CN113235555A

CN113235555A - Sand barrier laying system for sand stabilization

Info

Publication number: CN113235555A
Application number: CN202110612540.5A
Authority: CN
Inventors: 韦香兰
Original assignee: Liaoning Henghong Environmental Protection Technology Co ltd
Current assignee: Jiangsu Hangding Construction Engineering Co ltd
Priority date: 2021-06-02
Filing date: 2021-06-02
Publication date: 2021-08-10
Anticipated expiration: 2041-06-02
Also published as: CN113235555B

Abstract

The invention belongs to the field of wind prevention and sand fixation, and relates to a sand barrier laying system for sand fixation. The invention rolls the sand and stone on the ground into the equipment body along with advancing, screens the sand and stone, screens the screened sand and stone to be layered, sprays adhesive on the surface, and then re-lays the sand and stone on the ground, so that the sand and stone screening machine can be used after being taken, reduces the transportation cost, and is time-saving and labor-saving.

Description

Sand barrier laying system for sand stabilization

Technical Field

The invention belongs to the field of wind prevention and sand fixation, and particularly relates to a sand barrier laying system for sand fixation.

Background

As is known, China is one of the most seriously affected countries in the world, the desert area is large, the treatment difficulty is high, sand barriers are barriers made of materials such as clay, branches, laths, pebbles and the like on sand surfaces, and the sand barriers are effective engineering sand fixing measures for reducing wind speed and fixing a sand table, but the sand barriers are low in manufacturing efficiency, are difficult to obtain and use as local materials, are high in transportation cost, and are huge in consumption of manpower and material resources, when the sand barriers are laid, sand and stones cannot be accurately layered, so that the surface sand fixing effect is poor.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a sand barrier laying system for sand fixation, which can collect sand on the ground surface along with the movement of equipment, fix the sand again and fill the sand, and extrude and flatten the filled sand barrier.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a sand-protecting laying system for fixing sand, includes the casing, the casing downside is equipped with drive arrangement, the fixed spiller connecting rod that is equipped with on the outer left side wall of casing, be equipped with into husky device on the spiller connecting rod, it is internal to advance husky device and is used for equipment when marcing on the gobi desert, with sand stone fortune equipment, be equipped with the car inner chamber in the casing, car inner chamber internal fixation is equipped with the system sand-protecting room, be equipped with the working chamber in the system sand-protecting room, the fixed feed inlet that is equipped with of working chamber upside, be equipped with gravel production device in the feed inlet, gravel production device is used for the crushing gravel of big stone, the fixed main motor that is equipped with on the lateral wall under the working chamber, be equipped with main motor shaft on the output of main motor shaft, the fixed carousel that is equipped with on the main motor shaft, be equipped with four recesses in the carousel, be equipped with sand-protecting production device on the carousel.

Preferably, the sand feeding device comprises a scraper knife fixed at the left end of a scraper knife connecting rod, a conveyer motor is fixedly arranged on the upper side wall of the inner cavity of the vehicle, a motor shaft is arranged at the output end of the conveyer motor, a lower conveyer belt is arranged on the front side of the motor shaft, and an upper conveyer belt is arranged on the front side of the motor shaft.

Preferably, the gravel generation device is including fixed setting left sieve on the lower side of the left side of feed inlet, the fixed hydraulic pump that is equipped with on the feed inlet right side wall, the hydraulic pressure chamber on the upper right side wall of feed inlet, it is equipped with the hydraulic stem to slide in the hydraulic pressure chamber, the hydraulic stem with be connected with the pump line between the hydraulic pump, the fixed briquetting that is equipped with of hydraulic stem lower extreme, the fixed right sieve that is equipped with on the lower extreme of the right side of feed inlet, the fixed stone pipe that is equipped with on the lower side of the feed inlet right side, the fixed intelligent camera that is equipped with on the stone pipe upper side wall.

Preferably, the sand barrier generating device comprises four groups of fixed rods which are fixedly arranged on the rotary table in an annular mode, a vibration groove is fixedly formed in each fixed rod, a moving block is arranged in each vibration groove in a vertically sliding mode, an electric control discharge door is arranged in each moving block, a moving block spring is connected between each moving block and the upper side wall and the lower side wall of each vibration groove, a working pipe is fixedly arranged on the upper side wall of each moving block, the upper side wall of each working pipe can be abutted against the left lower side of the feed inlet, the upper side wall of each working pipe is abutted against the stone discharge pipe, a spraying block is fixedly arranged on the upper side wall of each working pipe, and a jacking block is fixedly arranged on the upper outer side wall of each working pipe.

