CN212948352U - Anti-drop ceramic tile shrink mould and anti-drop ceramic tile - Google Patents

Abstract

The utility model discloses an anti-drop ceramic tile shrink mould and anti-drop ceramic tile. Anti-drop ceramic tile shrink mould, including the mold core, the mold core includes the concatenation subassembly, moulding-die subassembly and drive assembly, drive assembly is four prismatic table, the drive assembly four corners is equipped with the transmission lug, drive assembly four sides are equipped with the transmission recess, the concatenation subassembly is four, every concatenation subassembly corresponds the transmission recess and is equipped with the concatenation lug, concatenation lug and transmission recess sliding fit, moulding-die subassembly is four, every moulding-die subassembly corresponds the transmission lug and is equipped with the moulding-die recess, transmission lug and moulding-die recess sliding fit, four moulding-die subassemblies and four concatenation subassemblies and the seamless cooperation of drive assembly, moulding-die subassembly is equipped with moulding-die shaping groove. The utility model discloses anti-drop ceramic tile shrink mould can carry out suppression shaping four sides anticreep groove, simultaneously through the cooperation of drive assembly with press mold assembly and concatenation subassembly, inwards shrinks press mold assembly and concatenation subassembly when realizing the pulling drive assembly, makes things convenient for the drawing of patterns.

Description

Anti-drop ceramic tile shrink mould and anti-drop ceramic tile

Technical Field

The utility model relates to a ceramic tile mould field, in particular to anti-drop ceramic tile shrink mould.

Background

The ceramic tile is made up by using refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, and is an acid-alkali-resistant porcelain or stone building or decorative material, so called as ceramic tile. The ceramic tile is generally paved and pasted on a wall surface or a ground surface by adopting an adhesive or cement paste, the adhesive surface of the common ceramic tile is often provided with a plurality of convex criss-cross anti-slip ribs, the ceramic tile is completely fixed on the wall surface or the ground surface by depending on the viscosity, the adhesive force is small, the adhesive strength is not enough, and the ceramic tile is easy to loosen or fall off after being used for a long time.

In order to improve the adhesive force between the ceramic tile and the wall surface or the ground and prevent the ceramic tile from loosening and falling, the anti-falling ceramic tile appears on the market, and the adhesive force between the ceramic tile and the wall surface or the ground is obviously improved. At present, most of anti-falling ceramic tiles on the market adopt a convex or groove design, but the anti-falling force of the convex or groove design has some defects, only can provide unidirectional anti-falling force, the integrally provided anti-falling force is not enough, and the design of a pressing mold is more complicated, and the demolding is inconvenient.

The utility model provides a can press forming have the anticreep groove that the four sides anticreep power provided that falls, and the anti-drop ceramic tile shrink mould of convenient drawing of patterns.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure can suppress out the anti-drop ceramic tile shrink mould of four sides anticreep fall groove and convenient drawing of patterns and the anti-drop ceramic tile of production thereof.

For realizing above-mentioned purpose, the utility model discloses a following technical scheme, anti-drop ceramic tile shrink mould, including the mold core, the mold core includes the concatenation subassembly, moulding-die subassembly and drive assembly, drive assembly is four prismatic table, the drive assembly four corners is equipped with the transmission lug, drive assembly four sides are equipped with the transmission recess, the concatenation subassembly is four, every concatenation subassembly corresponds the transmission recess and is equipped with the concatenation lug, concatenation lug and transmission recess sliding fit, moulding-die subassembly is four, every moulding-die subassembly corresponds the transmission lug and is equipped with the moulding-die recess, transmission lug and moulding-die recess sliding fit, four moulding-die subassembly and four seamless cooperations of concatenation subassembly and drive assembly, mold core suppression bottom surface edge is equipped with the shaping arch of closed loop, moulding-die subassembly and concatenation subassembly bottom surface are located to the shaping arch outside of moulding-die subassembly part is equipped with moulding-die shaping.

The utility model discloses an anti-drop ceramic tile shrink mould, through setting up the shaping arch, four moulding-die subassemblies and moulding-die shaping grooves on the moulding-die subassembly, realize the shaping suppression in four sides anti-drop groove, adopt the cooperation of transmission subassembly, moulding-die subassembly and concatenation subassembly simultaneously, after the suppression is accomplished, only need upwards stimulate the transmission subassembly, drive transmission lug and transmission recess and shift up, transmission lug and transmission recess realize sliding fit with moulding-die recess and concatenation lug respectively, and transmission lug and concatenation lug are isosceles trapezoid lugs, transmission recess and moulding-die recess are the isosceles trapezoid recess that corresponds transmission lug and concatenation lug matching, when sliding fit, because the transmission subassembly is four prismatic platforms, have certain gradient, the transmission lug stimulates moulding-die recess inward displacement in the sliding process, the transmission recess stimulates the concatenation lug inward displacement in the sliding process, thereby realize moulding-die subassembly and concatenation subassembly inward shrinkage in the transmission subassembly stimulating process, so that the forming bulge and the die forming groove are separated from the formed material plate to finish demoulding.

