CN111590724A - Forming die for ceramic large-plate brick - Google Patents

Abstract

A forming die for a ceramic large-plate brick relates to the technical field of ceramic manufacturing and comprises an upper die assembly and a lower die, wherein the lower die is arranged below the upper die assembly, the upper die assembly comprises a die holder and a die core, the die holder is provided with an adsorption mechanism, the die holder adsorbs the die core on the bottom end surface of the die holder through the adsorption mechanism, and the bottom end surface of the die core is provided with a powder blocking edge for blocking powder from flying out; and a sliding mechanism is arranged between the mold core and the lower mold, and when the mold core is installed or disassembled, the mold core enters the lower part of the mold base in a sliding manner relative to the lower mold or is moved out of the lower part of the mold base in a sliding manner relative to the lower mold. The powder material flying out is blocked by the powder blocking edge, a die frame in the traditional die is replaced, and the distance between the upper die assembly and the upper die is favorably reduced. When ceramic large plates of different specifications are produced, only the mold core needs to be replaced, the mold frame needs to be replaced while the mold core is prevented from being replaced, the adjustment is convenient and quick, the mold core is disassembled and assembled in a sliding mode, and the mold core can conveniently enter and exit from a space with limited height, so that the mold core is convenient to disassemble and assemble.

Description

Forming die for ceramic large-plate brick

Technical Field

The invention relates to the technical field of ceramic manufacture, in particular to a forming die for a ceramic large-plate brick.

Background

In recent years, the ceramic tiles have become popular in large size, and ceramic large plates with finished product size of 1620 × 2400 or 1800 × 3200 have appeared on the market. The ceramic large plate is subjected to the processes of edging, firing, trimming and the like before being finished, so that the green brick of the ceramic large plate is large in size, and a required forming mold is larger. The large-size die is low in rigidity and easy to damage due to frequent and large-amplitude lifting, so that the conventional ceramic press can be driven by a square moving beam with a short stroke, the lifting amplitude of the die is reduced, and the die is protected. However, the problems that the space between the upper die and the lower die is small, the die frame is not placed in enough space, and the die core is difficult to replace, so that the production line is single, and the production of large ceramic plates with different specifications and models is not facilitated.

Disclosure of Invention

In view of the above-mentioned drawbacks, the present invention aims to provide a forming mold for ceramic large plate bricks without a mold frame, wherein a mold core of the forming mold is convenient to install and disassemble in a space with a limited height.

In order to achieve the purpose, the invention adopts the following technical scheme: a forming die for a ceramic large-plate brick comprises an upper die assembly and a lower die, wherein the lower die is arranged below the upper die assembly, the upper die assembly comprises a die holder and a die core, the die holder is provided with an adsorption mechanism, the die holder adsorbs the die core on the bottom end surface of the die holder through the adsorption mechanism, and the bottom end surface of the die core is provided with a powder blocking edge for blocking powder from flying out;

and a sliding mechanism is arranged between the mold core and the lower mold, and when the mold core is installed or disassembled, the mold core enters the lower part of the mold base in a sliding manner relative to the lower mold or moves out of the lower part of the mold base in a sliding manner relative to the lower mold.

Further, slide mechanism includes slider and slide rail, slider detachably installs the both sides of mold core, the slide rail is installed the both sides of lower mould.

Further, the mold core is equipped with and is used for the installation the mount pad of slider, the mount pad has fixed part and installation department, the fixed part is along the horizontal direction toward extending outward, the one end of fixed part with the lateral wall of mold core is connected, installation department detachably sets up the other end of fixed part, the slider pass through the threaded fastener with the connection can be dismantled to the installation department.

Further, the slider is the round bar, the cross-section of slide rail is the V type, the slider seted up with installation department complex installation screw hole, install respectively at the both ends of slider two of homonymy the installation department.

Further, the die holder comprises a magnetic seat and a magnetic plate, and the adsorption mechanism comprises a first electromagnetic coil and a second electromagnetic coil;

the plurality of first electromagnetic coils are arranged on the top end surface of the magnetic base;

the magnetic plate is installed on the bottom end face of the magnetic base, and the plurality of second electromagnetic coils are arranged on the bottom end face of the magnetic plate.

