CN112031041B - Ground waterproof layer laying equipment and construction method thereof - Google Patents

Abstract

The invention discloses a foundation waterproof layer laying device and a construction method thereof, wherein the foundation waterproof layer laying device comprises an underframe, a bottom plate, a moving structure and a pushing handle, wherein the bottom plate is arranged on the underframe, the moving structure is positioned at the bottom of the underframe, and the pushing handle is connected with the bottom of the underframe; the waterproof layer paving structure has the advantages that the structure capable of being used for paving the waterproof layer is designed, concrete is stirred through the stirring structure, and meanwhile the scraping structure is used for scraping the concrete, so that the amount of manual labor is effectively reduced, and the technical problem in the background art is solved.

Description

Ground waterproof layer laying equipment and construction method thereof

Technical Field

The invention relates to the field of building facilities, in particular to a foundation waterproof layer laying device and a construction method thereof.

Background

Waterproof layer: the material layer is used for preventing indoor water, other water or underground water from entering a roof, permeating a wall body, a basement or an underground structure, and permeating a floor, a wall surface and the like.

The requirements for an ideal waterproof layer can be simply summarized as waterproof after construction and waterproof within the design years, and is economical. This requires that the waterproofing layer not only maintains good integrity, but also has a certain resistance to external damage.

Traditional ground waterproof layer needs many manual work cooperations when laying to still need lay the concrete on the waterproof layer and fix, still need artifically carry out continuous stirring to the concrete, consequently comparatively troublesome.

Disclosure of Invention

The invention aims to solve the problems and designs a foundation waterproof layer laying device and a construction method thereof.

The technical scheme of the invention is that the foundation waterproof layer laying equipment and the construction method thereof comprise an underframe, a bottom plate, a moving structure and a pushing handle, wherein the bottom plate is arranged on the underframe, the moving structure is positioned at the bottom of the underframe, and the pushing handle is connected with the bottom of the underframe;

the bottom plate is provided with a material roll structure, the bottom of the bottom plate is provided with a strip-shaped discharging bin matched with a material roll for use, the bottom of the bottom plate is provided with an electric wire containing structure, one end part of the bottom plate is provided with a stirring structure, and the outer wall of the bottom frame is provided with a scraping structure;

the strike-off structure comprises: the device comprises an electric push rod, a module mounting frame, a pair of telescopic frames, a linear module translation table, a pair of linear rails, a pair of rail sliding parts, a synchronous mounting beam and a scraper plate;

electric putter passes through the mount to be fixed at the chassis outer wall, and electric putter's flexible end is downward, the module mounting bracket is connected with electric putter's flexible end, sharp module translation platform inlays the dress on the module mounting bracket, sharp module translation bench has the removal end, a pair of linear track is laid on the module mounting bracket, a pair of track saddle movable mounting is on a pair of linear track, the removal end and a pair of track saddle of sharp module translation platform are connected to the synchronous installation roof beam, the scraper blade sets up on the synchronous installation roof beam.

A construction method of a foundation waterproof layer laying device is characterized by comprising the following steps:

s1: winding the waterproof layer on the material roll structure, and then adjusting the distance between the opposite wheel bodies in the moving structure according to the area of field construction;

s2, after the step S1 is completed, manually adding the cement, the sand and the water into a stirring structure, and setting the stirring structure to stir for 30 min;

s3: after the step of S2 is completed, the wire housing structure is connected to a power supply, so that other structures are effectively controlled;

s4, manually pushing the bottom plate by a pushing handle, firstly stretching the waterproof layer on the material roll to the outside of the strip-shaped discharging bin, fixing the waterproof layer at the initial position of the foundation, and then controlling the output concrete in the stirring structure to press the waterproof layer;

s5, pulling the bottom plate to move through the moving structure and work by the scraping structure;

and S6, the scraping structure scrapes the concrete on the waterproof layer.