Preferably, a ring sleeve is fixedly arranged on the working cavity, an adhesive liquid outlet device is arranged in the ring sleeve and comprises an adhesive spray pipe fixed on the rear side of the ring sleeve, an adhesive pump is fixedly arranged on the front side wall of the working cavity, a piston is fixedly arranged on the adhesive pump, a piston is arranged in the piston in a vertically sliding mode, a piston spring is connected between the lower side wall of the piston and the lower side wall, the ejector block can extend into the piston, a check valve pipe is connected between the upper side wall and the adhesive pump, and a check valve pipe is connected between the upper side wall and the adhesive spray pipe.

Preferably, a vibration motor is fixedly arranged on the lower front side wall of the working cavity, a vibration motor shaft is arranged on the output end of the vibration motor, a vibration bevel gear is fixedly arranged on the vibration motor shaft, a vibration ejector rod is slidably arranged on the lower front side wall of the working cavity and can be meshed with the vibration bevel gear, and a reset spring is connected between the lower side wall of the vibration ejector rod and the lower side wall of the working cavity.

Preferably, a discharging motor is fixedly arranged on the lower rear side wall of the working cavity, a discharging motor shaft is arranged on the output end of the discharging motor, a discharging bevel gear is fixedly arranged on the discharging motor shaft, a discharging rack is slidably arranged on the lower rear side wall of the working cavity, the discharging rack is meshed with the discharging bevel gear, the lower rear side wall of the working cavity is communicated with the external part, a discharging spring is connected between the discharging rack and the lower side wall of the working cavity, and a sand pressing block is fixedly arranged at the lower end of the discharging rack.

When the sand barrier is manufactured at the Gobi desert and engineering sand fixing measures are carried out, the moving speed of the equipment is low, the scraper knife is inserted into the ground along with the movement of the equipment, the sand and stone on the Gobi desert are shoveled by the upper conveying belt and the lower conveying belt, the conveying belt motor is started, the motor shaft is driven to rotate, and the sand and stone are conveyed to the upper conveying belt through the lower conveying belt and fall into the feeding port.

Main motor is regularly started, drives main motor shaft and regularly starts for ninety degrees of carousel timing rotation, when making equipment remove at every turn, can both transport sand and stone to left in the left work tube through left sieve, sand and stone is filtered through left sieve, and thinner sand and stone fall into in the left work tube, and bold stone falls into on the right sieve.

The main motor starts, drive the rotatory ninety degrees of carousel, make left work tube rotate to the front side, start the high-speed rotation of vibrating motor, it is rotatory to drive vibrating motor shaft, make vibration bevel gear rotate, when vibration bevel gear meshing vibration ejector pin, the vibration ejector pin upwards stretches into, promote the movable block upwards, make the work tube upwards, when vibration bevel gear breaks away from the meshing with the vibration ejector pin, the movable block moves down under the effect of movable block spring, so circulation is reciprocal, vibrate sand and the stone in the work tube of front side, utilize brazilian nut principle, sieve shakes, shift great stone to the interior top of work tube, thinner sand falls into downside in the work tube, screen sand and fine segmentation layer.

When the working pipe on the front side does up-and-down reciprocating motion, the ejector block can push the piston to do up-and-down reciprocating motion, the adhesive in the adhesive pump is pumped into the adhesive spray pipe by the motion of the piston, the adhesive is pumped into the working pipe on the rear side of the turntable through the adhesive spray pipe and sprayed, stones and sands are bonded, and when the vibrating screen is performed, the sands and the surfaces of the stones are bonded to form a sand barrier, so that the sands are effectively prevented from being blown away by wind.

Accomplish after the sieve that shakes, restart main motor, make the carousel continue to rotate ninety degrees, the working tube of front side rotates to the right side, with play stone pipe downside butt, the face is laid to the working tube upper surface stone on intelligent camera detection right side, if detect to lay too little, then start hydraulic pump, the hydraulic pump promotes the hydraulic stem downwards, make the briquetting downward, with the bold stone crushing on the sieve of the right side, garrulous gravel slips into the working tube upside, avoid appearing the regional stone of part too little, and can't form the sand barrier, utilize bold stone simultaneously.

