CN115781807B - Soft foundation treatment vacuum preloading construction drain pipe laying device - Google Patents

Abstract

The invention relates to the technical field of laying, in particular to a soft foundation treatment vacuum preloading construction drain pipe laying device which comprises a frame, wherein a winding mechanism for winding a water pipe is arranged on the frame, a driving mechanism for driving the winding mechanism to wind is arranged on the frame, a pre-loosening mechanism driven by the winding mechanism is arranged on the frame, a measuring mechanism for measuring the distance between adjacent water pipes is arranged on the frame, and a cutting mechanism for marking the cutting position of the water pipe is arranged on the frame; the invention aims to provide a soft foundation treatment vacuum preloading construction drain pipe laying device, which can automatically adjust the cutting position of water pipes according to the distance between adjacent water pipes, can automatically adjust the cutting position of the water pipes according to the distance when measuring the distance between the adjacent water pipes, is more convenient when the adjacent water pipes are connected, saves the cost of the water pipes, and avoids the phenomenon that the water pipe connection work is not smooth due to too much or too little manual cutting.

Description

Soft foundation treatment vacuum preloading construction drain pipe laying device

Technical Field

The invention relates to the technical field of laying, in particular to a soft foundation treatment vacuum preloading construction drain pipe laying device.

Background

The vacuum preloading method is a foundation treatment method that a vertical plastic drainage belt or a sand well is arranged in soft clay, a sand layer is paved on the soft clay, a film is covered and sealed, air suction is carried out to enable the drainage belt, the sand layer and the like in the film to be in a partial vacuum state, moisture in soil is removed, the soil is solidified in advance to reduce the later sedimentation of a foundation, and the drainage pipe is paved as a common step in construction;

when the water pipes are paved underground, the workers cut the water pipes and then connect the adjacently paved water pipes, and the workers cut the water pipes only through working experience or feel when cutting the water pipes, so that when the adjacent water pipes are connected, the connecting parts of the adjacent water pipes can be excessively long to cause waste or be excessively short to connect.

Disclosure of Invention

The invention aims to provide a soft foundation treatment vacuum preloading construction drain pipe laying device, which can automatically adjust the cutting position of water pipes according to the distance between adjacent water pipes, can automatically adjust the cutting position of the water pipes according to the distance when measuring the distance between the adjacent water pipes, is more convenient when the adjacent water pipes are connected, saves the cost of the water pipes, and avoids the phenomenon that the water pipe connection work is not smooth due to too much or too little manual cutting.

In order to achieve the above purpose, the present invention provides the following technical solutions: the vacuum pre-pressing construction drain pipe laying device for soft foundation treatment comprises a frame, wherein a winding mechanism for winding a water pipe is arranged on the frame, a driving mechanism for driving the winding mechanism to wind is arranged on the frame, a pre-loosening mechanism driven by the winding mechanism is arranged on the frame, a measuring mechanism for measuring the distance between adjacent water pipes is arranged on the frame, and a cutting mechanism for marking the cutting position of the water pipe is arranged on the frame; the driving mechanism comprises a motor, a threaded cylinder is arranged at the output end of the motor, and a deep rod is connected to the threaded cylinder in a threaded manner; the winding mechanism comprises a winding disc driven by a threaded cylinder, the winding disc is movably connected with the threaded cylinder, the winding mechanism further comprises a line-following plate arranged on the frame, and the winding disc rotates on the line-following plate; the pre-loosening mechanism comprises a rotating shaft which rotates on the frame, one end of the rotating shaft is provided with a synchronous belt, the pre-loosening mechanism further comprises a shell which is arranged on the line following plate, a torsion spring is arranged in the shell, one end of the torsion spring is connected with the winding disc, and the synchronous belt drives the torsion spring to work; the measuring mechanism comprises a second measuring rod rotatably arranged on the frame, one end of the second measuring rod is in threaded connection with the first measuring rod, the other end of the second measuring rod is provided with a penetrating block, and the penetrating block is in penetrating connection with the deep rod; the cutting mechanism comprises a threaded shaft driven by a second measuring rod, a movable plate is connected to the threaded shaft in a threaded mode, the cutting mechanism further comprises a guide shaft arranged on a penetrating block, the movable plate is connected with the guide shaft in a penetrating mode, and cutting scissors are arranged on the movable plate.