Further, the magnetic plate is equipped with the locking seat, works as the mold core adsorbs during the bottom of magnetic plate, the locking seat with the installation department locks through threaded fastener.

Furthermore, the magnetic seat is provided with a plurality of locking through holes which are linearly distributed.

Further, the magnetic base with can dismantle the connection through the screw thread mounting between the magnetic sheet, the magnetic base with the magnetic sheet is equipped with the connecting thread hole that the position corresponds respectively.

Furthermore, the powder blocking edge comprises a rubber sleeve and an elastic material, the elastic material is filled in the rubber sleeve, and the edge of the rubber sleeve, which is abutted against the powder, is a bevel edge.

Furthermore, the bottom end face of the mold core is provided with a bulge.

In the invention, the powder blocking edge is arranged on the bottom end surface of the mold core, and the powder is blocked from flying out through the powder blocking edge, so that a mold frame in a traditional mold is replaced, and the distance between the upper mold assembly and the upper mold is favorably reduced. When ceramic large plates of different specifications are produced, only the mold core needs to be replaced, so that the mold frame needs to be replaced while the mold core is prevented from being replaced, and the adjustment is convenient and quick.

Through the mold core with set up between the lower mould slide mechanism makes the mold core for the lower mould slidingly gets into the below of die holder, or for the lower mould slidingly follow the below of die holder shifts out, adopts gliding mode right the mold core carries out the dismouting, and is convenient the high limited space of mold core business turn over to make things convenient for the dismouting the mold core.

Drawings

FIG. 1 is a schematic block diagram of one embodiment of the present invention;

FIG. 2 is an enlarged schematic view of region A of FIG. 1;

FIG. 3 is a schematic view of a mold core assembled to the mold in one embodiment of the present invention;

FIG. 4 is a schematic top view of a mold core in an embodiment of the invention;

FIG. 5 is a schematic bottom view of a magnetic plate in accordance with an embodiment of the present invention;

FIG. 6 is a schematic top view of a magnet holder according to an embodiment of the invention;

fig. 7 is a schematic view of a use state in one embodiment of the present invention.

Wherein: the die comprises an upper die component 1, a die holder 11, an adsorption mechanism 111, a first electromagnetic coil 1111, a second electromagnetic coil 1112, a magnetic seat 112, a locking through hole 1121, a magnetic plate 113, a locking seat 1131, a connecting threaded hole 114, a die core 12, a powder blocking edge 121, a bevel edge 1211, a mounting seat 122, a fixing part 1221, a mounting part 1222, a protruding part 123, a lower die 2, a sliding mechanism 3, a sliding piece 31, a mounting threaded hole 311, a slide rail 32 and a movable beam 4.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Referring to fig. 1 to 7, a forming mold for a ceramic tile, which is applied to a ceramic press, includes an upper mold assembly 1 and a lower mold 2, and specifically, as shown in fig. 7, the ceramic press has a movable beam 4, the upper mold assembly 1 is disposed at the bottom of the movable beam 4, the upper mold assembly 1 is disposed opposite to the lower mold 2, the lower mold 2 is disposed below the upper mold assembly 1, and the movable beam 4 is configured to drive the upper mold assembly 1 to press and lift, so that the upper mold assembly 1 moves downward relative to the lower mold 2 to press powder between the lower mold 2 and the upper mold assembly 1, and moves upward relative to the lower mold 2 to release a pressed blank. The upper die assembly 1 comprises a die holder 11 and a die core 12, the die holder 11 is installed on the bottom end face of the movable beam 4, the die holder 11 is provided with an adsorption mechanism 111, the die core 12 is adsorbed on the bottom end face of the die holder 11 by the die holder 11 through the adsorption mechanism 111, and a powder blocking edge 121 for blocking powder from flying out is arranged on the bottom end face of the die core 12. A sliding mechanism 3 is arranged between the mold core 12 and the lower mold 2, and when the mold core 12 is mounted or dismounted, the mold core 12 enters the lower part of the mold base 11 in a sliding manner relative to the lower mold 2, or moves out of the lower part of the mold base 11 in a sliding manner relative to the lower mold 2. Specifically, when the mold core 12 is installed, the mold core 12 enters the lower portion of the mold base 11 in a sliding manner relative to the lower mold 2, and the suction mechanism 111 sucks the mold core 12 on the bottom end surface of the mold base 11, wherein the suction mechanism 111 may be a vacuum suction mechanism or an electromagnetic suction mechanism. When the mold core 12 is disassembled, the suction mechanism 111 releases the mold core 12, so that the mold core 12 is separated from the mold base 11, and then the mold core 12 is slidably removed from below the mold base 11 relative to the lower mold 2.

