CN212218792U - Mold for producing anti-falling ceramic tiles - Google Patents

Abstract

The utility model discloses a mould for anti-drop ceramic tile production. The mold comprises an outer mold sleeve and a herringbone assembly, the mold core is a triangular mold core, the outer mold sleeve is provided with a mounting position, the triangular mold core is mounted at the mounting position, the lower side of the triangular mold core extends out of the bottom surface of the outer mold sleeve, and the triangular mold core and the outer mold sleeve form a herringbone groove; the herringbone assembly can be mounted in the herringbone groove in an up-and-down moving mode and comprises a pulling piece, a left inserting die and a right inserting die which are movably connected with the pulling piece, the upper portion of the pulling piece extends out of the top surface of the outer die sleeve, the lower side of the left inserting die extends out of the bottom surface of the outer die sleeve, and the lower side of the right inserting die extends out of the bottom surface of the outer die sleeve; the lower extending part of the left inserting die, the lower extending part of the right inserting die and the lower extending part of the triangular die core form a lower male die for forming an octagonal groove of the anti-falling ceramic tile. The lower male die is arranged, the forming of the splayed groove is completed, the herringbone assembly is adopted for demolding, and the forming die is convenient and simple.

Description

Mold for producing anti-falling ceramic tiles

Technical Field

The utility model relates to a ceramic tile mould field, in particular to mould that is used for anti-drop ceramic tile production.

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, anti-drop ceramic tile on the market mostly adopts arch or recess design to do not have the splayed groove shape that the chute constitutes, this application mould for anti-drop ceramic tile production is for can realizing the production have splayed groove molding anti-drop ceramic tile and design.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be used for figurative anti-drop ceramic tile production's of shaping splayed groove mould.

In order to achieve the purpose, the utility model adopts the following technical scheme that the mold for producing the anti-falling ceramic tile comprises a mold and a mold core, the mold comprises an outer mold sleeve and a herringbone assembly, the mold core is a triangular mold core, the outer mold sleeve is provided with an installation position, the triangular mold core is arranged at the installation position, the lower side of the triangular mold core extends out of the bottom surface of the outer mold sleeve, and the triangular mold core and the outer mold sleeve form a herringbone groove;

the herringbone assembly can be mounted in the herringbone groove in an up-and-down moving mode and comprises a pulling piece, a left inserting die and a right inserting die which are movably connected with the pulling piece, the upper portion of the pulling piece extends out of the top surface of the outer die sleeve, the lower side of the left inserting die extends out of the bottom surface of the outer die sleeve, and the lower side of the right inserting die extends out of the bottom surface of the outer die sleeve;

the lower extension part of the left insert die, the lower extension part of the right insert die and the lower extension part of the triangular die core form a lower punch die for forming an octagonal groove of the anti-falling ceramic tile;

the left bottom corner of the lower extending part of the left inserting die is a round corner, and the right bottom corner of the lower extending part of the right inserting die is a round corner.

The utility model discloses a mould for anti-drop ceramic tile production, through set up the lower portion of stretching out, the lower portion of stretching out that the right side inserted the mould of inserting the lower portion of stretching out and the lower portion of stretching out of triangular mold core of the mould form the lower punch that is used for the eight characters shape groove of shaping anti-drop ceramic tile, accomplish the shaping in eight characters shape grooves, adopt chevron shape subassembly to demold, it is convenient simple and easy.

In some embodiments, the herringbone assembly further comprises a left connecting piece and a right connecting piece, the pulling piece is provided with a left pulling portion and a right pulling portion, the left pulling portion is movably connected with the left insertion die through the left connecting piece, and the right pulling portion is movably connected with the right insertion die through the right connecting piece.

The left pulling part is provided with a first drag hook, the left connecting piece is m-shaped, the left connecting piece is provided with an upper hook part and a lower hook part, and the left insertion die is provided with a second drag hook;

the upper hook part of the left connecting piece is hooked with the first drag hook of the left pulling part, and the lower hook part of the left connecting piece is hooked with the second drag hook of the left insertion die;

the left pulling part and the right pulling part have the same structure, the left connecting piece and the right connecting piece have the same structure, and the left insertion die and the right insertion die have the same structure;

the structure of the right pulling part connected with the right connecting piece is the same as the structure of the left pulling part connected with the left connecting piece; the structure that the right side is inserted the mould and is connected with right connecting piece is the same with the structure that the left side is inserted the mould and is connected with left connecting piece.

