CN-224222728-U - Spliced type runner brick

Abstract

The utility model discloses a spliced type steel brick which comprises a hexagonal steel brick body, wherein a plurality of cuboid steel brick bodies used for splicing are arranged on the outer wall of the hexagonal steel brick body in an annular array, connecting mechanisms are arranged on the side edges of the hexagonal steel brick body and one end of the cuboid steel brick body, clamping mechanisms used for splicing the connecting mechanisms are arranged on the other end of the cuboid steel brick body, each clamping mechanism comprises an annular groove and a clamping groove, a plurality of connecting grooves, a plurality of sliding grooves and a positioning assembly, and the positioning assembly is in sliding connection with inner cavities of two adjacent sliding grooves. The utility model is convenient for the stable clamping between the cuboid steel brick body and the hexagonal steel brick body by the arrangement mode of the matching of the connecting mechanism and the clamping mechanism, and is convenient for improving the stability of the connection between the connecting mechanism and the cuboid steel brick body, so that the spliced cuboid steel brick body and the hexagonal steel brick body cannot be separated randomly.

Inventors

• YANG XIAO
• WANG LIHUA
• YANG BIN

Assignees

• 淄博恒森耐火材料有限公司

Dates

Publication Date

20260512

Application Date

20250530

Claims (7)

1. 1. The spliced type steel brick comprises a hexagonal steel brick body (1), wherein a plurality of cuboid steel brick bodies (2) used for splicing are arranged on the outer wall of the hexagonal steel brick body (1) in an annular array; The novel steel brick structure is characterized in that the side edges of the hexagonal steel brick body (1) and one end of the cuboid steel brick body (2) are both provided with connecting mechanisms (3), the other end of the cuboid steel brick body (2) is provided with clamping mechanisms (4) for splicing the connecting mechanisms (3), and the clamping mechanisms (4) comprise: the device comprises an annular groove (41) and a clamping groove (42), wherein the clamping groove (42) is formed in an inner cavity of the annular groove (41); A plurality of connecting grooves (43), wherein two adjacent connecting grooves (43) are formed at the top and the bottom of the annular groove (41); The sliding grooves (44) and the positioning assemblies (45), two adjacent sliding grooves (44) are oppositely formed in two sides of the other end of the cuboid steel brick body (2), and the positioning assemblies (45) are slidably connected with inner cavities of the two adjacent sliding grooves (44).
2. 2. A spliced runner brick according to claim 1, wherein a plurality of said connecting means (3) are arranged in an annular array on the outer wall of a hexagonal runner brick body (1), said connecting means (3) comprising: the connecting convex openings (31) are integrally formed and fixedly embedded in the outer wall of the hexagonal steel brick body (1) and one end of the cuboid steel brick body (2); the connecting strips (32) are integrally formed and fixedly embedded at the top and the bottom of the connecting convex opening (31); the limiting grooves (33) are formed in the tops of the connecting strips (32).
3. 3. A spliced runner brick according to claim 2, wherein a plurality of said connecting strips (32) are fixedly connected to the outer wall of the hexagonal runner brick body (1) in two annular arrays, and wherein a further plurality of connecting strips (32) are fixed to one end of the rectangular runner brick body (2).
4. 4. The spliced runner brick according to claim 2, wherein the connecting lug (31) is movably clamped with the annular groove (41) and the inner cavity of the clamping groove (42), and the annular groove (41) is formed at the other end of the cuboid runner brick body (2).
5. 5. A spliced runner brick according to claim 2, wherein two adjacent runners (44) are in communication with the interior of an adjacent connecting channel (43), and the connecting strip (32) is movably clamped to the interior of the connecting channel (43).
6. 6. A spliced runner brick according to claim 2, wherein the positioning assembly (45) comprises: The locating plate (451) and locating ring (452), locating ring (452) are fixed in the top of locating plate (451), locating plate (451) are connected with the inner chamber slip interlude of two adjacent spouts (44), the inner chamber activity joint of locating plate (451) and spacing groove (33).
7. 7. The spliced runner brick according to claim 2, wherein the side of the hexagonal runner brick body (1) and one end of the cuboid runner brick body (2) are fixedly connected with a lug (5) in a rectangular array, the other end of the cuboid runner brick body (2) is provided with a groove (6), and the lug (5) is movably clamped with an inner cavity of the groove (6).