Preferably, the moving structure comprises: the device comprises four sliding bodies with the same structure, a pair of first telescopic motors, two synchronous beams, four limiting assemblies with the same structure and four universal moving wheels;

the bottom of the bottom plate is provided with four sliding grooves with the same length, the four sliding bodies are movably connected in the sliding grooves, two ends of two synchronous beams are respectively connected with the four sliding bodies, the tails of the pair of first telescopic motors are attached to each other, the telescopic ends are reversely fixed on the bottom plate and are connected with the two synchronous beams, four limiting assemblies are fixed at the bottoms of the four sliding bodies, and four universal moving wheels are positioned on the four limiting assemblies;

the spacing subassembly contains: the pressing device comprises a main sleeve, an auxiliary sleeve, a pair of limiting blocks, a pair of pressing strips and a plurality of pressing blocks;

the main sleeve is connected with the bottom of the sliding body, the auxiliary sleeve is connected with the universal moving wheel, the auxiliary sleeve is inserted into the main sleeve, the auxiliary sleeve is provided with a through groove, the pair of limiting blocks are movably connected in the through groove and can slide in the through groove, the limiting body is connected with the through groove through an elastic part, the pair of pressing strips are arranged on the outer wall of the main sleeve, the pressing strips are distributed on the pressing strips, a plurality of limiting holes are formed in two sides of the main sleeve, the limiting blocks can be inserted into the limiting holes, and the pressing blocks can extrude the limiting body after passing through the limiting holes.

Preferably, the roll structure comprises: the device comprises a material roll frame, a material shaft, a screw rod with threads at two ends, a pair of limiting discs and a plurality of auxiliary pulleys;

the material roll frame is arranged on the bottom plate, the material shaft is arranged on the material roll frame in an overlapping mode, the waterproof layer can be wound on the material shaft, the screw penetrates through the material shaft and then is meshed with the pair of limiting discs, and the auxiliary pulleys are located above the bottom and in the groove of the end face of the bottom, in the strip-shaped storage bin and at the bottom of the bottom respectively.

Preferably, the electric wire housing structure includes: the wire box, the torsion spring mounting rack, the torsion spring and the wire wheel;

the wire box is arranged at the bottom of the bottom plate, the torsion spring mounting frame is located in the wire box, the torsion spring is arranged on the torsion spring mounting frame, and the wire wheel is mounted on the torsion spring mounting frame through the torsion spring.

Preferably, the stirring structure comprises: the device comprises a positioning disc, a stirring drum, a machine base, a movable column, a second telescopic motor, a motor and stirring blades;

the utility model discloses a four-in-one machine tool, including positioning disk, frame, movable post, locating disk, frame end, crossbeam, motor center position, motor, the laminating of positioning disk and churn bottom, the frame sets up on the bottom plate, the positioning disk bottom has four locating pins, four locating holes have been seted up to the frame terminal surface, four locating pins can insert four locating holes, the activity post sets up on the bottom plate, and is located positioning disk one side, be connected with on the activity post and increase the post, should increase the post upper end and be provided with the crossbeam, the flexible motor of second is located crossbeam center part, and the motor is fixed in the flexible end of the flexible motor of second, and the stirring leaf is connected with the drive end of motor, be connected with transport structure on the churn.

Preferably, a connection part of the telescopic end of the second telescopic motor and the motor is provided with a stabilizing frame.

Preferably, a fixing frame for fixing the electric push rod is arranged between the electric push rod and the bottom plate.

Preferably, a reinforcing rib is arranged between the heightening column and the cross beam.

Preferably, the conveying structure comprises: the pump body, the valve body and the conveying pipeline;

one end of the conveying pipeline is communicated with the stirring cylinder, the other end of the conveying pipeline penetrates through the bottom plate, and the pump body and the valve body are communicated with the conveying pipeline.

According to the technical scheme of the invention, the structure for paving the waterproof layer is designed, the concrete is stirred through the stirring structure, and the scraping structure is used for scraping the concrete, so that the labor amount is effectively reduced, and the technical problems in the background art are solved.

Drawings

Fig. 1 is a schematic structural view of a foundation waterproof layer laying apparatus and a construction method thereof according to the present invention;

FIG. 2 is a schematic structural diagram of a limiting assembly of the foundation waterproof layer laying device and the construction method thereof according to the present invention;

FIG. 3 is a schematic structural diagram of a limiting assembly of the foundation waterproof layer laying device and the construction method thereof according to the present invention;

FIG. 4 is a schematic structural view of a structure of a foundation waterproof layer paving device and a construction method thereof according to the present invention;

FIG. 5 is a schematic view of a screeding structure of the foundation waterproof layer paving equipment and the construction method thereof according to the present invention;