In some embodiments, the outer mold sleeve comprises a left sleeve piece and a right sleeve piece which can be separated from each other, the left sleeve piece and the right sleeve piece are combined with each other to form the outer mold sleeve, and two ends of the triangular mold core are respectively connected with the left sleeve piece and the right sleeve piece.

In some embodiments, the mounting locations communicate with the top and bottom surfaces of the outer mold shell, respectively.

In some embodiments, two connecting rods are inserted into the triangular mold core, two ends of the two connecting rods extend out of two ends of the triangular mold core respectively, two ends of one connecting rod are inserted into the left external member respectively, two ends of the other connecting rod are inserted into the right external member respectively, and the triangular mold core is mounted at the mounting position of the outer mold sleeve through the connecting rods.

In some embodiments, the left bottom corner of the lower extension part of the left insertion die and the right bottom corner of the lower extension part of the right insertion die are acute-angle rounded corners, and the angle of the acute-angle rounded corners is 30-80 °.

In some embodiments, the bottom of the triangular mold core is provided with a yielding groove.

In some embodiments, the upper portion of the pulling member is provided with a through hole.

The utility model has the advantages that: the utility model discloses a mould for anti-drop ceramic tile production, through setting up the lower extension of left side mould of inserting, the lower extension of right side mould of inserting and the lower extension of triangular mold core form the lower punch that is used for forming the splayed groove of anti-drop ceramic tile, accomplish the shaping of splayed groove; through upwards pulling chevron shape subassembly can realize inserting the lower portion of stretching out of mould and the right side of inserting the mould earlier on a left side, pull out the lower portion of stretching out of triangle mold core after that, the drawing of patterns action is simple, and the drawing of patterns is convenient quick, is favorable to improving production efficiency.

Drawings

FIG. 1 is a schematic structural perspective view of the mold for anti-drop tile production of the present invention;

FIG. 2 is a front view of the structure of the mold for anti-drop tile production of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a left side view of FIG. 2;

FIG. 5 is a cross-sectional view of C-C of FIG. 4;

FIG. 6 is a schematic view of the internal structure of the outer shell;

FIG. 7 is a schematic structural view of the mold with the chevron assembly removed;

FIG. 8 is a schematic view of the mold with the outer shell removed;

FIG. 9 is a schematic structural view of the chevron assembly;

FIG. 10 is an exploded view of the chevron assembly;

FIG. 11 is a perspective view of a triangular mold core;

FIG. 12 is a schematic view of a die for forming a splayed groove;

FIG. 13 is a schematic view of the lower punch of the mold shown disengaged from the octagonal groove;

FIG. 14 is a schematic structural view of the anti-falling ceramic tile produced by the mold of the present invention

Detailed Description

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

As shown in fig. 1-5, the mold 9 includes an outer die sleeve 91, a chevron assembly 92, and a triangular die core 93. The outer jacket 91 includes a left sleeve member 911 and a right sleeve member 912 which are separable from each other, the left sleeve member 911 and the right sleeve member 912 are combined with each other to form the outer jacket 91, referring to fig. 6, the outer jacket 91 is formed with a mounting portion 913, and upper and lower ends of the mounting portion 913 are respectively communicated with a top surface and a bottom surface of the outer jacket 91. Referring to fig. 8 and 11, two connecting rods 931 are inserted into the triangular mold core 93, two ends of each connecting rod 931 extend from two ends of the triangular mold core 93, two ends of each connecting rod 931 are inserted into the left sleeve component 911, two ends of each connecting rod 931 are inserted into the right sleeve component 912, and therefore the triangular mold core 93 is fixed to the installation position 913 of the outer mold sleeve 91, as shown in fig. 7, the lower side of the triangular mold core 93 extends from the bottom surface of the outer mold sleeve 91, the triangular mold core 93 and the outer mold sleeve 91 form a herringbone groove 94, and the triangular mold core 93 can be installed in the herringbone groove 94 in a vertically moving mode.

