CN212266154U - A mould for bank protection brick make-up machine - Google Patents

Abstract

The utility model relates to a mould, concretely relates to mould for bank protection brick make-up machine. The die consists of a forming die and a vibration extrusion die. This mould suitable for bank protection brick make-up machine can cut the blank after the shaping through cutting the device, and can once make a plurality of bank protection bricks, and then can effectively improve preparation efficiency, and need not make a bank protection brick and carry out the operation of once packing, and can effectively reduce intensity of labour, and the mould of having solved current bank protection brick make-up machine is because structural reason, intensity of labour is high when the preparation bank protection brick, the problem of preparation inefficiency, and the specially adapted makes the bank protection brick and uses.

Description

A mould for bank protection brick make-up machine

Technical Field

The utility model relates to a mould, concretely relates to mould for bank protection brick make-up machine.

Background

In order to prevent the slopes of hydraulic engineering such as ditches and riverways from collapsing under the erosion of water flow and rainwater, the slopes of the hydraulic engineering such as ditches and riverways must be protected, and most of the existing methods are protected by paving slope protection bricks and green plants on the slopes; the slope protection brick is a hollow brick manufactured by using fly ash, coal cinder, coal gangue, tailing slag, chemical slag or one or more of natural sand, tidal marsh mud and the like (as raw materials) as main raw materials, using cement as a coagulant and not calcining at high temperature.

The existing slope protection brick forming machine comprises a base, a mould and a vibration extrusion mould, wherein the base is movably hung with the vibration extrusion mould through a guide rod and a swing arm; a mould is movably arranged on the base below the vibration extrusion mould through a pressure rod; wheels are arranged around the base. The forming machine is matched with the mould through the vibration extrusion mould and forms the slope protection brick through vibration, and matched auxiliary equipment is not needed, so that the maintenance is convenient; the base can be dragged by the wheels, so that the placing position of the formed slope protection brick can be controlled, and the slope protection brick can be maintained conveniently; however, because of the structure of the mold of the forming machine, only one slope protection brick can be formed at a time, which not only has higher labor intensity, but also has lower brick making efficiency, so the improvement is necessary.

Disclosure of Invention

The utility model aims at: aiming at the defects of the prior art, the mould for the slope protection brick forming machine, which can manufacture a plurality of slope protection bricks by one-step filling, can improve the production efficiency and reduce the labor intensity, is provided.

The technical scheme of the utility model is that:

the utility model provides a mould for bank protection brick make-up machine, it comprises forming die and vibration extrusion die, its characterized in that: the forming die comprises a die cylinder, hollow forming blocks and a cutting device, wherein the die cylinder is a polygonal cylinder body, the inner surface of the die cylinder is provided with a plurality of hollow forming blocks in an up-down shape through a forming block supporting plate, and the outer surface of the die cylinder is provided with the cutting device.

The die cylinder is provided with a sub-cut corresponding to the hollow forming block.

The hollow forming blocks are arranged at intervals respectively, and the space between the hollow forming blocks is consistent with the width of the sub-cut.

The cutting device comprises a supporting plate, a cutting plate and a push rod, wherein the supporting plate is U-shaped, the cutting plate is movably arranged at the upper part and the lower part of the inner side of the supporting plate, and the push rod is arranged on the cutting plate; the supporting plate is welded with the die cylinder.

The slitting plates are fixedly connected through connecting plates and are connected with the slitting openings in an intermittent insertion manner.

The supporting plate is provided with a sliding groove corresponding to the slitting opening, and the sliding groove is connected with the slitting plate in a sliding mode.

Further, the cutting device consists of a cutting support plate, a cutting arch and a rotary cutting plate, wherein the cutting arch is arranged on the cutting support plate in an up-down shape, and the rotary cutting plate is arranged on the cutting arch; the slitting supporting plate is movably connected with the die cylinder through a hinge.

Furthermore, the rotary slitting plate and the slitting opening are arranged in a corresponding manner, and the rotary slitting plate is connected with the slitting opening in an intermittent insertion manner.

