CN215801583U - Wisdom deep mixing stake monitoring system - Google Patents

Abstract

The utility model discloses an intelligent deep mixing pile monitoring system which is characterized by comprising a mixing pile unit, a monitoring unit, a vibration frequency unit and a data monitoring platform, wherein the vibration frequency unit comprises a boundary module and a center module, and the center module is used for sensing the vibration frequency of a construction point to a construction center; the boundary module is used for sensing the vibration frequency of the construction point on the periphery of the construction point; the mixing pile unit is used for excavating the construction points, spraying and mixing and adding the admixture according to the soil property information; the data monitoring platform is used for receiving and displaying position information and vibration frequency of the boundary module and the central module, position information, depth information, flow information, inclination angle information, density information of the monitoring unit and soil property information of different construction points, and the stirring pile monitoring system can rapidly know construction progress, monitor quality problems in real time and monitor various conditions of a stirring pile.

Description

Wisdom deep mixing stake monitoring system

Technical Field

The utility model relates to a mixing pile monitoring system, in particular to an intelligent deep mixing pile monitoring system.

Background

The deep cement mixing pile is a mechanical equipment, and utilizes cement as solidifying agent, and utilizes the deep mixing machine to forcedly mix soft soil or sand and solidifying agent into the foundation so as to make the soft foundation be hardened and raise the strength of foundation.

In the traditional construction, the construction site is required to be monitored and the construction information is recorded by personnel all the time, the time and the labor are wasted, the manual recording error exists, and the management of the construction data is inconvenient. The owner, the construction unit and the supervision can not master the condition of the construction site in real time. Owners, construction units and supervisors often only obtain result data, but cannot obtain information in specific construction process data. The conditions of construction progress, quality and the like can not be known clearly by the owners, construction units and supervision through visual data; it is not possible to conveniently acquire specific data information. The user is used as the center, so that the construction cost is reduced to the maximum extent, and the construction quality is ensured. The owner, the construction unit and the supervision can timely and accurately master and monitor the construction quality, the engineering measurement, the construction progress information and other information through a computer, and master the site construction condition.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the intelligent deep mixing pile monitoring system which can quickly know the construction progress, monitor the quality problem in real time and monitor the multi-aspect conditions of the mixing pile.

In order to achieve the purpose, the utility model provides the following technical scheme: an intelligent deep mixing pile monitoring system comprises a mixing pile unit, a monitoring unit, a vibration frequency unit and a data monitoring platform, wherein the data monitoring platform is in communication connection with the mixing pile unit, the monitoring unit and the vibration frequency unit respectively;

the vibration frequency unit comprises a boundary module and a center module, and the center module is installed in the center of a construction site and used for sensing the vibration frequency of the construction site to the construction center; the boundary modules are provided with a plurality of peripheral sides which are installed on a construction site and used for sensing the vibration frequency of the construction site on the peripheral sides;

the monitoring unit is used for monitoring position information, depth information, flow information, inclination angle information, density information, pressure information and soil property information of different depths of a construction point of the mixing pile unit;

the mixing pile unit is used for excavating a construction point, spraying and mixing and adding an additive according to soil property information;

the data monitoring platform is used for receiving and displaying position information and vibration frequency of the boundary module and the central module, position information, depth information, flow information, inclination angle information, density information of the monitoring unit and soil property information of different depths of a construction point.

The utility model is further configured to: the stirring stake unit is including stirring stake body and the lifting unit and the whitewashing device that are used for driving stirring stake body to remove and mix the agent device outward, be provided with whitewashing mouth and spraying mouth on the stirring stake body, the whitewashing device carries out the whitewashing operation through the whitewashing mouth, mix the agent device outward and carry out corresponding spraying operation through the spraying mouth according to soil property information.

The utility model is further configured to: the monitoring unit is including setting up the soil property detector on stirring stake body, the soil property detector is including offering the soil property collection chamber on stirring stake body and setting up the soil property collection board on stirring stake body and being used for controlling soil property collection board pivoted upset motor and setting up the determine part in soil property collection intracavity, and when the lifting unit drive stirring stake in-process that moves down, upset motor control soil property collection board progressively rotates and makes the soil piece pile up on the soil property collection board of slope.