Accomplish and lay the back, restart main motor, make the working tube on right side to the rear side, the completion sprays the binder, automatically controlled discharge door is opened, start ejection of compact motor, it is rotatory to drive ejection of compact motor shaft, it is rotatory to make ejection of compact bevel gear, the meshing ejection of compact rack carries out up-and-down motion, leak the interior gravel and sand ejection of compact of the working tube of rear side and lay in the recess that produces because of the spiller, the piece of pressing sand simultaneously is shakeouts the processing to the sand barrier that falls, along with the automatic sand barrier that makes of the removal of equipment, and cover the sand barrier in the recess that produces again.

Compared with the prior art, this sand barrier system of laying for fixing sand has following advantage:

1. utilize brazil nut principle, shake the sieve, transfer great stone to the interior top of working pipe, thinner sand falls into the intraductal downside of working, screens the fine layering of sand and stone.

2. The stones and the sand are bonded, and the surfaces of the sand and the stones are bonded while the vibration sieve is carried out, so that a sand barrier is formed, and the sand is effectively prevented from being blown away by wind.

3. The gravel and sand discharge in the working pipe at the rear side is leaked and laid in the groove generated by the scraper knife, and the falling sand barrier is flattened by the sand pressing block, so that the sand barrier is automatically manufactured along with the movement of the equipment, and the sand barrier is covered in the generated groove again.

Drawings

Fig. 1 is a schematic structural diagram of a sand barrier laying system for sand stabilization.

Fig. 2 is a sectional view taken along a line a-a in fig. 1.

Fig. 3 is a sectional view taken along line B-B in fig. 1.

Fig. 4 is a sectional view taken along line C-C in fig. 2.

Fig. 5 is an enlarged view of the structure at D in fig. 2.

In the figure, 10, the housing; 11. a drive device; 12. a scraper knife; 13. a lower conveyor belt; 14. a scraper knife connecting rod; 15. a top block; 16. a left sieve plate; 17. a working chamber; 18. a feed inlet; 19. a sand barrier making chamber; 20. uploading a conveyor belt; 21. a motor shaft; 22. a conveyor belt motor; 23. turning an inner cavity; 24. a hydraulic pump; 25. a hydraulic chamber; 26. a hydraulic lever; 27. briquetting; 28. a right sieve plate; 29. discharging the stone pipe; 30. an intelligent camera; 31. sleeving a ring; 32. spraying blocks; 33. a working pipe; 34. a vibration groove; 35. a moving block; 36. a moving block spring; 37. fixing the rod; 38. a turntable; 39. a main motor shaft; 40. a main motor; 41. pressing a sand block; 42. a discharging spring; 43. a discharge rack; 44. a discharge bevel gear; 45. a discharging motor; 46. a discharging motor shaft; 47. vibrating the ejector rod; 48. vibrating the bevel gear; 49. a vibrating motor shaft; 50. a vibration motor; 51. an adhesive spray tube; 52. an adhesive pump; 53. a piston; 54. a piston spring; 55. and (4) a groove.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 4, a sand barrier laying system for sand stabilization comprises a housing 10, a driving device 11 is arranged at the lower side of the housing 10, a scraper connecting rod 14 is fixedly arranged on the left side wall outside the housing 10, a sand inlet device is arranged on the scraper connecting rod 14, when the equipment travels on a gobi desert, the sand and stone are conveyed into the equipment body, a car inner cavity 23 is arranged in the shell 10, a sand barrier making chamber 19 is fixedly arranged in the car inner cavity 23, a working cavity 17 is arranged in the sand barrier making chamber 19, a feeding hole 18 is fixedly arranged on the upper side of the working cavity 17, a gravel generating device is arranged in the feeding hole 18 and used for crushing large stones to generate gravel, a main motor 40 is fixedly arranged on the lower side wall of the working cavity 17, a main motor shaft 39 is arranged on the output end of the main motor 40, a rotary table 38 is fixedly arranged on the main motor shaft 39, four grooves 55 are arranged in the rotary table 38, and a sand barrier generating device is arranged on the rotary table 38.

As shown in fig. 1, the sand feeding device comprises a scraper knife 12 fixed on the left end of a scraper knife connecting rod 14, a conveyor belt motor 22 is fixedly arranged on the upper side wall of a vehicle inner cavity 23, a motor shaft 21 is arranged on the output end of the conveyor belt motor 22, a lower conveyor belt 13 is arranged on the front side of the motor shaft 21, and an upper conveyor belt 20 is arranged on the front side of the motor shaft 21.

