CN212795342U - Die holder for ceramic large plate - Google Patents

Abstract

The utility model provides a die holder of big board of pottery, relates to ceramic mold technical field, the utility model aims to provide a die holder that the dismouting is simple, convenient to use. The die holder comprises a magnetic adsorption mechanism, the magnetic adsorption mechanism comprises a first electromagnetic coil group and a second electromagnetic coil group, and the first electromagnetic coil group is arranged on the top end face of the die holder; the second electromagnetic coil group is arranged on the bottom end face of the die holder. The utility model provides a die holder, die holder install when the die holder is installed at the walking beam of ceramic press, mold core, all need not can realize the installation with the help of the external equipment supporting, simplify the dismouting condition, make things convenient for the dismouting of die holder and mold core, improve the installation dismantlement efficiency of mould greatly.

Description

Die holder for ceramic large plate

Technical Field

The utility model relates to a ceramic mold technical field, especially a die holder of big board of pottery.

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. In order to facilitate the installation of a large-size die, the existing die adopts a split design, a die holder is connected with a movable beam of a ceramic press, a die core is installed on the die holder, but the connection mode of the existing die holder and the ceramic press and the connection mode of the existing die holder and the die core are generally in threaded connection. Because the rigidity of the large-size die holder and the large-size die core is low and easy to bend and break, if the movable beam of the ceramic press is positioned above the die holder and the die core, all the threaded fixing pieces cannot be simultaneously tightened or loosened during the installation or the disassembly of the die holder and the die core, and all the threaded fixing pieces need to be supported by external equipment, so that the die holder is tightly attached to the movable beam and the die core is tightly attached to the die holder, otherwise, the die holder and the die core are easy to bend and break during the disassembly.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks, an object of the present invention is to provide a die holder that is easy to assemble and disassemble and convenient to use.

To achieve the purpose, the utility model adopts the following technical proposal: the die holder for the ceramic large plate comprises a magnetic adsorption mechanism, wherein the magnetic adsorption mechanism comprises a first electromagnetic coil group and a second electromagnetic coil group, and the first electromagnetic coil group is arranged on the top end surface of the die holder;

the second electromagnetic coil group is arranged on the bottom end face of the die holder.

Further, the die holder further comprises a magnetic seat and a magnetic plate, the magnetic plate is arranged on the lower end face of the magnetic seat, a first coil groove row is arranged on the top end face of the magnetic seat, the first electromagnetic coil group is arranged in the first coil groove row, a second coil groove row is arranged on the bottom end face of the magnetic plate, and the second electromagnetic coil group is arranged in the second coil groove row.

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

Further, the length and the width of the magnetic seat are respectively greater than those of the magnetic plate, the area of the magnetic plate projected to the magnetic seat is a projection area, and the plurality of locking through holes are respectively arranged outside the projection area.

Furthermore, the bottom end face of the magnetic seat is provided with a positioning hole.

Further, the magnetic plate is equipped with the locking seat, the locking seat includes fixed part and sticking department, the fixed part is along the outside extension of horizontal direction, the one end of fixed part with the lateral wall of magnetic plate is connected, the sticking department sets up the other end of fixed part.

Further, the fixed part with can dismantle the connection through the screw thread mounting between the magnetic sheet, the fixed part is equipped with the fixed screw hole that a plurality of was arranged along the horizontal direction is linear.

Further, the locking part is provided with a locking threaded hole.

The utility model has the advantages that: through the die holder sets up magnetism adsorption mechanism works as when first solenoid group circular telegram, makes the top face of die holder has the adsorption affinity, realizes the die holder is adsorbable the bottom of the walking beam of ceramic press to follow the walking beam motion of ceramic press, consequently, the die holder is installed during the walking beam of ceramic press, only need with the die holder is placed the below of the walking beam of ceramic press can. Similarly, when the second electromagnetic coil group is electrified, the bottom end face of the die holder is enabled to have adsorption force, the die holder adsorbs the die core at the bottom of the die holder, and therefore, when the die core is installed, the die core is just required to be placed below the die holder.