In the invention, the powder blocking edge 121 is arranged on the bottom end surface of the mold core 12, and the powder is blocked from flying out by the powder blocking edge 121, so that a mold frame in a traditional mold is replaced, and the distance between the upper mold component 1 and the upper mold is favorably reduced. When ceramic large plates of different specifications are produced, only the mold core 12 needs to be replaced, the mold frame needs to be replaced while the mold core 12 is prevented from being replaced, and the adjustment is convenient and quick.

Through mold core 12 with set up between lower mould 2 slide mechanism 3 makes mold core 12 for lower mould 2 slidingly gets into the below of die holder 11, or for lower mould 2 slidingly follows the below of die holder 11 shifts out, adopts gliding mode right mold core 12 carries out the dismouting, and is convenient mold core 12 passes in and out the space that highly is restricted to make things convenient for the dismouting mold core 12.

Further, the sliding mechanism 3 includes a sliding member 31 and a sliding rail 32, the sliding member 31 is detachably mounted on two sides of the mold core 12, and the sliding rail 32 is mounted on two sides of the lower mold 2. As shown in fig. 2, the mold core 12 is slidably moved into the lower portion of the mold base 11 relative to the lower mold 2 or out of the lower portion of the mold base 11 relative to the lower mold 2 by the sliding engagement of the slide 31 and the slide rail 32. Specifically, the sliding piece 31 is detachably connected to two sides of the mold core 12, and when the mold core 12 is installed and the mold core 12 slides to the position below the mold base 11, the mold core 12 detaches the sliding piece 31, so that the influence of the sliding piece 31 on the mold core 12 on pressing of brick blanks is avoided, and the weight of the mold core 12 is reduced. When the mold core 12 is disassembled, the sliding pieces 31 are remounted on two sides of the mold core 12, so that the mold core 12 can be moved out of the mold base 11 in a sliding manner relative to the lower mold 2. Wherein the sliding member 31 may be a roller or a slider.

Further, the mold core 12 is provided with a mounting seat 122 for mounting the sliding piece 31, the mounting seat 122 has a fixing portion 1221 and a mounting portion 1222, the fixing portion 1221 extends outwards along the horizontal direction, one end of the fixing portion 1221 is connected with the side wall of the mold core 12, the mounting portion 1222 is detachably disposed at the other end of the fixing portion 1221, and the sliding piece 31 is detachably connected with the mounting portion 1222 through a threaded fastener. Specifically, as shown in fig. 4, the mold core 12 is square, the mounting seat 122 is disposed at four corners of the mold core 12, the fixing portion 1221 extends outwards along the horizontal direction, and the mounting portion 1222 is detachably connected to the fixing portion 1221 by a threaded fastener such as a stud or a thread, so that the mounting portion 1222 is disposed at a side of the mold core 12, the sliding member 31 is conveniently mounted at two sides of the mold core 12, and the increase of the overall height of the mold core 12 is avoided. The sliding member 31 is detachably connected to the mounting portion 1222 by a screw fastener such as a stud or a screw, which facilitates the detachment of the sliding member 31.

