CN212193581U

CN212193581U - Forming machine of slope protection brick for hydraulic engineering

Info

Publication number: CN212193581U
Application number: CN202020742348.9U
Authority: CN
Inventors: 徐洋晨; 周远才; 王忠元; 黄成军
Original assignee: HUBEI CHUFENG HYDROPOWER ENGINEERING CO LTD
Current assignee: HUBEI CHUFENG HYDROPOWER ENGINEERING CO LTD
Priority date: 2020-05-08
Filing date: 2020-05-08
Publication date: 2020-12-22
Anticipated expiration: 2030-05-08

Abstract

The utility model relates to a make-up machine of slope protection brick for hydraulic engineering belongs to hollow slope protection brick production machinery technical field. The forming machine consists of a base, a mould and a vibration forming mechanism, wherein the base is movably hung with the vibration forming mechanism through a guide rod and a swing arm; a mould is movably arranged on the base below the vibration forming mechanism through a pressure rod; wheels are arranged around the base. The forming machine is matched with a mould through a vibration forming mechanism and forms the slope protection bricks through vibration, and auxiliary equipment is not required to be matched, so that the maintenance is convenient; the base can be dragged by the wheels, so that the placing position of the formed slope protection bricks can be controlled, and the slope protection bricks do not need to be placed one by one; the problem of current bank protection brick make-up machine supporting accessory equipment more, the maintenance is inconvenient, and must put the bank protection brick one by one is solved, the shaping of specially adapted hollow bank protection brick is used.

Description

Forming machine of slope protection brick for hydraulic engineering

Technical Field

The utility model relates to a make-up machine of slope protection brick for hydraulic engineering belongs to slope protection brick production machinery technical field.

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.

Most of the prior slope protection brick forming machines press and form raw materials in a mould through hydraulic pressure, and the prior slope protection brick forming machines are required to be matched with hydraulic equipment, feeding equipment, discharging equipment and other equipment for use due to hydraulic operation, so that the prior slope protection brick forming machines are expensive, and the forming machines and the matched auxiliary equipment have more equipment and are inconvenient to maintain; need scatter the slope protection brick after the slope protection brick shaping and put and carry out the maintenance, current slope protection brick make-up machine need carry the slope protection brick one by one and scatter the slope protection brick and put because supporting auxiliary assembly is more and can not remove its position.

Disclosure of Invention

The utility model aims at: the utility model provides a need not supporting auxiliary assembly, and easy maintenance, can control the bank protection brick position simultaneously and need not the make-up machine of the bank protection brick for the hydraulic engineering who carries one by one.

The technical scheme of the utility model is that:

the utility model provides a make-up machine of bank protection brick for hydraulic engineering, it comprises base, guide bar, depression bar, mould and vibration forming mechanism, its characterized in that: the base is a frame body, guide rods are symmetrically arranged on the base, and a vibration forming mechanism is movably hung on the guide rods through swing arms; a pressure rod is movably arranged on the base at one side of the guide rod through a positioning pin shaft, a die is movably arranged on the pressure rod through a connecting rod, and two sides of the die are movably connected with the guide rod through symmetrically arranged guide plates; wheels are arranged around the base.

The vibration molding mechanism consists of an assembly plate, a vibration motor and a vibration pressing plate, wherein the vibration motor is fixedly arranged on the upper surface of the assembly plate through a coaming; the lower surface of the assembling plate is provided with a vibrating pressing plate through a supporting rod; the vibration pressing plate is connected with the die in an intermittent plug-in mounting manner.

The coaming on be provided with the connecting rod, the connecting rod end is provided with guide sleeve, the connecting rod passes through guide sleeve and guide bar swing joint.

The connecting plate is arranged on the enclosing plate on one side of the vibrating motor, the connecting plate is provided with a positioning hole, and the end of the connecting plate above the positioning hole is wedge-shaped.

The guide rod end be equipped with spacing bracing piece through fixing bolt, the guide rod of guide sleeve top extends to spacing bracing piece top, and the cover is equipped with rotatory sleeve on extending to the guide rod of spacing bracing piece top.

The rotating sleeve is fixedly connected with the swing arm, and the rocker arm is arranged on the rotating sleeve on one side of the swing arm.

The end of the swing arm is provided with a hanging plate, and a hanging positioning pin is fixedly arranged on the hanging plate through a hanging rod; and a swing arm positioning pin is fixedly arranged on the swing arm at one side of the hanging plate.