The utility model is further configured to: the soil property detector is provided with a plurality of soil property information for detecting different depth ranges, the outer admixture device is arranged in a plurality of groups and used for providing different outer admixtures, and the stirring pile body sprays corresponding outer admixtures according to the different soil property information.

The utility model is further configured to: the soil property collecting plate is provided with a plurality of ventilation holes, the ventilation holes are all provided with filter screens, the stirring pile body is provided with an air control device, and the air control device performs air suction or air blowing operation through the ventilation holes.

The utility model is further configured to: the side edge of the mixing pile body is also provided with a punching part, and the punching part is used for digging an injection and extrusion hole with an obliquely upward opening;

when the soil property detector detects the soil property information of the first stroke, the punching component performs punching operation on the middle part of the first stroke.

The utility model is further configured to: the punching part comprises a moving rod, a punching head and a driving cylinder for driving the moving rod to move, and the punching head is arranged at one end, far away from the driving cylinder, of the moving rod.

The utility model is further configured to: the punching head comprises a punching left head, a punching right head and a separating structure used for driving the punching left head and the punching right head to move separately, the external agent mixing device comprises an external mixing pipe, and a through hole for the external mixing pipe to pass through is formed in the movable rod.

The utility model is further configured to: the monitoring unit is including degree of depth sensor, electromagnetic flowmeter, current transformer, inclination sensor, pressure sensor, density sensor and record module, record module is connected with degree of depth sensor, electromagnetic flowmeter, current transformer, inclination sensor, pressure sensor, density sensor electricity respectively, record module is used for the distribution situation of record slip casting volume, the position condition of stirring stake body and the slope condition of stirring stake body.

In conclusion, the utility model has the following beneficial effects: the construction site is comprehensively monitored, the construction range is determined, the boundary modules are arranged along the peripheral sides of the construction site to outline the construction site, then the center module is arranged at the center of the construction site, the data detection platform constructs construction site space information according to the position information of the boundary modules and the center module, in addition, the construction site space information is sent to the data detection platform, the platform calculates site piling arrangement information according to the information of the piling quantity, piling distance, piling diameter length and the like, in addition, the data detection platform can be directly connected with a 3D printing module, an indicating piece (the indicating piece comprises a punching indicating piece and a distance indicating piece between adjacent punching indicating pieces) is directly punched through the 3D printing module, only the subsequent constructors need to spread and arrange the boundary modules and the center module, the operation is convenient, and workers do not need to draw punching points in the site, thereby mentioning the effect of saving manual operations.

According to positional information, degree of depth information, flow information, inclination information, density information, the pressure information that the monitoring unit acquireed again, in stirring stake unit course of operation, can produce the vibration effect, judge the position of work stirring stake body through the vibration frequency of boundary module, central module response, and generate the vibration wave simulation, this benefit has: 1. the position of the working mixing pile can be conveniently and visually seen by monitoring personnel; 2. therefore, the soil layer hardness is judged by knowing the vibration wave strength (the vibration wave is more obvious when the soil layer is harder), the soil layer condition is known in a turning way, and the operation of the stirring pile is reasonably controlled.

In addition, as the cement strength of the cement mixing pile under the geological condition of the silty clay is not higher than that of cement under the sandy soil condition, the cement strength of the cement mixing pile is greatly influenced by the size of soil particles, the silty soil has smaller particles, and the liquid limit and the plastic limit of the silty soil have higher values, so the strength is lower, the cement strength of the clay backfill and the soil particles of the gray clay layer is also improved, the soil particles of the brown clay layer are further increased, and the cement strength of the cement soil is further improved. In conclusion, the soil category is the main factor of the strength of the cement soil. Therefore, the monitoring unit is also used for detecting soil quality information of conditions at different depths, and the operation of adding the admixture is carried out by the stirring pile unit according to the difference of the soil quality information to improve the characteristic of local slurry, so that each section after pile forming is maintained in an optimal state as much as possible, and the stability and the service life of the pile forming are improved.

Drawings

FIG. 1 is a schematic diagram of an intelligent comprehensive monitoring system for a deep mixing pile;

FIG. 2 is a schematic diagram of an intelligent integrated monitoring system;

FIG. 3 is a schematic structural view of a mixing pile unit;

FIG. 4 is a schematic structural view of a soil texture detector;

fig. 5 is a schematic view of the structure of the punch member.

