CN210679074U - Hollow brick forming die - Google Patents

Abstract

The utility model provides a hollow brick forming die, relates to hollow brick production facility field, includes: controlling an electric box; a mold frame; the material supporting plate is horizontally arranged on the die frame and is provided with at least two forming holes; the forming device comprises at least two forming sleeves, wherein the forming sleeves are positioned at the upper part of a material supporting plate, the upper ends of the forming sleeves are fixed at the output ends of first electric push rods, the lower ends of the forming sleeves face forming holes, and the first electric push rods are fixedly arranged on a die carrier; the feeding cylinders are arranged at least two and are positioned below the material supporting plate, the upper ends of the feeding cylinders face the forming holes, the lower ends of the feeding cylinders are fixedly arranged at the output ends of second electric push rods, the second electric push rods are fixed on the die frame, and the feeding cylinders are connected with feeding pipes; meanwhile, the forming of a plurality of bricks is realized, the batch production of the bricks is realized, and the production efficiency is improved.

Description

Hollow brick forming die

Technical Field

The utility model relates to an air brick production facility field, concretely relates to air brick forming die.

Background

The hollow bricks are divided into cement hollow bricks, clay hollow bricks and shale hollow bricks. The material has the advantages of light weight, high strength, good heat preservation, sound insulation and noise reduction performance, environmental protection and no pollution, and is widely applied to ideal filling materials of frame structure buildings.

The hollow brick need utilize the mould to the shaping of brick material in process of production, and current hollow brick forming die can not carry out batch production, influences production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses what overcome is current hollow brick forming die, can not carry out batch production, influences production efficiency's problem, and the purpose provides a hollow brick forming die.

The utility model discloses the technical problem that will solve adopts following technical scheme to realize:

a hollow brick molding die, comprising:

controlling an electric box;

a mold frame;

the material supporting plate is horizontally arranged on the die frame and is provided with at least two forming holes;

the forming device comprises at least two forming sleeves, wherein the forming sleeves are positioned at the upper part of a material supporting plate, the upper ends of the forming sleeves are fixed at the output ends of first electric push rods, the lower ends of the forming sleeves face forming holes, and the first electric push rods are fixedly arranged on a die carrier;

the feeding cylinders are arranged at least two and are positioned below the material supporting plate, the upper ends of the feeding cylinders face the forming holes, the lower ends of the feeding cylinders are fixedly arranged at the output ends of second electric push rods, the second electric push rods are fixed on the die frame, and the feeding cylinders are connected with feeding pipes;

the outer barrel diameter of the feeding barrel is equal to the diameter of a forming hole, the barrel diameter of the forming sleeve is larger than that of the feeding barrel, the forming sleeve is not in contact with the feeding barrel, a pressing plate is arranged inside the forming sleeve, a jack is arranged on the pressing plate corresponding to the feeding barrel, the diameter of the jack is equal to the outer barrel diameter of the feeding barrel, an exhaust hole is formed in the pressing plate, the pressing plate is fixedly installed on the output end of a third electric push rod, the third electric push rod is fixed inside the forming sleeve on the upper portion of the pressing plate, and the first electric push rod, the second electric push rod and the third electric push rod are respectively electrically connected with a control electronic box.

The feeding barrel is internally provided with a partition board which is divided into an upper cavity and a lower cavity by the partition board, the feeding pipe is connected with the upper cavity, a screw rod is arranged in the upper cavity, the lower end of the screw rod extends into the lower cavity to be connected with a driving motor, and the driving motor is electrically connected with a control electric box.

And the side wall of the forming sleeve is provided with a through hole.

The section of the forming sleeve is of a rectangular structure.

The forming sleeve and the feeding barrel are both perpendicular to the material supporting plate.