The hoisting positioning pin and the swing arm positioning pin are respectively composed of a shell, a positioning rod and a return spring, the positioning rod is inserted in the shell, a limiting flange is arranged on the positioning rod, and the positioning rod is connected with the shell in a sliding mode through the limiting flange; the positioning rod is sleeved with a return spring, and the return spring is respectively connected with the bottom of the shell and the limiting flange in a propping manner; the hoisting positioning pin is fixedly connected with the suspender through the shell; the swing arm positioning pin is fixedly connected with the swing arm through the shell.

The shell is internally provided with a limiting ring in a threaded manner, and the limiting ring is connected with the limiting flange in a propping manner.

The end socket of the positioning rod of the hoisting positioning pin on one side of the bottom of the shell is provided with a pull ring, and the end socket of the positioning rod of the hoisting positioning pin on one side of the limiting ring is intermittently inserted into the positioning hole and is connected with the lifting plate in a leaning manner.

The rocker arm is provided with a hand brake, and the hand brake is connected with the end of a positioning rod of a positioning pin of the swing arm on one side of the bottom of the shell through a pull rope.

The limiting support rod is provided with a baffle corresponding to the swing arm positioning pin, and the baffle is intermittently abutted to and connected with the end head of the swing arm positioning pin positioning rod on one side of the limiting ring.

And a motor switch is arranged on the swing arm on one side of the baffle and is electrically connected with the vibration motor.

The pressure bar is U-shaped, and the end of the pressure bar is bent.

The positioning pin shaft is fixedly connected with the base, the end head of the positioning pin shaft extends to the inner side of the pressing rod, and the end head of the positioning pin shaft extending to the inner side of the pressing rod is movably provided with a base limiting rod.

The base limiting rod is connected with the base through a tension spring.

The connecting rod is respectively movably connected with the die and the pressure rod through a connecting pin shaft.

The beneficial effects of the utility model reside in that:

the forming machine of the slope protection brick for the hydraulic engineering is matched with a mould through a vibration forming mechanism and forms the slope protection brick through vibration, does not need to be matched with auxiliary equipment, and is convenient to maintain; the base can be dragged by the wheels, so that the placing position of the formed slope protection bricks can be controlled, and the slope protection bricks do not need to be placed one by one; the problem of current bank protection brick make-up machine supporting accessory equipment more, the maintenance is inconvenient, and must put the bank protection brick one by one is solved, the shaping of specially adapted hollow bank protection brick is used.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic left side view of FIG. 1;

FIG. 3 is a schematic top view of FIG. 1;

fig. 4 is a schematic structural view of the hoisting positioning pin and the swing arm positioning pin of the present invention;

FIG. 5 is an enlarged schematic view at A in FIG. 2;

FIG. 6 is a schematic view of the structure in the direction B-B in FIG. 2;

fig. 7 is a schematic view of the working state of the present invention;

fig. 8 is a schematic view of the mold release state of the present invention.

In the figure: 1. the device comprises a base, 2, a guide rod, 3, a pressure rod, 4, a limit support rod, 5, a fixing bolt, 6, a rotary sleeve, 7, a swing arm, 8, a rocker arm, 9, a hand brake, 10, a hanging plate, 11, a hanging rod, 12, a shell, 13, a positioning rod, 14, a return spring, 15, a limit flange, 16, a limit ring, 17, a pull rope, 18, a baffle, 19, an assembly plate, 20, a vibration motor, 21, a vibration pressing plate, 22, a coaming, 23, a connecting rod, 24, a guide sleeve, 25, a motor switch, 26, a connecting plate, 27, a positioning hole, 28, a support rod, 29, a positioning pin shaft, 30, a base limit rod, 31, a tension spring, 32, a guide plate, 33, a wheel, 34, a pull ring, 35, a die, 36, a connecting rod.