Reference numerals: 1. a mixing pile unit; 11. stirring the pile body; 12. a lifting member; 13. a guniting device; 14. an external agent mixing device; 2. a monitoring unit; 21. a depth sensor; 22. an electromagnetic flow meter; 23. a current transformer; 24. a tilt sensor; 25. a pressure sensor; 26. a density sensor; 27. a recording module; 3. a frequency oscillation unit; 31. a boundary module; 32. a central module; 4. a data monitoring platform; 6. a soil property detector; 61. a soil collection chamber; 62. a soil collection plate; 63. turning over a motor; 64. a detection section; 7. a wind control device; 8. a punching component; 81. a travel bar; 82. a punching head; 83. the cylinder is driven.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 5, in order to achieve the above object, the present invention provides the following technical solutions: an intelligent deep mixing pile monitoring system comprises a mixing pile unit 1, a monitoring unit 2, a vibration frequency unit 3 and a data monitoring platform 4, wherein the data monitoring platform 4 is respectively in communication connection with the mixing pile unit 1, the monitoring unit 2 and the vibration frequency unit 3;

the vibration frequency unit 3 comprises a boundary module 31 and a central module 32, wherein the central module 32 is installed at the center of a construction site and is used for sensing the vibration frequency of a construction point to the construction center; the boundary module 31 is provided with a plurality of peripheral sides and is installed to the construction site, and is used for sensing the vibration frequency of the construction site on the peripheral sides;

the monitoring unit 2 is used for monitoring position information, depth information, flow information, inclination angle information, density information, pressure information and soil property information of different depths of a construction point of the mixing pile unit 1;

the mixing pile unit 1 is used for carrying out operations of digging, guniting and mixing on a construction point and adding an admixture according to soil property information;

the data monitoring platform 4 is used for receiving and displaying the position information and the vibration frequency of the boundary module 31 and the central module 32, the position information, the depth information, the flow information, the inclination angle information, the density information of the monitoring unit 2 and the soil property information of different depths of a construction point.

The design of the utility model is that the construction site is comprehensively monitored, firstly, the construction range is determined, the boundary module 31 is arranged along the periphery of the construction site to outline the construction site, then the center module 32 is arranged at the center of the construction site, the data detection platform constructs the construction site space information according to the position information of the boundary module 31 and the center module 32, in addition, the construction site space information is sent to the data monitoring platform 4, the platform calculates the site piling arrangement information according to the information of the piling quantity, the piling distance, the piling diameter length and the like, in addition, the data monitoring platform 4 can be directly connected with the 3D printing module, the indication member is directly punched through the 3D printing module (the indication member comprises the punching indication member and the distance indication member between the adjacent punching indication members), as long as the subsequent constructors spread the indication member along the boundary module 31 and the center module 32, the operation is convenient, and a worker is not required to draw a punching point in the field, so that the effect of saving manual operation is achieved.

According to positional information, degree of depth information, flow information, inclination information, density information, the pressure information that monitoring unit 2 acquireed again, in stirring stake unit 1 working process, can produce the vibration effect, judge the position of work stirring stake body 11 through the vibration frequency of boundary module 31, the response of center module 32, and generate the wave simulation that shakes, this benefit has: 1. the position of the working mixing pile can be conveniently and visually seen by monitoring personnel; 2. therefore, the soil layer hardness is judged by knowing the vibration wave strength (the vibration wave is more obvious when the soil layer is harder), the soil layer condition is known in a turning way, and the operation of the stirring pile is reasonably controlled.

In addition, as the cement strength of the cement mixing pile under the geological condition of the silty clay is not higher than that of cement under the sandy soil condition, the cement strength of the cement mixing pile is greatly influenced by the size of soil particles, the silty soil has smaller particles, and the liquid limit and the plastic limit of the silty soil have higher values, so the strength is lower, the cement strength of the clay backfill and the soil particles of the gray clay layer is also improved, the soil particles of the brown clay layer are further increased, and the cement strength of the cement soil is further improved. In conclusion, the soil category is the main factor of the strength of the cement soil. Therefore, the monitoring unit 2 is also used for detecting soil quality information of different depth conditions, and certain operation of adding the admixture is carried out through the stirring pile unit 1 according to the difference of the soil quality information, so that the characteristic of local slurry is improved, each section after pile forming is maintained in the optimal state as much as possible, and the stability and the service life of the pile forming are improved.