Further, the sliding member 31 is a round rod, the cross section of the sliding rail 32 is V-shaped, the sliding member 31 is provided with a mounting threaded hole 311 matched with the mounting portion 1222, and two ends of the sliding member 31 are respectively mounted on the two mounting portions 1222 on the same side. As shown in fig. 2, the sliding member 31 is a round bar, the cross section of the sliding rail 32 is V-shaped, the sliding fit between the mold core 12 and the lower mold 2 is realized by moving the round bar in the arc-shaped groove along the axial direction, the round bar is selected as the sliding member 31, the contact area is small, the friction resistance is small, the increment of the overall height of the mold core 12 can be reduced, the structure is simple, the use of parts is reduced, and the cost of the mold is reduced. Specifically, as shown in fig. 4, two ends of the sliding element 31 are respectively mounted on two mounting portions 1222 on the same side, and the sliding element 31 is detachably fixed on two sides of the mold core 12 by a threaded fastener such as a stud or a screw passing through the mounting portion 1222 and then being in threaded engagement with the mounting threaded hole 311.

Further, the die holder 11 includes a magnetic holder 112 and a magnetic plate 113, and the suction mechanism 111 includes a first electromagnetic coil 1111 and a second electromagnetic coil 1112. The first electromagnetic coils 1111 are arranged on the top end surface of the magnetic base 112, and when the first electromagnetic coils 1111 are electrified, the magnetic base 112 is adsorbed at the bottom of the movable beam 4 of the ceramic press. The magnetic plate 113 is installed on the bottom end surface of the magnetic base 112, the second electromagnetic coils 1112 are arranged on the bottom end surface of the magnetic plate 113, and when the second electromagnetic coils 1112 are energized, the mold core 12 is adsorbed on the bottom of the magnetic plate 113. Specifically, referring to fig. 1, 3 and 7, by providing a plurality of first electromagnetic coils 1111 on the top end surface of the magnetic base 112, when the first electromagnetic coils 1111 are energized, the magnetic base 112 is attached to the bottom of the movable beam 4 of the ceramic press, so that the die holder 11 is mounted on the bottom of the movable beam 4 of the ceramic press. By arranging the second electromagnetic coil 1112 on the bottom end surface of the magnetic plate 113, when the second electromagnetic coil 1112 is energized, the magnetic plate 113 adsorbs the mold core 12, so that the mold core 12 is detachably connected with the mold base 11.

Further, the magnetic plate 113 is provided with a locking seat 1131, and when the mold core 12 is attached to the bottom of the magnetic plate 113, the locking seat 1131 and the mounting portion 1222 are locked by a screw fastener. Specifically, as shown in fig. 5, the magnetic plate 113 is square, the locking seats 1131 are disposed at four corners of the magnetic plate 113, when the mold core 12 is attached to the bottom of the magnetic plate 113, the mounting portion 1222 is separated from the slider 31, and then the height position of the mounting portion 1222 connected to the fixing portion 1221 is adjusted, so that the mounting portion 1222 is attached to the locking seat 1131, and then is fixedly connected to the fixing portion 1221 through a threaded fastener such as a stud or a screw, so that the mounting portion 1222 is connected to the fixing portion 1221 and the locking seat 1131, and thus the mold core 12 is locked to the magnetic plate 113, and the mold core 12 is prevented from falling off.

Further, the magnetic base 112 is locked with the bottom of the movable beam 4 of the ceramic press by a threaded fastener, and the magnetic base 112 is provided with a plurality of locking through holes 1121 which are linearly distributed. Specifically, as shown in fig. 6, the magnetic base 112 is provided with a plurality of locking through holes 1121, and threaded fasteners such as studs or screws penetrate through the locking through holes 1121 to be connected with the ceramic press, so that the magnetic base 112 is locked with the movable beam 4 of the ceramic press, and the magnetic base 112 is prevented from falling off. The plurality of locking threaded holes are linearly distributed, and stress dispersion is facilitated.

Further, the magnetic base 112 and the magnetic plate 113 are detachably connected through a threaded fastener, and the magnetic base 112 and the magnetic plate 113 are respectively provided with a connecting threaded hole 114 corresponding to each other in position. Specifically, referring to fig. 5 and 6, a plurality of connecting threaded holes 114 corresponding to the positions are formed in the magnetic base 112 and the magnetic plate 113, so that the magnetic base 112 and the magnetic plate 113 can be connected through threaded fasteners such as studs or screws, the magnetic base 112 and the magnetic plate 113 can be detachably connected, and the magnetic base is convenient to disassemble, assemble and maintain.

