CN111251424A - Mould is used in production of anti-drop ceramic tile - Google Patents

Abstract

The invention discloses a mold for producing an anti-falling ceramic tile. Mould is used in production of anti-drop ceramic tile, including die sleeve and mold core, the die sleeve cover is established in the mold core top, it inserts the mould and inserts the mould with the right side to be equipped with a left side between die sleeve and the mold core, it inserts the mould drive arrangement to insert that the mould was equipped with its self of drive and made oblique reciprocating on the die sleeve respectively to insert the mould and the right side to insert the mould in a left side, it forms "eight" font structure to insert the mould and the right side to insert the mould in a left side, the lower extreme that the mould was inserted in a left side is equipped with left lower mould, the lower extreme that the mould was inserted in the right side is equipped with right lower mould in the right side, left lower mould and right lower mould stretch out from the bottom of die. According to the invention, the lower male die is formed by the left lower die, the die core and the right lower die, so that the special splayed groove of the anti-falling ceramic tile is formed by pressing.

Description

Mould is used in production of anti-drop ceramic tile

Technical Field

The invention relates to the field of ceramic tile molds, in particular to a mold for producing an anti-falling ceramic tile.

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.

Disclosure of Invention

The invention aims to provide the anti-falling ceramic tile production mold which is simple in structure and can realize production of the splayed groove-shaped anti-falling groove.

In order to achieve the purpose, the invention adopts the following technical scheme that the mold for producing the anti-falling ceramic tile comprises a mold sleeve and a mold core, wherein the mold sleeve is sleeved above the mold core, a left inserting mold and a right inserting mold are arranged between the mold sleeve and the mold core, the left inserting mold and the right inserting mold are respectively provided with an inserting mold driving device for driving the left inserting mold and the right inserting mold to obliquely move up and down on the mold sleeve, the left inserting mold and the right inserting mold form an inverted V-shaped structure, the lower end of the left inserting mold is provided with a left lower mold, the lower end of the right inserting mold is provided with a right lower mold, the left lower mold and the right lower mold respectively extend out of the bottom of the mold sleeve, and when the left lower mold and the right lower mold extend out in place, the left lower mold;

the die inserting driving device comprises a pressing block and an elastic piece, the upper end of the left die inserting is provided with a left pressing block, the die sleeve is provided with a left elastic piece for applying oblique upward elastic force to the left pressing block, the upper end of the right die inserting is provided with a right pressing block, and the die sleeve is provided with a right elastic piece for applying oblique upward elastic force to the right pressing block;

the left lower corner of the left lower die and the right lower corner of the right lower die are both rounded corners.

According to the mold for producing the anti-falling ceramic tile, the lower male mold is formed by the left lower mold, the mold core and the right lower mold, so that the special splayed groove of the anti-falling ceramic tile is formed in a pressing mode. The die has the advantages of low overall production cost, good forming effect and convenient demoulding.

In some embodiments, a pressure plate is arranged above the left pressing block and the right pressing block, and the pressure plate applies driving pressure to the insert die driving device. The clamp plate pushes down left briquetting and right briquetting during the shaping, inserts the mould on a left side and inserts the mould on the right side and move down to one side, and left lower mould and right lower mould stretch out from the bottom of die sleeve respectively, and left elastic component and right elastic component all are in compression state, and the clamp plate loosens during the drawing of patterns left briquetting and right briquetting insert the mould on a left side and move up to one side under the effect of the elastic force of left elastic component, left lower mould withdrawal, under the effect of the elastic force of right elastic component, insert the mould on the right side and also move up to one side, and right lower mould also retracts.

In some embodiments, the left elastic member is a left spring, one end of the left spring is connected with the left pressing block, the other end of the left spring is connected with the die sleeve, the right elastic member is a right spring, one end of the right spring is connected with the right pressing block, and the other end of the right spring is connected with the die sleeve.

The die sleeve is provided with a left chute and a right chute, the left inserting die and the right inserting die are respectively inserted into the left chute and the right chute, and the left inserting die and the right inserting die can respectively move obliquely upwards and downwards in the left chute and the right chute.