The utility model provides a hollow brick forming die, theory of operation:

in the forming process, the first electric push rods are respectively controlled by controlling the electric box, the second electric push rods work, the forming sleeve and the feeding barrel are pushed to move towards the material supporting plate, the forming sleeve is made to contact with the material supporting plate to form a sealed cavity, the feeding barrel penetrates through the material supporting plate and stretches into the sealed cavity, bricks are guided into the feeding barrel through the feeding pipe and then enter the sealed cavity through the upper end of the feeding barrel, feeding is carried out, after the feeding is completed, the third electric push rods push the pressing plates to move downwards, the bricks in the sealed cavity are extruded and formed, after the forming is completed, the third electric push rods drive the pressing plates to reset, the second electric push rods drive the feeding barrel to reset, the first electric push rods drive the forming material barrel to reset, the formed bricks are retained on the material supporting plate at the moment, and the brick forming is completed.

The utility model has the advantages that:

the utility model discloses simple structure, in the forming process, through setting up many shaping sleeves, utilize mutually supporting between shaping sleeve, a pay-off section of thick bamboo and the clamp plate, realize the shaping of polylith brick material simultaneously, realize the batch production of brick material, improve production efficiency.

Drawings

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

FIG. 2 is a view showing the structure of the mold closing of the present invention;

in the figure: 1. controlling an electric box; 2. a mold frame; 3. a material supporting plate; 4. forming a sleeve; 5. a feed cylinder; 12. forming holes; 13. a first electric push rod; 14. a second electric push rod; 15. a feed pipe; 21. pressing a plate; 22. a jack; 23. a third electric push rod; 31. a partition plate; 32. an upper cavity; 33. a lower cavity; 34. a screw; 35. a drive motor; 41. and (6) perforating.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Example 1

As shown in fig. 1 and 2; a hollow brick molding die, comprising:

a control electric box 1;

a mold frame 2;

the material supporting plate 3 is horizontally arranged on the die carrier 2, and at least two forming holes 12 are formed in the material supporting plate 3;

the forming device comprises forming sleeves 4, at least two forming sleeves 4 are arranged, the forming sleeves 4 are positioned at the upper parts of material supporting plates 3, the upper ends of the forming sleeves 4 are fixed at the output ends of first electric push rods 13, the lower ends of the forming sleeves 4 face forming holes 12, and the first electric push rods 13 are fixedly arranged on a die carrier 2; one forming sleeve correspondingly forms a brick material;

the feeding barrels 5 are at least provided with two feeding barrels 5, the feeding barrels 5 are positioned below the material supporting plates 3, the upper ends of the feeding barrels 5 face the forming holes 12, the lower ends of the feeding barrels 5 are fixedly installed at the output ends of the second electric push rods 14, the second electric push rods 14 are fixed on the die carrier 2, and the feeding barrels 5 are connected with feeding pipes 15; the hollow structure of the hollow brick is formed by utilizing the feeding barrels in the molding process, and the number of the feeding barrels can be set according to the number of the hollow structures in one hollow brick;

the outer cylinder diameter of the feeding cylinder 5 is equal to the diameter of the forming hole 12, the cylinder diameter of the forming sleeve 4 is larger than that of the feeding cylinder 5, the forming sleeve 4 is not in contact with the feeding cylinder 5, a pressing plate 21 is arranged inside the forming sleeve 4, a jack 22 is arranged on the pressing plate 21 corresponding to the feeding cylinder 5, the diameter of the jack 22 is equal to that of the outer cylinder diameter of the feeding cylinder 5, a vent hole is formed in the pressing plate 21, the pressing plate 21 is fixedly arranged at the output end of a third electric push rod 23, the third electric push rod 23 is fixed inside the forming sleeve 4 on the upper portion of the pressing plate 21, and the first electric push rod 13, the second electric push rod 14 and the third electric push rod 23 are respectively;

the control electronic box is internally provided with a PLC controller, and the opening and closing of the first electric push rod, the second electric push rod and the third electric push rod are respectively controlled by adopting a split-range control mode.