FIG. 6 is a schematic diagram of a stirring structure of the foundation waterproof layer paving equipment and the construction method thereof according to the present invention;

fig. 7 is a partially enlarged structural view of a foundation waterproof layer laying apparatus and a construction method thereof according to the present invention;

fig. 8 is a partially enlarged structural view of a foundation waterproof layer laying apparatus and a construction method thereof according to the present invention;

fig. 9 is a partially enlarged structural view of a foundation waterproof layer laying apparatus and a construction method thereof according to the present invention;

fig. 10 is a schematic view of an electric wire housing structure of a foundation waterproof layer laying apparatus and a construction method thereof according to the present invention;

in the figure, 1, a chassis; 2. a base plate; 3. pushing the handle; 4. an electric push rod; 5. a module mounting frame; 6. a telescopic frame; 7. a linear module translation stage; 8. a linear track; 9. a rail slide; 10. synchronously mounting the beams; 11. a squeegee; 12. a slider; 13. a first telescoping motor; 14. a synchronization beam; 15. a universal moving wheel; 16. a main sleeve; 17. a secondary sleeve; 18. a limiting block; 19. pressing the pressing strip; 20. a pressing block; 21. a coil rack; 22. a material shaft; 23. a screw; 24. a limiting disc; 25. an auxiliary pulley; 26. a wire box; 27. a torsion spring mounting bracket; 28. a torsion spring; 29. a wire wheel; 30. positioning a plate; 31. a mixing drum; 32. a machine base; 33. a movable post; 34. a second telescoping motor; 35. a motor; 36. stirring blades; 37. a stabilizing frame; 38. a fixed mount; 39. reinforcing ribs; 40. a pump body; 41. a valve body; 42. a delivery conduit.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, and as shown in fig. 1 to 10, a foundation waterproof layer laying apparatus and a construction method thereof.

The features of this embodiment are the main features of the invention + its own point of view.

Example 1

A foundation waterproof layer laying device and a construction method thereof comprise an underframe drawing 1, a bottom plate 2, a moving structure and a pushing handle 3, wherein the bottom plate 2 is arranged on the underframe drawing 1, the moving structure is positioned at the bottom of the underframe drawing 1, and the pushing handle 3 is connected with the bottom of the underframe drawing 1;

a material roll structure is arranged on the bottom plate 2, a strip-shaped discharging bin matched with the material roll for use is arranged at the bottom of the bottom plate 2, an electric wire containing structure is arranged at the bottom of the bottom plate 2, a stirring structure is arranged at one end part of the bottom plate 2, and a scraping structure is arranged on the outer wall of the bottom frame 1 in the bottom frame drawing;

the strickle structure comprises: the device comprises an electric push rod 4, a module mounting frame 5, a pair of telescopic frames, a linear module translation table 7, a pair of linear rails 8, a pair of rail sliders 9, a synchronous mounting beam 10 and a scraper 11;

electric putter 4 passes through mount 38 to be fixed in the chassis picture, 1 outer wall, electric putter 4's flexible end is downward, module mounting bracket 5 is connected with electric putter 4's flexible end, straight line module translation platform 7 inlays the dress on module mounting bracket 5, the removal end has on the straight line module translation platform 7, a pair of linear track 8 is laid on module mounting bracket 5, a pair of track slider 9 movable mounting is on a pair of linear track 8, synchronous installation roof beam 10 is connected the removal end of straight line module translation platform 7 and a pair of track slider 9, scraper blade 11 sets up on synchronous installation roof beam 10.

The waterproof layer is wound on the material roll structure, and then the distance between the opposite wheel bodies in the moving structure is adjusted according to the field construction area; manually adding cement, sand and water into a stirring structure, and setting the stirring structure to stir for 30 min; the electric wire storage structure is connected with a power supply, so that other structures are effectively controlled; then, manually pushing the bottom plate 2 by pushing the handle 3, firstly, stretching the waterproof layer wound on the material to the outside of the strip-shaped discharging bin, fixing the waterproof layer at the initial position of the foundation, and then controlling the output concrete in the stirring structure to perform pressure settling on the waterproof layer; the bottom plate 2 is pulled to move through the moving structure and the scraping structure works; the scraping structure scrapes the concrete on the waterproof layer;

strickle the structure and promote module mounting bracket 5 through electric putter 4 and descend, let strickle and concrete contact, control straight line module translation platform 7 work afterwards, drive synchronous installation roof beam 10, the reciprocal strickle the concrete about strickleing off on the synchronous installation roof beam 10.