Optionally, the output of motor installs first gear, the second gear is installed to the one end of screw thread section of thick bamboo, first gear and second gear meshing are connected.

Optionally, the other end and the line board through connection of screw thread section of thick bamboo, just first triangle teeth of a cogwheel are installed to the other end of screw thread section of thick bamboo, actuating mechanism still includes the second triangle teeth of a cogwheel of installing on the reel, second triangle teeth of a cogwheel extrudees with first triangle teeth of a cogwheel to be connected.

Optionally, the cross section of first triangle teeth of a cogwheel and second triangle teeth of a cogwheel is triangle-shaped, just the internally mounted of rolling dish has the extension spring, the other end and the second triangle teeth of a cogwheel of extension spring are connected, the one end of second triangle teeth of a cogwheel slides in the inside of rolling dish.

Optionally, the line following board is fixedly installed on the frame, and one side of the line following board is provided with the installation seat.

Optionally, a connecting plate is screwed on the rotating shaft, and the connecting plate is fixedly connected with the deep rod.

Optionally, a rotating disc is rotatably installed in the shell, the rotating disc is connected with the synchronous belt, and the rotating disc is connected with the torsion spring.

Optionally, the measuring mechanism further comprises a mounting rod fixedly mounted on the frame, the mounting rod is rotationally connected with the second measuring rod, and the other end of the second measuring rod is rotationally connected with the penetrating block.

Optionally, a first bevel gear is installed at the other end of the second measuring rod, a second bevel gear is installed at one end of the threaded shaft, and the first bevel gear is meshed with the second bevel gear.

Optionally, the surfaces of the guide shaft, the second measuring rod and the first measuring rod are provided with scales.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, when the first measuring rod is pulled and drives the second measuring rod to rotate, the second measuring rod drives the threaded shaft to rotate through the meshing relationship of the first conical gear and the second conical gear, and the threaded shaft rotates to enable the movable plate to move along the guide shaft, so that the cutting position of the water pipes can be automatically adjusted according to the distance between adjacent water pipes, the cutting position of the water pipes can be automatically adjusted according to the distance when the distance between the adjacent water pipes is measured, the water pipe cost can be saved when the adjacent water pipes are connected, and the phenomenon that the water pipe connection work is not smooth due to too much or too little manual cutting is avoided;

2. according to the invention, the first measuring rod is pulled, so that the second measuring rod can rotate, and the distance between adjacent water pipes can be judged through the scales on the first measuring rod and the second measuring rod, so that the water pipes can be uniformly paved, the water pipe cost is saved to a certain extent, and convenience is brought to the connection of the adjacent water pipes by uniformly paving the water pipes; in addition, the penetrating block can clean the deep rod, so that too much muddy water is prevented from adhering to the deep rod;

3. according to the invention, when the threaded cylinder rotates to drive the deep rod to move downwards, the connecting plate moves downwards synchronously with the deep rod, the rotating shaft can drive the rotating disc to rotate, the rotating disc drives the torsion spring to rotate, one end of the rotating disc is connected with the winding disc, and in addition, the rotating direction of the rotating disc is opposite to that of the winding disc, so that when the threaded cylinder drives the deep rod to move downwards, the threaded cylinder can not drive the winding disc to rotate, and the rotating disc can drive the winding disc to rotate continuously, so that a water pipe on the winding disc can be continuously retracted for a section.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of one of the take-up reels of the present invention;

FIG. 4 is a cross-sectional view of a take-up reel of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4 in accordance with the present invention;

FIG. 6 is a cross-sectional view of a measurement mechanism of the present invention;

fig. 7 is a partial cross-sectional view of a measurement mechanism of the present invention.

