CN113356752A

CN113356752A - Spiral drilling grouting structure and grouting control system thereof

Info

Publication number: CN113356752A
Application number: CN202110777706.9A
Authority: CN
Inventors: 刘锐军; 方晴; 张江
Original assignee: Jiangxi Dongrui Machinery Co ltd; PowerChina Hubei Electric Engineering Co Ltd
Current assignee: Hubei Electric Power Planning Design And Research Institute Co ltd; Jiangxi Dongrui Intelligent Equipment Technology Co ltd
Priority date: 2021-07-09
Filing date: 2021-07-09
Publication date: 2021-09-07
Anticipated expiration: 2041-07-09
Also published as: CN113356752B

Abstract

The invention discloses a spiral drilling grouting structure and a grouting control system thereof, and the spiral drilling grouting structure comprises a grouting control system and a spiral drilling grouting structure, wherein the grouting control system comprises a grouting hose and a grouting device, the bottom of the grouting device is provided with a lifting device, the lifting device comprises three claws and a telescopic rod, one end of the telescopic rod is connected with the three claws, the grouting device is of a structure with a cavity inside, a first cavity, a second cavity and a third cavity are arranged inside the cavity, the spiral drilling grouting structure comprises a device body, the device body comprises a pushing beam system, a grouting joint, a spiral drill rod, a rod unloading mechanism and a support, the grouting joint comprises a hollow cylinder, and a rotary adjusting cylinder is sleeved on the hollow cylinder. The invention has the beneficial effects that: the integrative setting of smashing and stirring that sets up among the slip casting control system for motor output shaft one can smash the building material that drops into when the pivoted, and the cost is reduced, and the setting of multistage auger stem has improved the suitability of rig among the auger drilling slip casting structure.

Description

Spiral drilling grouting structure and grouting control system thereof

Technical Field

The invention relates to the technical field of spiral drilling grouting, in particular to a spiral drilling grouting structure and a grouting control system thereof.

Background

The foundation of the power transmission line engineering mountain land has complex terrain, complex geological conditions, poor traffic conditions (no existing roads and fault cliff with the height of several meters in many cases block the roads to be built), and the construction of the cableway is also the manual excavation of foundation pits and pile holes. The traditional original state soil is used for digging a foundation (digging a pile), a rock embedded foundation and the like, the pile diameter is large and is generally more than 1m, the buried depth is deep (6 m-30 m), the requirement on the torque force of a drilling machine is large, large-torque-force equipment is needed for mechanical hole forming of foundation pit digging, the large-torque-force equipment is large in size and weight, the large-torque-force equipment is difficult to ascend to the mountain, and mechanical construction cannot be achieved.

Because the drilling of current drilling rod is mainly carried out through auger stem at the in-process of creeping into, and when the degree of depth of getting bored reaches when darker, current drilling rod can not satisfy the requirement of getting the degree of depth of getting, when auger stem's height is higher, be not convenient for slip casting system slip casting this moment, and current slip casting control system has the condition that the granule differs in the raw and other materials of purchase, the effect of stirring and mixing has seriously been influenced, make the effect of slip casting not good, slip casting intensity can not reach the requirement, for this reason, propose spiral slip casting structure and slip casting control system, aim at solving above-mentioned problem.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a spiral drilling grouting structure and a grouting control system thereof, wherein the spiral drilling grouting structure has the advantages of stable structure, reduced working strength of workers, improved raw material filtering efficiency and improved raw material crushing efficiency, and is simple to operate.

The purpose of the invention is realized by the following technical scheme: the spiral drilling grouting structure comprises a grouting control system, wherein the grouting control system comprises a grouting hose and a grouting device, the bottom of the grouting device is provided with a lifting device, the lifting device comprises three claws and a telescopic rod, one end of the telescopic rod is connected with the three claws, the grouting device is of a structure with a cavity inside, and a first cavity, a second cavity and a third cavity are arranged inside the cavity;