A construction method of a foundation waterproof layer laying device comprises the following steps:

s1: winding the waterproof layer on the material roll structure, and then adjusting the distance between the opposite wheel bodies in the moving structure according to the area of field construction;

s2, after the step S1 is completed, manually adding the cement, the sand and the water into a stirring structure, and setting the stirring structure to stir for 30 min;

s3: after the step of S2 is completed, the wire housing structure is connected to a power supply, so that other structures are effectively controlled;

s4, manually pushing the bottom plate 2 by the pushing handle 3, firstly, stretching the waterproof layer on the material roll joint to the outside of the strip-shaped discharging bin, fixing the waterproof layer at the initial position of the foundation, and then controlling the output concrete in the stirring structure to press the waterproof layer;

s5, pulling the bottom plate 2 to move through the moving structure and work through the scraping structure;

and S6, the scraping structure scrapes the concrete on the waterproof layer.

Example 3

The moving structure includes: the device comprises four sliding bodies 12 with the same structure, a pair of first telescopic motors 13, two synchronous beams 14, four limiting assemblies with the same structure and four universal moving wheels 15;

the bottom of the bottom plate 2 is provided with four sliding grooves with the same length, four sliding bodies 12 are movably connected in the sliding grooves, two ends of two synchronous beams 14 are respectively connected with the four sliding bodies 12, a pair of first telescopic motors 13 are attached to the tail, telescopic ends are oppositely fixed on the bottom plate 2 and are connected with the two synchronous beams 14, four limiting assemblies are fixed at the bottoms of the four sliding bodies 12, and four universal moving wheels 15 are positioned on the four limiting assemblies;

the spacing subassembly contains: the device comprises a main sleeve 16, an auxiliary sleeve 17, a pair of limiting blocks 18, a pair of pressing strips 19 and a plurality of pressing blocks 20;

the main sleeve 16 is connected with gliding mass 12 bottom, vice cover 17 is connected with universal moving wheel 15, vice cover 17 inserts in the main sleeve 16, it runs through the groove to have seted up on vice cover 17, a pair of stopper 18 swing joint runs through in the groove, can slide in running through the groove, spacing body with run through between the groove and be connected through the elastic component, a pair of layering 19 that press sets up in the main sleeve 16 outer wall, and a plurality of pressing blocks 20 distribute on pressing the strip 19, a plurality of spacing holes have been seted up to main sleeve 16 both sides, stopper 18 can insert in the spacing hole, press the spacing body of extrusion after the spacing hole can be passed to pressing blocks 20.

It should be noted that, in order to adapt to the widths of different waterproof layers, an adjustable moving structure is provided;

during specific operation, the connected synchronous beam 14 can be driven by the pair of first telescopic motors 13, and the synchronous beam 14 drives the sliding body 12 with two ends connected to move in the sliding groove on the bottom plate 2, so that the moving distance between universal wheels at the bottom of the sliding body 12 is adjusted;

when the height of the bottom plate 2 needs to be adjusted, the adjustment can be realized by sliding the auxiliary sleeve 17 in the main sleeve 16;

specifically, two limiting blocks 18 capable of sliding into the main sleeve 16 are arranged in the auxiliary sleeve 17, and the two limiting blocks 18 can also be quickly pressed by a pressing strip 19 to enable the limiting blocks to quickly return to the inside of the auxiliary sleeve 17, so that the auxiliary sleeve 17 is pulled to realize adjustment;

the pressing strip 19 is connected with the outer wall of the main sleeve 16 through an elastic body, for example: a spring.

Example 4

The material roll structure comprises: the device comprises a material roll frame 21, a material shaft 22, a screw 23 with threads at two ends, a pair of limiting discs 24 and a plurality of auxiliary pulleys 25;

the material roll frame 21 is arranged on the bottom plate 2, the material shaft 22 is erected on the material roll frame 21, the waterproof layer can be wound on the material shaft 22, the screw 23 penetrates through the material shaft 22 and then is meshed with the pair of limiting discs 24, and the auxiliary pulleys 25 are respectively positioned above the bottom, in the groove of the end face of the bottom, in the strip-shaped storage bin and at the bottom of the bottom.

After the waterproof layer is wound, the screw 23 is inserted into the material shaft 22, and two ends of the screw 23 are engaged with the pair of limiting discs 24, so that the waterproof layer on the material shaft 22 is fixed, and in a specific operation process, one side of the waterproof layer needs to penetrate through the auxiliary pulleys 25.

Preferably, the wire housing structure further includes: a wire box 26, a torsion spring 28 mounting bracket 27, a torsion spring 28, and a pulley 29;

the wire box 26 is arranged at the bottom of the bottom plate 2, the torsion spring 28 mounting frame 27 is positioned in the wire box 26, the torsion spring 28 is arranged on the torsion spring 28 mounting frame 27, and the wire wheel 29 is mounted on the torsion spring 28 mounting frame 27 through the torsion spring 28.