In the figure: 1. a frame; 2. a driving mechanism; 21. a motor; 22. a first gear; 23. a second gear; 24. a thread cylinder; 25. deep into the rod; 26. a first cam tooth; 27. a second cam tooth; 28. a telescopic spring; 3. a winding mechanism; 31. a reel; 32. a line-following plate; 33. a mounting base; 4. a pre-loosening mechanism; 41. a rotating shaft; 42. a connecting plate; 43. a housing; 44. a rotating disc; 45. a torsion spring; 46. a synchronous belt; 5. a measuring mechanism; 51. a mounting rod; 52. a first measuring rod; 53. a second measuring rod; 54. a penetration block; 6. a cutting mechanism; 61. a guide shaft; 62. a threaded shaft; 63. a moving plate; 64. and cutting scissors.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, the invention provides a drainage pipe paving device for soft foundation treatment vacuum preloading construction, which comprises a frame 1, wherein a winding mechanism 3 for winding a water pipe is arranged on the frame 1, a driving mechanism 2 for driving the winding mechanism 3 to wind is arranged on the frame 1, a pre-loosening mechanism 4 driven by the winding mechanism 3 is arranged on the frame 1, a measuring mechanism 5 for measuring the distance between adjacent water pipes is arranged on the frame 1, and a cutting mechanism 6 for marking the cutting position of the water pipe is arranged on the frame 1;

the driving mechanism 2 comprises a motor 21, a threaded cylinder 24 is arranged at the output end of the motor 21, and a deep rod 25 is screwed on the threaded cylinder 24; the winding mechanism 3 comprises a winding disc 31 driven by the thread cylinder 24, the winding disc 31 is movably connected with the thread cylinder 24, the winding mechanism 3 further comprises a line-following plate 32 arranged on the frame 1, and the winding disc 31 rotates on the line-following plate 32; one end of the water pipe passes through the mounting seat 33 and then is connected with the bottom of the deep rod 25, after the motor 21 is started, the output end of the motor 21 drives the threaded cylinder 24 to rotate, and the threaded cylinder 24 drives the winding disc 31 to rotate; the winding disc 31 rotates to automatically wind and unwind the water pipe, when the penetrating rod 25 drives the water pipe to penetrate into the ground, the winding disc 31 synchronously drives the water pipe to wind and unwind, thereby saving the manual water pipe winding and unwinding of a worker, avoiding the situation that the water pipe is broken due to the mechanical pulling of the water pipe winding and unwinding, saving the operation of the water pipe by the worker and saving the strength of the worker, when the threaded cylinder 24 rotates, the penetrating rod 25 is connected with the rotating shaft 41 through the connecting plate 42, the penetrating rod 25 drives the water pipe to penetrate into the ground downwards, in addition, when the motor 21 reversely rotates to drive the threaded cylinder 24 to reversely rotate, the penetrating rod 25 moves upwards at the moment, and when the threaded cylinder 24 reversely rotates, the first triangle gear teeth 26 on the threaded cylinder 24 will extrude the second triangle gear teeth 27, the second triangle gear teeth 27 will extrude the telescopic spring 28 and slide into the interior of the winding disc 31, at this time, the threaded cylinder 24 is reversed and will not drive the winding disc 31 to rotate, when avoiding moving the deep rod 25 upwards to retract, the threaded cylinder 24 will drive the winding disc 31 to rotate reversely too, causing the winding disc 31 to drive the water pipe to wind up, the water pipe needs to be wound up by a worker to pass through the mounting seat 33 first, then is connected with the deep rod 25, this does not need to wind up a section of water pipe from the winding disc 31 in advance, the operation of winding up a section of water pipe by a worker in advance is very troublesome, and a great deal of manpower is consumed;