In some embodiments, the top surface of die sleeve is equipped with the left holding tank that is used for holding left spring and the right holding tank that is used for holding right spring, and the one end and the left chute switch-on of left holding tank, left spring adorn in left holding tank, and the one end and the right chute switch-on of right holding tank, right spring adorn in right holding tank.

In some embodiments, the cross section of the mold core is isosceles trapezoid, and the bottom of the mold core is provided with an abdicating groove.

The invention has the beneficial effects that: according to the mold for producing the anti-falling ceramic tile, the lower male mold is formed by the left lower mold, the mold core and the right lower mold, the splayed anti-falling groove forming of the anti-falling ceramic tile is realized, the overall structure cost is low, and the demolding is convenient.

Drawings

FIG. 1 is a schematic structural view of a mold for producing an anti-falling tile according to the present invention;

FIG. 2 is a schematic diagram of the structure of a die case;

FIG. 3 is a schematic structural diagram of a left insert mold and a right insert mold;

FIG. 4 is a schematic view showing a structure of forming an octagonal groove of the anti-falling tile;

fig. 5 is a schematic view of the structure at the time of mold release.

Detailed Description

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

As shown in fig. 1, the anti-falling mold for producing ceramic tiles comprises a mold sleeve 11, a left insert mold 12 and a right insert mold 15.

Referring to fig. 2, a downwardly convex mold core 111 is formed at the bottom of the mold sleeve 11, the cross section of the mold core 111 is isosceles trapezoid, and a relief groove 1111 is formed in the bottom surface of the mold core 111. A left inclined groove 112 is formed on the left side of an upper mold core 111 of a mold sleeve 11, a right inclined groove 114 is formed on the right side of the upper mold core 111 of the mold sleeve 11, a left inserting mold 12 and a right inserting mold 15 are respectively inserted into the left inclined groove 112 and the right inclined groove 114, the left inserting mold 12 and the right inserting mold 15 can respectively move obliquely upwards and downwards in the left inclined groove 112 and the right inclined groove 114, the left inserting mold 12 and the right inserting mold 15 form a structure in a shape like the Chinese character 'ba', referring to fig. 3, a left lower mold 131 is formed at the lower end of the left inserting mold 12, a right lower mold 151 is formed at the lower end of the right inserting mold 15, the left lower mold 131 and the right lower mold 151 can respectively extend out from the bottom of the mold sleeve 11, and when the left lower, the mold core 111 and the right lower mold 151 form a lower convex mold for molding the splayed groove 191 of the anti-drop tile 19, and the left lower corner of the left lower mold 131 and the right lower corner of the right lower mold 151 are rounded corners, so that cracks are prevented from occurring in stress during the firing molding process of the splayed groove 191.

Referring to fig. 3, a left pressing block 14 is processed at the upper end of the left insert die 12, and a right pressing block 17 is processed at the upper end of the right insert die 15. Referring to fig. 2, a left accommodating groove 113 and a right accommodating groove 115 are formed in the top surface of the die sleeve 11, one end of the left accommodating groove 113 is communicated with the left chute 112, a left spring 13 is sleeved on the left insert die 12 and is arranged in the left accommodating groove 113, one end of the left spring 13 is connected with the left pressing block 14, and the other end of the left spring is connected with the die sleeve 11; one end of the right accommodating groove 115 is communicated with the right inclined groove 114, the right spring 16 is sleeved on the right insert die 15 and is arranged in the right accommodating groove 115, one end of the right spring 16 is connected with the right pressing block 17, and the other end of the right spring is connected with the die sleeve 11.