As shown in fig. 1, the gravel generation device comprises a left screen plate 16 fixedly arranged on the left lower side of a feeding port 18, a hydraulic pump 24 is fixedly arranged on the right side wall of the feeding port 18, a hydraulic cavity 25 on the right upper side wall of the feeding port 18, a hydraulic rod 26 is slidably arranged in the hydraulic cavity 25, a pump pipe is connected between the hydraulic rod 26 and the hydraulic pump 24, a pressing block 27 is fixedly arranged at the lower end of the hydraulic rod 26, a right screen plate 28 is fixedly arranged on the right lower end of the feeding port 18, a stone outlet pipe 29 is fixedly arranged on the right lower side of the feeding port 18, and an intelligent camera 30 is fixedly arranged on the upper side wall of the stone outlet pipe 29.

As shown in fig. 1, 2 and 3, the sand barrier generating device comprises four fixed rods 37 fixedly arranged on a turntable 38 in an annular manner, a vibration groove 34 is fixedly arranged in each fixed rod 37, a moving block 35 is arranged in the vibration groove 34 in a vertically sliding manner, an electrically controlled discharge door is arranged in each moving block 35, a moving block spring 36 is connected between the upper side wall and the lower side wall of each moving block 35 and the vibration groove 34, a working pipe 33 is fixedly arranged on the upper side wall of each moving block 35, the upper side wall of each working pipe 33 can be abutted against the left lower side of the feed inlet 18, the upper side wall of each working pipe 33 is abutted against the stone outlet pipe 29, a spraying block 32 is fixedly arranged on the upper side wall of each working pipe 33, and a top block 15 is fixedly arranged on the upper side wall and the outer side wall of each working pipe 33.

As shown in fig. 1, 2 and 5, a ring sleeve 31 is fixedly arranged on the working cavity 17, an adhesive draining device is arranged in the ring sleeve 31, the adhesive draining device comprises an adhesive spraying pipe 51 fixed on the rear side of the ring sleeve 31, an adhesive pump 52 is fixedly arranged on the front side wall of the working cavity 17, a piston 56 is fixedly arranged on the adhesive pump 52, a piston 53 is arranged in the piston 56 in a vertically sliding manner, a piston spring 54 is connected between the lower side wall of the piston 53 and the lower side wall of the piston 56, the top block 15 can extend into the piston 56, a check valve pipe is connected between the upper side wall of the piston 56 and the adhesive pump 52, and a check valve pipe is connected between the upper side wall of the piston 56 and the adhesive spraying pipe 51.

As shown in fig. 2, a vibration motor 50 is fixedly arranged on the lower front side wall of the working chamber 17, a vibration motor shaft 49 is arranged on the output end of the vibration motor 50, a vibration bevel gear 48 is fixedly arranged on the vibration motor shaft 49, a vibration ejector rod 47 is slidably arranged on the lower front side wall of the working chamber 17, the vibration ejector rod 47 can be meshed with the vibration bevel gear 48, and a return spring is connected between the lower side wall of the vibration ejector rod 47 and the lower side wall of the working chamber 17.

As shown in fig. 2, a discharging motor 45 is fixedly arranged on the lower rear side wall of the working chamber 17, a discharging motor shaft 46 is arranged on the output end of the discharging motor 45, a discharging bevel gear 44 is fixedly arranged on the discharging motor shaft 46, a discharging rack 43 is slidably arranged on the lower rear side wall of the working chamber 17, the discharging rack 43 is meshed with the discharging bevel gear 44, the lower rear side wall of the working chamber 17 is communicated with the outside, a discharging spring 42 is connected between the discharging rack 43 and the lower side wall of the working chamber 17, and a sand pressing block 41 is fixedly arranged at the lower end of the discharging rack 43.

When the sand barrier is manufactured in the Gobi desert and engineering sand fixing measures are carried out, the speed of the equipment is slow when the equipment moves, the scraper knife 12 is inserted into the ground along with the movement of the equipment, the sand and stone on the Gobi desert are shoveled by the upper conveyor belt 13 and the lower conveyor belt 13, the conveyor belt motor 22 is started, the motor shaft 21 is driven to rotate, and the sand and stone are conveyed to the upper conveyor belt 20 through the lower conveyor belt 13 and fall into the feed inlet 18.