Description

Spliced type runner brick Technical Field The utility model relates to the technical field of runner bricks, in particular to a spliced runner brick. Background The steel runner brick is hollow refractory brick which is built in a groove of a bottom plate for casting ingot and is internally connected with a steel dividing brick and a steel ingot mould, the steel runner brick is widely applied to flat casting steel of various steel types, the steel runner brick is high in refractoriness, good in chipping resistance and strong in erosion resistance, the steel runner brick is generally hollow clay brick with various specifications, the steel runner brick is required to be smooth in inner hole, regular in appearance and tight in joint in order to reduce resistance in the molten steel flowing process and prevent steel leakage, and the inner cavities of the steel runner bricks are required to be spliced when the conventional steel runner brick is used, so that the inner cavities of the steel runner bricks can be communicated. The application number 202120060869.0 discloses a novel center runner brick, including the runner brick body, the centre bore has been seted up to the inside of runner brick body, the one end intercommunication of centre bore has the spread groove, the spacing groove has been seted up to one side of spread groove, the other end intercommunication of centre bore has the interface. Above-mentioned runner brick, the runner brick body carries out vertical equipment and stacks the equipment between the runner brick body through joint groove and joint seat, realizes being linked together through spread groove and interface between the runner brick body, but the runner brick is when receiving the collision or the removal of runner brick body horizontal plane, takes place the random phenomenon easily between the runner brick body, leads to connecting stability between the runner brick body that links to each other still to have not enough, influences the stability of concatenation runner brick. Disclosure of utility model The utility model aims to provide a spliced type steel brick so as to solve the problems in the background art. The spliced type steel brick comprises a hexagonal steel brick body, wherein a plurality of cuboid steel brick bodies for splicing are arranged on the outer wall of the hexagonal steel brick body in an annular array; the side of hexagonal steel brick body and the one end of cuboid steel brick body all are provided with coupling mechanism, the other end of cuboid steel brick body is provided with the joint mechanism that is used for coupling mechanism concatenation, joint mechanism includes: the clamping groove is formed in the inner cavity of the annular groove; A plurality of connecting grooves, wherein two adjacent connecting grooves are formed in the top and the bottom of the annular groove; The sliding grooves are oppositely formed in two sides of the other end of the cuboid steel brick body, and the positioning assembly is in sliding connection with inner cavities of the two adjacent sliding grooves. Preferably, a plurality of the connecting mechanisms are arranged on the outer wall of the hexagonal steel brick body in a ring-shaped array, and the connecting mechanisms comprise: the connecting convex openings are integrally formed and fixedly embedded in the outer wall of the hexagonal steel brick body and one end of the cuboid steel brick body; The connecting strips are integrally formed and fixedly embedded at the top and the bottom of the connecting convex opening; The limiting grooves are formed in the tops of the connecting strips. Preferably, the plurality of connecting strips are fixedly connected with the outer wall of the hexagonal steel brick body in two annular arrays, and the other plurality of connecting strips are fixed at one end of the cuboid steel brick body. Preferably, the connecting convex opening is movably clamped with the annular groove and the inner cavity of the clamping groove, and the annular groove is formed in the other end of the cuboid steel brick body. Preferably, two adjacent sliding grooves are communicated with the inner cavities of the adjacent connecting grooves, and the connecting strips are movably clamped with the inner cavities of the connecting grooves. Preferably, the positioning assembly comprises: The locating plate and the locating ring are fixed at the top of the locating plate, the locating plate is connected with the inner cavities of two adjacent sliding grooves in a sliding penetrating mode, and the locating plate is movably clamped with the inner cavities of the limiting grooves. Preferably, the side of the hexagonal steel brick body and one end of the cuboid steel brick body are fixedly connected with protruding blocks in a rectangular array, the other end of the cuboid steel brick body is provided with a groove, and the protruding blocks are movably clamped with the inner cavity of the groove. The utility model ha