When the die holder is disassembled, the first electromagnetic coil group is powered off, the die holder can be integrally separated from the movable beam of the ceramic press, and the die holder is prevented from being bent or broken due to the fact that the movable beam of the ceramic press is fixedly connected to one side of the die holder and the movable beam of the ceramic press is separated from the other side of the die holder when the die holder is disassembled. When the mold core is disassembled, the second electromagnetic coil group is powered off, so that the whole mold core and the mold core are separated, and the condition that when the mold core is disassembled and assembled, one side of the mold core is fixed on the mold base, and the other side of the mold core and the mold base are separated to cause the bending or the fracture of the mold core is avoided.

The utility model provides a die holder, the die holder is installed ceramic press's walking beam the mold core is installed during the die holder, all need not can realize the installation with the help of the external equipment supporting, simplify the dismouting condition, it is convenient the die holder with the dismouting of mold core improves the installation dismantlement efficiency of mould greatly.

Drawings

Fig. 1 is a schematic view of the internal structure of an embodiment of the present invention;

fig. 2 is a schematic structural view of an embodiment of the present invention;

fig. 3 is a schematic top view of a magnetic base according to an embodiment of the present invention;

fig. 4 is a schematic bottom view of a magnetic plate according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a magnetic plate projected to a magnetic base according to an embodiment of the present invention;

fig. 6 is a schematic view of a usage state of an embodiment of the present invention.

Wherein: the magnetic attraction mechanism comprises a magnetic attraction mechanism 1, a first electromagnetic coil group 11, a second electromagnetic coil group 12, a magnetic base 2, a first coil groove row 21, a locking through hole 22, a positioning hole 23, a magnetic plate 3, a second coil groove row 31, a locking base 32, a fixing part 321, a locking part 322, a fixing threaded hole 323, a locking threaded hole 324, a connecting threaded hole 4, a movable beam 5 and a projection area a.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Referring to fig. 1-6, a die holder for a large ceramic plate is used for fixing a die core on a ceramic press, the ceramic press is provided with a movable beam 5, as shown in fig. 6, the die holder is installed at the bottom of the movable beam 5, the movable beam 5 is used for driving the die holder to ascend and descend, the die holder comprises a magnetic adsorption mechanism 1, the magnetic adsorption mechanism 1 comprises a first electromagnetic coil group 11 and a second electromagnetic coil group 12, the first electromagnetic coil group 11 is arranged on the top end surface of the die holder, and when the first electromagnetic coil group 11 is electrified, the die holder is adsorbed at the bottom of the movable beam 5 of the ceramic press; the second electromagnetic coil group 12 is arranged on the bottom end face of the die holder, and when the second electromagnetic coil group 12 is electrified, the die holder adsorbs the die core to the bottom of the die holder.

Through the die holder setting magnetism adsorption element 1 works as when first solenoid group 11 circular telegrams, makes the top face of die holder has the adsorption affinity, realizes the die holder is adsorbable the bottom of the walking beam 5 of ceramic press to follow the walking beam 5 motion of ceramic press, consequently, the die holder is installed during the walking beam 5 of ceramic press, only need with the die holder is placed the below of the walking beam 5 of ceramic press can. Similarly, when the second electromagnetic coil group 12 is powered on, the bottom end face of the die holder is enabled to have adsorption force, so that the die holder can adsorb the die core at the bottom of the die holder, and therefore, when the die core is installed, the die core is just required to be placed below the die holder.

When the die holder is disassembled, the first electromagnetic coil group 11 is powered off, so that the die holder can be separated from the movable beam 5 of the ceramic press integrally, and the die holder is prevented from being bent or broken due to the fact that the movable beam 5 of the ceramic press is fixedly connected to one side of the die holder and the movable beam 5 of the ceramic press is separated from the other side of the die holder when the die holder is disassembled. When the mold core is disassembled, the second electromagnetic coil group 12 is powered off, so that the whole mold core and the mold core are separated, and the condition that when the mold core is disassembled and assembled, one side of the mold core is fixed on the mold base, and the other side of the mold core and the mold base are separated to cause the bending or the fracture of the mold core is avoided.