The vibration extrusion die consists of an assembly plate, a vibration motor and a vibration pressing plate, wherein the vibration motor is fixedly arranged on the assembly plate through a coaming, and a hoisting connecting plate is arranged on the coaming on one side of the vibration motor; the lower surface of the assembling plate is fixedly provided with a vibrating pressing plate through a supporting rod.

The hoisting connecting plate is provided with a positioning hole, and the end of the hoisting connecting plate on one side of the positioning hole is wedge-shaped.

The beneficial effects of the utility model reside in that:

this a mould for bank protection brick make-up machine can cut the blank after the shaping through cutting the device, and can once make a plurality of bank protection bricks, and then can effectively improve preparation efficiency, and need not make a bank protection brick and carry out the operation of once packing, and can effectively reduce intensity of labour, and the mould of having solved current bank protection brick make-up machine is because structural reason, intensity of labour is high when the preparation bank protection brick, the problem of preparation inefficiency, and the specially adapted preparation bank protection brick uses.

Drawings

Fig. 1 is a schematic structural view of the forming die of the present invention;

FIG. 2 is a schematic cross-sectional view of FIG. 1;

fig. 3 is a schematic structural view of a modified form of the forming die of the present invention;

FIG. 4 is a schematic cross-sectional view of FIG. 3;

FIG. 5 is a schematic structural view of the vibration extrusion die of the present invention;

fig. 6 is a schematic structural view of the molding machine of the present invention;

FIG. 7 is a schematic left side view of FIG. 6;

FIG. 8 is a schematic top view of FIG. 6;

fig. 9 is a schematic view of the working state of the present invention;

fig. 10 is a schematic view of the state of demolding.

In the figure: 1. the mould cylinder, 2, the hollow forming block, 3, the forming block supporting plate, 4, the cutting opening, 5, the supporting plate, 6, the cutting plate, 7, the push rod, 8, the sliding groove, 9, the connecting plate, 10, the base, 11, the guide rod, 12, the pressure rod, 13, the wheel, 14, the limiting supporting rod, 15, the rotating sleeve, 16, the swing arm, 17, the swing arm, 18, the hand brake, 19, the hanging plate, 20, the hoisting positioning pin, 21, the swing arm positioning pin, 22, the pull rope, 23, the assembling plate, 24, the vibrating motor, 25, the vibrating pressure plate, 26, the coaming, 27, the connecting rod, 28, the guide sleeve, 29, the motor switch, 30, the hoisting connecting plate, 31, the positioning hole, 32, the supporting rod, 33, the positioning pin shaft, 34, the base limiting rod, 35, the guide plate, 36, the scale mark, 37, the supporting plate, 38, the cutting bow, 39, the rotating cutting plate, 40.

Detailed Description

The mould for the slope protection brick forming machine comprises a forming mould and a vibration extrusion mould, wherein the forming mould comprises a mould cylinder 1, hollow forming blocks 2 and a slitting device, the mould cylinder 1 is a polygonal cylinder body, and a plurality of hollow forming blocks 2 are arranged on the inner surface of the mould cylinder 1 in an up-down shape through forming block supporting plates 3, so that the middle part of a pug is hollow in the brick making process of the slope protection brick; correspond the form with hollow shaping piece 2 on the mould section of thick bamboo 1 and be provided with branch incision 4, hollow shaping piece 2 is the interval form setting respectively, and the interval between hollow shaping piece 2 is unanimous with the width of cutting an opening 4, and the brickmaking in-process is because the moisture content of pug is lower and the viscosity is higher, and the pug can not be extruded by cutting an opening 4 in a large number in the vibration moulding process, and the pug of being extruded in a small amount can not influence the shaping of slope protection brick blank.

