allowing fluid communication between the top side and a bottom side of hydraulic delay piston; a bottom rod attached at a top end to the bottom side of hydraulic delay piston; a hydraulic firing head coupled to and located downhole of the housing and further containing a ball retaining rod coupled to a firing pin located axially proximate to a percussion detonator, wherein the firing sub is further adapted to fire a