CN217098190U

CN217098190U - Double-mold high-efficiency brick making equipment

Info

Publication number: CN217098190U
Application number: CN202121283810.4U
Authority: CN
Inventors: 林阿勇; 黄江峰; 刘利鑫; 洪艳熔
Original assignee: Fujian Qunfeng Machinery Co Ltd
Current assignee: Fujian Qunfeng Machinery Co Ltd
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2022-08-02
Anticipated expiration: 2031-06-09

Abstract

The utility model discloses a double-mold high-efficiency brick making device, which comprises a frame, a brick making machine and a brick receiving machine, wherein the brick making machine and the brick receiving machine are arranged on the frame, and the brick making machine is provided with a first brick making mold, a mold pressure head and a second brick making mold; the machine frame is provided with a first material distribution station, a brick making station and a second material distribution station; the first brick making die and the second brick making die are respectively provided with a lower head pressing plate, a die frame oil cylinder and a traveling oil cylinder, wherein the die frame oil cylinder and the traveling oil cylinder drive the die frame to lift, and the lower head pressing plate and the die frame enclose a die cavity; the die pressing head is provided with an upper pressing head plate, a die pressing head oil cylinder and a negative pressure suction hole which is arranged on the upper pressing head plate and is connected with negative pressure gas; the mould pressing head is arranged at a brick making station, and the mould pressing head is driven by the mould pressing head oil cylinder to lift and lower to be matched with the first brick making mould and the second brick making mould in turn to press a formed brick; the brick receiving machine is provided with a brick receiving plate and a driving mechanism for driving the brick receiving plate to move to a brick making station for receiving bricks and returning; the utility model discloses the bimodulus mould brickmaking mode of brickmaking equipment for the production beat can improve brickmaking efficiency.

Description

Double-mould high-efficiency brick making equipment

Technical Field

The utility model relates to a brickmaking technical field especially indicates a bimodulus mould high efficiency brickmaking equipment.

Background

The existing brick making equipment generally adopts a skip car to send fly ash to brick making equipment, the skip car returns, and then brick pressing is carried out; the pressed bricks are transported away and then are loaded; therefore, the existing brick making equipment is actually an intermittent production process, the working cycle is long, the brick pressing speed is slow, and the production efficiency is influenced; when the existing brick making equipment is used for making bricks, a plate feeding mechanism, a brick transmission mechanism, a stacking mechanism and other devices need to be matched, wherein the plate feeding mechanism is used for conveying a flat-plate-shaped supporting plate to the brick making equipment; before each brick making, a supporting plate and a mould frame are conveyed to be matched and enclosed into a mould cavity, then materials are distributed into the mould cavity, and a pressure head presses the materials in the mould cavity to form bricks; then demoulding the pressure head and the mould frame, forming the brick on a supporting plate, and conveying the brick through the supporting plate; therefore, one supporting plate is needed for each brick, and a large number of supporting plates are needed to be configured in the production process; and a series of complicated processes such as plate conveying, brick separating, stacking and the like are performed, the production line is long, the production process is complex, the production efficiency is low, and the production cost is high.

In view of the above, the present inventors have made extensive conception on the defects and inconveniences caused by the incomplete improvement of the design of the brick making equipment, and have developed and designed the present application by actively researching, improving and trying on the defects and inconveniences.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a double-mould high-efficiency brick making device, which has a double-mould brick making mode, accelerates the production beat and can improve the brick making efficiency; in addition, in the brick making process, a supporting plate is not needed, the demoulding is simple, the brick conveying speed is high, the brick making efficiency can be further improved, and the production cost is reduced.