The outer surface of the die cylinder 1 is provided with a cutting device, the cutting device is composed of a supporting plate 5, a cutting plate 6 and a push rod 7, the supporting plate 5 is U-shaped, the supporting plate 5 is welded with the die cylinder 1, and a sliding groove 8 is arranged on the supporting plate 5 corresponding to the cutting opening 4; the inner side of the supporting plate 5 is movably provided with cutting plates 6 in an up-down shape, the cutting plates 6 are fixedly connected through a connecting plate 9, the cutting plates 6 are in sliding connection with the sliding chute 8, and the connecting plate 9 has the function of enabling the cutting plates 6 to simultaneously and unidirectionally move, limiting the positions of the cutting plates 6 and avoiding the cutting plates 6 from being separated from the sliding chute 8; the splitting plate 6 is intermittently inserted and connected with the splitting openings 4, when the splitting plate 6 is inserted from the splitting openings 4, the slope protection brick blank can be split, the splitting plate 6 is thin, and the thickness of the splitting plate can be ignored relative to the thickness of the slope protection brick, so that the thickness of the slope protection brick cannot be influenced when the splitting plate 6 is used for splitting the slope protection brick blank; be provided with push rod 7 on slitting board 6 to promote slitting board 6 to move when slitting board 6 cuts the slope protection brick blank.

The mould is assembled on a slope protection brick forming machine when in use; the slope protection brick forming machine is composed of a base 10, a guide rod 11, a pressure rod 12, a mould and a vibration extrusion mould, wherein the base 10 is a frame body, and wheels 13 are arranged on the periphery of the base 10; guide rods 11 are symmetrically arranged on the base 10, limit support rods 14 are arranged at the ends of the guide rods 11, and the limit support rods 14 are fixedly connected with the guide rods 11 through fixing bolts respectively; the end of the guide rod 11 at one end of the limit support rod 14 extends to the position above the limit support rod 14, a rotary sleeve 15 is sleeved on the guide rod 11 extending to the position above the limit support rod 14, a swing arm 16 is fixedly arranged on the rotary sleeve 15, a rocker arm 17 is arranged on the rotary sleeve 15 at one side of the swing arm 16, and a hand brake 18 is arranged on the rocker arm 17 (the structure and the function of the hand brake 18 are similar to those of a hand brake on a bicycle, and the description is omitted); the end of the swing arm 16 is provided with a hanging plate 19, and the hanging plate 19 is intermittently abutted and connected with the limit supporting rod 14; a hoisting positioning pin 20 is fixedly arranged on the hoisting plate 19; a swing arm positioning pin 21 is fixedly arranged on the swing arm 16 at one side of the hanging plate 19; the end of the swing arm positioning pin 21 is connected with the hand brake 18 through a pull rope 22; the limit support rod 14 is provided with a baffle plate 41 corresponding to the swing arm positioning pin 21, the baffle plate 41 is intermittently abutted and connected with the end of the swing arm positioning pin 21, and the position of the swing arm 16 can be limited above the limit support rod 14 through the hanging plate 19, the limit support rod 14, the swing arm positioning pin 21 and the baffle plate 41 so as to limit the position of the hanging plate 19.

The vibration extrusion die comprises an assembly plate 23, a vibration motor 24 and a vibration pressing plate 25, wherein a surrounding plate 26 is arranged on the upper surface of the assembly plate 23, the surrounding plate 26 is in a square shape, a connecting rod 27 is arranged on the surrounding plate 26, a guide sleeve 28 is arranged at the end of the connecting rod 27 below the rotating sleeve 15, and the connecting rod 27 is movably connected with the guide rod 11 through the guide sleeve 28; the assembly plate 23 is fixedly provided with a vibration motor 24 through a coaming 26, a motor switch 29 is arranged on the swing arm 16 at one side of the baffle plate 41, and the motor switch 29 is electrically connected with the vibration motor 24; a hoisting connecting plate 30 is arranged on the enclosing plate 26 on one side of the vibration motor 24, a positioning hole 31 is formed in the hoisting connecting plate 30, and the end of the hoisting connecting plate 30 above the positioning hole 31 is wedge-shaped; the end of the hoisting positioning pin 20 is intermittently inserted and connected with the positioning hole 31 and is abutted and connected with the hoisting plate 19, when the hoisting positioning pin 20 is inserted into the positioning hole 31, the hoisting positioning pin 20 enables the hoisting connecting plate 30 to be hung on the hoisting positioning pin 20, and further the vibration extrusion die is hung on the hoisting positioning pin 20; the lower surface of the assembling plate 23 is provided with a plurality of supporting rods 32, and the ends of the supporting rods 32 are fixedly provided with a vibration pressing plate 25; the guide sleeve 28 and the connecting rod 27 are used for enabling the vibration extrusion die to move only along the guide rod 11 during the movement of the vibration extrusion die, enabling the vibration pressing plate 25 to fall into the die downwards under the constraint action of the guide sleeve 28 during the downward movement, and enabling the hoisting connecting plate 30 to be inserted between the hoisting positioning pin 20 and the hoisting plate 19 during the upward movement.