The external mixing and extrusion can be carried out by using calcium lignosulphonate, gypsum, triethanolamine, sodium chloride, calcium chloride, sodium sulfate and the like, combining industrial waste treatment and mixing fly ash with different proportions. Firstly, according to the judgment of the integral soil quality, a plurality of external mixing and extruding devices are made for standby application, the external mixing and extruding devices are respectively injected into the corresponding external mixing agent devices 14, and then the soil quality condition range corresponding to each external mixing and extruding device 14 is input into the controller of the mixing pile unit 1, so that the stability of the subsequent injection operation is ensured.

Stirring stake unit 1 is provided with spouting mouth and spraying mouth including stirring stake body 11 and the lifting component 12 and the spouting device 13 that are used for driving stirring stake body 11 to remove and mix the agent device 14 outward on the stirring stake body 11, and spouting device 13 carries out the operation of spouting through the spouting mouth, mixes the agent device 14 outward and carries out the spraying operation that corresponds through the spraying mouth according to soil property information.

The monitoring unit 2 includes the soil property detector 6 arranged on the mixing pile body 11, the soil property detector 6 includes a soil property collecting cavity 61 arranged on the mixing pile body 11, a soil property collecting plate 62 arranged on the mixing pile body 11, a turning motor 63 for controlling the rotation of the soil property collecting plate 62, and a detecting component 64 arranged in the soil property collecting cavity 61, when the lifting component 12 drives the mixing pile to move downwards, the turning motor 63 controls the soil property collecting plate 62 to gradually rotate so that soil blocks are accumulated on the inclined soil property collecting plate 62.

Soil property detector 6 is provided with a plurality ofly for detect the soil property information of different degree of depth scopes, and outer adulterating agent device 14 sets up in there being the multiunit, is used for providing different outer adulterating agents, and stirring stake body 11 sprays corresponding outer adulterating agent according to the difference of soil property information.

The soil property collecting plate 62 is provided with a plurality of ventilation holes, the ventilation holes are all provided with filter screens, the stirring pile body 11 is provided with the air control device 7, and the air control device 7 performs air suction or air blowing operation through the ventilation holes.

The design of the soil quality detector 6 needs to analyze the soil quality condition of soil within a certain range, for example, 12 meters of holes need to be drilled, at the moment, the depth of the drilled hole is divided into 3 sections, every 4 meters of the drilled hole is divided into one section, the soil quality detector 6 is correspondingly provided with 3 soil quality conditions for respectively detecting a first section, a second section and a third section, at the beginning, the soil quality collecting plate 62 is flush with the outer side of the mixing pile body 11, soil cannot be left on the soil quality collecting plate 62, when the mixing pile body 11 descends, the soil-quality collecting plate 62 gradually rotates, so that a certain inclined plane is formed between the soil-quality collecting plate 62 and the outer side of the mixing pile body 11, this inclined plane makes partial earth remain, moves down gradually along with stirring stake body 11, and soil property collecting plate 62 rotates gradually, and the inclined plane grow gradually, and the earth that leaves gradually changes gradually more, and when soil property collecting plate 62 rotated 180, the earth on the soil property collecting plate 62 was pushed into to soil property collection chamber 61.

Then this ventilation hole and the design of accuse wind device 7, accuse wind device 7 is the state of induced drafting when soil property collecting plate 62 is in the collection state, and is effectual remain earth to the soil property collecting plate 62 in, and when soil property collecting plate 62 rotates earth to soil property collecting chamber 61 in the time control wind device 7 is the state of blowing, all emits into soil property collecting chamber 61 with the earth on the soil property collecting plate 62 in.

And this detection part 64 is common detection means, carries out the detection of appointed characteristic through means such as specific water injection, notes agent, heating, for example detects organic survey, soil pH value survey, the survey of soil density of soil, and when having collected earth, stirring stake body 11 can stay a short period at the hole bottom to detect the operation, the rotation through stirring stake body 11 makes the soil in soil collection chamber 61 effectively stir in addition, makes things convenient for follow-up measurement.