In order to achieve the above purpose, the solution of the present invention is:

a kind of bimodulus high efficiency brick making apparatus, it includes stander and brick making machine and brick receiving machine that is set up on stander, the said brick making machine has first brick making mould, mould pressure head and second brick making mould; the machine frame is provided with a first material distribution station, a brick making station and a second material distribution station; the first brick making die and the second brick making die are respectively provided with a lower head pressing plate, a die frame oil cylinder and a walking oil cylinder, wherein the die frame oil cylinder and the walking oil cylinder drive the die frame to lift, and the lower head pressing plate and the die frame enclose a die cavity; a traveling oil cylinder arranged on the first brick making mold drives the first brick making mold to reciprocate the first material distributing station and the brick making station, and a traveling oil cylinder arranged on the second brick making mold drives the second brick making mold to reciprocate the second material distributing station and the brick making station; the die pressing head is provided with an upper pressing head plate, a die pressing head oil cylinder and a negative pressure suction hole which is arranged on the upper pressing head plate and is connected with negative pressure gas; the die pressing head is arranged at a brick making station, and the die pressing head oil cylinder drives the die pressing head to lift and lower so as to be matched with the first brick making die and the second brick making die in turn to press and form bricks; and the brick receiving machine is provided with a brick receiving plate and a driving mechanism for driving the brick receiving plate to move to a brick making station for receiving and returning bricks.

The first material distributing station, the brick making station and the second material distributing station are sequentially and transversely arranged on the same straight line, and the straight line where the brick receiving machine and the brick making station are located is perpendicular to the straight line where the first material distributing station and the second material distributing station are located.

The die pressing head is also provided with an upper pressing head seat, an upper pressing head beam and an upper beam, the upper pressing head plate is arranged on the bottom surface of the upper pressing head seat, the upper pressing head seat is arranged on the bottom surface of the upper pressing head beam, the rack is provided with four guide pillars, four ends of the upper pressing head beam are provided with guide sleeves sleeved on the guide pillars, and four ends of the upper beam are locked at the top ends of the four guide pillars; the die pressure head oil cylinder is arranged between the upper beam and the upper pressure head beam.

And pressure head auxiliary oil cylinders are arranged on two sides of the mould pressure head oil cylinder between the upper beam and the upper pressure head beam.

The first brick making die and the second brick making die are also provided with a lower pressure head seat, a lower pressure head connecting seat and a supporting plate; the lower press head plate is fixedly locked on the top surface of the lower press head seat, the lower press head seat is fixedly locked on the top surface of the lower press head connecting seat, an oil cylinder seat of the walking oil cylinder is arranged on the rack, and the piston rod is connected to the bottom surface of the lower press head connecting seat.

Fins extend outwards from the outer walls of the two sides of the die frame respectively, and two die frame oil cylinders are arranged between each fin and the lower pressure head connecting seat; and an oil cylinder seat of the die frame oil cylinder is arranged on the lower pressure head connecting seat, and the piston rod is connected to the bottom surface of the wing piece.

The machine frame is provided with two slide rails extending from the first material distribution station to the brick making station and two slide rails extending from the second material distribution station to the brick making station, and the bottom surface of the supporting plate is provided with two rows of guide wheels sliding on the slide rails.

A row of a plurality of rubber shock-absorbing pads are arranged on two sides between the lower pressure head connecting seat and the supporting plate respectively.

The brick receiving machine is provided with a moving frame for supporting a brick receiving plate, the top surface of the moving frame is provided with two guide rods, and the bottom surface of the brick receiving plate is provided with two guide cylinders sleeved on the guide rods; and a double-acting cylinder is arranged between the top surface of the movable frame and the bottom surface of the brick receiving plate.

Two linear guide rails which are arranged in parallel and extend from the brick receiving machine to the brick making station are arranged on the rack, and sliding seats which slide on the linear guide rails are arranged on two sides of the moving frame; the driving mechanism is a moving oil cylinder which pushes the moving frame to move back and forth along the linear guide rail.