The base 10 on one side of the guide rod 11 is symmetrically provided with positioning pin shafts 33, the positioning pin shafts 33 are fixedly connected with the base 10, the positioning pin shafts 33 are movably provided with pressure rods 12, the pressure rods 12 are U-shaped, and the ends of the pressure rods 12 are bent; the end of the positioning pin shaft 33 extends to the inner side of the pressure rod 12, the end of the positioning pin shaft 33 extending to the inner side of the pressure rod 12 is movably provided with a base limiting rod 34, and the base limiting rod 34 is provided with a tension spring which is connected with the base 10; the forming die is movably arranged on a compression bar 12 in the base 10 through a connecting pin shaft, and a die cavity between the die cylinder 1 and the hollow forming block 2 is intermittently inserted and connected with a vibration pressing plate 25; guide plates 35 are symmetrically arranged on two sides of the die cylinder 1 through fixing bolts, the cross section of each guide plate 35 is L-shaped, and each guide plate 35 is movably connected with each guide rod 11; the base limiting rod 34 is used for limiting the position of the base 10 so as to prevent the base 10 from moving in the demolding process to drive the mold to move, and the hollow slope protection brick formed by extrusion molding of the mold due to the movement of the mold in the demolding process is avoided, so that the formed hollow slope protection brick is not damaged due to the movement of the mold; the guide rod 11 is provided with scale marks 36, and the scale marks 36 are matched with the guide plate 35 to observe the rising height of the die cylinder 1 in the demolding process so as to facilitate demolding.

When the mould is in operation, prepared mud is filled into a mould cavity between a mould cylinder 1 and a hollow forming block 2 of the mould, after the mould is filled, the hand brake 18 is pinched through the rocker arm 17, the hand brake 18 pulls the swing arm positioning pin 21 through the pull rope 22, the swing arm positioning pin 21 is retracted backwards, the rocker arm 17 is swung by taking the rotary sleeve 15 as an axis, the rocker arm 17 drives the swing arm 16 to rotate the rotary sleeve 15 counterclockwise by taking the rotary sleeve 15 as the axis, the swing arm 16 drives the vibration extrusion mould to rotate by taking the rotary sleeve 15 as the axis through the hanging plate 19, the hoisting positioning pin 20 and the hoisting connecting plate 30 in sequence, and the vibration pressing plate 25 of the vibration extrusion mould rotates to the position above the mould; in the process that the swing arm 16 drives the vibration extrusion die to rotate above the die through the hanging plate 19 and the hoisting positioning pin 20, the hanging plate 19 is gradually close to the limiting support rod 14 and is connected with the limiting support rod 14 in an abutting mode, when the hanging plate 19 abuts against the limiting support rod 14, the hand brake 18 is released, the swing arm positioning pin 21 is reset and extends forwards, the extending swing arm positioning pin 21 abuts against the baffle plate 41, and the position of the swing arm 16 is limited through the swing arm positioning pin 21 and the hanging plate 19; when the hanging plate 19 is abutted against the limit supporting rod 14, the vibration pressing plate 25 of the vibration extrusion die is positioned above the die and corresponds to the die cavity between the die cylinder 1 and the hollow forming block 2 of the die; after the hand brake 18 is loosened, the hoisting positioning pin 20 is pulled to enable the end of the hoisting positioning pin 20 to contract backwards and not to be inserted into and connected with the positioning hole 31 on the hoisting connecting plate 30, the vibration extrusion die is enabled to fall under the action of self gravity, the vibration pressing plate 25 of the vibration extrusion die is enabled to be inserted into the die cavity of the die, the motor switch 29 is pressed after the vibration pressing plate 25 is inserted into the die, the vibration motor 24 of the vibration extrusion die is enabled to be started, the assembly plate 23 is driven to vibrate after the vibration motor 24 is started, the assembly plate 23 drives the supporting rod 32 to vibrate, and the vibration pressing plate 25 is driven to vibrate, and mud in the die is compacted and formed under the action of the self gravity of the vibration extrusion die 24, the coaming 26, the assembly plate 23, the supporting rod 32 and the vibration pressing plate 25 and the vibration of the vibration motor 24 in the vibration process in the.