Detailed Description

The forming machine of the slope protection brick for the hydraulic engineering is composed of a base 1, a guide rod 2, a pressure rod 3, a mould 35 and a vibration forming mechanism, wherein the base 1 is a frame body, and wheels 33 are arranged on the periphery of the base 1 so as to drag the base 1 to move and control the position of the hollow slope protection brick; the base 1 is symmetrically provided with guide rods 2, the ends of the guide rods 2 are provided with limit support rods 4, and the limit support rods 4 are fixedly connected with the guide rods 2 through fixing bolts 5 respectively; the end of the guide rod 2 at one end of the limit support rod 4 extends to the position above the limit support rod 4, a rotary sleeve 6 is sleeved on the guide rod 2 extending to the position above the limit support rod 4, a swing arm 7 is fixedly arranged on the rotary sleeve 6, a rocker arm 8 is arranged on the rotary sleeve 6 at one side of the swing arm 7, and a hand brake 9 is arranged on the rocker arm 8 (the structure and the function of the hand brake 9 are similar to those of a hand brake on a bicycle, and the description is omitted herein); the end of the swing arm 7 is provided with a hanging plate 10, and the hanging plate 10 is intermittently abutted and connected with the limiting support rod 4; a hanging rod 11 is arranged on the hanging plate 10, and a hanging positioning pin is fixedly arranged on the hanging rod 11; a swing arm positioning pin is fixedly arranged on the swing arm 7 at one side of the hanging plate 10; the hoisting positioning pin and the swing arm positioning pin are respectively composed of a shell 12, a positioning rod 13 and a return spring 14, the positioning rod 13 is inserted in the shell 12, a limiting flange 15 is arranged on the positioning rod 13, and the positioning rod 13 is connected with the shell 12 in a sliding mode through the limiting flange 15; the positioning rod 13 is sleeved with a return spring 14, and the return spring 14 is respectively connected with the bottom of the shell 12 and the limiting flange 15 in an abutting mode; a limiting ring 16 is arranged in the shell 12 through internal threads, and the limiting ring 16 is connected with the limiting flange 15 in an abutting mode; the hoisting positioning pin is fixedly connected with the suspender 11 through the shell 12; the swing arm positioning pin is fixedly connected with the swing arm 7 through the shell 12; the end of a positioning rod 13 of a swing arm positioning pin at one side of the bottom of the shell 12 is connected with the hand brake 9 through a pull rope 17; the limiting support rod 4 is provided with a baffle 18 corresponding to the swing arm positioning pin, the baffle 18 is intermittently abutted against and connected with the end of the swing arm positioning pin 13 on one side of the limiting ring 16, and the position of the swing arm 7 can be limited above the limiting support rod 4 through the hanging plate 10, the limiting support rod 4, the swing arm positioning pin and the baffle 18 so as to limit the position of the hanging plate 10.

A vibration forming mechanism is movably hung on the guide rod 2 through a swing arm 7, the vibration forming mechanism is composed of an assembly plate 19, a vibration motor 20 and a vibration pressing plate 21, a surrounding plate 22 is arranged on the upper surface of the assembly plate 16, the surrounding plate 22 is in a shape of a Chinese character 'kou', a connecting rod 23 is arranged on the surrounding plate 22, a guide sleeve 24 is arranged at the end of the connecting rod 23 below the rotating sleeve 6, and the connecting rod 23 is movably connected with the guide rod 2 through the guide sleeve 24; a vibration motor 20 is fixedly arranged on the assembly plate 19 through a coaming 22, a motor switch 25 is arranged on the swing arm 7 at one side of the baffle 18, and the motor switch 25 is electrically connected with the vibration motor 20; a connecting plate 26 is arranged on the enclosing plate 22 on one side of the vibration motor 20, a positioning hole 27 is arranged on the connecting plate 26, and the end of the connecting plate 26 above the positioning hole 27 is wedge-shaped; a pull ring 34 is arranged at the end of the positioning rod 13 of the hoisting positioning pin at one side of the bottom of the shell 12, the end of the positioning rod 13 of the hoisting positioning pin at one side of the limiting ring 16 is intermittently inserted into the positioning hole 27 and is abutted against the hanging plate 10, and when the positioning rod 13 of the hoisting positioning pin is inserted into the positioning hole 27, the hoisting positioning pin enables the connecting plate 26 to be hung on the hoisting positioning pin through the positioning rod 13, so that the vibration forming mechanism is hung on the hoisting positioning pin; a plurality of supporting rods 28 are arranged on the lower surface of the assembling plate 19, and the ends of the supporting rods 28 are fixedly provided with a vibration pressing plate 21; the guide sleeve 24 and the connecting rod 23 are used for enabling the vibration forming mechanism to move only along the guide rod 2 in the movement process of the vibration forming mechanism, enabling the vibration pressing plate 21 to fall into the die 35 downwards under the constraint action of the guide sleeve 24 in the downward movement process, and enabling the connecting plate 26 to be inserted between the positioning rod 13 of the hoisting positioning pin and the hanging plate 10 in the upward movement process.