A pressing plate 18 is arranged above the left pressing block 14 and the right pressing block 17. When the splayed groove 191 is formed, as shown in fig. 4, the pressing plate 18 presses the left pressing block 14 and the right pressing block 17 downward, the left insert die 12 and the right insert die 15 move obliquely downward, the left lower die 131 and the right lower die 151 respectively extend from the bottom of the die sleeve 11, and the left spring 13 and the right spring 16 are both in a compressed state. When in demoulding, as shown in fig. 5, the pressing plate 18 moves upwards to release the left pressing block 14 and the right pressing block 17, the left insert die 12 moves upwards in an inclined way under the action of the elastic force of the left spring 13, the left lower die 131 retracts, the right insert die 15 moves upwards in an inclined way under the action of the elastic force of the right spring 1, the right lower die 151 also retracts, and at the moment, the die sleeve 11 is pulled up to realize demoulding.

According to the mold for producing the anti-falling ceramic tile, the lower male mold is formed by the left lower mold, the mold core and the right lower mold, the splayed anti-falling groove forming of the anti-falling ceramic tile is realized, the overall structure cost is low, and the demolding is convenient.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (6)

1. Mould is used in anti-drop ceramic tile production, including die sleeve (11) and mold core (111), its characterized in that, die sleeve (11) cover is established in mold core (111) top, be equipped with between die sleeve (11) and mold core (111) that a left side is inserted mould (12) and right side and insert mould (15), a left side is inserted mould (12) and right side and is equipped with respectively that its self of drive does the mould drive arrangement that inserts that reciprocates to one side on die sleeve (11), a left side is inserted mould (12) and right side and is inserted mould (15) and form "eight" font structure, the lower extreme that the mould (12) was inserted in a left side is equipped with left lower mould (131), the lower extreme that the mould (15) was inserted in the right side is equipped with right lower mould (151), left side lower mould (131) and right lower mould (151) stretch out from the bottom of die sleeve (11) respectively, when left side lower mould (131) and right lower mould (151) stretch out in place, left side lower mould (131), mold core (111) and right lower mould (151) form the splayed groove (191) that is used (ii) a

The die inserting driving device comprises a pressing block and an elastic piece, a left pressing block (14) is arranged at the upper end of the left die inserting (12), a left elastic piece used for applying oblique upward elastic force to the left pressing block (14) is arranged on the die sleeve (11), a right pressing block (17) is arranged at the upper end of the right die inserting (15), and a right elastic piece used for applying oblique upward elastic force to the right pressing block (17) is arranged on the die sleeve (11);

the lower left corner of the lower left die (131) and the lower right corner of the lower right die (151) are rounded corners.

2. The mold for the production of anti-drop ceramic tiles according to claim 1, wherein a pressing plate (18) is arranged above the left pressing block (14) and the right pressing block (17), and the pressing plate (18) applies driving pressure to the die-inserting driving device.

3. The mold for the production of anti-drop ceramic tiles according to claim 1, wherein the left elastic member is a left spring (13), one end of the left spring (13) is connected with the left pressing block (14), the other end is connected with the die sleeve (11), the right elastic member is a right spring (16), one end of the right spring (16) is connected with the right pressing block (17), and the other end is connected with the die sleeve (11).

4. The mold for the production of anti-drop ceramic tiles as claimed in claim 3, wherein the mold sleeve (11) is provided with a left inclined groove (112) and a right inclined groove (114), the left inserting mold (12) and the right inserting mold (15) are respectively inserted into the left inclined groove (112) and the right inclined groove (114), and the left inserting mold (12) and the right inserting mold (15) can respectively move obliquely upwards and downwards in the left inclined groove (112) and the right inclined groove (114).

5. The mold for the production of anti-drop ceramic tiles as claimed in claim 4, wherein the top surface of the die sleeve (11) is provided with a left receiving groove (113) for receiving the left spring (13) and a right receiving groove (115) for receiving the right spring (16), one end of the left receiving groove (113) is communicated with the left inclined groove (112), the left spring (13) is arranged in the left receiving groove (113), one end of the right receiving groove (115) is communicated with the right inclined groove (114), and the right spring (16) is arranged in the right receiving groove (115).

6. The mold for anti-drop tile production according to claim 1, wherein the cross section of the mold core (111) is isosceles trapezoid, and the bottom of the mold core is provided with an abdicating groove (1111).

Images