After the hollow slope protection brick blank is molded, a vibration motor 24 of a vibration extrusion die is closed through a motor switch 29, after the vibration motor 24 is closed, a push rod 7 is pushed to enable the push rod 7 to move towards a die cylinder 1, a cutting plate 6 is driven to be inserted into a cutting opening 4 on the die cylinder 1 through the push rod 7, pug between the cutting openings 4 is extruded out through the cutting openings 4, the molded slope protection brick blank is cut, and thus the slope protection brick is molded; after the slope protection brick blank is cut, the cutting plate 6 is pulled out from the cutting opening 4 by pulling the push rod 7, after the cutting plate is pulled out, the base limiting rod 34 is trampled, the base limiting rod 34 is pressed downwards against the elasticity of the tension spring, the base limiting rod 34 is pressed on the ground, the position of the base 10 is relatively fixed relative to the ground through the base limiting rod 34, the base limiting rod 34 is pressed on the ground, the press rod 12 is pressed downwards, the press rod 12 drives the mould to move upwards through the connecting pin shaft, and moves upwards along the guide rod 11 under the action of the guide plate 35, during the upward movement of the mould, the formed hollow slope protection brick is separated from the mould under the action of the vibration extrusion mould and the self gravity of the hollow slope protection brick, during the upward movement of the mould, the upward movement height of the mould is observed by observing the guide plate 35 and the scale mark 36, the mould only moves upwards by the height of the thickness of the slope protection brick, after the slope protection brick is separated from the mold, a push rod 7 is pushed to enable a dividing plate 6 to be inserted into the dividing notch 4, and meanwhile, the slope protection brick is lifted through the dividing plate 6 at the bottom of the mold cylinder 1, so that the slope protection brick which is not separated from the mold is left in the mold; after the slitting plate 6 is inserted into the slitting 4, the base 10 is dragged through the pressure rod 12, so that the base 10 moves to the placing position of the next slope protection brick through the wheels 13, after the base 10 moves in place, the push rod 10 is pulled, the slitting plate 6 is pulled out from the slitting opening 4, after the slitting plate 6 is pulled out, the demolding process is repeated, and demolding and placing are carried out on one slope protection brick at the position; and repeating the demoulding process until all the slope protection bricks in the mould cylinder 1 are demoulded.

After the slope protection bricks are completely demoulded, the pressing rod 12 is pressed downwards to enable the mould to continue to move upwards, the mould is gradually contacted with the assembly plate 23 of the vibration extrusion mould in the process of continuing to move upwards, the mould drives the vibration extrusion mould to move upwards through the assembly plate 23, in the process of moving upwards, the hoisting connecting plate 30 on the enclosing plate 26 is driven to move upwards, the hoisting connecting plate 30 is gradually inserted between the positioning rod 13 and the hanging plate 19 of the hoisting positioning pin 20 in the process of moving upwards, the end of the hoisting connecting plate 30 extrudes the end of the hoisting positioning pin 20 to shrink the hoisting positioning pin 20, when the end of the hoisting positioning pin 20 slides to the positioning hole 31 on the hoisting connecting plate 30, the hoisting positioning pin 20 is reset and inserted into the positioning hole 31 on the hoisting connecting plate 30 and abuts against the hoisting plate 19, the vibration extrusion die is thereby suspended on the suspension plate 19, i.e., on the swing arm 16, by the suspension positioning pins 20 and the suspension connection plate 30.

