CN217168954U

CN217168954U - A mould for processing opposite sex refractory silica brick

Info

Publication number: CN217168954U
Application number: CN202220326046.2U
Authority: CN
Inventors: 马宏伟; 杨海军; 武占国
Original assignee: Luoyang Luonaifei Refractory Material Co ltd; Luoyang Daimengte Intelligent Equipment Manufacturing Co ltd
Current assignee: Luoyang Luonaifei Refractory Material Co ltd; Luoyang Daimengte Intelligent Equipment Manufacturing Co ltd
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-08-12
Anticipated expiration: 2032-02-18

Abstract

The utility model discloses a mould for processing anisotropic refractory silica bricks, which comprises a base positioned in the middle of the mould, wherein the periphery of the base is provided with a left movable blocking plate, a right movable blocking plate, a front movable edge plate and a back movable edge plate, the left movable blocking plate and the right movable blocking plate are arranged correspondingly, and the front movable edge plate and the back movable edge plate are arranged correspondingly; the bottom surface and the mutual parallel arrangement of horizontal plane of base, the upper surface of base have two mutual parallel arrangement's first inclined plane and second inclined plane, and first inclined plane is higher than the second inclined plane, has the step side between first inclined plane and the second inclined plane, and the step side sets up with first inclined plane and second inclined plane mutually perpendicular respectively, the utility model relates to a simple structure, it is convenient to use, can be at the in-process of suppression different sex silica brick for the plug is in vertical state all the time, can realize the drawing of patterns under the condition that does not influence the adobe structure, reduces the damaged probability of adobe, is favorable to improving the efficiency and the quality of special-shaped brick suppression.

Description

A mould for processing opposite sex refractory silica brick

Technical Field

The utility model belongs to the technical field of the brickmaking mould design, concretely relates to a mould for processing different in nature refractory silica brick.

Background

Refractory materials are generally divided into two categories, namely unshaped refractory and shaped refractory. The unshaped refractory material, also called as casting material, is a mixed powder granule composed of various aggregates or aggregates and one or more kinds of adhesives, and when in use, the unshaped refractory material must be matched with one or more kinds of liquids to be stirred uniformly, and has stronger fluidity. The shaped refractory material generally refers to refractory bricks, the shape of which has standard rules, and can also be temporarily processed when being built and cut according to needs, and the shaped refractory material can be divided into standard type bricks, common bricks, special-shaped bricks and the like according to the shape and the size. The silicon carbide refractory product is a high-grade refractory material produced by taking silicon carbide as a raw material, and has the advantages of good wear resistance and corrosion resistance, high-temperature strength, high thermal conductivity, small linear expansion coefficient, good thermal shock resistance and the like.

At present, the shaped silicon carbide refractory bricks have various use occasions, so that the refractory bricks are required to be made into brick shapes meeting the requirements according to the actual environment, as shown in figure 10, the brick shapes are used for coke oven ventilation pipelines, and the brick-shaped refractory bricks have the structural characteristics that: the axis of the central hole is in an inclined state, namely when the refractory bricks are horizontally placed on the ground, the central axis of the central hole deviates from a certain angle relative to the X axis and also deviates from a certain angle relative to the Y axis. The existing process for pressing the silica bricks is to press the silica bricks according to the appearance of the bricks, namely, a central hole is in an inclined state, so that the problem that the green bricks are easily damaged during demoulding, the demoulding is inconvenient and the production efficiency is influenced is caused.

Disclosure of Invention

The utility model discloses a solve above-mentioned technical problem, provide a mould for processing different in nature fire-resistant silica brick, its structural design is simple reasonable, it is convenient to use, can be at the in-process of suppression different in nature silica brick for the plug is in vertical state all the time, can realize the drawing of patterns under the condition that does not influence the adobe structure, reduces the damaged probability of adobe, is favorable to improving the efficiency and the quality of special-shaped brick suppression.

The utility model adopts the technical proposal that: a mould for processing special-shaped refractory silica bricks comprises a base positioned in the middle of the mould, wherein a left movable blocking plate, a right movable blocking plate, a front movable edge plate and a rear movable edge plate are arranged at the periphery of the base, the left movable blocking plate and the right movable blocking plate are arranged correspondingly, and the front movable edge plate and the rear movable edge plate are arranged correspondingly;

