CN114538939A - Improved groove-type heat-insulation high-alumina brick structure - Google Patents

Abstract

The invention relates to the technical field of high-alumina bricks, in particular to an improved groove-shaped heat-insulation high-alumina brick structure, wherein a trapezoidal groove is formed in one side of a trapezoidal heat-insulation high-alumina brick, a trapezoidal block is arranged in the middle of the inside of the trapezoidal groove, one side of the trapezoidal block is fixedly connected with one side of the inner wall of the trapezoidal groove, two sides of the trapezoidal block are fixedly connected with the inner wall of the trapezoidal groove through V-shaped supporting blocks, first glass fibers are filled in the trapezoidal groove, an arc-shaped groove is formed in one side, away from the trapezoidal groove, of the trapezoidal heat-insulation high-alumina brick, a supporting device is arranged in the arc-shaped groove, and the supporting device comprises an arc-shaped supporting block arranged in the middle of the arc-shaped groove. The device simple structure, the inside in dovetail groove is equipped with the V type supporting shoe, can play the effect of support to the inside in dovetail groove, and strutting arrangement in the arc wall has increased the holding power of arc wall, avoids dovetail groove and arc wall to influence trapezoidal thermal-insulated high-alumina brick's bearing capacity for hollow state, great increase the security that trapezoidal thermal-insulated high-alumina brick used, glass fiber can promote the thermal-insulated effect of trapezoidal thermal-insulated high-alumina brick.

Description

Improved groove-type heat-insulation high-alumina brick structure

Technical Field

The invention relates to the technical field of high-alumina bricks, in particular to an improved groove type heat-insulating high-alumina brick structure.

Background

The traditional phosphate baking-free bricks, high-alumina bricks, periclase spinel bricks, magnesia-alumina spinel bricks, chrome-containing bricks and the like which are popular in the market at present have high heat conductivity and large heat loss. Although the composite brick solves the problem of heat energy loss, the problem of short service life cannot be solved due to poor fracture resistance of the light and heavy combined part.

According to the Chinese patent application No. 201620160325.0, a 'groove type heat insulation high-alumina brick' is disclosed, which solves the problem that the heat insulation performance and the anti-bending performance of the prior various bricks are not enough. Cell type high-alumina brick that insulates against heat is processed for trapezoidal high-alumina brick on general appearance structure, specifically for opening the dovetail groove on the one end bottom surface that high-alumina brick is thick, and the intussuseption of dovetail groove is filled and is contained zirconium fibrofelt, increases mechanical properties such as anti folding performance of high-alumina brick through setting up the dovetail groove, but does not set up strutting arrangement in the dovetail groove, and this mechanical properties that will influence the dovetail groove has the potential safety hazard during the use. Accordingly, those skilled in the art have provided an improved channel-type insulated high alumina brick structure to solve the above-mentioned problems in the background art.

Disclosure of Invention

The invention aims to provide an improved groove type heat insulation high-alumina brick structure to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an improved groove-shaped heat-insulating high-alumina brick structure comprises a trapezoid heat-insulating high-alumina brick, wherein a trapezoid groove is formed in one side of the trapezoid heat-insulating high-alumina brick, a trapezoid block is arranged in the middle of the inside of the trapezoid groove, one side of the trapezoid block is fixedly connected with one side of the inner wall of the trapezoid groove, two sides of the trapezoid block are fixedly connected with the inner wall of the trapezoid groove through V-shaped supporting blocks, first glass fibers are filled in the trapezoid groove, an arc-shaped groove is formed in one side, away from the trapezoid groove, of the trapezoid heat-insulating high-alumina brick, and a supporting device is arranged in the arc-shaped groove;

the supporting device comprises an arc-shaped supporting block arranged in the middle of the arc-shaped groove, the outer side edges of the arc-shaped supporting block are fixedly connected with the inner wall of the arc-shaped groove through supporting columns at equal intervals, and second glass fibers are arranged inside the arc-shaped groove.

As a further aspect of the invention: a positioning slot is formed in one side of the trapezoid heat-insulating high-alumina brick, a positioning insertion column is fixedly arranged on one side, away from the positioning slot, of the trapezoid heat-insulating high-alumina brick, and the positioning insertion column is matched with the positioning slot.

As a further aspect of the invention: and three through holes are formed in one side of the top of the V-shaped supporting block and communicated with the trapezoidal groove.