After the vibration extrusion die is hung on the swing arm 16, the base limiting rod 34 is loosened, the base limiting rod 34 is enabled to reset upwards under the action of the tension spring, the base limiting rod 34 resets upwards under the action of the tension spring, the pressing rod 12 is pulled to enable the base 10 to move through the wheels 13, the base 10 is dragged to the position to be placed of the next hollow slope protection brick, after the base is placed in place, the hand brake 18 on the swing arm 17 is pinched to enable the positioning rod 13 of the swing arm positioning pin 21 not to abut against the baffle plate 41, the swing arm 17 is swung after the hand brake 18 on the swing arm 17 is pinched, the swing arm 17 is sequentially passed through the swing arm 17, the swing arm 16, the hanging plate 19 and the hoisting connecting plate 30 drive the vibration extrusion die to rotate clockwise, the space above the die is avoided.

As an improved mold for the slope protection brick forming machine, the slitting device can also be composed of a slitting support plate 37, a slitting arch 38 and a rotary slitting plate 39, wherein the slitting support plate 37 is provided with the slitting arch 38 in an up-down shape, the slitting arch 38 is provided with the rotary slitting plate 39, the rotary slitting plate 39 is arranged corresponding to the slitting opening 4, and the rotary slitting plate 39 is connected with the slitting opening 4 in an intermittent insertion manner; the slitting support plates 37 are movably connected with the mould cylinder 1 by hinges 40.

After the slope protection brick blank is formed under the action of the vibration motor 24, the slitting bow 38 is pushed to enable the slitting bow 38 to move towards the mold cylinder 1, then the slitting bow 38 drives the rotary slitting plate 39 to rotate by taking the hinge 40 as an axis and insert into the slitting opening 4 on the mold cylinder 1, pug between the slitting openings 4 is extruded out through the slitting opening 4, the formed slope protection brick blank is slit, and the slope protection brick is formed; after the slope protection brick blank is cut, pulling the cutting bow to pull out the rotary cutting plate 39 from the cutting opening 4, after the cutting plate is pulled out, treading the base limiting rod 34 to enable the base limiting rod 34 to overcome the elasticity of the tension spring to press down, pressing the base limiting rod 34 on the ground, enabling the position of the base 10 to be relatively fixed relative to the ground through the base limiting rod 34, pressing the pressing rod 12 down after the base limiting rod 34 is pressed on the ground, enabling the pressing rod 12 to drive the mould to move upwards through the connecting pin shaft, and simultaneously enabling the mould to move upwards along the guide rod 11 under the action of the guide plate 35, wherein in the mould ascending process, the formed hollow slope protection brick is separated from the mould under the action of the vibration extrusion mould and the self gravity of the hollow slope protection brick, in the mould ascending process, the ascending height of the mould is observed by observing the guide plate 35 and the scale line 36, the mould only ascends by the height of the thickness of one slope protection, after the slope protection brick is separated from the mold, the slitting bow 38 is pushed, the rotary slitting plate 39 is inserted into the slitting opening 4, and meanwhile, the slope protection brick is lifted through the rotary slitting plate 39 at the bottom of the mold cylinder 1, so that the slope protection brick which is not separated from the mold is left in the mold; after the rotary cutting plate 39 is inserted into the cutting opening 4, the base 10 is dragged through the pressure rod 12, so that the base 10 moves to the placing position of the next slope protection brick through the wheels 13, after the base 10 moves in place, the push rod 10 is pulled, the cutting plate 6 is pulled out from the cutting opening 4, after the cutting plate 6 is pulled out, the demolding process is repeated, and demolding and placing are carried out on one slope protection brick at the position; repeating the demoulding process until all the slope protection bricks in the mould cylinder 1 are demoulded; after the slope protection bricks are completely demoulded, the slitting bow 38 is pushed to put the rotary slitting plate 39 into the slitting opening 4, and after the rotary slitting plate 39 is put in, the pressing rod 12 is pressed downwards to enable the mould to continue to move upwards, and the vibration extrusion mould is hung on the swing arm 16.

