A fireplace surround structure is disclosed. The fireplace surround structure includes a mantel portion, a first vertical leg portion and a second vertical leg portion. The first leg portion and the second leg portion extend downward from the mantel portion at opposite ends to form a unitary fireplace surround structure. Each leg portion has a skeletal bar frame with a plurality of bar portions defining a three sided generally rectangular structure. Each of the sides has a lightweight non-combustible board portion attached on the exterior of the frame. The fireplace surround structure is open to one side and mountable on a wall surface. Each board portion is cast from a mix of Portland cement, silica, and cellulose fibers, which are combined and sintered into a flat board structure.

A fireplace surround structure is disclosed. The fireplace surround structure includes a mantel portion, a first vertical leg portion and a second vertical leg portion. The first leg portion and the second leg portion extend downward from the mantel portion at opposite ends to form a unitary fireplace surround structure. Each leg portion has a skeletal bar frame with a plurality of bar portions defining a three sided generally rectangular structure. Each of the sides has a lightweight non-combustible board portion attached on the exterior of the frame. The fireplace surround structure is open to one side and mountable on a wall surface. Each board portion is cast from a mix of Portland cement, silica, and cellulose fibers, which are combined and sintered into a flat board structure.

A heat reflective apparatus for use on the ground adjacent to campfires. The apparatus include a plurality of separate panels. Each of the plurality of panels are configured for vertical orientation and have a top edge and an opposing bottom edge defining a height and opposing side edges defining a width. A plurality of vertically oriented hinges, with each being connected to a side edge of two adjacent panels of the plurality of panels. This allows each of the connected adjacent panels to move between a collapsed position facing the other adjacent panel and an open position in relation with the other adjacent panel. At least two of the plurality of panels have at least one ground spike secured to the bottom edges thereof. The ground spikes are configured to secure the plurality of panels to the ground.

A heat reflective apparatus for use on the ground adjacent to campfires. The apparatus include a plurality of separate panels. Each of the plurality of panels are configured for vertical orientation and have a top edge and an opposing bottom edge defining a height and opposing side edges defining a width. A plurality of vertically oriented hinges, with each being connected to a side edge of two adjacent panels of the plurality of panels. This allows each of the connected adjacent panels to move between a collapsed position facing the other adjacent panel and an open position in relation with the other adjacent panel. At least two of the plurality of panels have at least one ground spike secured to the bottom edges thereof. The ground spikes are configured to secure the plurality of panels to the ground.

A mantel for a fireplace includes a mantel body and a heat resistant coating. The mantel body has a frame, wherein each portion of the frame is formed of a first heat resistant material. The mantel body also has an overlay housing secured to the frame, wherein each portion of the overlay housing is formed of a second heat resistant material. The heat resistant coating is applied to the mantel body and is more particularly a powder coating.

A fire pit includes a wall panel that cooperates to define a lateral boundary of a burn chamber. The sidewall also defines an upwardly facing opening into the burn chamber. An ash catch is removably received in the fire pit through the upwardly facing opening and may be moved downwardly through the burn chamber to a resting location where the ash catch defines a lower boundary of the burn chamber. The wall panel has an exterior wall segment spaced apart from an interior wall segment to define a passageway there between. The wall panel has a lower opening through which air may flow up into the passageway. The interior wall segment includes a plurality of openings therein through with air may flow out of the passageway into the burn chamber to help fuel a fire in the burn chamber.

Disclosed herein is a partition wall assembly for a stove. The partition wall assembly for a stove includes a plurality of partition walls (100, 100a, 100b, 100c). Each of the partition walls includes: an outer panel (110) having first air intake holes (111a) formed at a lower portion thereof so that first air is induced; an inner panel (120) coupled to the inside of the outer panel (110), and having an air moving space (119) formed between the outer panel (110) and the inner panel (120) so that the first air induced through the first air intake holes (111a) moves in the air moving space (119) while temperature of the first air is elevated, and second air outlets (121b) formed at an upper portion thereof to discharge the second air with the elevated temperature toward fuel; and a pair of side coupling members (130) disposed at both sides of the outer panel (110) to couple the outer panel (110) and the inner panel (120) with each other. The inner panel (120) includes: an inner panel body (121) curved to have a predetermined curvature in a height direction; a lower inside coupling plate (122) extending from a lower portion of the inner panel body (121) to a predetermined area and coupled with the outer panel (110); and an upper inside coupling plate (123) extending from an upper portion of the inner panel body (121) to a predetermined area and coupled with the outer panel (110).

A fireplace surround structure is disclosed. The fireplace surround structure includes a mantel portion, a first vertical leg portion and a second vertical leg portion. The first leg portion and the second leg portion extend downward from the mantel portion at opposite ends to form a unitary fireplace surround structure. Each leg portion has a skeletal bar frame with a plurality of bar portions defining a three sided generally rectangular structure. Each of the sides has a lightweight non-combustible board portion attached on the exterior of the frame. The fireplace surround structure is open to one side and mountable on a wall surface. Each board portion is cast from a mix of Portland cement, silica, and cellulose fibers, which are combined and sintered into a flat board structure.

A fireplace surround structure is disclosed. The fireplace surround structure includes a mantel portion, a first vertical leg portion and a second vertical leg portion. The first leg portion and the second leg portion extend downward from the mantel portion at opposite ends to form a unitary fireplace surround structure. Each leg portion has a skeletal bar frame with a plurality of bar portions defining a three sided generally rectangular structure. Each of the sides has a lightweight non-combustible board portion attached on the exterior of the frame. The fireplace surround structure is open to one side and mountable on a wall surface. Each board portion is cast from a mix of Portland cement, silica, and cellulose fibers, which are combined and sintered into a flat board structure.

A fire pit that is constructed to be sold in a disassembled state is shown and described. In the disassembled state, the various components (as discussed herein) are in a relatively flat configuration and are configured to be assembled by the end user. In the disassembled state, the components contain relatively less void space between the components, in comparison to in the assembled state. In the disassembled state, the components may be packed into a relatively small packaging, compared to an amount of packaging that would be required to package the fire pit once it is assembled. Embodiments of the invention thus allow the packaging of a fire pit using less packaging than traditional fire pits and/or allow for a larger fire pit to be packaged in a similar amount of packaging.