As a further aspect of the invention: the positioning slots are internally and equidistantly fixedly provided with three positioning pins, the positioning inserting columns are equidistantly provided with three positioning holes, and the positioning pins are matched with the positioning holes.

As a further aspect of the invention: and the two ends of the arc-shaped supporting block are fixedly connected with the inner walls of the two ends of the arc-shaped groove.

As a further aspect of the invention: the middle of the trapezoidal block is fixedly connected with the trapezoidal groove through an expansion bolt.

Compared with the prior art, the invention has the beneficial effects that: the device simple structure, the inside in dovetail groove is equipped with the V type supporting shoe, can play the effect of support to the inside in dovetail groove, and strutting arrangement in the arc wall has increased the holding power of arc wall, avoids dovetail groove and arc wall to influence trapezoidal thermal-insulated high-alumina brick's bearing capacity for hollow state, great increase the security that trapezoidal thermal-insulated high-alumina brick used, glass fiber can promote the thermal-insulated effect of trapezoidal thermal-insulated high-alumina brick.

Drawings

FIG. 1 is a schematic structural view of an improved groove-type heat-insulating high-alumina brick structure;

FIG. 2 is a schematic structural diagram of a V-shaped supporting block in an improved groove-type heat-insulating high-alumina brick structure;

fig. 3 is a sectional view of an improved channel type heat insulation high-alumina brick structure.

In the figure: 1. trapezoidal heat-insulating high-alumina bricks; 2. a trapezoidal groove; 3. a trapezoidal block; 4. a V-shaped supporting block; 5. a through hole; 6. a first glass fiber; 7. an arc-shaped slot; 8. an arc-shaped supporting block; 9. a support pillar; 10. a second glass fiber; 11. positioning the slot; 12. positioning the inserted column; 13. positioning pins; 14. positioning holes; 15. an expansion bolt.

Detailed Description

Referring to fig. 1-3, in the embodiment of the invention, an improved groove-type heat-insulating high-alumina brick structure comprises a trapezoidal heat-insulating high-alumina brick 1, wherein a trapezoidal groove 2 is formed in one side of the trapezoidal heat-insulating high-alumina brick 1, a trapezoidal block 3 is arranged in the middle of the inside of the trapezoidal groove 2, one side of the trapezoidal block 3 is fixedly connected with one side of the inner wall of the trapezoidal groove 2, two sides of the trapezoidal block 3 are fixedly connected with the inner wall of the trapezoidal groove 2 through V-shaped supporting blocks 4, first glass fibers 6 are filled in the trapezoidal groove 2, an arc-shaped groove 7 is formed in one side, away from the trapezoidal groove 2, of the trapezoidal heat-insulating high-alumina brick 1, and a supporting device is arranged in the arc-shaped groove 7;

the supporting device comprises an arc-shaped supporting block 8 arranged in the middle of the arc-shaped groove 7, the outer side edges of the arc-shaped supporting block 8 are fixedly connected with the inner wall of the arc-shaped groove 7 through supporting columns 9 at equal intervals, and second glass fibers 10 are arranged inside the arc-shaped groove 7.

In fig. 1 and 3: positioning slot 11 has been seted up to one side of trapezoidal thermal-insulated high-alumina brick 1, and trapezoidal thermal-insulated high-alumina brick 1 keeps away from one side of positioning slot 11 and fixes being equipped with the location and inserting post 12, and the location is inserted post 12 and positioning slot 11 phase-match, and stability when connecting the concatenation between convenient two trapezoidal thermal-insulated high-alumina bricks 1 avoids appearing the skew between the two.

In fig. 1, 2 and 3: the quantity is seted up on one side of the top of V type supporting shoe 4 and is three through-hole 5, and through-hole 5 is linked together with trapezoidal groove 2, conveniently fills V type supporting shoe 4 centre with first glass fiber 6, increases first glass fiber's filling volume in the trapezoidal groove 2 to can increase trapezoidal thermal-insulated high-alumina brick 1's thermal-insulated effect.

In fig. 1 and 3: the three positioning pins 13 are fixedly arranged in the positioning slot 11 at equal intervals, the three positioning holes 14 are formed in the positioning inserting column 12 at equal intervals, the positioning pins 13 are matched with the positioning holes 14, the positioning accuracy between the positioning inserting column 12 and the positioning slot 11 is improved, and the inserted shaking is avoided.