the bottom surface of the base is parallel to the horizontal plane, the upper surface of the base is provided with a first inclined surface and a second inclined surface which are parallel to each other, the first inclined surface is higher than the second inclined surface, a step side surface is arranged between the first inclined surface and the second inclined surface, the step side surface is perpendicular to the first inclined surface and the second inclined surface respectively, the first inclined surface is provided with a bottom through hole which penetrates through the base, the first inclined surface and the second inclined surface are both in a parallelogram structure, the vertical distance between the parallelogram intersection point of the first inclined surface and the bottom surface of the base is different from each other, and the vertical distance between the parallelogram intersection point of the second inclined surface and the bottom surface of the base is different from each other;

a top cover is arranged above the base, the upper surface of the top cover and the bottom surface of the base are arranged in parallel, the lower surface of the top cover and the first inclined surface are arranged in parallel, a cover through hole which has the same diameter size as the bottom through hole and the central line of which is coincident with each other is arranged on the top cover, and a core rod is arranged in the bottom through hole and the cover through hole;

the base, the top cover, the core rod, the left movable blocking plate, the right movable blocking plate, the front movable side plate and the rear movable side plate are combined and surrounded to form a hollow special-shaped silica brick cavity structure.

Around having outside sideboard and outside closure plate around the left side closure plate, the right side closure plate, preceding movable side board and the back movable side board, the quantity of outside sideboard is two and corresponds the setting each other, and the quantity of outside closure plate is two and corresponds the setting each other.

Horizontal backing plates are arranged on the inner walls of the external side plates and the external blocking plates, and the upper surfaces of the backing plates are in contact with the lower surface of the base.

The lower position of the inner wall of the front movable side plate is provided with a front side plate inclined plane, the front side plate inclined plane is positioned above the front end surface of the base, the thickness of the front side plate inclined plane is sequentially increased from top to bottom, and the thickness of the front side plate inclined plane is gradually increased from one side of the front movable side plate to the other side of the front movable side plate.

The inner wall of the rear movable edge plate is provided with a rear edge plate inclined plane, the rear edge plate inclined plane is positioned above the rear end surface of the base, the thickness of the rear edge plate inclined plane is sequentially increased from top to bottom, and the thickness of the rear edge plate inclined plane is gradually increased from one side of the rear movable edge plate to the other side of the rear movable edge plate.

The inner wall position of the left movable blocking plate is provided with a left blocking plate inclined plane, the left blocking plate inclined plane is positioned above the side face of the base, and a left blocking plate step face protruding outwards is arranged below the inner wall of the left movable blocking plate.

The inner wall position of the right movable blocking plate is provided with a right blocking plate inclined plane, the right blocking plate inclined plane is positioned above the other side surface of the base, and a right blocking plate step surface protruding outwards is arranged below the inner wall of the right movable blocking plate.

After the die is assembled, a die cavity matched with the special-shaped bricks is formed in the die, refractory brick raw materials are filled in the die cavity, after the top cover is covered, a brick pressing machine is utilized to press and form a brick blank, after the brick blank is formed, the original state that the core rod is inclined is replaced because the core rod is in a state vertical to the horizontal ground, the core rod can be conveniently drawn out of the die, the brick blank is prevented from being damaged, and after the die is disassembled, the formed refractory silica brick can be taken down from the position of the base, so that the brick pressing process is completed.

The bottom surface of the base is parallel to the horizontal plane, the upper surface of the base is provided with a first inclined surface and a second inclined surface which are parallel to each other, and the first inclined surface is higher than the second inclined surface; the purpose of this is: the special-shaped silica brick is used for matching with the appearance structure of a required special-shaped silica brick, and the surface of the special-shaped silica brick is provided with the step which protrudes upwards, so that the two inclined planes which are parallel to each other are arranged on the base, the forming of the step on the surface of the special-shaped silica brick can be facilitated, and the forming condition of the special-shaped silica brick is met.

A step side surface is arranged between the first inclined surface and the second inclined surface, and the step side surface is respectively and mutually perpendicular to the first inclined surface and the second inclined surface; the purpose of this is: because the steps of the special-shaped bricks are in a vertical state, the side surfaces of the steps are respectively vertical to the two inclined surfaces, and the processing and manufacturing of the special-shaped bricks can be guaranteed.

The first inclined plane is provided with a bottom through hole penetrating through the base, the first inclined plane and the second inclined plane are both in a parallelogram structure, the vertical distance between the parallelogram intersection point of the first inclined plane and the bottom surface of the base is different from each other, and the vertical distance between the parallelogram intersection point of the second inclined plane and the bottom surface of the base is different from each other; the purpose of this is: the bottom through hole is used for inserting a core rod to ensure the forming of the central hole of the special-shaped brick; the vertical distances between the four vertexes of the two inclined planes and the bottom surface of the base are different from each other, and the main reason is that after the special-shaped bricks are formed, the central holes are in an inclined state, and the inclined state not only ensures that the special-shaped bricks are inclined relative to the X axis, but also ensures that the special-shaped bricks are inclined relative to the Y axis.