In some embodiments, the four die-forming grooves are perpendicular two by two and arranged in a "square" shape. The four die forming grooves are arranged in a 'mouth' shape, so that the anti-falling grooves formed by pressing are in a 'mouth' shape, the four sides are stressed, and the anti-falling force is strengthened.

In some embodiments, the die-forming groove includes a main forming groove and upper and lower edges of the main forming groove, the main forming groove is an arc-shaped groove, and the upper and lower edges are rounded edges. The die forming groove is an arc-shaped main forming groove, and the upper edge and the lower edge of the die forming groove are round corner edges, so that the anti-falling force is effectively strengthened; simultaneously, the anti-falling groove bottom corners formed by pressing the round corner edges are round corners, so that the cracks caused by sintering stress in the firing process of the anti-falling groove bottom corners are effectively prevented.

In some embodiments, the cross section of the die assembly is isosceles trapezoid, the cross section of the splicing part of the splicing assembly and the die assembly is isosceles trapezoid, and the die assembly and the splicing assembly are sequentially spliced alternately to form a closed loop. Splicing assembly and moulding-die subassembly present isosceles trapezoid cross section and splice each other, conveniently contract the action.

In some embodiments, a pressure plate is arranged above the mold core, and the pressure plate is in transmission connection with the transmission assembly. The pressing power and the contraction motion power are provided by the pressing plate.

In some embodiments, a forming sleeve die is arranged below the die core, and the side of the die core provided with the die forming groove is in contact fit with the forming sleeve die. And a forming sleeve die is arranged, so that the pressing forming is convenient.

In some embodiments, the driving lug and the splicing lug are quadrangular prisms with isosceles trapezoid bottom surfaces, and the pressing die groove and the driving groove are correspondingly arranged into quadrangular prism grooves. The quadrangular prism is shaped to stabilize the sliding fit and provide inward contraction force.

Anti-drop ceramic tile, including the ceramic tile base member, the ceramic tile base member is including the installation face, and the anti-drop groove has been seted up to the installation face, and the anti-drop groove matches with the mold core bottom surface shape.

In some embodiments, the anti-drop groove is provided with four arc-shaped groove edges which are symmetrical in pairs and arranged in a 'mouth' shape, each arc-shaped groove edge comprises a main arc strip, an embedded bottom angle and a surface arc angle, and the embedded bottom angle is an acute angle fillet.

The utility model has the advantages that: the utility model discloses anti-drop ceramic tile shrink mould through setting up drive assembly, moulding-die subassembly and concatenation subassembly, can carry out the press forming cubic anticreep groove that falls, simultaneously through the cooperation of drive assembly with press mold subassembly and concatenation subassembly, inwards shrink moulding-die subassembly and concatenation subassembly when realizing pulling drive assembly, the convenient drawing of patterns; the produced anti-falling ceramic tile has anti-falling acting forces in four sides, the whole stress is uniform and stable, and the anti-falling effect is good.

Drawings

FIG. 1 is a schematic structural view of the anti-falling tile shrinking mold of the present invention;

FIG. 2 is a top view schematic of the structure of FIG. 1;

FIG. 3 is a schematic front view of the structure of FIG. 2;

fig. 4 is a schematic structural view of the transmission assembly of the present invention;

FIG. 5 is a top view schematic of the structure of FIG. 4;

FIG. 6 is a schematic front view of the structure of FIG. 5;

FIG. 7 is a schematic structural view of the die assembly of the present invention;

FIG. 8 is a top view schematic of the structure of FIG. 7;

FIG. 9 is a schematic front view of the structure of FIG. 8;

fig. 10 is a schematic structural view of the splicing assembly of the present invention;

FIG. 11 is a schematic front view of the structure of FIG. 10;

fig. 12 is a schematic structural view of the working state of the mold of the present invention;

fig. 13 is a schematic structural view of the anti-falling ceramic tile of the present invention;

FIG. 14 is a schematic cross-sectional view of FIG. 13;

fig. 15 is an enlarged view of a portion a of fig. 14.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Examples