The utility model provides a die holder, the die holder is installed ceramic press's walking beam 5 the mold core is installed during the die holder, all need not can realize the installation with the help of the external equipment supporting, simplify the dismouting condition, it is convenient the die holder with the dismouting of mold core improves the installation dismantlement efficiency of mould greatly.

Further, the die holder further comprises a magnetic seat 2 and a magnetic plate 3, the magnetic plate 3 is arranged on the lower end face of the magnetic seat 2, a first coil slot row 21 is arranged on the top end face of the magnetic seat 2, the first electromagnetic coil group 11 is arranged in the first coil slot row 21, a second coil slot row 31 is arranged on the bottom end face of the magnetic plate 3, and the second electromagnetic coil group 12 is arranged in the second coil slot row 31. Specifically, as shown in fig. 3 and 4, the magnetic base 2 is configured to be connected to a movable beam 5 of the ceramic press, the magnetic plate 3 is configured to be connected to the mold core, the first coil slot row 21 is disposed on the top end surface of the magnetic base 2, and the second coil slot row 31 is disposed on the bottom end surface of the magnetic plate 3, so that the first electromagnetic coil group 11 can be embedded inside the magnetic base 2, and the second electromagnetic coil group 12 can be embedded into the second coil slot row 31, thereby preventing the first electromagnetic coil group 11 and the second electromagnetic coil group 12 from being exposed outside, effectively protecting the first electromagnetic coil group 11 and the second electromagnetic coil group 12, and reducing the number of times of maintenance of the mold base.

Further, the magnetic base 2 and the magnetic plate 3 are detachably connected through a threaded fixing piece, and the magnetic base 2 and the magnetic plate 3 are respectively provided with a connecting threaded hole 4 corresponding to the magnetic plate. Specifically, as shown in fig. 3 and 4, the magnetic base 2 and the magnetic plate 3 are provided with a plurality of connecting threaded holes 4 corresponding to the positions, so that the magnetic base 2 and the magnetic plate 3 can be connected through threaded fixing parts such as studs or screws, the magnetic base 2 and the magnetic plate 3 can be detachably connected, and the disassembly, assembly and maintenance are facilitated.

Further, the magnetic seat 2 and the movable beam 5 of the ceramic press are locked by a threaded fixing piece, and the magnetic seat 2 is provided with a plurality of locking through holes 22 which are linearly distributed. Specifically, as shown in fig. 3, the magnetic base 2 is provided with a plurality of locking through holes 22, and threaded fasteners such as studs or screws penetrate through the locking through holes 22 to be connected with the ceramic press, so that the magnetic base 2 is locked with the movable beam 5 of the ceramic press, and the magnetic base 2 is prevented from falling off. Further, a plurality of the locking through holes 22 are linearly distributed, which is beneficial to stress dispersion.

Further, the length and the width of the magnetic base 2 are respectively greater than the length and the width of the magnetic plate 3, the area of the magnetic plate 3 projected to the magnetic base 2 is a projection area a, and the plurality of locking through holes 22 are respectively arranged outside the projection area a. Through with a plurality of locking through-hole 22 sets up respectively outside the projection area a, conveniently adopt assembly and disassembly tools such as screwdriver or spanner, avoid magnetic sheet 3 covers locking through-hole 22 and obstruct magnetism seat 2 removes the locking. Specifically, as shown in fig. 5, in the present embodiment, the locking through hole 22 is provided at the edge of the magnetic base 2.

Further, a positioning hole 23 is formed in the bottom end face of the magnetic base 2. Specifically, as shown in fig. 3, the positioning hole 23 is used for positioning the magnetic base 2 and the movable beam 5 of the ceramic press, so as to avoid the die holder from deviating during installation, and facilitate the die holder to be accurately installed on the ceramic press.