After the structure is adopted, when the brick making equipment of the utility model is used for making bricks, when the first brick making mould is matched with the mould pressure head to make bricks at the brick making station, the second brick making mould is used for distributing materials at the second material distributing station; when the first brick making mold returns to the first material distributing station, the second brick making mold cooperates with the mold pressure head to make bricks at the brick making station; the first brick making mold and the mold press head are matched for brick making and demolding, the first brick making mold returns to the first material distributing station for distributing, and the brick receiving machine moves to a brick making station for receiving and conveying bricks; then, the second brick making die after material distribution moves to a brick making station, brick making and demolding are carried out by matching with a die pressing head, the second brick making die returns to the second material distribution station for material distribution, and the brick receiving machine moves to a brick making station for brick receiving and conveying; after the first brick making die is distributed, moving to a brick making station again for making bricks, and circularly making bricks in sequence; the first brick making die and the second brick making die of the brick making equipment of the utility model are respectively distributed and then are matched with the die pressure head for making bricks in sequence, thereby forming a double-die brick making mode, accelerating the production beat, saving the time for waiting for distribution and improving the brick making efficiency; the demoulding procedure of the utility model is that the mould frame oil cylinder is firstly opened to drive the mould frame to descend, and the brick is separated from the mould frame; the negative pressure suction hole of the upper pressure head plate is communicated with negative pressure gas to suck the brick, the mold pressure head oil cylinder drives the upper pressure head plate to move upwards and drives the brick adsorbed on the upper pressure head plate to move upwards, the brick is separated from the lower pressure head plate, namely the brick is separated from the first brick making mold or the second brick making mold, and the demolding procedure is completed; then, the first brick making mold returns to the first material distributing station or the second brick making mold returns to the second material distributing station, then the brick receiving plate moves to the position below the brick making station and is arranged below the brick, the negative pressure gas is closed, the brick is arranged on the brick receiving plate, the brick receiving plate returns and conveys the brick to a finished brick bracket, and brick making is completed; the demoulding is simple and the brick conveying speed is high; in addition, in the brick making process, the supporting plate supporting brick is not needed, the supporting plate-free brick making can be realized, the brick making process can be simplified, the production supporting equipment is reduced, the structure of the brick making equipment is simpler, the production efficiency is improved, and the production cost is reduced.

Drawings

FIG. 1 is a schematic structural view of the brick making apparatus of the present invention;

FIG. 2 is a schematic front view of the brick making apparatus of the present invention;

FIG. 3 is a schematic side view of the brick making apparatus of the present invention;

fig. 4 is a schematic structural view of the brick making mold of the present invention;

fig. 5 is a schematic structural view of the brick making mold of the present invention;

fig. 6 is a schematic structural diagram of the brick receiving machine of the present invention.

Description of the symbols

Frame 10 brick receiving machine 5

First brick making mould 1 and mould pressure head 2

Lower head pressing plate 11 mould frame 12

Mould frame oil cylinder 13 walking oil cylinder 14

Upper pressure head plate 21 mould pressure head oil cylinder 22

First distributing station 101 brick making station 102

Press head seat 23 on brick connecting plate 51

Upper ram beam 24 and upper beam 25

Guide post 241 guide sleeve 242

Ram helper cylinder 26 depresses ram seat 15

Lower pressure head connecting seat 16 and supporting plate 17

Slide rail 171 for wing 121

Rubber shock pad 161 of guide wheel 172

Second distributing station 103 and second brick making die 3

The guide rod 521 of the movable frame 52

Double acting cylinder 53 of guide cylinder 511

Linear guide 50 sliding seat 522

The cylinder 54 is moved.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

Referring to fig. 1 to 6, the present invention discloses a dual-mold high-efficiency brick-making apparatus, which comprises a frame 10, and a brick-making machine and a brick-receiving machine 5 arranged on the frame 10, wherein the brick-making machine has a first brick-making mold 1, a mold press head 2 and a second brick-making mold 3; the frame 10 is provided with a first material distributing station 101, a brick making station 102 and a second material distributing station 103; the first brick making die 1 and the second brick making die 3 are respectively provided with a lower head pressing plate 11, a die frame 12, a die frame oil cylinder 13 for driving the die frame 12 to lift and a walking oil cylinder 14, and the lower head pressing plate 11 and the die frame 12 enclose a die cavity; the traveling oil cylinder 14 arranged on the first brick making die 1 drives the first brick making die 1 to reciprocate the first material distributing station 101 and the brick making station 102, and the traveling oil cylinder 14 arranged on the second brick making die 3 drives the second brick making die 3 to reciprocate the second material distributing station 103 and the brick making station 102; the die press head 2 is provided with an upper press head plate 21, a die press head oil cylinder 22 and a negative pressure suction hole which is arranged on the upper press head plate 21 and is connected with negative pressure gas; the die pressing head 2 is arranged at a brick making station 102, and the die pressing head oil cylinder 22 drives the die pressing head 2 to lift and lower to be matched with the first brick making die 1 and the second brick making die 3 in turn to press and form bricks; and the brick receiving machine 5 is provided with a brick receiving plate 51 and a driving mechanism for driving the brick receiving plate 51 to move to the brick making station 102 for receiving bricks and returning.