A punching component 8 is further arranged on the side edge of the mixing pile body 11, and the punching component 8 is used for digging an injection and extrusion hole with an opening arranged obliquely upwards;

when the soil property detector 6 detects the soil property information of the first stroke, the punching member 8 performs a punching operation on the middle portion of the first stroke.

The punching member 8 includes a moving rod 81, a punching head 82, and a driving cylinder 83 for driving the moving rod 81 to move, and the punching head 82 is provided at one end of the moving rod 81 remote from the driving cylinder 83.

The punching head 82 comprises a left punching head, a right punching head and a separating structure for driving the left punching head and the right punching head to move separately, the admixture device 14 comprises an admixture pipe, and a through hole for the admixture pipe to pass through is arranged in the movable rod 81. The setting of the punching member 8, for example, requires drilling 12 meters, the drilling depth is divided into 3 sections, every 4 meters, 0 to-4 meters is detected as a first section, punching operation is performed at a position of-2 meters, and then injection operation is performed on the injection hole, so that the part of admixture is gradually contacted with the part of cement, and the part of admixture is mostly combined with the part of cement to form effective indication.

In addition, the injection and extrusion holes are obliquely arranged, so that the admixture is prevented from flowing out, the admixture is gradually fused with the cement, and a plurality of punching parts 8 can be arranged, so that the size of each hole is reduced, and the attractiveness of a formed pile is ensured.

In addition, the design of the punching head 82, the diameter and length of the non-expanded punching head 82 are preferably consistent with those of the moving rod 81, the outer doped pipe extends out when the punching head 82 is expanded, and a convex injection hole is formed, so that the liquid retention capacity of the position is stronger. And the protective effect on the outer doped pipe can be realized, and the outer doped pipe is prevented from being blocked by soil.

The expansion mode of the punching head 82 can be driven by a small motor for the existing structure, and can also be set to be an induction type, the outlet end of the outer mixing pipe is made of hard materials, an outer mixing driving part used for driving the outer mixing pipe to move is arranged in the stirring pile body, the outer mixing driving part is electrically connected with the electromagnetic flowmeter 22, when the current flowmeter senses that the outer mixing pipe is extruded and sent out, the outer mixing pipe is driven to move through the outer mixing driving part, at the moment, the left punching head (immovable setting) and the right punching head (movable setting) are arranged, the right punching head moves to enable the outer mixing pipe to be extruded and sprayed out, and after the extrusion is finished, the electromagnetic flowmeter 22 sends a signal to the outer mixing driving part, so that the outer mixing pipe moves back and drives the right punching head to reset (1, the right punching head is connected with the outer mixing pipe, and 2, a reset structure is arranged between the right punching head and the left punching head).

The monitoring unit 2 comprises a depth sensor 21, an electromagnetic flowmeter 22, a current transformer 23, an inclination angle sensor 24, a pressure sensor 25, a density sensor 26 and a recording module 27, wherein the recording module 27 is electrically connected with the depth sensor 21, the electromagnetic flowmeter 22, the current transformer 23, the inclination angle sensor 24, the pressure sensor 25 and the density sensor 26 respectively, and the recording module 27 is used for recording the distribution condition of grouting amount, the position condition of the mixing pile body 11 and the inclination condition of the mixing pile body 11.

Divide into inside pressurized monitoring module and outside pressurized monitoring module through pressure sensor 25, outside pressurized is mainly to the in-process that buries at stirring stake body 11, whether meet the problem that too hard soil block or mud layer caused, and inside pressurized mainly carries out the state of soil property monitoring in-process in equipment whitewashing, spray and the soil block entering stirring stake body 11, thereby make things convenient for the audio-visual state of seeing out soil property detector 6, electromagnetic flowmeter 22 of staff.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (9)

