CN219315684U - Downthehole deep dynamic compaction pile machine with quality management device - Google Patents

Abstract

The utility model discloses a pile driver with a quality management device for deep dynamic compaction in a hole, which relates to the technical field of pile drivers and comprises the following components: the pile driver comprises a pile driver main body and a quality management device, wherein the pile driver main body is provided with a winch, a rope body and a pulley, the rope body bypasses the pulley, a first end of the rope body is connected with the winch, and a second end of the rope body is connected with a pile hammer; the quality management device comprises a controller, a swing monitoring device and/or a rope length monitoring device, wherein the swing monitoring device is used for monitoring and/or collecting the slack state signal and/or data of the rope body, and the controller is used for controlling the winch after receiving the slack state signal and/or data of the rope body; the rope length monitoring device is used for monitoring and/or collecting rope length signals and/or data of the rope body, and the controller is used for controlling the winch after receiving the rope length signals and/or data. The utility model can be used for monitoring and/or collecting signals and/or data of the slack state and/or the rope length of the rope.

Description

Downthehole deep dynamic compaction pile machine with quality management device

Technical Field

The utility model relates to the technical field of pile drivers, in particular to a deep-hole dynamic compaction pile driver with a quality management device.

Background

The hoisting pile driver has the advantages of high bearing capacity, wide application range, low cost and the like, and the core mechanism is that the hoisting pile driver is used for hoisting and dropping a pile driving hammer to soil with a certain depth and range until a pile body is formed.

The existing pile driving machines are all manually operated, so that the driving depth cannot be judged. And the gravity center of the pile driver is easy to change due to the up-and-down movement of the pile hammer, so that the side-turning safety accident occurs.

A sensor is arranged in the existing pile driver and is used for monitoring the descending degree of the pile hammer and determining whether the pile hammer is tamped or not. However, if the accuracy of the monitoring method is not too high, the monitoring accuracy of the pile hammer can be greatly improved if the method for monitoring the rope length can be combined. However, there is no example of the prior art that incorporates rope length monitoring methods.

Therefore, a new pile driver is urgently needed in the market for solving the above problems.

Disclosure of Invention

The utility model aims to provide a pile driver with a quality management device for deep dynamic compaction in a hole, which is used for solving the technical problems in the prior art, and judging whether a pile hammer falls down to a static state or not, so that a winch is timely controlled to timely brake the pile hammer, a rope receiving body and a rope releasing body, and the pile quality is ensured and the pile construction period progress is ensured.

In order to achieve the above object, the present utility model provides the following solutions:

the utility model discloses a pile driver for deep dynamic compaction in a hole with a quality management device, which comprises: the pile driver comprises a pile driver main body and a quality management device, wherein the pile driver main body is provided with a winch, a rope body and a pulley, the rope body bypasses the pulley, a first end of the rope body is connected with the winch, and a second end of the rope body is connected with a pile hammer; the quality management device comprises a controller, a swing monitoring device and/or a rope length monitoring device, wherein the swing monitoring device is used for monitoring and/or collecting the slack state signals and/or data of the rope body, the swing monitoring device is used for sending the slack state signals and/or data of the rope body to the controller, the controller is connected with the winch, and the controller is used for controlling the winch after receiving the slack state signals and/or data of the rope body; the rope length monitoring device is used for monitoring and/or collecting rope length signals and/or data of the rope body and sending the rope length signals and/or data to the controller, the controller is connected with the winch, and the controller is used for controlling the winch after receiving the rope length signals and/or data.

Preferably, the swing monitoring device comprises a swing monitoring pulley and a swing monitoring proximity switch, the swing monitoring proximity switch is fixed below the swing monitoring pulley, the rope body is positioned above the swing monitoring proximity switch when being tightened, and the rope body can fall into the sensing range of the swing monitoring proximity switch when being loosened.

Preferably, the swing monitoring pulley is fixed on a swing monitoring support frame, two sides of the swing monitoring support frame are respectively provided with a fixed side plate, the fixed side plates are provided with fixed holes, and the fixed holes can be used for fixing the swing monitoring proximity switch;

the fixed hole is fixedly provided with a plurality of swinging monitoring proximity switches, and the swinging monitoring proximity switches on the fixed hole are distributed up and down.