In the forming process, the first electric push rod and the second electric push rod are respectively controlled by controlling the electric box to work, the forming sleeve and the feeding barrel are pushed to move towards the material supporting plate, so that the forming sleeve is in contact with the material supporting plate to form a sealed cavity, the feeding barrel penetrates through the material supporting plate and extends into the sealed cavity, the brick materials are guided into the feeding barrel through the feeding pipe and then enter the sealed cavity through the upper end of the feeding barrel to be fed, after the feeding is finished, the third electric push rod pushes the pressing plate to move downwards to extrude the brick materials in the sealed cavity, after the forming is finished, the third electric push rod drives the pressing plate to reset, the second electric push rod drives the feeding barrel to reset, the first electric push rod drives the forming charging barrel to reset, the formed brick materials are retained on the material supporting plate at the moment, and the brick material forming is finished; in the forming process, through setting up many shaping sleeves, utilize mutually supporting between shaping sleeve, a pay-off section of thick bamboo and the clamp plate, realize the shaping of polylith brick material simultaneously, realize the batch production of brick material, improve production efficiency.

A partition plate 31 is arranged in the feeding barrel 5, an upper cavity 32 and a lower cavity 33 are separated through the partition plate 31, the feeding pipe 15 is connected with the upper cavity 32, a screw rod 34 is arranged in the upper cavity 32, the lower end of the screw rod 34 extends into the lower cavity 33 to be connected with a driving motor 35, the driving motor 35 is electrically connected with the control electric box 1, the driving motor is used for driving the screw rod to rotate, conveying of brick materials is achieved, and feeding is achieved.

The side wall of the forming sleeve 4 is provided with a through hole 41, which is convenient for discharging air in the forming sleeve in the forming process.

The cross section of the molding sleeve 4 is of a rectangular structure.

Example 2

As shown in fig. 1 and 2; a hollow brick molding die, comprising:

a control electric box 1;

a mold frame 2;

the material supporting plate 3 is horizontally arranged on the die carrier 2, and at least two forming holes 12 are formed in the material supporting plate 3;

the forming device comprises forming sleeves 4, at least two forming sleeves 4 are arranged, the forming sleeves 4 are positioned at the upper parts of material supporting plates 3, the upper ends of the forming sleeves 4 are fixed at the output ends of first electric push rods 13, the lower ends of the forming sleeves 4 face forming holes 12, and the first electric push rods 13 are fixedly arranged on a die carrier 2; one forming sleeve correspondingly forms a brick material;

the feeding barrels 5 are at least provided with two feeding barrels 5, the feeding barrels 5 are positioned below the material supporting plates 3, the upper ends of the feeding barrels 5 face the forming holes 12, the lower ends of the feeding barrels 5 are fixedly installed at the output ends of the second electric push rods 14, the second electric push rods 14 are fixed on the die carrier 2, and the feeding barrels 5 are connected with feeding pipes 15; the hollow structure of the hollow brick is formed by utilizing the feeding barrels in the molding process, and the number of the feeding barrels can be set according to the number of the hollow structures in one hollow brick;

the outer cylinder diameter of the feeding cylinder 5 is equal to the diameter of the forming hole 12, the cylinder diameter of the forming sleeve 4 is larger than that of the feeding cylinder 5, the forming sleeve 4 is not in contact with the feeding cylinder 5, a pressing plate 21 is arranged inside the forming sleeve 4, a jack 22 is arranged on the pressing plate 21 corresponding to the feeding cylinder 5, the diameter of the jack 22 is equal to that of the outer cylinder diameter of the feeding cylinder 5, a vent hole is formed in the pressing plate 21, the pressing plate 21 is fixedly arranged at the output end of a third electric push rod 23, the third electric push rod 23 is fixed inside the forming sleeve 4 on the upper portion of the pressing plate 21, and the first electric push rod 13, the second electric push rod 14 and the third electric push rod 23 are respectively;

the control electronic box is internally provided with a PLC controller, and the opening and closing of the first electric push rod, the second electric push rod and the third electric push rod are respectively controlled by adopting a split-range control mode.

In the forming process, the first electric push rod and the second electric push rod are respectively controlled by controlling the electric box to work, the forming sleeve and the feeding barrel are pushed to move towards the material supporting plate, so that the forming sleeve is in contact with the material supporting plate to form a sealed cavity, the feeding barrel penetrates through the material supporting plate and extends into the sealed cavity, the brick materials are guided into the feeding barrel through the feeding pipe and then enter the sealed cavity through the upper end of the feeding barrel to be fed, after the feeding is finished, the third electric push rod pushes the pressing plate to move downwards to extrude the brick materials in the sealed cavity, after the forming is finished, the third electric push rod drives the pressing plate to reset, the second electric push rod drives the feeding barrel to reset, the first electric push rod drives the forming charging barrel to reset, the formed brick materials are retained on the material supporting plate at the moment, and the brick material forming is finished; in the forming process, through setting up many shaping sleeves, utilize mutually supporting between shaping sleeve, a pay-off section of thick bamboo and the clamp plate, realize the shaping of polylith brick material simultaneously, realize the batch production of brick material, improve production efficiency.