Further, magnetic sheet 3 is equipped with locking seat 32, locking seat 32 includes fixed part 321 and sticking department 322, fixed part 321 outwards extends along the horizontal direction, the one end of fixed part 321 with the lateral wall of magnetic sheet 3 is connected, sticking department 322 sets up the other end of fixed part 321. Specifically, as shown in fig. 4, the fixing portion 321 extends outwards along the horizontal direction, so that the locking portion 322 can be disposed outside the magnetic plate 3, which is beneficial to the lateral locking between the mold core and the magnetic plate 3, and the locking between the mold core and the magnetic plate 3 can be conveniently achieved in a limited height space, and the increase of the overall height of the mold base is avoided.

Further, the fixing portion 321 is detachably connected to the magnetic plate 3 through a threaded fixing member, and the fixing portion 321 is provided with a plurality of fixing threaded holes 323 linearly arranged along the horizontal direction. Specifically, as shown in fig. 2, the fixing portion 321 is provided with a plurality of fixing threaded holes 323 which are linearly arranged along the horizontal direction, and the fixing threaded holes 323 are different from the side walls of the magnetic plate 3, so that the horizontal position of the locking seat 32 can be adjusted, and the locking and matching with mold cores of different sizes can be facilitated.

Further, the locking portion 322 is opened with a locking screw hole 324. Specifically, as shown in fig. 4, the locking portion 322 is provided with a plurality of locking threaded holes 324, so that the locking portion 322 and the mold core are conveniently locked by threaded fasteners such as studs or screws.

The technical principle of the present invention is described above with reference to 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 any inventive effort, which would fall within the scope of the present invention.

Claims (9)

1. The die holder for the ceramic large plate is characterized in that: the die holder comprises a magnetic adsorption mechanism, the magnetic adsorption mechanism comprises a first electromagnetic coil group and a second electromagnetic coil group,

the first electromagnetic coil group is arranged on the top end surface of the die holder;

the second electromagnetic coil group is arranged on the bottom end face of the die holder.

2. The die holder for ceramic large plates according to claim 1, wherein: the die holder further comprises a magnetic base and a magnetic plate, the magnetic plate is arranged on the lower end face of the magnetic base, a first coil groove row is arranged on the top end face of the magnetic base, the first electromagnetic coil group is arranged in the first coil groove row, a second coil groove row is arranged on the bottom end face of the magnetic plate, and the second electromagnetic coil group is arranged in the second coil groove row.

3. The die holder for ceramic large plates according to claim 2, wherein: the magnetic seat and the magnetic plate are detachably connected through a threaded fixing piece, and the magnetic seat and the magnetic plate are respectively provided with connecting threaded holes corresponding in position.

4. The die holder for ceramic large plates according to claim 2, wherein: the magnetic seat is provided with a plurality of locking through holes which are linearly distributed.

5. The die holder for ceramic large plates according to claim 4, wherein: the length and the width of the magnetic seat are respectively greater than those of the magnetic plate, the area of the magnetic plate projected to the magnetic seat is a projection area, and the plurality of locking through holes are respectively arranged outside the projection area.

6. The die holder for ceramic large plates according to claim 2, wherein: the bottom end face of the magnetic seat is provided with a positioning hole.

7. The die holder for ceramic large plates according to claim 2, wherein: the magnetic plate is provided with a locking seat, the locking seat comprises a fixing part and a locking part, the fixing part extends outwards along the horizontal direction, one end of the fixing part is connected with the side wall of the magnetic plate, and the locking part is arranged at the other end of the fixing part.

8. The die holder for ceramic large plates according to claim 7, wherein: the fixing part with can dismantle the connection through the screw thread mounting between the magnetic sheet, the fixing part is equipped with the fixed screw hole that a plurality of was arranged along the horizontal direction is linear.

9. The die holder for ceramic large plates according to claim 7, wherein: the locking part is provided with a locking threaded hole.

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