The base 1 on one side of the guide rod 2 is symmetrically provided with positioning pin shafts 29, the positioning pin shafts 29 are fixedly connected with the base 1, the positioning pin shafts 29 are movably provided with pressure rods 3, the pressure rods 3 are U-shaped, and the ends of the pressure rods 3 are bent; the end of the positioning pin shaft 29 extends to the inner side of the pressure rod 3, the end of the positioning pin shaft 29 extending to the inner side of the pressure rod 3 is movably provided with a base limiting rod 30, the base limiting rod 30 is provided with a tension spring 31, and the tension spring 31 is connected with the base 1; the connecting rod 36 is movably mounted on the pressure rod 3 through a connecting pin shaft 37, the die 35 is movably mounted on the connecting rod 36, the die 35 is intermittently inserted and connected with the vibration pressure plate 31, and the connecting rod 36 is movably connected with the die 35 and the pressure rod 3 through the connecting pin shaft 37; guide plates 32 are symmetrically arranged on two sides of the die 35 through fixing bolts 5, the cross section of each guide plate 32 is L-shaped, and each guide plate 32 is movably connected with each guide rod 2; the effect of base gag lever post 30 is the position of restriction base 1 to avoid drawing of patterns in-process base 1 to remove and drive mould 35 and remove, and can not remove and lead to the hollow bank protection brick of mould 35 extrusion because of mould 35 among the drawing of patterns in-process, and then can not lead to fashioned hollow bank protection brick to damage because of the mould removes.

When the forming machine for the slope protection brick for the water conservancy project works, the prepared mud is filled into the die 35, after the die 35 is filled, the hand brake 9 is pinched by the rocker arm 8, the hand brake 9 pulls the positioning rod 13 of the swing arm positioning pin through the pull rope 17, the positioning rod 13 of the swing arm positioning pin is contracted towards the inside of the shell 12, the positioning rod 13 of the swing arm positioning pin is contracted into the shell 12, the swing arm 8 is swung by taking the rotating sleeve 6 as an axis, the swing arm 8 drives the swing arm 7 to rotate counterclockwise by taking the rotating sleeve 6 as the axis, the swing arm 7 drives the hanging plate 10 to rotate by taking the rotating sleeve 6 as the axis in the process of rotating by taking the rotating sleeve 6 as the axis, then, the connecting plate 26 is driven to rotate by taking the rotating sleeve 6 as an axis through the hoisting positioning pin, and the vibration forming mechanism is driven to rotate by taking the rotating sleeve 6 as an axis, so that the vibration pressing plate 21 of the vibration forming mechanism rotates to a position above the die 35; in the process that the swing arm 7 drives the vibration forming mechanism to rotate above the die 35 through the hanging plate 10 and the hoisting positioning pin, the hanging plate 10 is gradually close to the limiting support rod 4 and is connected with the limiting support rod 4 in an abutting mode, when the hanging plate 10 abuts against the limiting support rod 4, the hand brake 9 is released, the positioning rod 13 of the swing arm positioning pin is reset under the action of the reset spring 14 and extends outwards, the positioning rod 13 of the extending swing arm positioning pin abuts against the baffle 18, and the position of the swing arm 7 is limited through the swing arm positioning pin and the hanging plate 10; when the hanging plate 10 is abutted against the limiting support rod 4, the vibration pressing plate 21 of the vibration forming mechanism is positioned above the mold 35 and corresponds to the mold cavity of the mold 35; after the hand brake 9 is loosened, the pull ring 34 on the positioning rod 13 of the hoisting positioning pin is pulled, so that the end of the positioning rod 13 of the hoisting positioning pin on one side of the limiting ring 16 is contracted towards the inside of the shell 12, but not inserted into the positioning holes 27 on the connecting plate 26, so that the vibration forming mechanism falls under the action of the self gravity, the vibration pressing plate 21 of the vibration forming mechanism is inserted into the mold 35, after the vibration pressing plate 21 is inserted into the mold 35, the motor switch 25 is pressed to start the vibration motor 20 of the vibration molding mechanism, and after the vibration motor 20 is started, the assembly plate 19 is driven to vibrate, so that the assembly plate 19 drives the supporting rod 28 to vibrate, and then the vibrating press plate 21 is driven to vibrate, and the mud in the mould 35 is compacted and formed under the action of the self gravity of the vibrating motor 20, the enclosing plate 22, the assembling plate 19, the supporting rod 28 and the vibrating press plate 21 of the vibrating forming mechanism and the vibration of the vibrating motor 20 in the vibrating process of the vibrating press plate 21.

