A frame for cradling a rolled surface covering during installation onto a ground surface, including first and second spaced-apart end panels, a surface covering support base extending between the first and second spaced-apart panels and adapted for holding the rolled surface covering during installation. At least one lower roller extends along the support base between the first and second spaced-apart end panels at a level above the support base, and at least one upper roller extends along the support base between the first and second spaced-apart end panels at a level above the support base and is vertically spaced-apart from the at least one lower roller. The space defines a gap extending along a length of the at least one lower roller and the at least one upper roller through which a free end of the rolled surface covering is extended during installation onto the ground surface.

A system and method for rolling up a flexible sheet includes a frame; a friction element mounted on the frame and having an endless friction outer surface with a sheet-engaging portion to engage an end of the sheet; and a drive connected to the friction element to move the endless friction outer surface such that the sheet-engaging portions thereof move upwardly to engage the end of the flexible sheet and lift up and roll the end of the flexible sheet over on itself to form a roll. The method for rolling up the flexible sheet includes rotating the friction element and engaging the end of the flexible sheet with the endless friction outer surface such that the sheet-engaging portions move upwardly to engage the end of the flexible sheet and curl the end of the flexible sheet upwardly back over on itself to form a roll.

In embodiments, a flexible mat forming system includes a rotating drum having a plurality of mold cavities; a hopper that receives a hardenable paste and deposits the hardenable paste into the mold cavities as the drum rotates relative to the hopper; and a sheet of mesh material that is fed between the hopper and the mold cavities facing the hopper. The hopper includes a plurality of side walls and a bottom panel having an opening, wherein the plurality of walls and the bottom panel define an interior chamber; and an auger rotatably mounted in the interior chamber and having a plurality of radially extending protrusions along a length thereof, the radially extending protrusions including angled surfaces to displace the material received in the interior chamber along a length of the interior chamber to fall through the opening into the mold cavities.

A stake implanting tool is provided. The stake implanting tool includes an elongated body designed with angled aluminum. The elongated body has a lower end and an upper end. A handle is slidably disposed within a channel defined by the elongated body. A flat stake driver is operably connected to the handle. A slot is disposed on the elongated body. When the handle is in the resting position, a stake is placed within the slot. The stake is retained to the slot by a spring loaded pin. A rounded base disposed on a lower end of the elongated body supports the device on the land mat. An aperture is disposed on the rounded base. In operation, the handle is slid down the channel, the stake is ejected through the aperture into the ground. A stopping guard prevents the stake from being implanted too deep into the ground.

A sediment capping system is adapted to create, and distribute, a homogenized mixture of capping material. Where distributing the capping material, the system is configured to militate against the capping material forming clumps of a size and weight that would disturb the sediment on a bottom of a body of water. This in turn militates against the sediment being disturbed, and a disturbing of pollutants and toxins into the water surrounding the sediment. The sediment capping system militates against the clumping of capping material through a vibrating spreader and baffle system, producing a sediment cap with a more consistent depth that will minimally disturb the sediment on the floor of the body of water where the sediment cap is being deposited.

In an exemplary embodiment, a system for making tied block mat with a border includes a mold having an array of mold cavities; and a hopper that receives a hardenable paste and is spaced from the mold to receive a sheet of mesh material therebetween, the hopper having an opening for depositing the hardenable paste into selected mold cavities, the hopper forming a filling zone with the mold wherein the hardenable paste flows through the opening into the selected mold cavities, and a blocked zone where the hardenable paste is prevented from entering other selected mold cavities of the mold; whereby the tied block mat is formed wherein the hardenable paste in the selected mold cavities becomes embedded in the sheet of mesh material in the filling zone, and a border is formed in the blocked zone where the hardenable paste is blocked from entering the other selected mold cavities.

A frame for cradling a rolled surface covering during installation onto a ground surface, including first and second spaced-apart end panels, a surface covering support base extending between the first and second spaced-apart panels and adapted for holding the rolled surface covering during installation. At least one lower roller extends along the support base between the first and second spaced-apart end panels at a level above the support base, and at least one upper roller extends along the support base between the first and second spaced-apart end panels at a level above the support base and is vertically spaced-apart from the at least one lower roller. The space defines a gap extending along a length of the at least one lower roller and the at least one upper roller through which a free end of the rolled surface covering is extended during installation onto the ground surface.

A stake implanting tool is provided. The stake implanting tool includes an elongated body designed with angled aluminum. The elongated body has a lower end and an upper end. A handle is slidably disposed within a channel defined by the elongated body. A flat stake driver is operably connected to the handle. A slot is disposed on the elongated body. When the handle is in the resting position, a stake is placed within the slot. The stake is retained to the slot by a spring loaded pin. A rounded base disposed on a lower end of the elongated body supports the device on the land mat. An aperture is disposed on the rounded base. In operation, the handle is slid down the channel, the stake is ejected through the aperture into the ground. A stopping guard prevents the stake from being implanted too deep into the ground.

In embodiments, a flexible mat forming system includes a rotating drum having a plurality of mold cavities; a hopper that receives a hardenable paste and deposits the hardenable paste into the mold cavities as the drum rotates relative to the hopper; and a sheet of mesh material that is fed between the hopper and the mold cavities facing the hopper. The hopper includes a plurality of side walls and a bottom panel having an opening, wherein the plurality of walls and the bottom panel define an interior chamber; and an auger rotatably mounted in the interior chamber and having a plurality of radially extending protrusions along a length thereof, the radially extending protrusions including angled surfaces to displace the material received in the interior chamber along a length of the interior chamber to fall through the opening into the mold cavities.

A sediment capping system is adapted to create, and distribute, a homogenized mixture of capping material. Where distributing the capping material, the system is configured to militate against the capping material forming clumps of a size and weight that would disturb the sediment on a bottom of a body of water. This in turn militates against the sediment being disturbed, and a disturbing of pollutants and toxins into the water surrounding the sediment. The sediment capping system militates against the clumping of capping material through a vibrating spreader and baffle system, producing a sediment cap with a more consistent depth that will minimally disturb the sediment on the floor of the body of water where the sediment cap is being deposited.