Preferably, the rope length monitoring device comprises a rope length monitoring proximity switch and a rope length monitoring gear disc, wherein the rope length monitoring proximity switch is fixed on one side of the rope length monitoring gear disc, and the rope length monitoring proximity switch is used for monitoring and/or collecting rope length signals and/or data of a rope body.

Preferably, the rope length monitoring gear disc is arranged at a winding drum of the winding machine or on the pile driver main body, one side of the rope length monitoring gear disc is fixed with a fixing frame, a plurality of rope length monitoring proximity switches are fixed on the fixing frame, and the distance between the rope length monitoring proximity switches and the rope length monitoring gear disc is 0-400 mm;

the tooth width of the rope length monitoring gear disc is larger than or equal to the diameter of the rope length monitoring proximity switch.

Preferably, the rope length monitoring proximity switch and the rope length monitoring gear plate can be used for generating rope length signals and/or data of a rope body, the controller can be used for judging forward and reverse rotation of the rope length monitoring gear plate, and the controller can be used for calculating rope unreeling amount and rope reeling amount of the rope body through the number of the forward and reverse rotation of the rope length monitoring gear plate and the pulse number of high and low level caused by switching on and switching off of the rope length monitoring proximity switch.

Preferably, the controller is an A/B phase quadrature counter and/or a programmable logic controller or a micro-program controller, and the swing monitoring proximity switch and/or the rope length monitoring proximity switch are/is connected with the controller.

Preferably, the rope length measuring device further comprises an encoder, wherein the encoder is connected with a controller, or the swinging monitoring proximity switch and/or the rope length monitoring proximity switch and the controller are connected with the encoder, and the controller is used for receiving signals and/or data of the loosening state of the rope body and/or the rope length of the rope body, which are monitored and/or collected by the swinging monitoring proximity switch and/or the rope length monitoring proximity switch, and is used for measuring the rope length of the winding and unwinding operation of the rope body on the winding machine through the encoder.

Preferably, the pile driver main body comprises a pile driver platform, wherein a power device and a pile frame are arranged on the upper surface of the pile driver platform, the output end of the power device is in transmission connection with the input end of the winch, the pulley is fixed on the upper end of the pile frame or the upper surface of the pile driver platform, and the lower end of the pile frame is fixed on the upper surface of the pile driver platform;

the lower surface of the pile driver platform is provided with a walking device, and the walking device is a walking mechanism or a crawler or wheels.

Preferably, the power device comprises an engine, a hydraulic pump, a hydraulic valve and a hydraulic motor, wherein an output shaft of the engine is connected with a power input shaft of the hydraulic pump, the engine is used for driving the hydraulic pump to work, the hydraulic pump and the hydraulic valve are both arranged on a hydraulic pipeline, a first end of the hydraulic pipeline is connected with a hydraulic source, a second end of the hydraulic pipeline is connected with the hydraulic motor, the hydraulic pump and the hydraulic valve are used for controlling the hydraulic pipeline to provide hydraulic power for the hydraulic motor, a power output of the hydraulic motor is connected with a power input of the winch, and the hydraulic motor drives a roller of the winch to rotate so as to realize winding and unwinding operations of the rope.

Preferably, an electrical cabinet is fixed on the pile driver platform, a man-machine control panel is arranged on the electrical cabinet, the electrical cabinet is connected with the controller, and the man-machine control panel is used for setting parameters of the controller.

Preferably, the winch is an empty fast-release winch or a loaded fast-release winch or a free-release winch, and the maximum pulling force of a single rope of the empty fast-release winch or the loaded fast-release winch or the free-release winch is 2 tons-36 tons.