the stirring system and the blanking system are arranged in the first cavity and are matched with the stirring system, the stirring system comprises a Y-shaped stirring rod and a motor output shaft I, the blanking system comprises a cylindrical blanking cavity plate I, a cylindrical blanking cavity plate II, a cylindrical blanking cavity plate III and a cylindrical blanking cavity plate IV, the motor I is arranged on the top wall of the first cavity, the motor output shaft I is an output shaft of the motor I, the cylindrical blanking cavity plate I fixedly penetrates through the top plate of the first cavity and is connected with the side wall of the top plate, the diameters of the cylindrical blanking cavity plate II, the cylindrical blanking cavity plate III and the cylindrical blanking cavity plate IV are the same as the diameter of the cylindrical blanking cavity plate I, and connecting plates connected with the motor output shaft I are arranged on the inner side walls of the cylindrical blanking cavity plate II, the cylindrical blanking cavity plate III and the cylindrical blanking cavity plate IV, the connecting plate is provided with a plurality of through holes, the first motor output shaft is provided with a material throwing barrel, the material throwing barrel is provided with a material throwing pipe, the material throwing pipe is provided with a material throwing port, the material throwing barrel is provided with a first material throwing barrel, a second material throwing barrel, a third material throwing barrel, a fourth material throwing barrel, a fifth material throwing barrel and a sixth material throwing barrel, and the material throwing pipe and the material throwing port are arranged around the material throwing barrel;

a first cylindrical blanking cavity plate is arranged above the first throwing barrel and the second throwing barrel, a second cylindrical blanking cavity plate is arranged between the first throwing barrel, the second throwing barrel, the third throwing barrel and the fourth throwing barrel, a cylindrical blanking cavity plate III is arranged between the third material throwing barrel, the fourth material throwing barrel, the fifth material throwing barrel and the sixth material throwing barrel, a cylindrical blanking cavity plate four is arranged below the material throwing barrel five and the material throwing barrel six, a triangular feeding plate is arranged at the upper parts of the material throwing barrel I, the material throwing barrel II, the material throwing barrel III, the material throwing barrel IV, the material throwing barrel five and the material throwing barrel six which are connected with the motor output shaft I, a buffer hole is formed in the triangular feeding plate, a first blanking plate is arranged at the bottom of the joint of the first material throwing barrel, the second material throwing barrel, the third material throwing barrel and the fourth material throwing barrel with the first motor output shaft, a first through hole is formed in the first blanking plate, and the diameter of the first through hole is larger than that of the buffer hole;

the feeding device is characterized in that a gap is formed between the first cylindrical blanking cavity plate, the second cylindrical blanking cavity plate, the third cylindrical blanking cavity plate, the fourth cylindrical blanking cavity plate and the first motor output shaft, the triangular feeding plate and the first blanking plate are arranged in the gap, a groove is formed in the top plate of the first cavity, a first feeding hole is formed in the other side of the groove, a pumping machine is arranged in the second cavity, and a water filtering box is arranged in the third cavity.

The spiral drilling grouting structure in the grouting control system of the spiral drilling grouting structure comprises a device body, wherein the device body comprises a propulsion beam system, a grouting joint, a spiral drill rod, a rod unloading mechanism and a support, the grouting joint comprises a hollow cylinder, the hollow cylinder is sleeved with a rotary adjusting cylinder, a cavity structure is arranged between the rotary adjusting cylinder and the hollow cylinder, the rotary adjusting cylinder is of a sealing structure, the rotary adjusting cylinder is provided with a feed inlet II, the feed inlet II is connected with one end of a grouting hose, the bottom of a first cavity is provided with a discharge pipe, the discharge pipe is provided with a first switch valve, the other end of the grouting hose is connected with the discharge pipe, one end of a pumping machine is connected with the discharge pipe, the grouting joint is provided with a clamping plate I and a clamping plate II, one end of the spiral drill rod is fixed on the hollow cylinder, the last cover of auger stem is equipped with unloads the pole mechanism, the below of unloading the pole mechanism is equipped with the position sleeve, the position sleeve cover is established on auger stem, impel the roof beam system to be located the top that the grout connects, the grout connects and sets up down, the top of support is equipped with the lifting wheel, the bottom of support is equipped with the arc flange, be equipped with the screw hole on the arc flange, it fixes on the support to unload the pole mechanism, impel the roof beam system to fix on the support.