In the above, the wire wheel 29 is installed through the torsion spring 28, when the wire is not used, the wire can be automatically wound through the torsion spring 28, when the wire is used, one end of the wire and the connection part of the socket are fixed, and the wire is prevented from being separated from the socket after 1 in the drawing of the movable chassis;

example 5

The stirring structure includes: the device comprises a positioning disc 30, a mixing drum 31, a machine base 32, a movable column 33, a second telescopic motor 34, a motor 35 and a mixing blade 36;

positioning disk 30 and 31 bottom laminating of churn, frame 32 sets up on bottom plate 2, positioning disk 30 bottom has four locating pins, four locating holes have been seted up to frame 32 terminal surface, four locating pins can be inserted into four locating holes, movable post 33 sets up on bottom plate 2, and be located positioning disk 30 one side, be connected with on the movable post 33 and increase the post, this increase post upper end is provided with the crossbeam, the flexible motor 34 of second is located crossbeam central point, motor 35 is fixed in the flexible of the flexible motor 34 of second and serves, stirring leaf 36 is connected with the drive end of motor 35.

It should be noted that, cement, fine sand and sufficient water are first added into the mixing drum 31, then the second telescopic motor 34 is started to push the motor 35 to descend, so that the mixing blade 36 enters the mixing drum 31, then the motor 35 is started to drive the mixing blade 36, the mixing blade 36 will mix the materials in the mixing drum 31, and after the mixing is completed, the materials can be conveyed through the conveying structure.

Preferably, a fixing frame 37 is further provided at a connection portion of the telescopic end of the telescopic motor and the motor 35.

Preferably, a fixing frame 38 for fixing the electric push rod 4 is further provided between the electric push rod 4 and the base plate 2.

Preferably, a reinforcing rib 39 is provided between the heightening column and the cross beam.

Preferably, the transport structure further comprises: a pump body 40, a valve body 41, and a delivery pipe 42;

one end of the delivery pipe 42 is communicated with the mixing drum 31, the other end penetrates through the bottom plate 2, and the pump body 40 and the valve body 41 are communicated with the delivery pipe 42.

In the above, the pump body 40 generates a suction force to suck the material in the mixing drum 31, and the material is discharged through the delivery pipe 42 by controlling the flow rate of the valve body 41 to be scattered on the waterproof layer laid on the foundation.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (7)

1. A construction method of a foundation waterproof layer laying device is characterized in that,

the equipment comprises an underframe, a bottom plate, a moving structure and a pushing handle, wherein the bottom plate is arranged on the underframe, the moving structure is positioned at the bottom of the underframe, and the pushing handle is connected with the bottom of the underframe;

the bottom plate is provided with a material roll structure, the bottom of the bottom plate is provided with a strip-shaped discharging bin matched with a material roll for use, the bottom of the bottom plate is provided with an electric wire containing structure, one end part of the bottom plate is provided with a stirring structure, and the outer wall of the bottom frame is provided with a scraping structure;

the strike-off structure comprises: the device comprises an electric push rod, a module mounting frame, a pair of telescopic frames, a linear module translation table, a pair of linear rails, a pair of rail sliding parts, a synchronous mounting beam and a scraper plate;

the electric push rod is fixed on the outer wall of the bottom frame through a fixing frame, the telescopic end of the electric push rod faces downwards, the module mounting frame is connected with the telescopic end of the electric push rod, the linear module translation table is embedded on the module mounting frame, a moving end is arranged on the linear module translation table, the pair of linear rails are laid on the module mounting frame, the pair of rail sliding pieces are movably mounted on the pair of linear rails, the moving end of the linear module translation table is connected with the pair of rail sliding pieces through the synchronous mounting beam, and the scraper is arranged on the synchronous mounting beam;

the moving structure includes: the device comprises four sliding bodies with the same structure, a pair of first telescopic motors, two synchronous beams, four limiting assemblies with the same structure and four universal moving wheels;

the bottom of the bottom plate is provided with four sliding grooves with the same length, the four sliding bodies are movably connected in the sliding grooves, two ends of two synchronous beams are respectively connected with the four sliding bodies, the tails of the pair of first telescopic motors are attached to each other, the telescopic ends are reversely fixed on the bottom plate and are connected with the two synchronous beams, four limiting assemblies are fixed at the bottoms of the four sliding bodies, and four universal moving wheels are positioned on the four limiting assemblies;