Compared with the prior art, the utility model has the following technical effects:

the utility model has a quality management device, can detect the state of the rope body in real time, so that the controller can judge whether the pile hammer falls to a static state from the falling state or not, and can timely control the winch to brake the pile hammer and retract and release the rope body. Therefore, the pile hammer can fully act on pile body filler in a pile hole, the problem of excessive rope releasing quantity of a rope body caused by too late braking of a winch can be avoided, quality management of the pile machine in the pile driving process is realized, pile driving quality is ensured, pile driving efficiency is improved, and the progress of a pile driving construction period is ensured; the swing monitoring device is used for monitoring and/or collecting the slack state signals and/or data of the rope body, and the rope length monitoring device is used for monitoring and/or collecting the rope length pay-off signals and/or data of the rope body.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a pile machine for deep dynamic compaction in a hole with a quality management device according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a swing monitoring device in a deep dynamic compaction pile machine in a hole with a quality management device according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a rope length monitoring gear disc in a pile machine with a quality management device for deep dynamic compaction in a hole according to an embodiment of the present utility model;

in the figure: 1-a pile driver platform; 2-power means; 3-a winch; 4-swinging the monitoring pulley; 5-inclined support; 6-rope body; 7-pulleys; 8-an electrical cabinet; 9-piling hammer; 10-pile frame; 11-a controller; 12-a walking device; 13-swinging monitoring proximity switch; 14-fixing the side plates; 28-rope length monitoring gear disc; 29-rope length monitoring proximity switch.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model aims to provide a pile driver with a quality management device for deep dynamic compaction in a hole, which is used for solving the technical problems in the prior art, and can judge that a pile hammer falls to a static state, so that a winch can be timely controlled to timely brake the pile hammer and a rope receiving and releasing body, and the pile quality is ensured and the progress of a pile construction period is ensured.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1-3, the present embodiment provides a pile driver with a quality management device for deep dynamic compaction in a hole, which includes: pile driver main part and quality management device are equipped with hoist engine 3, rope body 6 and pulley 7 on the pile driver main part, and pulley 7 is walked around to rope body 6, and pulley 7 is used for playing a guide's effect to rope body 6. The first end of the rope body 6 is connected with the winch 3, and the second end of the rope body 6 is connected with a pile hammer 9; the quality management device comprises a controller 11, a swinging monitoring device and/or a rope length monitoring device, wherein the swinging monitoring device is used for monitoring and/or collecting the slack state signals and/or data of the rope body 6, the swinging monitoring device is used for sending the slack state signals and/or data of the rope body 6 to the controller 11, the controller 11 is connected with the winch 3, and the controller 11 is used for controlling the winch 3 after receiving the slack state signals and/or data of the rope body 6; the rope length monitoring device is used for monitoring and/or collecting rope length signals and/or data of the rope body 6, and is used for sending the rope length signals and/or data signals to the controller 11, the controller 11 is connected with the winch 3, and the controller 11 is used for controlling the winch 3 after receiving the rope length signals and/or data.

When the device is used, the controller 11 controls the braking and the clutch of the winch 3 according to signals and/or data of the swing monitoring device and/or the rope length monitoring device of the rope body 6, when the controller 11 controls the clutch of the winch 3 to be released, the rope body 6 and the pile hammer 9 fall down, and when the rope body 6 and the pile hammer 9 fall into the hole filling after hole forming. The pile hammer 9 is in a static state, the rope body 6 connected with the pile hammer 9 swings due to loosening, so that the swinging monitoring device triggers to monitor and/or collect signals and/or data of the loosening state of the rope body 6 according to swinging of the rope body 6, and/or the rope length monitoring device monitors and/or collects signals and/or data of the rope length of the rope body 6, the swinging monitoring device and/or the rope length monitoring device generate signals and/or data and transmit the signals and/or data to the controller 11, and the controller 11 controls braking of the winch 3 to tighten, so that the rope body 6 and the pile hammer 9 are in a static state in the hole filling after hole forming. The controller 11 controls the braking and the clutch of the winch 3 according to signals and/or data of the swinging monitoring device and/or the rope length monitoring device of the rope body 6, and when the controller 11 controls the clutch of the winch 3 to be tightened and the brake of the winch 3 to be loosened, the rope body 6 and the pile hammer 9 are separated from a static state in the hole filling material after hole forming, and the rope body 6 and the pile hammer 9 ascend. The rope body 6 and the pile hammer 9 are in a tight state in the falling and rising processes, the swinging monitoring device switch cannot be triggered due to swinging of the rope body 6, and/or the rope length monitoring device can continuously meter the rope length of the rope body.