The rod unloading mechanism comprises a cylinder and a fixing support, wherein a first L-shaped fixing rod, a second L-shaped fixing rod and a third fixing rod are arranged on the fixing support, the two ends of the third fixing rod are respectively connected with the first L-shaped fixing rod and the second L-shaped fixing rod, a flange plate is arranged on the first L-shaped fixing rod and the second L-shaped fixing rod, a stepped fixing device is arranged on the second L-shaped fixing rod, a telescopic component is arranged on the side wall of the stepped fixing device, the end portion of the telescopic rod is provided with a clamping rod, a first U-shaped groove is formed in the clamping rod, a second U-shaped groove is formed in the third fixing rod, and the first U-shaped groove is located above the second U-shaped groove.

The U-shaped groove I and the U-shaped groove II are both provided with height-adjusting gaskets, the gaskets can be fixed on the U-shaped groove I or the U-shaped groove II through bolts, the L-shaped fixing rod I and the L-shaped fixing rod II are movably fixed on the fixing rod III, and the telescopic member is movably fixed on the stepped fixing device.

The propulsion beam system comprises a first bottom plate, a first side plate and a second side plate, the first bottom plate, the first side plate and the second side plate are integrally formed, a motor device is arranged on the first bottom plate, the first side plate and the second side plate are vertically fixed on the first bottom plate, a flange plate is arranged on the side wall of the cylinder, and reinforcing ribs are arranged between the flange plate and the cylinder.

The volume of the second cavity is smaller than that of the third cavity, the volume of the third cavity is smaller than that of the first cavity, a first filter screen plate and a second filter screen plate are arranged inside the water filtering box, the diameter of a filter hole in the first filter screen plate is larger than that of a filter hole in the second filter screen plate, the first filter screen plate is located above the second filter screen plate, an L-shaped water outlet pipe is arranged below the first filter screen plate, and a first water outlet pipe is arranged below the second filter screen plate.

The L-shaped water outlet pipe penetrates through the side wall of the first cavity, at least two Y-shaped stirring rods are arranged and are symmetrical relative to the motor output shaft I, and a second water outlet pipe is arranged at the bottom of the first cavity.

The spiral drill rod comprises a first spiral drill rod and a second spiral drill rod, the first spiral drill rod and the second spiral drill rod are formed by splicing, and the interiors of the first spiral drill rod and the second spiral drill rod are both of hollow structures.

The top of the third cavity is provided with a groove, a square water inlet hole is formed in the groove, a third filter screen plate is arranged in the square water inlet hole, the square water inlet hole is connected with a filter tank, and the lower portion of each of the three claws is provided with a spine portion.

The invention has the following advantages:

1. one end of a grouting hose is connected with a discharge pipe, the other end of the grouting hose is connected with a second feed inlet on a rotary adjusting cylinder, a spiral drilling grouting structure and a grouting control system of the spiral drilling grouting structure are connected, so that the direction and the angle of the grouting control system can be adjusted at any time in the grouting process, a telescopic rod and a three-jaw are arranged below a grouting device, the spiral drilling grouting structure and the grouting control system have good adaptability to uneven building engineering, a first cylindrical blanking cavity plate, a second cylindrical blanking cavity plate, a third cylindrical blanking cavity plate, a fourth cylindrical blanking cavity plate and a first motor output shaft are provided with cavities, the feeding materials arranged at the upper part of the first cavity are matched with each other, an annular feed inlet is arranged between the first motor output shaft and the first cylindrical blanking cavity plate, the arrangement of the annular feed inlet ensures that raw materials fall, the arrangement of the upper part and the lower part ensures that large particles fall from the feed inlet to the outer wall of the first motor output shaft, when smashing the raw materials for the raw materials can be fully stirred, the intensity of slip casting has been improved, make kibbling efficiency improve when having saved reducing mechanism for the manufacturing cost of equipment reduces.

2. The upper part of a third cavity is provided with a water filtering tank and a groove arranged on a top plate of the third cavity, a square water inlet hole is formed in the groove, and a third filtering screen plate is arranged in the square water inlet hole; the inside of drainage case is equipped with filter screen board one and filters screen board two, and filter screen board one and filter screen board two set up and make in proper order filter impurity, filter screen board one and filter screen board two set up place the in-process of stirring thick liquid leaf sneak into to make the effect of slip casting not good, serious influence the intensity of slip casting.