When the brick making equipment of the utility model is used for making bricks, when the first brick making mould 1 is matched with the mould pressure head 2 to make bricks at the brick making station 102, the second brick making mould 3 is used for distributing materials at the second material distributing station 103; when the first brick making die 1 returns to the first material distributing station 101, the second brick making die 3 is matched with the die press head 2 to make bricks at the brick making station 102; namely, the first brick making die 1 and the die press head 2 are matched for brick making and demoulding, the first brick making die 1 returns to the first material distributing station 101 for material distribution, and the brick receiving machine 5 moves to the brick making station 102 for brick receiving and conveying; then, the second brick making die 3 after material distribution moves to a brick making station 102, brick making and demolding are carried out by matching with the die press head 2, the second brick making die 3 returns to a second material distribution station 103 for material distribution, and the brick receiving machine 5 moves to the brick making station 102 for brick receiving and conveying; meanwhile, after the material distribution, the first brick making die 1 moves to the brick making station 102 again to make bricks, and the bricks are made circularly in sequence; the first brick making die 1 and the second brick making die 3 of the brick making equipment of the utility model are respectively distributed and then are matched with the die pressing head 2 for brick making in sequence, so that a double-die brick making mode is formed, the production beat is accelerated, and the brick making efficiency can be improved; the demoulding process of the utility model is that the mould frame oil cylinder 13 is firstly opened to drive the mould frame 12 to descend, and the brick is separated from the mould frame 12; the negative pressure suction hole of the upper pressure head plate 21 is communicated with negative pressure gas to suck the brick, the mould pressure head oil cylinder 22 drives the upper pressure head plate 21 to move upwards and drives the brick adsorbed on the upper pressure head plate 21 to move upwards, the brick is separated from the lower pressure head plate 11, namely the brick is separated from the first brick making mould 1 or the second brick making mould 3, and the demoulding process is completed; then, the first brick making mold 1 returns to the first material distributing station 101 or the second brick making mold 3 returns to the second material distributing station 103, then the brick receiving plate 51 moves to the position below the brick making station 102 and is placed below the brick, the negative pressure gas is closed, the brick is placed on the brick receiving plate 51, the brick receiving plate 51 returns and conveys the brick to a finished brick bracket, and brick making is completed; the demoulding is simple and the brick conveying speed is high; in addition, in the brick making process, the supporting plate supporting brick is not needed, the supporting plate-free brick making can be realized, the brick making process can be simplified, the production supporting equipment is reduced, the structure of the brick making equipment is simpler, the production efficiency is improved, and the production cost is reduced.

In addition, in the brick making process, a supporting plate is not needed to be used for making one brick, so that the plate conveying process can be reduced, and the production cost for arranging the supporting plate can be reduced; the mould frame 12 is arranged on the lower head pressing plate 11 through the lifting structure, a mould cavity is formed by the mould frame 12 rising and the lower head pressing plate 11, when the mould frame 12 descends, bricks and the mould frame 12 are demoulded, the positions of the two matched structures are fixed, deviation cannot occur, the matched structure is simpler, the time for adjusting the mould frame 12 and the lower head pressing plate 11 can be saved, the production time is shortened, and the production efficiency is improved.

The first material distributing station 101, the brick making station 102 and the second material distributing station 103 of the utility model are sequentially and transversely arranged on the same straight line, and the straight line where the brick receiving machine 5 and the brick making station are positioned is vertical to the straight line where the first material distributing station 101 and the second material distributing station 103 are positioned; the first material distributing station 101, the second material distributing station 103, the brick making station 102 and the brick receiving machine 5 are arranged in a layout manner, so that the first brick making die 1, the second brick making die 3 and the brick receiving machine 5 can move to the brick making station 102 in the shortest distance, the moving time can be saved, and the brick making efficiency can be improved.