In this embodiment, the swing monitoring device includes a swing monitoring pulley 4 and a swing monitoring proximity switch 13, the swing monitoring proximity switch 13 is fixed below the swing monitoring pulley 4, the rope 6 is located above the swing monitoring proximity switch 13 when being tight, and the rope 6 falls into the sensing range of the swing monitoring proximity switch 13 when being loose.

In this embodiment, the swing monitoring pulley 4 is fixed on a swing monitoring support frame, two sides of the swing monitoring support frame are respectively provided with a fixed side plate 14, the fixed side plates 14 are provided with fixing holes, and the fixing holes can be used for fixing the swing monitoring proximity switch 13;

be fixed with a plurality of swing monitoring proximity switch 13 on the fixed orifices, a plurality of swing monitoring proximity switch 13 on the fixed orifices distributes from top to bottom, and in this embodiment, every fixed orifices department is equipped with two swing monitoring proximity switches 13 and distributes from top to bottom, and the person skilled in the art can also set up three or more to this provides swing monitoring device's accuracy.

In this embodiment, the rope length monitoring device includes a rope length monitoring proximity switch 29 and a rope length monitoring gear 28, the rope length monitoring proximity switch 29 is fixed on one side of the rope length monitoring gear 28, the rope length monitoring proximity switch 29 is used for monitoring and/or collecting rope length signals and/or data of the rope body 6, the rope length monitoring proximity switch 29 is used for monitoring and/or collecting the direction and the number of the rotation of the disk teeth on the rope length monitoring gear 28, that is, the rope winding amount or the rope unwinding amount of the rope body 6, and the forward rotation or the reverse rotation of the rope length monitoring gear 28 corresponds to the rope winding or unwinding process of the rope body 6 respectively.

In this embodiment, the rope length monitoring gear 28 is disposed at the reel of the hoist 3 or on the pile driver main body, one side of the rope length monitoring gear 28 is fixed with a fixing frame, and a plurality of rope length monitoring proximity switches 29, typically two or three or more, are fixed on the fixing frame, so as to improve the measurement accuracy. The distance between the rope length monitoring proximity switch 29 and the rope length monitoring gear disk 28 is 0mm-400mm so as to ensure that the rope length monitoring proximity switch 29 can monitor and/or collect the rotation direction and quantity of the disk teeth on the rope length monitoring gear disk 28;

the tooth width of the rope length monitoring gear disk 28 is equal to or larger than the diameter of the rope length monitoring proximity switch 29, and only then can the rotation of the disk teeth be monitored and/or collected.

In the present embodiment, the controller 11 is an a/B phase quadrature counter and/or a programmable logic controller or a micro-program controller, i.e. the controller 11 may be an a/B phase quadrature counter or a programmable logic controller or a micro-program controller, or an a/B phase quadrature counter and a programmable logic controller, or an a/B phase quadrature counter and a micro-program controller. The swing monitoring proximity switch 13 and/or the rope length monitoring proximity switch 29 are connected to the controller 11.

In this embodiment, the rope length monitoring proximity switch 29 and the rope length monitoring gear 28 can be used to generate rope length signals and/or data of the rope body, the controller 11 can be used to determine the forward and reverse rotation of the rope length monitoring gear 28, and the controller 11 can be used to calculate the rope unwinding amount and the rope winding amount of the rope body 6 by the number of rotations of the forward and reverse rotation of the rope length monitoring gear 28 and the number of pulses of high and low level caused by the switching and closing of the rope length monitoring proximity switch 29.

In this embodiment, an encoder is further included, and the encoder is connected to the controller 11, or the swing monitoring proximity switch 13 and/or the rope length monitoring proximity switch 29 and the controller 11 are connected to the encoder. Specifically, the controller 11 is configured to receive signals and/or data of the slack state of the rope 6 and/or the rope length of the rope 6, which are monitored and/or collected by the swing monitoring proximity switch 13 and/or the rope length monitoring proximity switch 29, and to measure the rope length of the winding and unwinding operation of the rope 6 for the winding machine 3 through the encoder based on the signals and/or data of the slack state of the rope 6 and/or the rope length of the rope 6.