After the hollow slope protection brick is formed, the vibration motor 20 of the vibration forming mechanism is closed through the motor switch 25, after the vibration motor 20 is closed, the base limiting rod 30 is trampled, the base limiting rod 30 is pressed downwards to overcome the elasticity of the tension spring 31, the base limiting rod 30 is pressed on the ground, the position of the base 1 is relatively fixed relative to the ground through the base limiting rod 30, after the base limiting rod 30 is pressed on the ground, the press rod 3 is pressed downwards to enable the press rod 3 to rotate clockwise by taking the positioning pin shaft 29 as an axis, in the process that the press rod 3 rotates clockwise by taking the positioning pin shaft 29 as the axis, the connecting rod 36 is driven to move upwards through the connecting pin shaft 37 to further drive the mould 35 to move upwards, and simultaneously the mould moves upwards along the guide rod 2 under the action of the guide plate 32, in the process that the mould 35 moves upwards, the formed hollow slope protection brick, in the process that the mold 35 continuously moves upwards, the mold 35 gradually contacts with the assembling plate 19 of the vibration forming mechanism, the mold 35 drives the vibration forming mechanism to move upwards through the assembling plate 19, in the process that the vibration forming mechanism moves upwards, the connecting plate 26 on the enclosing plate 22 is driven to move upwards, in the process that the connecting plate 26 moves upwards, the positioning rod 13 of the hoisting positioning pin is gradually inserted between the lifting plate 10 and the positioning rod 13 of the hoisting positioning pin, the end of the positioning rod 13 of the connecting plate 26 is extruded by the end of the connecting plate 26, so that the end of the positioning rod 13 is retracted towards the inside of the shell 12, when the end of the positioning rod 13 of the hoisting positioning pin slides to the positioning hole 27 on the connecting plate 26, the positioning rod 13 of the hoisting positioning pin is inserted into the positioning hole 27 on the connecting plate 26 under the action of the reset spring 14.

After the vibration forming mechanism is hung on the swing arm 7, loosen the base limiting rod 30, make the base limiting rod 30 upwards reset under the effect of extension spring 31, the base limiting rod 30 upwards resets under the effect of extension spring 31 and then pulls the depression bar 3 to make the base 1 move through wheel 33, drag the base 1 to the position of waiting to put of next hollow slope protection brick, after targetting in place, pinch the hand brake 9 on the rocker arm 8 to make the locating lever 13 of swing arm locating pin no longer support with baffle 18 and lean on, pinch the hand brake 9 on the rocker arm 8 and then swing the rocker arm 8, loop through the rocker arm 8, the swing arm 7, hanger plate 10 and connecting plate 26 drive the vibration forming mechanism clockwise rotation, and give way the space above the mould 35, be convenient for stack the pug in the mould 35.

The forming machine of the slope protection brick for the water conservancy project is matched with the mould 35 through the vibration forming mechanism and forms the slope protection brick through vibration, does not need to be matched with accessory equipment, and is convenient to maintain; the base 1 can be dragged by the wheels 33, so that the placing positions of the formed slope protection bricks can be controlled, and the slope protection bricks do not need to be placed one by one; the problem of current bank protection brick make-up machine supporting accessory equipment more, the maintenance is inconvenient, and must put the bank protection brick one by one is solved, the shaping of specially adapted hollow bank protection brick is used.

Claims

1. The utility model provides a make-up machine of bank protection brick for hydraulic engineering, it comprises base (1), guide bar (2), depression bar (3), mould (35) and vibration forming mechanism, its characterized in that: the base (1) is a frame body, guide rods (2) are symmetrically arranged on the base (1), and a vibration forming mechanism is movably hung on each guide rod (2) through a swing arm (7); a press rod (3) is movably arranged on the base (1) at one side of the guide rod (2) through a positioning pin shaft (29), a mould (35) is movably arranged on the press rod (3) through a connecting rod (36), and two sides of the mould (35) are movably connected with the guide rod (2) through guide plates (32) which are symmetrically arranged; wheels (33) are arranged around the base (1).