1. The utility model provides a smart deep mixing pile monitoring system, characterized by: the device comprises a stirring pile unit (1), a monitoring unit (2), a vibration frequency unit (3) and a data monitoring platform (4), wherein the data monitoring platform (4) is respectively in communication connection with the stirring pile unit (1), the monitoring unit (2) and the vibration frequency unit (3);

the vibration frequency unit (3) comprises a boundary module (31) and a central module (32), wherein the central module (32) is installed in the center of a construction site and used for sensing the vibration frequency of a construction point to the construction center; the boundary modules (31) are provided with a plurality of peripheral sides and are installed on a construction site, and the peripheral sides are used for sensing the vibration frequency of construction sites on the peripheral sides;

the monitoring unit (2) is used for monitoring position information, depth information, flow information, inclination angle information, density information, pressure information and soil property information of different depths of a construction point of the mixing pile unit (1);

the mixing pile unit (1) is used for excavating a construction point, spraying and mixing and adding an admixture according to soil property information;

the data monitoring platform (4) is used for receiving and displaying and recording position information and vibration frequency of the boundary module (31) and the central module (32), position information, depth information, flow information, inclination angle information, density information of the monitoring unit (2) and soil property information of different depths of a construction point.

2. The intelligent deep mixing pile monitoring system of claim 1, wherein: stirring stake unit (1) is including stirring stake body (11) and be used for driving lifting means (12) and whitewashing device (13) and outer admixture device (14) that stirring stake body (11) removed, be provided with whitewashing mouth and spraying mouth on stirring stake body (11), whitewashing operation is carried out through the whitewashing mouth in whitewashing device (13), mix agent device (14) outward and carry out corresponding spraying operation through the spraying mouth according to soil property information.

3. The intelligent deep mixing pile monitoring system of claim 2, wherein: monitoring unit (2) is including setting up soil property detector (6) on stirring stake body (11), soil property detector (6) are including offering soil property collection chamber (61) on stirring stake body (11) and setting up soil property collection plate (62) on stirring stake body (11) and be used for controlling soil property collection plate (62) pivoted upset motor (63) and set up detecting element (64) in soil property collection chamber (61), when lifting unit (12) drive stirring stake rebound process, upset motor (63) control soil property collection plate (62) progressively rotate and make the soil block pile up on the soil property collection plate (62) of slope.

4. The intelligent deep mixing pile monitoring system of claim 3, wherein: the soil property detector (6) is provided with a plurality of soil property detectors for detecting soil property information in different depth ranges, the external doping agent devices (14) are arranged in a plurality of groups and used for providing different external doping agents, and the stirring pile body (11) sprays the corresponding external doping agents according to different soil property information.

5. The intelligent deep mixing pile monitoring system of claim 3, wherein: the soil property collecting plate is characterized in that a plurality of air vents are formed in the soil property collecting plate (62), filter screens are arranged on the air vents, an air control device (7) is arranged on the stirring pile body (11), and the air control device (7) performs air suction or air blowing operation through the air vents.

6. The intelligent deep mixing pile monitoring system of claim 4, wherein: a punching part (8) is further arranged on the side edge of the mixing pile body (11), and the punching part (8) is used for digging an injection and extrusion hole with an obliquely upward opening;

when the soil quality detector (6) detects the soil quality information of the first stroke, the punching component (8) performs punching operation on the middle part of the first stroke.

7. The intelligent deep mixing pile monitoring system of claim 6, wherein: the punching component (8) comprises a moving rod (81), a punching head (82) and a driving cylinder (83) for driving the moving rod (81) to move, and the punching head (82) is arranged at one end, far away from the driving cylinder (83), of the moving rod (81).

8. The intelligent deep mixing pile monitoring system of claim 7, wherein: the punching head (82) comprises a left punching head, a right punching head and a separating structure for driving the left punching head and the right punching head to move separately, the external mixing device (14) comprises an external mixing pipe, and a through hole for the external mixing pipe to pass through is formed in the moving rod (81).

9. The intelligent deep mixing pile monitoring system of any one of claims 1 to 8, wherein: monitoring unit (2) are including degree of depth sensor (21), electromagnetic flowmeter (22), current transformer (23), inclination sensor (24), pressure sensor (25), density sensor (26) and record module (27), record module (27) are connected with degree of depth sensor (21), electromagnetic flowmeter (22), current transformer (23), inclination sensor (24), pressure sensor (25), density sensor (26) electricity respectively, record module (27) are used for the distribution situation of record slip casting volume, the position condition of stirring stake body (11) and the slope condition of stirring stake body (11).

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