3. The grouting joint is provided with the clamping plate I and the clamping plate II, and the arrangement of the clamping plate I and the clamping plate II can adjust the direction of the grouting joint according to the actual situation on site, so that the grouting requirement of a construction site can be met; the mutual matching of the bottom plate and the side plate arranged on the propelling beam system ensures the drilling of the auger stem, so that the placed device can be stably fixed on the bottom plate.

4. The positioning sleeve is arranged, so that the spiral drill rod can be protected in the drilling process, the collapse of the side wall in the drilling process is prevented, and the safety coefficient is improved; the arrangement of the upper U-shaped clamping grooves of the first L-shaped fixing rod, the second L-shaped fixing rod and the third L-shaped fixing rod meets the positioning effect of the side direction of the spiral drilling rod, and the use stability of mechanical equipment is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a discharge mechanism of the present invention;

FIG. 3 is a schematic structural view of a cylindrical barrel in the discharging mechanism of the present invention;

FIG. 4 is a schematic view of a grout joint of the present invention;

FIG. 5 is a schematic view of the auger stem of the present invention;

FIG. 6 is a schematic cross-sectional view taken at D-D in FIG. 5;

FIG. 7 is a schematic structural view of a grouting device according to the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7 at A;

FIG. 9 is an enlarged partial view at B of FIG. 7;

FIG. 10 is a partial schematic view at C of FIG. 7;

in the figure, 1-a grouting control system, 2-a grouting hose, 3-a grouting device, 4-a lifting device, 5-a three-jaw, 6-a telescopic rod, 7-a first cavity, 8-a second cavity, 9-a third cavity, 10-a Y-shaped stirring rod, 11-a motor output shaft I, 12-a cylindrical blanking cavity plate I, 13-a cylindrical blanking cavity plate II, 14-a cylindrical blanking cavity plate III, 15-a cylindrical blanking cavity plate IV, 16-a motor I, 17-a throwing barrel I, 18-a throwing pipe, 19-a throwing port, 20-a throwing barrel II, 21-a throwing barrel III, 22-a throwing barrel IV, 23-a throwing barrel V, 24-a throwing barrel VI, 25-a triangular feeding plate, 26-a blanking plate I, 27-a first through hole, 28-a first feed inlet, 29-a water filter tank, 30-a device body, 31-a propelling beam system, 32-a grouting joint, 33-a spiral drill rod, 34-a rod unloading mechanism, 35-a bracket, 36-a hollow cylinder, 37-a rotary adjusting cylinder, 38-a second feed inlet, 39-a discharge pipe, 40-a first switch valve, 41-a first clamping plate, 42-a second clamping plate, 43-a positioning sleeve, 44-a lifting wheel, 45-an arc flange, 46-a cylinder, 47-a fixing bracket, 48-an L-shaped fixing rod I, 49-an L-shaped fixing rod II, 50-a third fixing rod, 51-a flange plate, 52-a step type fixing device, 53-a telescopic component, 54-a clamping rod and 55-a U-shaped groove I, 56-U-shaped groove II, 57-gasket, 58-bottom plate I, 59-side plate I, 60-side plate II, 61-motor device, 62-flange plate, 63-reinforcing rib, 64-filter screen plate I, 65-filter screen plate II, 66-L-shaped water outlet pipe, 67-water outlet pipe I, 68-water outlet pipe II, 69-auger stem I, 70-auger stem II, 71-groove, 72-square water inlet hole, 73-filter screen plate III and 74-spine part.

Detailed Description

The invention will be further described with reference to the accompanying drawings, without limiting the scope of the invention to the following:

as shown in fig. 1 to 10, the spiral drilling grouting structure and the grouting control system thereof include a grouting control system 1, wherein the grouting control system 1 includes a grouting hose 2 and a grouting device 3, a lifting device 4 is disposed at the bottom of the grouting device 3, the lifting device 4 is disposed so that the grouting control system can adjust the height thereof according to the environment, the lifting device 4 includes a three-jaw 5 and an expansion link 6, one end of the expansion link 6 is connected with the three-jaw 5, the grouting device 3 is a structure having a cavity therein, and the cavity is internally provided with a first cavity 7, a second cavity 8 and a third cavity 9;