The utility model has the advantages that:

the utility model relates to a simple structure, it is convenient to use, can be at the in-process of suppression different in shape silica brick for the plug is in vertical state all the time, can realize the drawing of patterns under the condition that does not influence the adobe structure, reduces the damaged probability of adobe, is favorable to improving the efficiency and the quality of special-shaped brick suppression.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is an exploded view of the present invention;

FIG. 3 is a perspective view of the base of the present invention;

fig. 4 is a top view of the base of the present invention;

fig. 5 is a perspective view of the top cover of the present invention;

FIG. 6 is a perspective view of the front side flap of the present invention;

FIG. 7 is a perspective view of the back side flap of the present invention;

fig. 8 is a perspective view of the left movable blocking plate of the present invention;

fig. 9 is a perspective view of the right movable blocking plate of the present invention;

fig. 10 is a structural diagram of the special-shaped bricks required to be pressed by the utility model.

The labels in the figure are: 1. a base plate; 2. an outer edge plate; 3. a left movable blocking plate; 301. a left closure plate ramp; 302. a step surface of the left blocking plate; 4. a rear movable side plate; 401. a rear panel slope; 5. a top cover; 501. a cover ramp; 502. covering the through hole; 6. a right movable blocking plate; 601. a right closure plate inclined plane; 602. a step surface of the right blocking plate; 7. a core rod; 8. a front loose edge plate; 801. a front edge panel slope; 9. a base; 901. a first inclined plane; 902. a second inclined plane; 903. a bottom through hole; 904. a step side; 10. an exterior closure plate.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

As shown in the figure, the mold for processing the special-shaped refractory silica brick comprises a base 9 positioned in the middle of the mold, wherein a left movable blocking plate 3, a right movable blocking plate 6, a front movable edge plate 8 and a rear movable edge plate 4 are arranged at the periphery of the base 9, the left movable blocking plate 3 and the right movable blocking plate 6 are correspondingly arranged, and the front movable edge plate 8 and the rear movable edge plate 4 are correspondingly arranged;

the bottom surface of the base 9 is parallel to the horizontal plane, the upper surface of the base 9 is provided with a first inclined surface 901 and a second inclined surface 902 which are parallel to each other, the first inclined surface 901 is higher than the second inclined surface 902, a step side surface 904 is arranged between the first inclined surface 901 and the second inclined surface 902, the step side surface 904 is perpendicular to the first inclined surface 901 and the second inclined surface 902, the first inclined surface 901 is provided with a bottom through hole 903 which penetrates through the base 9, the first inclined surface 901 and the second inclined surface 902 are both in a parallelogram structure, the vertical distances between the parallelogram intersection point of the first inclined surface 901 and the bottom surface of the base 9 are not equal to each other, and the vertical distances between the parallelogram intersection point of the second inclined surface 902 and the bottom surface of the base 9 are not equal to each other;

a top cover 5 is arranged above the base 9, the upper surface of the top cover 5 and the bottom surface of the base 9 are arranged in parallel, the lower surface of the top cover 5 is provided with a cover inclined surface 501 and is arranged in parallel with the first inclined surface 901, the top cover 5 is provided with a cover through hole 502 which has the same diameter size as the bottom through hole 903 and has a central line superposed with each other, and a core rod 7 is arranged in the bottom through hole 903 and the cover through hole 502;

the base 9, the top cover 5, the core rod 7, the left movable blocking plate 3, the right movable blocking plate 6, the front movable side plate 8 and the rear movable side plate 4 are combined and surrounded to form a hollow special silica brick cavity structure in the middle.

The jam board 3, the right side of living is lived to the left side and is blocked up 6, preceding side board 8 and the back side board 4 of living is around having outside sideboard 2 and outside jam board 10, and the quantity of outside sideboard 2 is two and corresponds the setting each other, and the quantity of outside jam board 10 is two and corresponds the setting each other.

The inner walls of the outer side plate 2 and the outer blocking plate 10 are provided with horizontal backing plates 1, and the upper surfaces of the backing plates 1 are in mutual contact with the lower surface of the base 9.

The lower position of the inner wall of the front movable side plate 8 is provided with a front plate inclined surface 801, the front plate inclined surface 801 is positioned at the upper position of the front end surface of the base 9, the thickness of the front plate inclined surface 801 is gradually increased from top to bottom, and the thickness of the front plate inclined surface 801 is gradually increased from one side of the front movable side plate 8 to the other side, namely, the lower position of the inner side of the front movable side plate 8 is contacted with the surface a of the base 9 in fig. 4.