A partition plate 31 is arranged in the feeding barrel 5, an upper cavity 32 and a lower cavity 33 are separated through the partition plate 31, the feeding pipe 15 is connected with the upper cavity 32, a screw rod 34 is arranged in the upper cavity 32, the lower end of the screw rod 34 extends into the lower cavity 33 to be connected with a driving motor 35, the driving motor 35 is electrically connected with the control electric box 1, the driving motor is used for driving the screw rod to rotate, conveying of brick materials is achieved, and feeding is achieved.

The side wall of the forming sleeve 4 is provided with a through hole 41, which is convenient for discharging air in the forming sleeve in the forming process.

The cross section of the molding sleeve 4 is of a rectangular structure.

As shown in fig. 1; the forming sleeve 4 and the feeding barrel 5 are both perpendicular to the material supporting plate 3, so that the forming quality of the brick material is ensured.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A hollow brick forming die, which is characterized by comprising:

a control electric box (1);

a mold frame (2);

the material supporting plate (3), the material supporting plate (3) is horizontally arranged on the die carrier (2), and at least two forming holes (12) are formed in the material supporting plate (3);

the forming device comprises forming sleeves (4), wherein at least two forming sleeves (4) are arranged, the forming sleeves (4) are positioned at the upper part of a material supporting plate (3), the upper ends of the forming sleeves (4) are fixed at the output end of a first electric push rod (13), the lower ends of the forming sleeves (4) face forming holes (12), and the first electric push rods (13) are fixedly arranged on a die carrier (2);

the device comprises at least two feeding barrels (5), wherein the feeding barrels (5) are positioned below a material supporting plate (3), the upper end of each feeding barrel (5) faces a forming hole (12), the lower end of each feeding barrel is fixedly installed at the output end of a second electric push rod (14), the second electric push rods (14) are fixed on a die frame (2), and the feeding barrels (5) are connected with feeding pipes (15);

the outer cylinder diameter of the feeding cylinder (5) is equal to the diameter of the forming hole (12), the cylinder diameter of the forming sleeve (4) is larger than that of the feeding cylinder (5), the forming sleeve (4) is not in contact with the feeding cylinder (5), a pressing plate (21) is arranged inside the forming sleeve (4), a jack (22) is arranged on the pressing plate (21) corresponding to the feeding cylinder (5), the diameter of the jack (22) is equal to that of the outer cylinder diameter of the feeding cylinder (5), an exhaust hole is formed in the pressing plate (21), the pressing plate (21) is fixedly installed on the output end of a third electric push rod (23), the third electric push rod (23) is fixed inside the forming sleeve (4) on the upper portion of the pressing plate (21), and the first electric push rod (13), the second electric push rod (14) and the third electric push rod (23) are respectively electrically connected with the control electric box (1).

2. A hollow brick molding die as claimed in claim 1, wherein the feeding barrel (5) is provided with a partition plate (31) therein, the feeding barrel is divided into an upper cavity (32) and a lower cavity (33) by the partition plate (31), the feeding pipe (15) is connected with the upper cavity (32), a screw (34) is provided inside the upper cavity (32), the lower end of the screw (34) extends into the lower cavity (33) to be connected with a driving motor (35), and the driving motor (35) is electrically connected with the control electronic box (1).

3. A cavity block forming die according to claim 1, characterized in that the side wall of the forming sleeve (4) is provided with perforations (41).

4. A cavity block forming die according to claim 1, characterized in that the forming sleeve (4) has a rectangular cross-section.

5. A hollow brick molding die as claimed in claim 1, characterized in that the molding sleeve (4) and the feeding barrel (5) are arranged perpendicular to the retainer plate (3).

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