the stirring system and the blanking system matched with the stirring system are arranged in the first cavity 7, the stirring system comprises a Y-shaped stirring rod 10 and a motor output shaft I11, the arrangement of the Y-shaped stirring rod 10 enables vortex to be formed in the stirring process, so that slurry is more suitable for mixing, the stirring efficiency is higher than that of a traditional single rod, the blanking system comprises a cylindrical blanking cavity plate I12, a cylindrical blanking cavity plate II 13, a cylindrical blanking cavity plate III 14 and a cylindrical blanking cavity plate IV 15, a motor I16 is arranged on the top wall of the first cavity 7, the motor output shaft I11 is an output shaft of the motor I16, the cylindrical blanking cavity plate I12 fixedly penetrates through the top plate of the first cavity 7 and is connected with the side wall of the top plate, the diameters of the cylindrical blanking cavity plate II 13, the cylindrical blanking cavity plate III 14 and the cylindrical blanking cavity plate IV 15 are the same as the diameter of the cylindrical blanking cavity plate I12, the inner side walls of the cylindrical blanking cavity plate II 13, the cylindrical blanking cavity plate III 14 and the cylindrical blanking cavity plate IV 15 are respectively provided with a connecting plate connected with the motor output shaft I11, the connecting plates are provided with a plurality of through holes, the motor output shaft I11 is provided with a throwing barrel, the throwing barrel is arranged to enable the raw materials crushed between the cylindrical blanking cavity plate and the motor output shaft I11 to be fully thrown away, the throwing barrel is provided with a throwing pipe 18, the throwing pipe 18 is provided with a throwing port 19, the throwing barrel is provided with a throwing barrel I17, a throwing barrel II 20, a throwing barrel III 21, a throwing barrel IV 22, a throwing barrel V23 and a throwing barrel VI 24, and the throwing pipe 18 and the throwing port 19 are arranged around the throwing barrel;

the material throwing device is characterized in that a cylindrical blanking cavity plate I12 is arranged above the first throwing barrel 17 and the second throwing barrel 20, a cylindrical blanking cavity plate II 13 is arranged between the first throwing barrel 17, the second throwing barrel 20, the third throwing barrel 21 and the fourth throwing barrel 22, a cylindrical blanking cavity plate III 14 is arranged between the third throwing barrel 21, the fourth throwing barrel 22, the fifth throwing barrel 23 and the sixth throwing barrel 24, a triangular feeding plate 25 is arranged on the upper portion of the fifth throwing barrel 23 and the sixth throwing barrel 24 connected with the motor output shaft I11, the triangular feeding plate 25 is arranged side by side in an annular mode to enable raw materials to fall into the inner portion of the first throwing barrel, a buffering hole is formed in the triangular feeding plate 25, and the first throwing barrel 17, the second throwing barrel 20, the third throwing barrel 23 and the sixth throwing barrel 24 are connected with the motor output shaft I11, A blanking plate I26 is arranged at the bottom of the connection part of the third throwing barrel 21 and the fourth throwing barrel 22 and the motor output shaft I11, a through hole I27 is arranged on the blanking plate I26, and the diameter of the through hole I27 is larger than that of the buffer hole;

cylindrical unloading cavity board 12, cylindrical unloading cavity board two 13, cylindrical unloading cavity board three 14 and cylindrical unloading cavity board four 15 and motor output shaft 11 between be equipped with the clearance, triangle-shaped feed plate 25 and blanking plate 26 all set up inside the clearance, be equipped with recess 27 on the roof of first cavity 7, being provided with of recess 27 does benefit to the input of raw materials, and the other feed inlet 28 that is equipped with of recess 27, the inside of second cavity 8 is equipped with pump sending machine 28, the inside of third cavity 9 is equipped with drainage box 29.