In FIG. 1: the both ends of arc supporting shoe 8 are in the both ends inner wall fixed connection of arc groove 7, increase the stability that arc supporting shoe 8 placed.

In FIG. 3: the middle of trapezoidal piece 3 is through expansion bolts 15 and trapezoidal groove 2 between fixed connection, increases the stability of being connected between trapezoidal piece 3 and the trapezoidal groove 2.

The working principle of the invention is as follows: set up sometimes to trapezoidal groove 2, set up trapezoidal groove 2 in trapezoidal thermal-insulated high-alumina brick 1's lower bottom surface, and set up arc wall 7 in trapezoidal thermal-insulated high-alumina brick 1's last bottom surface, be equipped with V type supporting shoe 4 in the inside of trapezoidal groove 2, can play the effect of supporting to the inside of trapezoidal groove 2, avoid trapezoidal groove 2 to influence trapezoidal thermal-insulated high-alumina brick 1's bearing capacity for hollow state, great increase trapezoidal thermal-insulated high-alumina brick 1's security of using, set up strutting arrangement in arc wall 7 simultaneously, wherein support column 9 and arc supporting shoe 8 can be to the holding power that increases arc wall 7, trapezoidal thermal-insulated high-alumina brick 1's bearing capacity has been increased, be equipped with first respectively in the inside of trapezoidal groove 2 and arc wall 7 simultaneously, second glass fiber 10, thereby trapezoidal thermal-insulated high-alumina brick 1's thermal-insulated effect has been increased, the device simple structure, it can not destroy original high-alumina brick 1 two bottom surfaces to trapezoidal groove 2 and arc wall 7 to set up trapezoidal thermal-insulated high-alumina brick simultaneously, can not destroy original high-insulated high-alumina brick 1 can not destroy by trapezoidal groove 7 The fracture resistance and the mechanical property of the aluminum brick solve the problem of heat energy loss and prolong the service life.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (6)

1. An improved groove-type heat-insulation high-alumina brick structure comprises a trapezoid heat-insulation high-alumina brick (1) and is characterized in that a trapezoid groove (2) is formed in one side of the trapezoid heat-insulation high-alumina brick (1), a trapezoid block (3) is arranged in the middle of the inside of the trapezoid groove (2), one side of the trapezoid block (3) is fixedly connected with one side of the inner wall of the trapezoid groove (2), two sides of the trapezoid block (3) are fixedly connected with the inner wall of the trapezoid groove (2) through V-shaped supporting blocks (4), first glass fibers (6) are filled in the trapezoid groove (2), an arc-shaped groove (7) is formed in one side, away from the trapezoid groove (2), of the trapezoid heat-insulation high-alumina brick (1), and a supporting device is arranged in the arc-shaped groove (7);

the supporting device comprises an arc-shaped supporting block (8) arranged in the middle of the arc-shaped groove (7), the outer side edges of the arc-shaped supporting block (8) are fixedly connected with the inner wall of the arc-shaped groove (7) through supporting columns (9) at equal intervals, and second glass fibers (10) are arranged inside the arc-shaped groove (7).

2. The improved groove-shaped heat-insulating high-alumina brick structure as claimed in claim 1, wherein a positioning slot (11) is formed in one side of the trapezoidal heat-insulating high-alumina brick (1), a positioning insertion column (12) is fixedly arranged on one side of the trapezoidal heat-insulating high-alumina brick (1) far away from the positioning slot (11), and the positioning insertion column (12) is matched with the positioning slot (11).

3. The improved groove-type heat-insulating high-alumina brick structure as claimed in claim 1, wherein three through holes (5) are formed in one side of the top of the V-shaped supporting block (4), and the through holes (5) are communicated with the trapezoidal groove (2).

4. The improved groove-type heat-insulating high-alumina brick structure as claimed in claim 2, wherein the positioning slot (11) is internally and equidistantly provided with three positioning pins (13), the positioning insert column (12) is equidistantly provided with three positioning holes (14), and the positioning pins (13) are matched with the positioning holes (14).

5. The improved trough-type heat insulation high-alumina brick structure as claimed in claim 1, wherein two ends of the arc-shaped supporting block (8) are fixedly connected with the inner walls of two ends of the arc-shaped trough (7).

6. The improved groove-type insulated high-alumina brick structure as claimed in claim 1, characterized in that the middle of the trapezoidal blocks (3) is fixedly connected with the trapezoidal groove (2) through expansion bolts (15).

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