The main motor 40 is started at a fixed time, the main motor shaft 39 is driven to be started at a fixed time, the rotary disc 38 rotates ninety degrees at a fixed time, when the equipment moves each time, sand and stones can be conveyed to the left side of the left working pipe 33 through the left sieve plate 16, the sand and stones are screened through the left sieve plate 16, thin sand and stones fall into the left side of the working pipe 33, and large stones fall into the right sieve plate 28.

The main motor 40 starts, drive the carousel 38 and rotate ninety degrees, make left work tube 33 rotate to the front side, start the high-speed rotation of vibrating motor 50, it is rotatory to drive vibrating motor shaft 49, make vibration bevel gear 48 rotate, when vibration bevel gear 48 meshing vibration ejector pin 47, vibration ejector pin 47 upwards stretches into, promote the movable block 35 upwards, make work tube 33 upwards, when vibration bevel gear 48 breaks away from with the meshing of vibration ejector pin 47, the movable block 35 moves down under the effect of movable block spring 36, so circulation is reciprocal, vibrate sand and the stone in the work tube 33 of front side, utilize brazilian nut principle, carry out the sieve that shakes, transfer great stone to work tube 33 inside top, thinner sand falls into downside in work tube 33, screen sand and fine segment layer.

When the front working pipe 33 reciprocates up and down, the top block 15 pushes the piston 53 to reciprocate up and down in the piston 56, the adhesive in the adhesive pump 52 is pumped into the adhesive spray pipe 51 by the piston motion, and is pumped to the working pipe 33 positioned at the rear side of the turntable 38 through the adhesive spray pipe 51 to be sprayed, so that stones and sands are bonded, and the sand and the surfaces of the stones are bonded while vibrating and screening to form a sand barrier, thereby effectively preventing the sands from being blown away by wind.

After accomplishing the sieve that shakes, restart main motor 40, make carousel 38 continue to rotate ninety degrees, the working pipe 33 of front side rotates to the right side, with go out stone pipe 29 downside butt, intelligent camera 30 detects the working pipe 33 upper surface stone laying surface on right side, if detect to lay too little, then start hydraulic pump 24, hydraulic pump 24 promotes hydraulic stem 26 downwards, make briquetting 27 down, crush the bold stone on the sieve 28 of right side, garrulous gravel slips into working pipe 33 upside, avoid appearing the regional stone of part too little, and can't form the sand barrier, utilize bold stone simultaneously.

After finishing laying, restart main motor 40 for the work pipe 33 on right side changes to the rear side, accomplish and spray the binder, automatically controlled discharge door is opened, start ejection of compact motor 45, it is rotatory to drive ejection of compact motor shaft 46, it is rotatory to make ejection of compact bevel gear 44, meshing ejection of compact rack 43 carries out up-and-down reciprocating motion, leak the gravel and sand ejection of compact in the work pipe 33 of rear side and lay in the recess that produces because of spiller 12, the processing of flattening is carried out to the sand barrier that falls to pressing sand piece 41 simultaneously, along with the automatic sand barrier that makes of the removal of equipment, and cover the sand barrier in the recess that produces again.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The sand barrier laying system for sand fixation comprises a shell (10) and is characterized by comprising a shell (10), wherein a driving device (11) is arranged on the lower side of the shell (10), a scraper connecting rod (14) is fixedly arranged on the outer left side wall of the shell (10), a sand inlet device is arranged on the scraper connecting rod (14), sand and stones are conveyed into the equipment body when the sand inlet device is used for equipment to advance on a Gobi desert, an inner vehicle cavity (23) is arranged in the shell (10), a sand making barrier chamber (19) is fixedly arranged in the inner vehicle cavity (23), a working cavity (17) is arranged in the sand making barrier chamber (19), a feeding hole (18) is fixedly arranged on the upper side of the working cavity (17), a gravel generating device is arranged in the feeding hole (18), the gravel generating device is used for generating gravel by large crushing, a main motor (40) is fixedly arranged on the lower side wall of the working cavity (17), the sand barrier generator is characterized in that a main motor shaft (39) is arranged on the output end of the main motor (40), a rotary table (38) is fixedly arranged on the main motor shaft (39), four grooves (55) are formed in the rotary table (38), and a sand barrier generating device is arranged on the rotary table (38).