In this embodiment, the pile driver main body includes a pile driver platform 1, the upper surface of the pile driver platform 1 is provided with a power device 2 and a pile frame 10, the pile frame 10 is a T-shaped frame, including a cross bar and a vertical bar, the cross bar is fixed at the upper end of the vertical bar, the lower end of the vertical bar is fixed at the upper surface of the pile driver platform 1, in order to improve the stability of the pile frame 10, an inclined support 5 is further provided, the inclined support 5 is obliquely arranged, two ends of the inclined support 5 are respectively fixed on the pile driver platform 1 and the vertical bar, the output end of the power device 2 is in transmission connection with the input end of the hoist 3, a pulley 7 is fixed at the upper end of the pile frame 10 or the upper surface of the pile driver platform 1, and the lower end of the pile frame 10 is fixed at the upper surface of the pile driver platform 1;

the lower surface of the pile driver platform 1 is provided with a running gear 12, and the running gear 12 is a walking mechanism or a crawler or wheels, which are all of the prior art, so that the description is omitted.

In this embodiment, the power device 2 includes an engine, a hydraulic pump, a hydraulic valve and a hydraulic motor, the output shaft of the engine is connected with the power input shaft of the hydraulic pump, the engine is used for driving the hydraulic pump to work, the hydraulic pump and the hydraulic valve are both arranged on a hydraulic pipeline, the first end of the hydraulic pipeline is connected with a hydraulic source, the second end of the hydraulic pipeline is connected with the hydraulic motor, the hydraulic pump and the hydraulic valve are used for controlling the hydraulic pipeline to provide hydraulic power for the hydraulic motor, the power output of the hydraulic motor is connected with the power input of the winch 3, and the hydraulic motor drives the drum of the winch 3 to rotate so as to realize the winding and unwinding operation of the rope 6.

In this embodiment, an electrical cabinet 8 is fixed on the pile driver platform 1, a man-machine control panel is provided on the electrical cabinet 8, the electrical cabinet 8 is connected with a controller 11, and the man-machine control panel is used for parameter setting of the controller 11. When the controller is used, a worker only needs to input expected parameters to the man-machine control panel, and the man-machine control panel transmits control signals to the controller 11.

In this embodiment, the hoist 3 is an empty fast-release hoist 3 or a loaded fast-release hoist 3 or a free-drop hoist 3, and the maximum pulling force of a single rope of the empty fast-release hoist 3 or the loaded fast-release hoist 3 or the free-drop hoist 3 is 2 tons to 36 tons. Other existing types of windlass 3 may be used by those skilled in the art.

The principles and embodiments of the present utility model have been described in this specification with reference to specific examples, the description of which is only for the purpose of aiding in understanding the method of the present utility model and its core ideas; also, it is within the scope of the present utility model to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the utility model.

Claims (12)

1. The utility model provides a downthehole deep dynamic compaction stake machine with quality management device which characterized in that includes: the pile driver comprises a pile driver main body and a quality management device, wherein the pile driver main body is provided with a winch, a rope body and a pulley, the rope body bypasses the pulley, a first end of the rope body is connected with the winch, and a second end of the rope body is connected with a pile hammer; the quality management device comprises a controller, a swing monitoring device and/or a rope length monitoring device, wherein the swing monitoring device is used for monitoring and/or collecting the slack state signals and/or data of the rope body, the swing monitoring device is used for sending the slack state signals and/or data of the rope body to the controller, the controller is connected with the winch, and the controller is used for controlling the winch after receiving the slack state signals and/or data of the rope body; the rope length monitoring device is used for monitoring and/or collecting rope length signals and/or data of the rope body and sending the rope length signals and/or data to the controller, the controller is connected with the winch, and the controller is used for controlling the winch after receiving the rope length signals and/or data.

2. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 1, wherein: the swing monitoring device comprises a swing monitoring pulley and a swing monitoring proximity switch, the swing monitoring proximity switch is fixed below the swing monitoring pulley, the rope body is positioned above the swing monitoring proximity switch when being tightened, and the rope body can fall into the induction range of the swing monitoring proximity switch when being loosened.

3. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 2, wherein: the swing monitoring pulley is fixed on the swing monitoring support frame, two sides of the swing monitoring support frame are respectively provided with a fixed side plate, the fixed side plates are provided with fixed holes, and the fixed holes can be used for fixing the swing monitoring proximity switch;

the fixed hole is fixedly provided with a plurality of swinging monitoring proximity switches, and the swinging monitoring proximity switches on the fixed hole are distributed up and down.

4. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 2, wherein: the rope length monitoring device comprises a rope length monitoring proximity switch and a rope length monitoring gear disc, wherein the rope length monitoring proximity switch is fixed on one side of the rope length monitoring gear disc, and the rope length monitoring proximity switch is used for monitoring and/or collecting rope length signals and/or data of a rope body.

5. The deep dynamic compaction pile driver in a hole with a quality management device according to claim 4, wherein: the rope length monitoring gear disc is arranged at a winding drum of the winch or on the pile driver main body, one side of the rope length monitoring gear disc is fixedly provided with a fixing frame, a plurality of rope length monitoring proximity switches are fixedly arranged on the fixing frame, and the distance between the rope length monitoring proximity switches and the rope length monitoring gear disc is 0-400 mm;

the tooth width of the rope length monitoring gear disc is larger than or equal to the diameter of the rope length monitoring proximity switch.

6. The deep dynamic compaction pile driver in a hole with a quality management device according to claim 4, wherein: the rope length monitoring proximity switch and the rope length monitoring gear plate can be used for generating rope length signals and/or data of a rope body, the controller can be used for judging forward and reverse rotation of the rope length monitoring gear plate, and the controller can be used for calculating rope unreeling amount and rope reeling amount of the rope body through the rotation number of the forward and reverse rotation of the rope length monitoring gear plate and the pulse number of high and low level caused by the switching and closing of the rope length monitoring proximity switch.

7. The deep dynamic compaction pile driver in a hole with a quality management device according to claim 4, wherein: the controller is an A/B phase orthogonal counter and/or a programmable logic controller or a micro-program controller, and the swing monitoring proximity switch and/or the rope length monitoring proximity switch are/is connected with the controller.

8. The deep dynamic compaction pile driver in a hole with a quality management device according to claim 4, wherein: the rope length measuring device is characterized by further comprising an encoder, wherein the encoder is connected with a controller, or the swinging monitoring proximity switch and/or the rope length monitoring proximity switch and the controller are connected with the encoder, and the controller is used for receiving the loosening state of the rope body and/or the rope length signal and/or data of the rope body, which are monitored and/or collected by the swinging monitoring proximity switch and/or the rope length monitoring proximity switch, and is used for measuring the rope length of the winding machine by the encoder.

9. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 1, wherein: the pile driver main body comprises a pile driver platform, wherein a power device and a pile frame are arranged on the upper surface of the pile driver platform, the output end of the power device is in transmission connection with the input end of the winch, the pulley is fixed at the upper end of the pile frame or the upper surface of the pile driver platform, and the lower end of the pile frame is fixed at the upper surface of the pile driver platform;

the lower surface of the pile driver platform is provided with a walking device, and the walking device is a walking mechanism or a crawler or wheels.

10. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 9, wherein: the power device comprises an engine, a hydraulic pump, a hydraulic valve and a hydraulic motor, wherein an output shaft of the engine is connected with a power input shaft of the hydraulic pump, the engine is used for driving the hydraulic pump to work, the hydraulic pump and the hydraulic valve are both arranged on a hydraulic pipeline, a first end of the hydraulic pipeline is connected with a hydraulic source, a second end of the hydraulic pipeline is connected with the hydraulic motor, the hydraulic pump and the hydraulic valve are used for controlling the hydraulic pipeline to provide hydraulic power for the hydraulic motor, the power output of the hydraulic motor is connected with the power input of the winch, and the hydraulic motor drives a roller of the winch to rotate so as to realize the winding and unwinding operation of the rope.

11. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 9, wherein: the pile machine platform is fixedly provided with an electric cabinet, the electric cabinet is provided with a man-machine control panel, the electric cabinet is connected with the controller, and the man-machine control panel is used for setting parameters of the controller.

12. The in-hole deep dynamic compaction pile machine with the quality management device according to claim 1, wherein: the hoisting machine is an empty-load fast-release hoisting machine or an on-load fast-release hoisting machine or a free-drop hoisting machine, and the maximum pulling force of a single rope of the empty-load fast-release hoisting machine or the on-load fast-release hoisting machine or the free-drop hoisting machine is 2 tons-36 tons.

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