Referring to fig. 9 and 10, the chevron assembly 92 includes a pull 921, a left connector 922, a left insert die 923, a right connector 924, and a right insert die 925. The upper portion of the pulling piece 921 is protruded from the top surface of the outer die case 91, a through hole 9213 for connecting with a die carrier (not shown in the drawing) is processed at the upper portion of the pulling piece 921, and a left pulling portion 9211 and a right pulling portion 9212 are processed at the lower portion of the pulling piece 921. Draw portion 9211 on the left through left connecting piece 922 with insert mould 923 swing joint on the left side, insert the downside of mould 923 on the left side and stretch out from the bottom surface of outer die sleeve 91, draw portion 9212 on the right side and insert mould 925 swing joint through right connecting piece 924 and the right side, the downside that the mould 925 is inserted on the right side stretches out from the bottom surface of outer die sleeve 91. The left bottom angle of the lower extending part of the left inserting die 923 and the right bottom angle of the lower extending part of the right inserting die 925 are acute angle fillets, the angle of the acute angle fillet is 30-80 degrees, the bottom of the triangular die core 93 is provided with a yielding groove, and the lower extending part of the left inserting die 923, the lower extending part of the right inserting die 925 and the lower extending part of the triangular die core 93 form a lower convex die for forming the splayed groove 101.

Referring to fig. 10, the left pulling portion 9211 is formed with a first pulling hook 92111, the left connecting member 922 is m-shaped, the left connecting member 922 is formed with an upper hook portion 9221 and a lower hook portion 9222, and the left insertion die 923 is formed with a second pulling hook 9231. The upper hook 9221 of the left connecting piece 922 is hooked with the first hook 92111 of the left pulling portion 9211, and the lower hook 9222 of the left connecting piece 922 is hooked with the second hook 9231 of the left insertion die 923. The left pulling portion 9211 and the right pulling portion 9212 are identical in structure, the left connecting piece 922 is identical in structure with the right connecting piece 924, and the left insertion die 923 is identical in structure with the right insertion die 925. The structure of the right pulling portion 9212 connected to the right connecting member 924 is the same as the structure of the left pulling portion 9211 connected to the left connecting member 922. The structure of the right insert die 925 connected with the right connecting piece 924 is the same as the structure of the left insert die 923 connected with the left connecting piece 922.

The die 9 forms the octagonal groove 101 as shown in fig. 12. The lower convex of the mold 9 extends into the anti-drop ceramic tile 10 to form a splayed groove 101. During demolding, the pulling piece 921 of the herringbone assembly 92 is pulled upwards, the pulling piece 921 pulls the left insertion die 923 and the right insertion die 925 respectively through the left connecting piece 922 and the right connecting piece 924, when the left insertion die 923 and the right insertion die 925 are pulled to positions, the downward extending part of the left insertion die 923 and the downward extending part of the right insertion die 925 can be pulled out of the octagonal groove 101, then the herringbone assembly 92 pulls the outer die sleeve 91, the outer die sleeve 91 pulls the triangular die core 93 until the triangular die core 93 is pulled out of the octagonal groove 101, so that rapid demolding is achieved, after demolding, as shown in fig. 13, the produced anti-falling tile 10 is structured as shown in fig. 14.

The utility model discloses a mould for anti-drop ceramic tile production, through setting up the lower extension of left side mould of inserting, the lower extension of right side mould of inserting and the lower extension of triangular mold core form the lower punch that is used for forming the splayed groove of anti-drop ceramic tile, accomplish the shaping of splayed groove; through upwards pulling chevron shape subassembly can realize inserting the lower portion of stretching out of mould and the right side of inserting the mould earlier on a left side, pull out the lower portion of stretching out of triangle mold core after that, the drawing of patterns action is simple, and the drawing of patterns is convenient quick, is favorable to improving production efficiency.