2. The sand barrier laying system for sand stabilization according to claim 1, wherein: advance husky device including fixing spiller (12) on spiller connecting rod (14) left end, fixed conveyer belt motor (22) of being equipped with on car inner chamber (23) the lateral wall, be equipped with motor shaft (21) on the output of conveyer belt motor (22), the front side of motor shaft (21) is equipped with down conveyer belt (13), the front side of motor shaft (21) is equipped with and goes up conveyer belt (20).

3. The sand barrier laying system for sand stabilization according to claim 2, wherein: gravel produces device is including fixed setting left sieve (16) on feed inlet (18) left side downside, the fixed hydraulic pump (24) that is equipped with on feed inlet (18) right side wall, hydraulic pressure chamber (25) on the upper right side wall of feed inlet (18), it is equipped with hydraulic stem (26) to slide in hydraulic pressure chamber (25), hydraulic stem (26) with be connected with the pump line between hydraulic pump (24), hydraulic stem (26) lower extreme is fixed and is equipped with briquetting (27), the fixed right sieve (28) that is equipped with on feed inlet (18) right side lower extreme, the fixed stone pipe (29) that is equipped with on feed inlet (18) right side downside, go out fixed intelligent camera (30) that is equipped with on stone pipe (29) the upper side wall.

4. A sand barrier laying system for sand stabilization according to claim 3 wherein: the sand barrier generating device comprises four groups of fixing rods (37) fixedly arranged on the rotary table (38) in an annular mode, a vibration groove (34) is fixedly arranged in each fixing rod (37), moving blocks (35) are arranged in the vibration groove (34) in a vertical sliding mode, an electric control discharging door is arranged in each moving block (35), a moving block spring (36) is connected between each moving block (35) and the upper side wall and the lower side wall of the vibration groove (34), a working pipe (33) is fixedly arranged on the upper side wall of each moving block (35), the upper side wall of each working pipe (33) can be abutted against the feed inlet (18) from the left to the right, the upper side wall of each working pipe (33) is abutted against the stone outlet pipe (29), a spraying block (32) is fixedly arranged on the upper side wall of each working pipe (33), and a jacking block (15) is fixedly arranged on the upper outer side wall of each working pipe (33).

5. The sand barrier laying system for sand stabilization according to claim 4, wherein: the adhesive dispensing device is characterized in that a ring sleeve (31) is fixedly arranged on the working cavity (17), an adhesive dispensing device is arranged in the ring sleeve (31), the adhesive dispensing device comprises an adhesive spraying pipe (51) fixed to the rear side of the ring sleeve (31), an adhesive pump (52) is fixedly arranged on the front side wall of the working cavity (17), a piston (56) is fixedly arranged on the adhesive pump (52), a piston (53) is arranged in the piston (56) in a vertically sliding mode, a piston spring (54) is connected between the lower side wall of the piston (53) and the lower side wall of the piston (56), the ejector block (15) can extend into the interior of the piston (56), a one-way valve pipe is connected between the upper side wall of the piston (56) and the adhesive pump (52), and a one-way valve pipe is connected between the upper side wall of the piston (56) and the adhesive spraying pipe (51).

6. The sand barrier laying system for sand stabilization according to claim 5, wherein: the vibration motor is characterized in that a vibration motor (50) is fixedly arranged on the lower front side wall of the working cavity (17), a vibration motor shaft (49) is arranged on the output end of the vibration motor (50), a vibration bevel gear (48) is fixedly arranged on the vibration motor shaft (49), a vibration ejector rod (47) is arranged on the lower front side wall of the working cavity (17) in a sliding mode, the vibration ejector rod (47) can be meshed with the vibration bevel gear (48), and a reset spring is connected between the lower side wall of the vibration ejector rod (47) and the lower side wall of the working cavity (17).

7. The sand barrier laying system for sand stabilization according to claim 6, wherein: the sand pressing machine is characterized in that a discharging motor (45) is fixedly arranged on the lower rear side wall of the working cavity (17), a discharging motor shaft (46) is arranged on the output end of the discharging motor (45), a discharging bevel gear (44) is fixedly arranged on the discharging motor shaft (46), a discharging rack (43) is arranged on the lower rear side wall of the working cavity (17) in a sliding mode, the discharging rack (43) is meshed with the discharging bevel gear (44), the lower rear side wall of the working cavity (17) is communicated with the outside, a discharging spring (42) is connected between the discharging rack (43) and the lower side wall of the working cavity (17), and a sand pressing block (41) is fixedly arranged at the lower end of the discharging rack (43).