As shown in fig. 1 to 11, comprising a mold core 1, the mold core 1 comprises a splice assembly 2, moulding-die subassembly 3 and drive assembly 4, drive assembly 4 is the quadrangular frustum pyramid, 4 four corners of drive assembly are equipped with transmission lug 41, 4 four sides of drive assembly are equipped with transmission recess 42, splicing assembly 2 is four, every splicing assembly 2 corresponds transmission recess 42 and is equipped with concatenation lug 21, concatenation lug 21 and transmission recess 42 sliding fit, moulding-die subassembly 3 is four, every moulding-die subassembly 3 corresponds transmission lug 41 and is equipped with moulding-die recess 31, transmission lug 41 and moulding-die recess 31 sliding fit, four moulding-die subassembly 3 and four splicing assembly 2 and 4 seamless cooperations of drive assembly, 1 suppression bottom surface edge of mold core is equipped with the protruding 11 of closed loop's shaping, moulding-die subassembly 3 and splicing assembly 2 bottom surfaces are located to the protruding 11 outsides of shaping of moulding-die subassembly 3 part are equipped with moulding-die shaping groove 5.

The four molding grooves 5 are vertical two by two and arranged in a 'mouth' shape.

The die forming groove 5 comprises a main forming groove 51, and an upper edge 52 and a lower edge 53 of the main forming groove 51, wherein the main forming groove 51 is an arc-shaped groove, and the upper edge 52 and the lower edge 53 are round-angle edges.

The cross section of the pressing die assembly 3 is isosceles trapezoid, the cross sections of the splicing parts of the splicing assembly 2 and the pressing die assembly 3 are isosceles trapezoid, and the pressing die assembly 3 and the splicing assembly 2 are sequentially spliced alternately to form a closed loop.

The transmission lug 41 and the splicing lug 21 are quadrangular prisms with isosceles trapezoid bottom surfaces, and the pressing die groove 31 and the transmission groove 42 are correspondingly arranged into quadrangular prism grooves.

As shown in fig. 12, a pressure plate 6 is arranged above the mold core 1, and the pressure plate 6 is in transmission connection with the transmission component 4.

A forming cover die 7 is arranged below the die core 1, and one side of the die core 1, which is provided with a pressing die forming groove 5, is in contact fit with the forming cover die 7.

As shown in fig. 13 to 15, the anti-falling tile comprises a tile base body 8, wherein the tile base body 8 comprises a mounting surface 81, the mounting surface 81 is provided with anti-falling grooves 9, the anti-falling grooves 9 are matched with the bottom surface of the mold core 1 in shape, and four anti-falling grooves 9 are sequentially formed in a pressing mode.

The anti-falling groove 9 is provided with four arc groove edges 91 which are symmetrical in pairs and arranged in a 'mouth' shape, each arc groove edge 91 comprises a main arc strip 92, an embedded bottom angle 93 and a surface arc angle 94, and the embedded bottom angle 93 is an acute angle fillet.

And (3) pressing and forming: install the setting as shown in fig. 12, shaping cover die 7 behind the cloth, transport to mold core 1 below, clamp plate 6 descends and presses die sleeve (not drawn) and drive mold core 1 and descend and carry out the flitch suppression, mold core 1 passes through the bottom surface, moulding-die shaping groove 5 on shaping arch 11 and the moulding-die assembly 3, realize the press forming in anticreep groove on the panel, and the anticreep groove has the groove edge that corresponds like moulding-die shaping groove 5, press forming's anticreep groove, make the anticreep ceramic tile four sides can both obtain the anticreep power, make the anticreep adhesion of ceramic tile improve greatly, the anticreep effect is splendid. Simultaneously, the anti-falling groove corresponds the arc limit that main forming groove 51, upper limb 52 and lower limb 53 formed, and anti-falling groove base angle is the fillet acute angle, has effectually prevented that the ceramic tile sintering in-process from producing stress concentration and the condition of crackle appears.

