Rechargeable lead-acid battery with compound and sludge leveling and shedding capability

What is claimed is: 1 . A rechargeable lead-acid battery, comprising: a casing defining an interior configured to accommodate plates and a supply of fluid that is electrically reactive with the plates to generate electricity; a grid structure interposed between lower edges of the plates and a bottom of the casing; and an electro-mechanical assembly coupled with the grid structure and operable to agitate the grid structure. 2 . The rechargeable lead-acid battery according to claim 1 , further comprising: a sensor configured to detect a charging condition of the battery; and a controller configured to activate the electro-mechanical assembly when the charging condition of the battery is sensed by the sensor. 3 . The rechargeable lead-acid battery according to claim 1 , wherein the grid structure is supported at a first distance below the lower edges of the plates and at a second distance above the bottom of the casing. 4 . The rechargeable lead-acid battery according to claim 3 , further comprising spacers to support the grid structure at the second distance above the bottom of the casing. 5 . The rechargeable lead-acid battery according to claim 1 , wherein edges of the grid structure are displaced from interior surfaces of the casing. 6 . The rechargeable lead-acid battery according to claim 5 , wherein grid structure agitation by the electro-mechanical assembly is accommodated by respective spaces between the edges of the grid structure and the interior surfaces of the casing. 7 . The rechargeable lead-acid battery according to claim 1 , wherein the grid structure is rigid or semi-rigid and non-reactive with the fluid. 8 . The rechargeable lead-acid battery according to claim 1 , wherein the grid structure comprises: first grid bars disposed substantially in parallel; second grid bars disposed substantially in parallel and oriented transversely relative to the first grid bars; and a plate attached to one or more of the first and second grid bars with a floating pin with which the electro-mechanical assembly is coupled. 9 . The rechargeable lead-acid battery according to claim 1 , wherein the electro-mechanical assembly comprises: a stepper motor at an exterior of the casing; a mixer disposed in contact with the grid structure; a rod connecting the mixer to the stepper motor and piercing the casing at a piercing location; and a seal disposed to seal the casing at the piercing location, wherein the stepper motor is configured to drive bi-directional rotation of the mixer via the rod. 10 . A rechargeable lead-acid battery, comprising: a casing defining an interior configured to accommodate plates and a supply of fluid that is electrically reactive with the plates to generate electricity; a grid structure interposed between lower edges of the plates and a bottom of the casing; an electro-mechanical assembly comprising a mixer disposed in contact with the grid structure and a motor to which the mixer is connected and which is configured to drive bi-directional rotation of the mixer to thereby agitate the grid structure; and a controller configured to activate the motor when a charging condition of the battery is in effect. 11 . The rechargeable lead-acid battery according to claim 10 , wherein the controller activates the motor using battery generated electricity when the charging condition of the battery is in effect. 12 . The rechargeable lead-acid battery according to claim 10 , wherein the casing is substantially rectangular and the plates are arranged face-to-face in a row. 13 . The rechargeable lead-acid battery according to claim 10 , wherein the grid structure is supported at a first distance below the lower edges of the plates and at a second distance above the bottom of the casing. 14 . The rechargeable lead-acid battery according to claim 13 , further comprising spacers to support the grid structure at the second distance above the bottom of the casing. 15 . The rechargeable lead-acid battery according to claim 10 , wherein edges of the grid structure are displaced from interior surfaces of the casing. 16 . The rechargeable lead-acid battery according to claim 15 , wherein grid structure agitation by the bi-directional rotation of the mixer is accommodated by respective spaces between the edges of the grid structure and the interior surfaces of the casing. 17 . The rechargeable lead-acid battery according to claim 10 , wherein the grid structure is rigid or semi-rigid and non-reactive with the fluid. 18 . The rechargeable lead-acid battery according to claim 10 , wherein the grid structure comprises: first grid bars disposed substantially in parallel; second grid bars disposed substantially in parallel and oriented transversely relative to the first grid bars; and a plate attached to one or more of the first and second grid bars with a floating pin the mixer is disposed in contact with. 19 . The rechargeable lead-acid battery according to claim 10 , wherein the motor of the electro-mechanical assembly is a stepper motor and is disposed at an exterior of the casing and the electro-mechanical assembly further comprises: a rod connecting the mixer to the stepper motor and piercing the casing at a piercing location; and a seal disposed to seal the casing at the piercing location, wherein the stepper motor is configured to drive the bi-directional rotation of the mixer via the rod. 20 . A rechargeable lead-acid battery, comprising: a casing defining an interior configured to accommodate plates and a supply of fluid that is electrically reactive with the plates to generate electricity; a grid structure interposed between lower edges of the plates and a bottom of the casing, the grid structure comprises edges which are displaced from interior surfaces of the casing; an electro-mechanical assembly comprising a mixer disposed in contact with the grid structure and a motor to which the mixer is connected and which is configured to drive bi-directional rotation of the mixer, which is accommodated by respective spaces between the edges of the grid structure and the interior surfaces of the casing, to thereby agitate the grid structure; and a controller configured to activate the motor when a charging condition of the battery is in effect.