Further, the powder blocking edge 121 includes a rubber sleeve and an elastic material, the elastic material fills the inside of the rubber sleeve, and the edge of the rubber sleeve abutting against the powder is a bevel edge 1211. Specifically, as shown in fig. 1, in this embodiment, the cross section of the powder blocking edge 121 is triangular, the elastic material fills the inside of the rubber sleeve, and the edge of the rubber sleeve abutting against the powder is set as the inclined edge 1211, so that the abutting area of the powder at the edge and the powder blocking edge 121 is increased, the brick blank is prevented from being broken due to stress concentration at the edge of the brick blank, and the integrity of the brick blank is ensured. Wherein the elastic material may be sponge or rubber.

Further, a boss 123 is disposed on the bottom end surface of the mold core 12. Specifically, as shown in fig. 1, in the present embodiment, the green brick is formed in the pressing process by providing the protrusions 123 on the bottom end surface of the mold core 12.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a forming die for ceramic large plate brick, includes mould assembly and lower mould, the lower mould set up in go up the below of mould assembly, its characterized in that:

the upper die assembly comprises a die holder and a die core, the die holder is provided with an adsorption mechanism, the die holder adsorbs the die core on the bottom end surface of the die holder through the adsorption mechanism, and the bottom end surface of the die core is provided with a powder blocking edge for blocking powder from flying out;

and a sliding mechanism is arranged between the mold core and the lower mold, and when the mold core is installed or disassembled, the mold core enters the lower part of the mold base in a sliding manner relative to the lower mold or moves out of the lower part of the mold base in a sliding manner relative to the lower mold.

2. The forming mold for ceramic large plate bricks according to claim 1, wherein: the sliding mechanism comprises a sliding piece and sliding rails, the sliding piece is detachably mounted on two sides of the mold core, and the sliding rails are mounted on two sides of the lower mold.

3. The forming mold for ceramic large plate bricks according to claim 2, wherein: the mold core is equipped with and is used for the installation the mount pad of slider, the mount pad has fixed part and installation department, the fixed part is toward extending outward along the horizontal direction, the one end of fixed part with the lateral wall of mold core is connected, installation department detachably sets up the other end of fixed part, the slider pass through the threaded fastener with the connection can be dismantled to the installation department.

4. The forming mold for ceramic large plate bricks according to claim 3, wherein: the slider is the round bar, the cross-section of slide rail is the V type, the slider seted up with installation department complex installation screw hole, install respectively at the both ends of slider two of homonymy the installation department.

5. The forming mold for ceramic large plate bricks according to claim 3, wherein: the die holder comprises a magnetic seat and a magnetic plate, and the adsorption mechanism comprises a first electromagnetic coil and a second electromagnetic coil;

the plurality of first electromagnetic coils are arranged on the top end surface of the magnetic base;

the magnetic plate is installed on the bottom end face of the magnetic base, and the plurality of second electromagnetic coils are arranged on the bottom end face of the magnetic plate.

6. The forming mold for ceramic large plate bricks according to claim 5, wherein: the magnetic plate is equipped with the locking seat, works as the mold core adsorbs during the bottom of magnetic plate, the locking seat with the installation department locks through threaded fastener.

7. The forming mold for ceramic large plate bricks according to claim 5, wherein: the magnetic seat is provided with a plurality of locking through holes which are linearly distributed.

8. The forming mold for ceramic large plate bricks according to claim 3, wherein: the magnetic seat with can dismantle the connection through the screw thread mounting between the magnetic sheet, the magnetic seat with the magnetic sheet is equipped with the connecting thread hole that the position corresponds respectively.

9. The forming mold for ceramic large plate bricks according to claim 8, wherein: the powder blocking edge comprises a rubber sleeve and an elastic material, the elastic material is filled in the rubber sleeve, and the edge of the rubber sleeve, which is abutted against the powder, is a bevel edge.

10. The forming mold for ceramic large plate bricks according to claim 1, wherein: the bottom end face of the mold core is provided with a bulge.

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