the pre-loosening mechanism 4 comprises a rotating shaft 41 which rotates on the frame 1, a synchronous belt 46 is arranged at one end of the rotating shaft 41, the pre-loosening mechanism 4 also comprises a shell 43 arranged on the line following plate 32, a torsion spring 45 is arranged in the shell 43, one end of the torsion spring 45 is connected with the winding disc 31, and the synchronous belt 46 drives the torsion spring 45 to work; when the threaded cylinder 24 rotates to drive the deep rod 25 to move downwards, the connecting plate 42 moves downwards synchronously with the deep rod 25, meanwhile, due to the fact that the connecting plate 42 is in threaded connection with the rotating shaft 41, when the connecting plate 42 moves along the rotating shaft 41, the rotating shaft 41 can rotate, the rotating shaft 41 drives the synchronous belt 46 to work, the synchronous belt 46 drives the rotating disc 44 to rotate, the rotating disc 44 drives the torsion spring 45 to rotate, one end of the rotating disc 44 is connected with the winding disc 31, and at the moment, the rotating disc 44 and the winding disc 31 rotate in opposite directions, so when the threaded cylinder 24 drives the deep rod 25 to move downwards, the threaded cylinder 24 cannot drive the winding disc 31 to rotate, at the moment, the rotating disc 44 drives the winding disc 31 to rotate continuously, the water pipe on the winding disc 31 can be continuously retracted for a section, due to the design of a section of water pipe which is pre-retracted, workers can conveniently connect the water pipe with the deep rod 25, the workers are required to manually retract a section of the water pipe to be connected with the deep rod 25 when the next time, and the workers need to manually retract a section of the water pipe to be tightly or greatly more than needed when the workers manually retract the torsion spring 45, and the rotating disc 45 are required to rotate reversely, when the rotating disc 45 is not driven to rotate the rotating disc 45 continuously and the torsion spring 45 continuously rotates continuously and the rotating disc 45 continuously through the rotating shaft 45 when the rotating shaft 45 is driven to rotate continuously and the rotating in the same time, and the rotating disc 45 is continuously to rotate continuously and the rotating 45 is rotated to rotate continuously and continuously through the rotating 45;

the measuring mechanism 5 comprises a second measuring rod 53 rotatably arranged on the frame 1, one end of the second measuring rod 53 is in threaded connection with a first measuring rod 52, the other end of the second measuring rod 53 is provided with a penetrating block 54, and the penetrating block 54 is in penetrating connection with the deep rod 25; the first measuring rod 52 is pulled, the first measuring rod 52 can enable the second measuring rod 53 to rotate, and the distance between adjacent water pipes can be judged through scales on the first measuring rod 52 and the second measuring rod 53, so that the water pipes can be paved uniformly, the water pipe cost is saved to a certain extent, and convenience is brought to the connection of the adjacent water pipes when the water pipes are evenly paved; in addition, the penetrating block 54 can clean the deep rod 25, so that too much muddy water is prevented from adhering to the deep rod 25.

The cutting mechanism 6 comprises a threaded shaft 62 driven by the second measuring rod 53, a movable plate 63 is screwed on the threaded shaft 62, the cutting mechanism 6 further comprises a guide shaft 61 installed on the penetrating block 54, the movable plate 63 is connected with the guide shaft 61 in a penetrating manner, a cutting knife 64 is installed on the movable plate 63, when the first measuring rod 52 is pulled, the first measuring rod 52 drives the second measuring rod 53 to rotate, the second measuring rod 53 drives the threaded shaft 62 to rotate through the meshing relationship of the first conical gear and the second conical gear, the threaded shaft 62 rotates to enable the movable plate 63 to move along the guide shaft 61, therefore, the cutting position of the water pipes can be automatically adjusted according to the distance between adjacent water pipes, the distance between the adjacent water pipes can be automatically adjusted according to the distance, water pipes can be saved when the adjacent water pipes are connected, and excessive or too little manual cutting is avoided.