2. The forming machine of the slope protection brick for the hydraulic engineering according to claim 1, characterized in that: the vibration molding mechanism is composed of an assembly plate (19), a vibration motor (20) and a vibration pressing plate (21), wherein the vibration motor (20) is fixedly arranged on the upper surface of the assembly plate (19) through a coaming (22); the lower surface of the assembly plate (19) is provided with a vibration pressing plate (21) through a support rod (28); the vibration pressing plate (21) is intermittently inserted and connected with the mould (35).

3. The forming machine of the slope protection brick for the hydraulic engineering according to claim 2, characterized in that: the coaming (22) is provided with a connecting rod (23), the end of the connecting rod (23) is provided with a guide sleeve (24), and the connecting rod (23) is movably connected with the guide rod (2) through the guide sleeve (24).

4. The forming machine of the slope protection brick for the hydraulic engineering according to claim 2, characterized in that: a connecting plate (26) is arranged on the enclosing plate (22) on one side of the vibration motor (20), a positioning hole (27) is formed in the connecting plate (26), and the end of the connecting plate (26) above the positioning hole (27) is wedge-shaped.

5. The forming machine of the slope protection brick for the hydraulic engineering according to claim 1, characterized in that: the end of the guide rod (2) is provided with a limit support rod (4) through a fixing bolt (5), the guide rod (2) above the guide sleeve (24) extends to the position above the limit support rod (4), the guide rod (2) extending to the position above the limit support rod (4) is sleeved with a rotary sleeve (6), the rotary sleeve (6) is fixedly connected with a swing arm (7), and the rotary sleeve (6) on one side of the swing arm (7) is provided with a rocker arm (8); a hanging plate (10) is arranged at the end of the swing arm (7), and a hanging positioning pin is fixedly arranged on the hanging plate (10) through a hanging rod (11); and a swing arm positioning pin is fixedly arranged on the swing arm at one side of the hanging plate (10).

6. The forming machine of the slope protection brick for the hydraulic engineering according to claim 5, characterized in that: the hoisting positioning pin and the swing arm positioning pin are respectively composed of a shell (12), a positioning rod (13) and a return spring (14), the positioning rod (13) is inserted in the shell (12), a limiting flange (15) is arranged on the positioning rod (13), and the positioning rod (13) is connected with the shell (12) in a sliding mode through the limiting flange (15); the positioning rod (13) is sleeved with a return spring (14), and the return spring (14) is respectively connected with the bottom of the shell (12) and the limiting flange (15) in an abutting mode; a limiting ring (16) is mounted on the inner thread of the shell (12), and the limiting ring (16) is connected with the limiting flange (15) in an abutting mode; the hoisting positioning pin is fixedly connected with the hanger rod (11) through a shell (12); the swing arm positioning pin is fixedly connected with the swing arm (7) through the shell (12).

7. The forming machine of the slope protection brick for the hydraulic engineering according to claim 6, characterized in that: the end of the positioning rod (13) of the hoisting positioning pin at one side of the bottom of the shell (12) is provided with a pull ring (34), and the end of the positioning rod (13) of the hoisting positioning pin at one side of the limiting ring (16) is intermittently inserted into and connected with the positioning hole (27) and is abutted against and connected with the hanging plate (10).

8. The forming machine of the slope protection brick for the hydraulic engineering according to claim 5, characterized in that: a hand brake (9) is arranged on the rocker arm (8), and the hand brake (9) is connected with the end of a positioning rod (13) of a positioning pin of the swing arm at one side of the bottom of the shell (12) through a pull rope (17); the limiting support rod (4) is provided with a baffle (18) corresponding to the swing arm positioning pin, and the baffle (18) is intermittently abutted and connected with the end of the swing arm positioning pin positioning rod (13) on one side of the limiting ring (16).

9. The forming machine of the slope protection brick for the hydraulic engineering according to claim 8, characterized in that: a motor switch (25) is arranged on the swing arm (7) on one side of the baffle (18), and the motor switch (25) is electrically connected with the vibration motor (20).

10. The forming machine of the slope protection brick for the hydraulic engineering according to claim 1, characterized in that: the positioning pin shaft (29) is fixedly connected with the base (1), the end of the positioning pin shaft (29) extends to the inner side of the pressing rod (3), the end of the positioning pin shaft (29) extending to the inner side of the pressing rod (3) is movably provided with a base limiting rod (30), and the base limiting rod (30) is connected with the base (1) through a tension spring (31).