The invention relates to a metal element (12) for anchoring an anti-erosion coating that is intended to be fastened alone in an isolated manner to a metal wall or assembled with other identical anchoring elements. The anchoring element (12) has an edge (12a) for fastening to said metal wall and an anchoring body firmly attached to the fastening edge (12a) and having an upper edge (12b) that is away from the fastening edge and intended to be covered by a composite material of concrete type. A section of this upper edge (12b), which is not intended to be juxtaposed and assembled with an upper edge of an identical anchoring element, is provided with a delimiting tab (16) in order to delimit a height of composite material that must cover the upper edge (12b) of said anchoring element, said delimiting tab (16) having a delimiting edge (18) that is a predetermined distance away from a plane defined by the upper edge (12b) of the anchoring element.

The invention relates to a metal element (12) for anchoring an anti-erosion coating that is intended to be fastened alone in an isolated manner to a metal wall or assembled with other identical anchoring elements. The anchoring element (12) has an edge (12a) for fastening to said metal wall and an anchoring body firmly attached to the fastening edge (12a) and having an upper edge (12b) that is away from the fastening edge and intended to be covered by a composite material of concrete type. A section of this upper edge (12b), which is not intended to be juxtaposed and assembled with an upper edge of an identical anchoring element, is provided with a delimiting tab (16) in order to delimit a height of composite material that must cover the upper edge (12b) of said anchoring element, said delimiting tab (16) having a delimiting edge (18) that is a predetermined distance away from a plane defined by the upper edge (12b) of the anchoring element.

An anchor assembly for anchoring refractory materials within a vessel is disclosed that provides for a more reliable refractory anchor and resultant refractory lining system that is easier to install both in terms of the refractory lining and the anchor assembly itself when compared to prior art anchor assemblies. The anchor assembly includes a base pin assembly, and at least one anchor leg connected to and extending from the base pin assembly. The base pin assembly includes a mounting end formed on one end of the pin assembly adapted for securing the base pin assembly to the vessel. The mounting end has an electrical resistance contact point formed thereon. The electrical resistant contact point preferably has a flux material located thereon.

An anchor assembly for anchoring refractory materials is disclosed for use in high tension stress applications. The anchor assembly includes at least one elongated plate having expansion slots formed along one edge of the elongated plate and semi-circular recessed formed along an opposing edge of the plate.

An installation method of a refractory fiber integral module, includes: carrying out construction pretreatment, then welding an anchoring part to a furnace wall, and then laying a tiled layer along the furnace wall; then fixing the refractory fiber integral module neatly on a hot surface of the tiled layer by the anchoring part to form a refractory fiber prefabricated layer, and filling reserved gaps between the refractory fiber integral modules with compensation strips; finally checking the refractory fiber prefabricated layer, and repairing gaps whose width is greater than a preset width.

An eye mount for a refractory anchor includes a mounting base and an attachment head extending from the mounting base. The attachment head includes a through-hole and a saddle channel. The saddle channel includes two side portions formed integrally with the attachment head, and a curved portion between the two side portions. The curved portion is formed integrally with the attachment head.

Refractory anchoring devices include a main anchor body and a mounting stud. The main anchor body includes a plurality of anchor branch segments angled with respect to one another and a plurality of extension segments, each extension segment extends outwardly from a respective one of the plurality of anchor branch segments. The mounting includes a bottom vessel-attaching portion and an upper anchor-attaching portion that is wider than the bottom vessel-attaching portion. The upper anchor-attaching portion includes a notch that is configured to at least partially receive the main anchor body.

An insulating concrete shell made of refractory cast concrete or refractory tamped concrete for insulating uprights or supporting tubes in a walking beam furnace or pusher-type furnace. The insulating concrete shell is shell-shaped and has a sheet metal strip on the inner side at each end, with which the insulating concrete shell can be fastened to an upright or to a supporting tube. The two sheet metal strips are connected to each other by wires, whereby the two wires are completely embedded in the cast or tamped concrete. A method for manufacturing an insulating concrete shell is also disclosed.

The invention relates to a holding device (1) for holding a ceramic anchor stone (300) to a furnace wall (10), the holding device (1) comprising: fastening means (100) for fastening the holding device (1) to a furnace wall (10); a receiving part (200) for holding a ceramic anchor stone (300) against the holding device (1); a ceramic anchor stone (300), the ceramic anchor stone (300) having a receiving portion (303) and the receiving part (200) having a receptacle (201) in which the receiving portion (303) is received, characterised in that the receptacle (201) is designed as a gap having a gap width that decreases in one direction.

A holding device (1) for holding a ceramic anchor brick (300) to a furnace wall (10), the holding device (1) comprising: fastening means (100) for fastening the holding device (1) to a furnace wall (10); a receiving part (200) for holding a ceramic anchor brick (300) to the holding device (1); wherein the fastening means (100) comprise a first fastening part (101) and a second fastening part (102), wherein the first fastening part (101) is fastenable to a furnace wall (10), and the second fastening part (102) is fastenable to the receiving part (200), and wherein the second fastening part (102) is fastenable to the first fastening part (101), characterized in that the first fastening part (101) and the second fastening part (102) are designed in such a way that the second fastening part (102) can be fastened to the first fastening part (101) by a relative movement of the second fastening part (102) to the first fastening part (101).