Further, the first gear 22 is installed at the output end of the motor 21, the second gear 23 is installed at one end of the threaded cylinder 24, the first gear 22 is meshed with the second gear 23, the other end of the threaded cylinder 24 is connected with the line following plate 32 in a penetrating way, the first cam gear 26 is installed at the other end of the threaded cylinder 24, the driving mechanism 2 further comprises a second cam gear 27 installed on the rolling disc 31, the second cam gear 27 is connected with the first cam gear 26 in a squeezing way, the cross sections of the first cam gear 26 and the second cam gear 27 are triangular, a telescopic spring 28 is installed in the rolling disc 31, the other end of the telescopic spring 28 is connected with the second cam gear 27, one end of the second cam gear 27 slides in the rolling disc 31, the line following plate 32 is fixedly installed on the frame 1, a mounting seat 33 is installed on one side of the line following plate 32, after the motor 21 is started, the output end of the motor 21 drives the first gear 22 to rotate, the first gear 22 drives the second gear 23 to rotate, the second gear 23 drives the threaded cylinder 24 to rotate, the threaded cylinder 24 can rotate, the rod 25 can enable the first cam gear 26 to rotate, and the second cam gear 27 can rotate in a certain depth into the triangle 26 and the triangle 27 to rotate in the opposite direction with the first cam gear 26 when the first cam gear 26 is pressed into the second cam 26, and the second cam 27 rotates in the opposite direction to the first cam gear 27, and the second cam gear 27 can rotate in a certain direction, and the second cam gear 27 can rotate in depth can rotate in the direction.

Further, a connecting plate 42 is screwed on the rotating shaft 41, the connecting plate 42 is fixedly connected with the deep rod 25, a rotating disc 44 is rotatably installed in the shell 43, the rotating disc 44 is connected with a synchronous belt 46, and the rotating disc 44 is connected with a torsion spring 45.

Further, the measuring mechanism 5 further comprises a mounting rod 51 fixedly mounted on the frame 1, the mounting rod 51 is rotationally connected with the second measuring rod 53, the other end of the second measuring rod 53 is rotationally connected with the penetrating block 54, the other end of the second measuring rod 53 is provided with a first conical gear, one end of the threaded shaft 62 is provided with a second conical gear, the first conical gear is meshed with the second conical gear, scales are formed on the surfaces of the guide shaft 61, the second measuring rod 53 and the first measuring rod 52, a water pipe can be cut through the cutting knife 64 on the moving plate 63, the cutting knife 64 can be conveniently stored, and the situation that a worker forgets to cut the cutting knife 64 after cutting the water pipe is avoided.

Working principle: one end of the water pipe passes through the mounting seat 33 and then is connected with the bottom of the deep rod 25, after the motor 21 is started, the output end of the motor 21 drives the first gear 22 to rotate, the first gear 22 drives the second gear 23 to rotate, the second gear 23 drives the threaded cylinder 24 to rotate, the threaded cylinder 24 can deep the rod 25 to rotate, the threaded cylinder 24 can extrude the second cam gear 27 through the first cam gear 26 to drive the rolling disc 31 to rotate, the cross sections of the first cam gear 26 and the second cam gear 27 are triangular, the first cam gear 26 and the second cam gear 27 can extrude when rotating in a certain direction, and when the first cam gear 26 and the second cam gear 27 extrude when rotating in the opposite direction, the first cam gear 26 can move the second cam gear 27, so that the second cam gear 27 is retracted into the rolling disc 31;