The inner wall of the rear movable edge plate 4 is provided with a rear edge plate inclined plane 401, the rear edge plate inclined plane 401 is positioned above the rear end surface of the base 9, the thickness of the rear edge plate inclined plane 401 is sequentially increased from top to bottom, and the thickness of the rear edge plate inclined plane 401 is gradually increased from one side of the rear movable edge plate 4 to the other side, namely, the lower part of the inner side of the rear movable edge plate 4 is in contact with the surface b of the base 9 in fig. 4.

The inner wall position of the left movable blocking plate 3 is provided with a left blocking plate inclined plane 301, the left blocking plate inclined plane 301 is positioned above the side surface of the base 9, and a left blocking plate step surface 302 protruding outwards is arranged below the inner wall of the left movable blocking plate 3, namely the lower position of the inner wall of the left movable blocking plate 3 is contacted with the c surface of the base 9 in fig. 4, wherein the left blocking plate step surface 302 is contacted with the concave side surface of the c surface.

The inner wall of the right movable blocking plate 6 is provided with a right blocking plate inclined plane 601, the right blocking plate inclined plane 601 is positioned above the other side surface of the base 9, and a right blocking plate step surface 602 protruding outwards is positioned below the inner wall of the right movable blocking plate 6, namely, the lower position of the inner wall of the right movable blocking plate 6 is in contact with the d surface of the base 9 in fig. 4, wherein the right blocking plate step surface 602 is in contact with the concave side surface of the d surface.

After the die is assembled, a die cavity matched with the special-shaped brick is formed in the die, refractory brick raw materials are filled in the die cavity, after the top cover 5 is covered, a brick pressing machine is used for pressing and forming a brick blank, after forming, because the core rod 7 is in a state vertical to the horizontal ground, the original state that the core rod 7 is inclined is replaced, the core rod 7 can be conveniently drawn out of the die, the brick blank is prevented from being damaged, and after the die is disassembled, the formed refractory silica brick can be taken down from the position of the base 9, so that the brick pressing process is completed.

Claims

1. The utility model provides a mould for processing opposite sex refractory silica brick which characterized in that: the mold comprises a base positioned in the middle of the mold, wherein a left movable blocking plate, a right movable blocking plate, a front movable edge plate and a rear movable edge plate are arranged at the periphery of the base, the left movable blocking plate and the right movable blocking plate are correspondingly arranged, and the front movable edge plate and the rear movable edge plate are correspondingly arranged;

2. The mold for processing the special-shaped refractory silica brick as claimed in claim 1, wherein: around having around the jam board that lives on a left side, the jam board that lives on the right side, preceding side board and the back side board that lives, outside side board's quantity is two and corresponds the setting each other, and the quantity of outside jam board is two and corresponds the setting each other.

3. The mold for processing the anisotropic refractory silica brick according to claim 2, wherein: the inner wall positions of the outer side plate and the outer blocking plate are provided with horizontal base plates, and the upper surfaces of the base plates are in contact with the lower surface of the base.

4. The mold for processing the special-shaped refractory silica brick as claimed in claim 1, wherein: the lower position of the inner wall of the front movable side plate is provided with a front side plate inclined plane, the front side plate inclined plane is positioned above the front end surface of the base, the thickness of the front side plate inclined plane is sequentially increased from top to bottom, and the thickness of the front side plate inclined plane is gradually increased from one side of the front movable side plate to the other side of the front movable side plate.

5. The mold for processing the special-shaped refractory silica brick as claimed in claim 1, wherein: the inner wall of the rear movable edge plate is provided with a rear edge plate inclined plane which is positioned above the rear end surface of the base, the thickness of the rear edge plate inclined plane is increased from top to bottom, and the thickness of the rear edge plate inclined plane is gradually increased from one side of the rear movable edge plate to the other side of the rear movable edge plate.

6. The mold for processing the anisotropic refractory silica brick according to claim 1, wherein: the inner wall of the left movable blocking plate is provided with a left blocking plate inclined plane, the left blocking plate inclined plane is positioned above the side surface of the base, and a left blocking plate step surface protruding outwards is arranged below the inner wall of the left movable blocking plate.

7. The mold for processing the anisotropic refractory silica brick according to claim 1, wherein: the inner wall of the right movable blocking plate is provided with a right blocking plate inclined plane, the right blocking plate inclined plane is positioned above the other side surface of the base, and a right blocking plate step surface protruding outwards is arranged below the inner wall of the right movable blocking plate.