The utility model discloses a three side in the adjacent four sides of brickmaking station 102 can set up first cloth station 101, second cloth station 103 and connect brick machine 5, first cloth station 101 and second cloth station 103 can distribute be in on the adjacent both sides face of brickmaking station 102.

The utility model discloses a can set up three cloth stations and a brick machine 5 on the adjacent four sides of brickmaking station 102, be provided with the brickmaking mould of brickmaking with mould pressure head 2 cooperation on each cloth station, after the brickmaking, the brick is demolded from the brickmaking mould and is adsorbed on mould pressure head 2, connects out the brick through the brick connecting plate 51 of brick machine 5 at last; the production efficiency can be improved by multi-station production.

The die press head 2 of the present invention further comprises an upper press head seat 23, an upper press head beam 24 and an upper beam 25, wherein the upper press head plate 21 is disposed on the bottom surface of the upper press head seat 23, the upper press head seat 23 is disposed on the bottom surface of the upper press head beam 24, the frame 10 is provided with four guide pillars 241, four ends of the upper press head beam 24 are provided with guide sleeves 242 sleeved on the guide pillars 241, and four ends of the upper beam 25 are locked on the tops of the four guide pillars 241; the die ram cylinder 22 is arranged between an upper beam 25 and an upper ram beam 24; the die pressing head oil cylinder 22 can push the upper pressing head beam 24 to move up and down along the guide pillar 241 in a limiting mode through the guide sleeve 242, the upper pressing head seat 23 and the upper pressing head plate 21 can be driven to move up and down to be matched with the first brick making die 1 to press and form bricks, the upper pressing head plate 21 can be kept not to be inclined in a horizontal state due to the matching structure of the four guide pillars 241 and the guide sleeve 242, the surface of each pressed brick is a horizontal plane, the brick structure is more compact, the surface of each brick is smoother, and the brick making quality is improved.

In the utility model, a pressure head auxiliary oil cylinder 26 is arranged between the upper beam 25 and the upper pressure head beam 24 at two sides of the mould pressure head oil cylinder 22; can assist and promote the up-and-down motion of upper pressure head board 24, and then drive upper pressure head board 21 up-and-down motion, and upper pressure head board 21 atress is more even, and the brick surface atress is even, and the brick structure is compacter and the brick surface is more level and smooth.

The first brick making die 1 and the second brick making die 3 of the utility model are respectively provided with a lower pressure head seat 15, a lower pressure head connecting seat 16 and a supporting plate 17; the lower press head plate 11 is fixedly locked on the top surface of the lower press head seat 15, the lower press head seat 15 is fixedly locked on the top surface of the lower press head connecting seat 16, an oil cylinder seat of the walking oil cylinder 14 is arranged on the frame 10, a piston rod is connected to the bottom surface of the lower press head connecting seat 16, the walking oil cylinder 14 can push the lower press head connecting seat 16 to move on the frame 10, the walking oil cylinder 14 arranged on the first brick making die 1 drives the first brick making die 1 to move back and forth to the first material distributing station 101 and the brick making station 102, and the walking oil cylinder 14 arranged on the second brick making die 3 drives the second brick making die 3 to move back and forth to the second material distributing station 103 and the brick making station 102.

The outer walls of the two sides of the die frame 12 of the utility model are respectively extended outwards with fins 121, and two die frame oil cylinders 13 are arranged between each fin 121 and the lower pressure head connecting seat 15; an oil cylinder seat of the die frame oil cylinder 13 is arranged on the lower pressure head connecting seat 16, and a piston rod is connected to the bottom surface of the wing piece 13; before material distribution, a piston rod of the die frame oil cylinder 13 extends out of an oil cylinder seat to push the wing piece 121 to move upwards to drive the die frame 12 to move upwards, and the die frame 12 and the lower pressure head plate 11 enclose a die cavity, so that material distribution is facilitated; when demoulding, the piston rod of the mould frame oil cylinder 13 retracts into the oil cylinder seat to pull the wing pieces 121 to move downwards, so as to drive the mould frame 12 to move downwards, the inner wall of the mould frame 12 moves downwards along the four sides of the lower head pressing plate 11, and the mould frame 12 moves until the top surface of the mould frame 12 is at least flush with the top surface of the lower head pressing plate 11 or the top surface of the mould frame 12 is lower than the top surface of the lower head pressing plate 11; the mould frame 12 and the brick are completely demoulded, and the demoulding effect is better.