the spacing subassembly contains: the pressing device comprises a main sleeve, an auxiliary sleeve, a pair of limiting blocks, a pair of pressing strips and a plurality of pressing blocks;

the main sleeve is connected with the bottom of the sliding body, the auxiliary sleeve is connected with the universal moving wheel, the auxiliary sleeve is inserted into the main sleeve, a through groove is formed in the auxiliary sleeve, the pair of limiting blocks are movably connected in the through groove and can slide in the through groove, the limiting blocks and the through groove are connected through an elastic piece, the pair of pressing strips are arranged on the outer wall of the main sleeve, the plurality of pressing blocks are distributed on the pressing strips, a plurality of limiting holes are formed in two sides of the main sleeve, the limiting blocks can be inserted into the limiting holes, and the limiting blocks can be extruded after passing through the limiting holes;

the stirring structure comprises: the device comprises a positioning disc, a stirring drum, a machine base, a movable column, a second telescopic motor, a motor and stirring blades;

the positioning disc is attached to the bottom of the stirring cylinder, the base is arranged on the bottom plate, four positioning pins are arranged at the bottom of the positioning disc, four positioning holes are formed in the end face of the base, the four positioning pins can be inserted into the four positioning holes, the movable column is arranged on the bottom plate and located on one side of the positioning disc, a height increasing column is connected to the movable column, a cross beam is arranged at the upper end of the height increasing column, the second telescopic motor is located in the center of the cross beam, the motor is fixed to the telescopic end of the second telescopic motor, the stirring blades are connected with the driving end of the motor, and the stirring cylinder is connected with a conveying structure;

the method comprises the following steps:

s1: winding the waterproof layer on the material roll structure, and then adjusting the distance between the opposite wheel bodies in the moving structure according to the area of field construction;

s2, after the step S1 is completed, manually adding the cement, the sand and the water into a stirring structure, and setting the stirring structure to stir for 30 min;

s3: after the step of S2 is completed, the wire housing structure is connected to a power supply, so that other structures are effectively controlled;

s4, manually pushing the bottom plate by a pushing handle, firstly stretching the waterproof layer on the material roll to the outside of the strip-shaped discharging bin, fixing the waterproof layer at the initial position of the foundation, and then controlling the output concrete in the stirring structure to press the waterproof layer;

s5, pulling the bottom plate to move through the moving structure and work by the scraping structure;

and S6, the scraping structure scrapes the concrete on the waterproof layer.

2. The construction method of a ground waterproof layer laying apparatus according to claim 1, wherein the material roll structure comprises: the device comprises a material roll frame, a material shaft, a screw rod with threads at two ends, a pair of limiting discs and a plurality of auxiliary pulleys;

the material roll frame is arranged on the bottom plate, the material shaft is arranged on the material roll frame in an overlapping mode, the waterproof layer can be wound on the material shaft, the screw penetrates through the material shaft and then is meshed with the pair of limiting discs, and the auxiliary pulleys are respectively located above the bottom and in the groove of the end face of the bottom, in the strip-shaped storage bin and at the bottom.

3. The construction method of a ground waterproof layer laying equipment according to claim 1, wherein the electric wire housing structure comprises: the wire box, the torsion spring mounting rack, the torsion spring and the wire wheel;

the wire box is arranged at the bottom of the bottom plate, the torsion spring mounting frame is located in the wire box, the torsion spring is arranged on the torsion spring mounting frame, and the wire wheel is mounted on the torsion spring mounting frame through the torsion spring.

4. The construction method of the ground waterproof layer laying equipment according to claim 1, wherein a fixing frame is arranged at a connection part of the telescopic end of the second telescopic motor and the motor.

5. The construction method of the ground waterproof layer laying equipment according to claim 1, wherein a fixing frame for fixing the electric push rod is arranged between the electric push rod and the bottom plate.

6. The construction method of a foundation waterproof layer laying equipment according to claim 1, wherein a reinforcing rib is provided between the heightening column and the cross beam.

7. The construction method of a ground waterproof layer laying apparatus according to claim 1, wherein the transfer structure comprises: the pump body, the valve body and the conveying pipeline;

one end of the conveying pipeline is communicated with the stirring cylinder, the other end of the conveying pipeline penetrates through the bottom plate, and the pump body and the valve body are communicated with the conveying pipeline.

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