since the output end of the motor 21 drives the threaded cylinder 24 to rotate, the threaded cylinder 24 drives the winding disc 31 to rotate; the winding disc 31 rotates to automatically wind and unwind the water pipe, when the penetrating rod 25 drives the water pipe to penetrate into the ground, the winding disc 31 synchronously drives the water pipe to wind and unwind, thereby saving the manual water pipe winding and unwinding of a worker, avoiding the situation that the water pipe is broken due to the mechanical pulling of the water pipe winding and unwinding, saving the operation of the water pipe by the worker and saving the strength of the worker, when the threaded cylinder 24 rotates, the penetrating rod 25 is connected with the rotating shaft 41 through the connecting plate 42, the penetrating rod 25 drives the water pipe to penetrate into the ground downwards, in addition, when the motor 21 reversely rotates to drive the threaded cylinder 24 to reversely rotate, the penetrating rod 25 moves upwards at the moment, and when the threaded cylinder 24 reversely rotates, the first triangle gear teeth 26 on the threaded cylinder 24 will extrude the second triangle gear teeth 27, the second triangle gear teeth 27 will extrude the telescopic spring 28 and slide into the interior of the winding disc 31, at this time, the threaded cylinder 24 is reversed and will not drive the winding disc 31 to rotate, when avoiding moving the deep rod 25 upwards to retract, the threaded cylinder 24 will drive the winding disc 31 to rotate reversely too, causing the winding disc 31 to drive the water pipe to wind up, the water pipe needs to be wound up by a worker to pass through the mounting seat 33 first, then is connected with the deep rod 25, this does not need to wind up a section of water pipe from the winding disc 31 in advance, the operation of winding up a section of water pipe by a worker in advance is very troublesome, and a great deal of manpower is consumed;

when the threaded cylinder 24 rotates to drive the deep rod 25 to move downwards, the connecting plate 42 moves downwards synchronously with the deep rod 25, meanwhile, due to the fact that the connecting plate 42 is in threaded connection with the rotating shaft 41, when the connecting plate 42 moves along the rotating shaft 41, the rotating shaft 41 can rotate, the rotating shaft 41 drives the synchronous belt 46 to work, the synchronous belt 46 drives the rotating disc 44 to rotate, the rotating disc 44 drives the torsion spring 45 to rotate, one end of the rotating disc 44 is connected with the winding disc 31, and at the moment, the rotating disc 44 and the winding disc 31 rotate in opposite directions, so when the threaded cylinder 24 drives the deep rod 25 to move downwards, the threaded cylinder 24 cannot drive the winding disc 31 to rotate, at the moment, the rotating disc 44 drives the winding disc 31 to rotate continuously, the water pipe on the winding disc 31 can be continuously retracted for a section, due to the design of a section of water pipe which is pre-retracted, workers can conveniently connect the water pipe with the deep rod 25, the workers are required to manually retract a section of the water pipe to be connected with the deep rod 25 when the next time, and the workers need to manually retract a section of the water pipe to be tightly or greatly more than needed when the workers manually retract the torsion spring 45, and the rotating disc 45 are required to rotate reversely, when the rotating disc 45 is not driven to rotate the rotating disc 45 continuously and the torsion spring 45 continuously rotates continuously and the rotating disc 45 continuously through the rotating shaft 45 when the rotating shaft 45 is driven to rotate continuously and the rotating in the same time, and the rotating disc 45 is continuously to rotate continuously and the rotating 45 is rotated to rotate continuously and continuously through the rotating 45;

when the first measuring rod 52 is pulled, the first measuring rod 52 drives the second measuring rod 53 to rotate, the second measuring rod 53 drives the threaded shaft 62 to rotate through the first conical gear and the second conical gear, the threaded shaft 62 rotates to enable the moving plate 63 to move along the guide shaft 61, therefore, the cutting position of the water pipe can be automatically adjusted according to the distance between adjacent water pipes, the cutting position of the water pipe can be automatically adjusted according to the distance when the adjacent water pipes are connected, water pipes can be saved, and excessive or insufficient manual cutting is avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a soft foundation handles vacuum preloading construction drain pipe laying device, includes frame (1), its characterized in that, be provided with on frame (1) and be used for rolling up winding mechanism (3) of water pipe, be provided with driving mechanism (2) of driving winding mechanism (3) rolling on frame (1), be provided with on frame (1) by winding mechanism (3) driven pre-loosening mechanism (4), be provided with on frame (1) and measure adjacent water pipe distance's measuring mechanism (5), be provided with on frame (1) mark water pipe tailors cutting mechanism (6) of department;