The utility model discloses a be provided with two on the frame 10 and extend to brickmaking station 102 by first cloth station 101 and two by second cloth station 103 and extend to brickmaking station 102 slide rail 171, the bottom surface of backup pad 17 is provided with two rows of guide pulleys 172 that slide on slide rail 171; the first brick making mold 1 can smoothly move on the machine frame 10 through the matching structure of the guide wheel 172 and the slide rail 171.

A row of a plurality of rubber shock-absorbing pads 161 are respectively arranged on two sides between the lower pressure head connecting seat 16 and the supporting plate 17; in the material distribution process, a vibration mechanism is required to be arranged below the die cavity to vibrate the material in the die cavity to be smooth and compact, the rubber shock absorption pad 161 can buffer the vibration force, and the vibration force is reduced to be transmitted to the guide wheel 172 and the slide rail 171, so that the motion process of the first brick making die 1 is not influenced by the vibration force.

The brick receiving machine 5 of the utility model is provided with a moving frame 52 for supporting a brick receiving plate 51, the top surface of the moving frame 52 is provided with two guide rods 521, and the bottom surface of the brick receiving plate 51 is provided with two guide cylinders 511 sleeved on the guide rods 521; and a double-acting cylinder 53 is arranged between the top surface of the moving frame 52 and the bottom surface of the brick connecting plate 51; the double-acting cylinder 53 can push the brick receiving plate 51 to move up and down on the moving frame 52, the position of the brick receiving plate 51 can be adjusted, and brick receiving is more convenient.

The frame 10 of the utility model is provided with two parallel linear guide rails 50 extending from the brick receiving machine 5 to the brick making station 102, and two sides of the moving frame 52 are provided with sliding seats 522 sliding on the linear guide rails 50; the driving mechanism is a moving oil cylinder 54 which pushes the moving frame 52 to move back and forth along the linear guide rail 50; the moving oil cylinder 54 can push the moving frame 52 to reciprocate along the linear guide rail 50, so that the brick connecting plate 51 can be conveniently moved to the lower part of the die pressing head 2 to connect bricks, and the brick connecting structure is simple.

The first material distribution station 101 and the second material distribution station 103 of the utility model are respectively provided with a material distribution mechanism; when the first brick making die 1 and the second brick making die 3 are used for distributing materials, the materials can be distributed by the material distributing mechanism, so that the materials are distributed more conveniently; vibration mechanisms are arranged below the first brick making die 1 and the second brick making die 3; during material distribution, the first brick making die 1 and the second brick making die 2 can be vibrated, so that the material distribution in the die cavity is uniform and compact.

The brick making equipment can also be used for producing double-layer bricks, when distributing materials, firstly, the mold frame is lifted for a certain height, then the mold cavity is filled with a first material, then, the mold frame is lifted to form the mold cavity by the moisture of the first material, and the mold cavity is filled with a second material; then, moving the brick making mold to a brick making station for pressing a vacuum drainage forming brick; the brick making equipment can be used for producing single-layer bricks or plates and double-layer bricks, and has better practicability.

The above embodiments and drawings do not limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be considered as departing from the scope of the present invention.