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 mold for producing the anti-falling ceramic tile comprises a mold (9) and a mold core, and is characterized in that the mold (9) comprises an outer mold sleeve (91) and a herringbone assembly (92), the mold core is a triangular mold core (93), the outer mold sleeve (91) is provided with a mounting position (913), the triangular mold core (93) is mounted at the mounting position (913), the lower side of the triangular mold core (93) extends out of the bottom surface of the outer mold sleeve (91), and the triangular mold core (93) and the outer mold sleeve (91) form a herringbone groove (94);

the herringbone assembly (92) can be mounted in the herringbone groove (94) in an up-and-down mode, the herringbone assembly (92) comprises a pulling piece (921), a left insertion die (923) and a right insertion die (925) which are movably connected with the pulling piece, the upper portion of the pulling piece (921) extends out of the top surface of the outer die sleeve (91), the lower side of the left insertion die (923) extends out of the bottom surface of the outer die sleeve (91), and the lower side of the right insertion die (925) extends out of the bottom surface of the outer die sleeve (91);

the lower extending part of the left inserting die (923), the lower extending part of the right inserting die (925) and the lower extending part of the triangular die core (93) form a lower convex die for forming a splayed groove (101) of the anti-falling ceramic tile (10);

insert the lower left base angle of portion that stretches out of mould (923) on a left side and be the fillet, insert the lower right base angle of portion that stretches out of mould (925) on the right side and be the fillet.

2. The mold for anti-drop ceramic tile production according to claim 1, wherein said herringbone assembly (92) further comprises a left connecting member (922) and a right connecting member (924), said pulling member (921) is provided with a left pulling portion (9211) and a right pulling portion (9212), said left pulling portion (9211) is movably connected to said left insertion mold (923) through said left connecting member (922), and said right pulling portion (9212) is movably connected to said right insertion mold (925) through said right connecting member (924).

3. The mold for the production of anti-drop ceramic tiles as claimed in claim 2, wherein the left pulling part (9211) is provided with a first draw hook (92111), the left connecting piece (922) is m-shaped, the left connecting piece (922) is provided with an upper hook part (9221) and a lower hook part (9222), and the left insertion mold (923) is provided with a second draw hook (9231);

the upper hook part (9221) of the left connecting piece (922) is hooked with the first draw hook (92111) of the left pulling part (9211), and the lower hook part (9222) of the left connecting piece (922) is hooked with the second draw hook (9231) of the left insertion die (923);

the left pulling part (9211) and the right pulling part (9212) are identical in structure, the left connecting piece (922) and the right connecting piece (924) are identical in structure, and the left inserting die (923) and the right inserting die (925) are identical in structure;

the structure of the right pulling part (9212) connected with the right connecting piece (924) is the same as the structure of the left pulling part (9211) connected with the left connecting piece (922); the structure that mould (925) and right connecting piece (924) are connected is inserted to the right side and the structure that mould (923) and left connecting piece (922) are connected is inserted to the left side the same.

4. The mold for drop-proof tile production according to claim 1, wherein the outer mold sleeve (91) comprises a left sleeve piece (911) and a right sleeve piece (912) which can be separated from each other, the left sleeve piece (911) and the right sleeve piece (912) are combined with each other to form the outer mold sleeve (91), and two ends of the triangular mold core (93) are respectively connected with the left sleeve piece (911) and the right sleeve piece (912).

5. The mold for drop-proof tile production according to claim 1, wherein the mounting locations (913) communicate with the top and bottom surfaces of the outer die case (91), respectively.

6. The mold for the production of anti-drop ceramic tiles as claimed in claim 4, wherein two connecting rods (931) are inserted into the triangular mold core (93), two ends of the connecting rods (931) extend out of two ends of the triangular mold core (93) respectively, one end of each connecting rod (931) is inserted into the left sleeve (911) and the other end of each connecting rod (931) is inserted into the right sleeve (912), and the triangular mold core (93) is installed at the installation position (913) of the outer mold sleeve (91) through the connecting rods (931).

7. The mold for the production of anti-drop ceramic tiles according to claim 1, wherein the left bottom corner of the lower extension part of the left insertion mold (923) and the right bottom corner of the lower extension part of the right insertion mold (925) are acute angle fillets, and the angle of the acute angle fillets is 30-80 °.

8. The mold for fall-off prevention tile production according to claim 1, wherein the bottom of the triangular mold core (93) is provided with an abdicating groove.

9. The mold for fall-off prevention tile production according to claim 1, wherein the upper portion of the pulling piece (921) is provided with a through hole (9213).

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