Demolding: after the pressing and forming, the demoulding action is carried out, the pressing plate 6 rises and drives the transmission component 4 to rise, at the moment, the transmission convex block 41 and the transmission groove 42 move upwards, the transmission convex block 41 and the splicing convex block 21 are isosceles trapezoid convex blocks, the transmission groove 42 and the pressing die groove 31 are isosceles trapezoid grooves matched with the transmission convex block 41 and the splicing convex block 21, as the transmission component 4 is a quadrangular frustum, the transmission convex block 41 has a certain inclination, when the transmission component is pulled upwards, the transmission convex block 41 applies inward tension to the pressing die groove 31, the transmission groove 42 applies inward tension to the splicing convex block 21, the transmission convex block 41 pulls the pressing die groove 31 to move inwards, the transmission groove 42 pulls the splicing convex block 21 to move inwards, the diameter of the contact position of the transmission component 4 with the film pressing component 3 and the splicing component 2 is reduced, so that the pressing die component 3 and the splicing component 2 shrink inwards, and the forming bulge 11 and the pressing die forming groove 31 are separated from, and (5) demolding is finished.

The utility model discloses anti-drop ceramic tile shrink mould through setting up drive assembly, moulding-die subassembly and concatenation subassembly, can carry out suppression shaping four sides anticreep groove that falls, simultaneously through drive assembly and press mold subassembly and the cooperation of concatenation subassembly, with moulding-die subassembly and the inside shrink of concatenation subassembly, the convenient drawing of patterns when realizing the pulling drive assembly.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (9)

1. The anti-falling ceramic tile shrinkage mold comprises a mold core (1) and is characterized in that the mold core (1) comprises a splicing component (2), a pressing mold component (3) and a transmission component (4), the transmission component (4) is a quadrangular frustum, transmission convex blocks (41) are arranged at four corners of the transmission component (4), transmission grooves (42) are formed in four side faces of the transmission component (4), the splicing component (2) is four, each splicing component (2) is provided with a splicing convex block (21) corresponding to the transmission groove (42), the splicing convex blocks (21) are in sliding fit with the transmission grooves (42), the pressing mold component (3) is four, each pressing mold component (3) is provided with a pressing mold groove (31) corresponding to the transmission convex block (41), the transmission convex blocks (41) are in sliding fit with the pressing mold grooves (31), the pressing mold components (3) and the four splicing components (2) are in seamless fit with the transmission component (4), the edge of the bottom surface pressed by the mold core (1) is provided with a closed-loop forming bulge (11), the forming bulge (11) is arranged on the bottom surfaces of the pressing mold assembly (3) and the splicing assembly (2), a pressing mold forming groove (5) is arranged on the outer side of the forming bulge (11) of the pressing mold assembly (3), and the groove edge of the pressing mold forming groove (5) is an arc transition edge and forms an acute angle fillet.

2. The anti-drop tile shrinkage mold according to claim 1, wherein the four press molding grooves (5) are vertical two by two and arranged in a 'mouth' shape.

3. The anti-drop tile shrinkage mold according to claim 1, wherein the die forming groove (5) comprises a main forming groove (51) and an upper edge (52) and a lower edge (53) of the main forming groove (51), the main forming groove (51) is an arc-shaped groove, and the upper edge (52) and the lower edge (53) are rounded edges.

4. An anti-drop tile shrinkage die according to claim 1, wherein the cross section of the die assembly (3) is isosceles trapezoid, the cross section of the splicing part of the splicing assembly (2) and the die assembly (3) is isosceles trapezoid, and the die assembly (3) and the splicing assembly (2) are sequentially spliced alternately to form a closed loop.

5. The anti-falling tile shrinking mold according to claim 1, wherein a pressing plate (6) is arranged above the mold core (1), and the pressing plate (6) is in transmission connection with the transmission assembly (4).

6. The anti-falling tile shrinking mold according to claim 1, wherein a forming sleeve mold (7) is arranged below the mold core (1), and one side of the mold core (1) provided with the press mold forming groove (5) is in contact fit with the forming sleeve mold (7).

7. The anti-drop tile shrinking die according to claim 1, wherein the driving protrusions (41) and the splicing protrusions (21) are quadrangular prisms with isosceles trapezoid bottom surfaces, and the pressing die grooves (31) and the driving grooves (42) are correspondingly arranged as quadrangular prism grooves.

8. An anti-falling tile produced by the anti-falling tile shrinking mold according to any one of claims 1 to 7, comprising a tile base body (8), wherein the tile base body (8) comprises a mounting surface (81), the mounting surface (81) is provided with an anti-falling groove (9), and the anti-falling groove (9) is matched with the bottom surface of the mold core (1) in shape.

9. The anti-falling tile as claimed in claim 8, wherein the anti-falling groove (9) is provided with four arc groove edges (91) which are symmetrical two by two and arranged in a 'mouth' shape, the arc groove edges (91) comprise a main arc strip (92), an embedded bottom angle (93) and a surface arc angle (94), and the embedded bottom angle (93) is an acute angle fillet.

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