the driving mechanism (2) comprises a motor (21), a threaded cylinder (24) is arranged at the output end of the motor (21), and a deep rod (25) is connected to the threaded cylinder (24) in a threaded manner;

the winding mechanism (3) comprises a winding disc (31) driven by the threaded cylinder (24), the winding disc (31) is movably connected with the threaded cylinder (24), the winding mechanism (3) further comprises a line-following plate (32) arranged on the frame (1), and the winding disc (31) rotates on the line-following plate (32);

the pre-loosening mechanism (4) comprises a rotating shaft (41) which rotates on the frame (1), one end of the rotating shaft (41) is provided with a synchronous belt (46), the pre-loosening mechanism (4) further comprises a shell (43) which is arranged on the line-following plate (32), a torsion spring (45) is arranged in the shell (43), one end of the torsion spring (45) is connected with the winding disc (31), and the synchronous belt (46) drives the torsion spring (45) to work;

the measuring mechanism (5) comprises a second measuring rod (53) rotatably mounted on the frame (1), one end of the second measuring rod (53) is in threaded connection with a first measuring rod (52), the other end of the second measuring rod (53) is provided with a penetrating block (54), and the penetrating block (54) is in penetrating connection with the deep rod (25);

the cutting mechanism (6) comprises a threaded shaft (62) driven by a second measuring rod (53), a movable plate (63) is connected to the threaded shaft (62) in a threaded mode, the cutting mechanism (6) further comprises a guide shaft (61) arranged on a penetrating block (54), the movable plate (63) is connected with the guide shaft (61) in a penetrating mode, and a cutting knife (64) is arranged on the movable plate (63);

the output end of the motor (21) is provided with a first gear (22), one end of the threaded cylinder (24) is provided with a second gear (23), and the first gear (22) is in meshed connection with the second gear (23);

the other end of the threaded cylinder (24) is connected with the line following plate (32) in a penetrating way, a first triangular gear tooth (26) is arranged at the other end of the threaded cylinder (24), the driving mechanism (2) further comprises a second triangular gear tooth (27) arranged on the rolling disc (31), and the second triangular gear tooth (27) is connected with the first triangular gear tooth (26) in an extrusion way;

the cross sections of the first triangular gear teeth (26) and the second triangular gear teeth (27) are triangular, a telescopic spring (28) is arranged in the winding disc (31), the other end of the telescopic spring (28) is connected with the second triangular gear teeth (27), and one end of the second triangular gear teeth (27) slides in the winding disc (31);

the line-following plate (32) is fixedly arranged on the frame (1), and one side of the line-following plate (32) is provided with a mounting seat (33);

a connecting plate (42) is connected to the rotating shaft (41) in a threaded manner, and the connecting plate (42) is fixedly connected with the deep rod (25);

the inside of shell (43) rotates and installs rotary disk (44), rotary disk (44) are connected with hold-in range (46), and rotary disk (44) are connected with torsional spring (45).

2. The soft foundation treatment vacuum preloading construction drain pipe laying device according to claim 1, characterized in that the measuring mechanism (5) further comprises a mounting rod (51) fixedly mounted on the frame (1), the mounting rod (51) is rotatably connected with a second measuring rod (53), and the other end of the second measuring rod (53) is rotatably connected with a penetrating block (54).

3. A soft foundation treatment vacuum preloading construction drain pipe laying device according to claim 1, characterized in that a first bevel gear is mounted at the other end of the second measuring rod (53), a second bevel gear is mounted at one end of the threaded shaft (62), and the first bevel gear is meshed with the second bevel gear.

4. The soft foundation treatment vacuum preloading construction drain pipe laying device according to claim 1, wherein scales are formed on the surfaces of the guide shaft (61), the second measuring rod (53) and the first measuring rod (52).