This mould suitable for bank protection brick make-up machine can cut the blank after the shaping through cutting the device, and can once make a plurality of bank protection bricks, and then can effectively improve preparation efficiency, and need not make a bank protection brick and carry out the operation of once packing, and can effectively reduce intensity of labour, and the mould of having solved current bank protection brick make-up machine is because structural reason, intensity of labour is high when the preparation bank protection brick, the problem of preparation inefficiency, and the specially adapted makes the bank protection brick and uses.

Claims (10)

1. The utility model provides a mould for bank protection brick make-up machine, it comprises forming die and vibration extrusion die, its characterized in that: the forming die comprises a die cylinder (1), hollow forming blocks (2) and a cutting device, wherein the die cylinder (1) is a polygonal cylinder body, the inner surface of the die cylinder (1) is provided with the hollow forming blocks (2) in an up-down shape through a forming block supporting plate (3), and the outer surface of the die cylinder (1) is provided with the cutting device.

2. The mold for a slope protection brick forming machine according to claim 1, wherein: the die cylinder (1) is provided with a sub-cut (4) corresponding to the hollow forming block (2).

3. The mold for a slope protection brick forming machine according to claim 1, wherein: the hollow forming blocks (2) are arranged at intervals respectively, and the space between the hollow forming blocks (2) is consistent with the width of the sub-cut (4).

4. The mold for a slope protection brick forming machine according to claim 1, wherein: the cutting device consists of a supporting plate (5), a cutting plate (6) and a push rod (7), wherein the supporting plate (5) is U-shaped, the cutting plate (6) is movably arranged at the upper part and the lower part of the inner side of the supporting plate (5), and the push rod (7) is arranged on the cutting plate (6); the supporting plate (5) is welded with the die cylinder (1).

5. The mold for a slope protection brick forming machine according to claim 4, wherein: the slitting plates (6) are fixedly connected through connecting plates (9), and the slitting plates (6) are intermittently inserted and connected with the slitting notches (4).

6. The mold for a slope protection brick forming machine according to claim 4, wherein: the supporting plate (5) is provided with a sliding groove (8) corresponding to the slitting opening (4), and the sliding groove (8) is in sliding connection with the slitting plate (6).

7. The mold for a slope protection brick forming machine according to claim 1, wherein: the cutting device consists of a cutting support plate (37), a cutting arch (38) and a rotary cutting plate (39), wherein the cutting arch (38) is arranged on the cutting support plate (37) in an up-down shape, and the rotary cutting plate (39) is arranged on the cutting arch (38); the slitting supporting plate (37) is movably connected with the die cylinder (1) through a hinge (40).

8. The mold for a slope protection brick forming machine according to claim 7, wherein: the rotary cutting plate (39) and the cutting opening (4) are arranged correspondingly, and the rotary cutting plate (39) and the cutting opening (4) are connected in an intermittent inserting mode.

9. The mold for a slope protection brick forming machine according to claim 1, wherein: the vibration extrusion die is composed of an assembly plate (23), a vibration motor (24) and a vibration pressing plate (25), wherein the vibration motor (24) is fixedly arranged on the assembly plate (23) through a coaming (26), and a hoisting connecting plate (30) is arranged on the coaming (26) on one side of the vibration motor (24); the lower surface of the assembly plate (23) is fixedly provided with a vibration pressing plate (25) through a support rod (32).

10. The mold for a slope protection brick forming machine according to claim 9, wherein: the hoisting connecting plate (30) is provided with a positioning hole (31), and the end of the hoisting connecting plate (30) on one side of the positioning hole (31) is wedge-shaped.

Images