Claims

1. A double-mould high-efficiency brick making equipment is characterized in that: the brick making machine comprises a rack, and a brick making machine and a brick receiving machine which are arranged on the rack, wherein the brick making machine is provided with a first brick making die, a die pressing head and a second brick making die; the machine frame is provided with a first material distribution station, a brick making station and a second material distribution station; the first brick making die and the second brick making die are respectively provided with a lower head pressing plate, a die frame oil cylinder and a walking oil cylinder, wherein the die frame oil cylinder and the walking oil cylinder drive the die frame to lift, and the lower head pressing plate and the die frame enclose a die cavity; a traveling oil cylinder arranged on the first brick making mold drives the first brick making mold to reciprocate the first material distributing station and the brick making station, and a traveling oil cylinder arranged on the second brick making mold drives the second brick making mold to reciprocate the second material distributing station and the brick making station; the die pressing head is provided with an upper pressing head plate, a die pressing head oil cylinder and a negative pressure suction hole which is arranged on the upper pressing head plate and is connected with negative pressure gas; the mould pressing head is arranged at a brick making station, and the mould pressing head oil cylinder drives the mould pressing head to lift and lower to be matched with the first brick making mould and the second brick making mould in turn to press a formed brick; and the brick receiving machine is provided with a brick receiving plate and a driving mechanism for driving the brick receiving plate to move to a brick making station for receiving and returning bricks.

2. The dual-mold high-efficiency brick making apparatus of claim 1, wherein: the first material distributing station, the brick making station and the second material distributing station are sequentially and transversely arranged on the same straight line, and the straight line where the brick receiving machine and the brick making station are located is perpendicular to the straight line where the first material distributing station and the second material distributing station are located.

3. The dual-mold high-efficiency brick making apparatus of claim 1, wherein: the die pressing head is also provided with an upper pressing head seat, an upper pressing head beam and an upper beam, the upper pressing head plate is arranged on the bottom surface of the upper pressing head seat, the upper pressing head seat is arranged on the bottom surface of the upper pressing head beam, the rack is provided with four guide pillars, four ends of the upper pressing head beam are provided with guide sleeves sleeved on the guide pillars, and four ends of the upper beam are locked at the top ends of the four guide pillars; the die pressure head oil cylinder is arranged between the upper beam and the upper pressure head beam.

4. The dual-mold high-efficiency brick making apparatus of claim 3, wherein: and pressure head auxiliary oil cylinders are arranged on two sides of the mould pressure head oil cylinder between the upper beam and the upper pressure head beam.

5. The dual-mold high-efficiency brick making apparatus of claim 1, wherein: the first brick making die and the second brick making die are respectively provided with a lower pressure head seat, a lower pressure head connecting seat and a supporting plate; the lower press head plate is fixedly locked on the top surface of the lower press head seat, the lower press head seat is fixedly locked on the top surface of the lower press head connecting seat, an oil cylinder seat of the walking oil cylinder is arranged on the rack, and the piston rod is connected to the bottom surface of the lower press head connecting seat.

6. The dual-mold high-efficiency brick making apparatus of claim 5, wherein: fins extend outwards from the outer walls of the two sides of the die frame respectively, and two die frame oil cylinders are arranged between each fin and the lower pressure head connecting seat; and an oil cylinder seat of the die frame oil cylinder is arranged on the lower pressure head connecting seat, and the piston rod is connected to the bottom surface of the wing piece.

7. The dual-mold high-efficiency brick making apparatus of claim 5, wherein: the machine frame is provided with two slide rails extending from the first material distribution station to the brick making station and two slide rails extending from the second material distribution station to the brick making station, and the bottom surface of the supporting plate is provided with two rows of guide wheels sliding on the slide rails.

8. The dual-mold high-efficiency brick making apparatus of claim 6, wherein: a row of a plurality of rubber shock-absorbing pads are arranged on two sides between the lower pressure head connecting seat and the supporting plate respectively.

9. The dual-mold high-efficiency brick making apparatus of claim 1, wherein: the brick receiving machine is provided with a moving frame for supporting a brick receiving plate, the top surface of the moving frame is provided with two guide rods, and the bottom surface of the brick receiving plate is provided with two guide cylinders sleeved on the guide rods; and a double-acting cylinder is arranged between the top surface of the moving frame and the bottom surface of the brick receiving plate.

10. The dual-mold high-efficiency brick making apparatus of claim 9, wherein: two linear guide rails which are arranged in parallel and extend from the brick receiving machine to the brick making station are arranged on the rack, and sliding seats which slide on the linear guide rails are arranged on two sides of the moving frame; the driving mechanism is a moving oil cylinder which pushes the moving frame to move back and forth along the linear guide rail.