Screw drilling grouting structure in spiral drilling grouting structure's slip casting control system, including device body 30, device body 30 includes propulsion beam system 31, grout joint 32, auger stem 33, unload pole mechanism 34 and support 35, grout joint 32 includes hollow cylinder 36, hollow cylinder 36 goes up the cover and is equipped with soon and transfers cylinder 37, and the demand of grout height has been guaranteed in the setting of revolving and transferring cylinder 37, be the cavity structure between soon and transferring cylinder 37 and the hollow cylinder 36, and be seal structure, be equipped with feed inlet two 38 on the soon and transfer cylinder 37, feed inlet two 38 is connected with the one end of slip casting hose 2, the bottom of first cavity 7 is equipped with discharging pipe 39, be equipped with ooff valve 40 on the discharging pipe 39, the other end and the discharging pipe 39 of slip casting hose 2 are connected, the one end and the discharging pipe 39 of pump sending machine 28 are connected, be equipped with the joint board on the grout joint 32, the clamping and connecting plate is provided with a first clamping and connecting plate 41 and a second clamping and connecting plate 42, the arrangement of the first clamping and connecting plate 41 and the second clamping and connecting plate 42 meets the regulation of the grouting direction, one end of the spiral drill rod 33 is fixed on a hollow cylinder 36, a rod unloading mechanism 34 is sleeved on the spiral drill rod 33, a positioning sleeve 43 is arranged below the rod unloading mechanism 34, the positioning sleeve 43 protects the auger rod 33, the positioning sleeve 43 is sleeved on the auger stem 33, the propulsion beam system 31 is positioned above the grouting joint 32, the grouting joint 32 is arranged downwards, a lifting wheel 44 is arranged above the bracket 35, an arc-shaped flange 45 is arranged at the bottom of the bracket 35, the arc-shaped flange 45 is provided with a threaded hole, the arrangement of the arc-shaped flange 45 ensures that the equipment can be stably fixed on the ground, the unloading rod mechanism 34 is fixed on a bracket 35, and the propelling beam system 31 is fixed on the bracket 35.

The rod unloading mechanism 34 comprises a cylinder 46 and a fixed bracket 47, the fixed bracket 47 is provided with a first L-shaped fixed rod 48, a second L-shaped fixed rod 49 and a third L-shaped fixed rod 50, the first L-shaped fixed rod 48, the second L-shaped fixed rod 49 and the third L-shaped fixed rod 50 ensure that the device can be stably operated and moved, two ends of the third fixing rod 50 are respectively connected with a first L-shaped fixing rod 48 and a second L-shaped fixing rod 49, the first L-shaped fixing rod 48 and the second L-shaped fixing rod 49 are both provided with a flange 51, the second L-shaped fixing rod 49 is provided with a step type fixing device 52, the side wall of the step type fixing device 52 is provided with a telescopic component 53, the end part of the telescopic rod 6 is provided with a clamping rod 54, the clamping and connecting rod 54 is provided with a U-shaped groove I55, the fixing rod III 50 is provided with a U-shaped groove II 56, the first U-shaped groove 55 is positioned above the second U-shaped groove 56, and the cooperation between the first U-shaped groove 55 and the second U-shaped groove 56 makes it more convenient to fix the auger stem 33.

The height-adjusting gaskets 57 are arranged on the first U-shaped groove 55 and the second U-shaped groove 56 respectively, the gaskets 57 can be fixed on the first U-shaped groove 55 or the second U-shaped groove 56 through bolts, the first L-shaped fixing rod 48 and the second L-shaped fixing rod 49 are movably fixed on the third fixing rod 50, and the telescopic member 53 is movably fixed on the stepped fixing device 52.

The propulsion beam system 31 comprises a first bottom plate 58, a first side plate 59 and a second side plate 60, wherein the first bottom plate 58, the first side plate 59 and the second side plate 60 are integrally formed, a motor device 61 is arranged on the first bottom plate 58, the first side plate 59 and the second side plate 60 can stably fix the motor device 61, the first side plate 59 and the second side plate 60 are vertically fixed on the first bottom plate 58, a flange plate 62 is arranged on the side wall of the cylinder 46, and a reinforcing rib 63 is arranged between the flange plate 62 and the cylinder 46.

The volume of the second cavity 8 is smaller than that of the third cavity 9, the volume of the third cavity 9 is smaller than that of the first cavity 7, a first filter screen plate 64 and a second filter screen plate 65 are arranged inside the water filtering tank 29, the diameter of a filter hole in the first filter screen plate 64 is larger than that of a filter hole in the second filter screen plate 65, the first filter screen plate 64 is located above the second filter screen plate 65, an L-shaped water outlet pipe 66 is arranged below the first filter screen plate 64, and a first water outlet pipe 67 is arranged below the second filter screen plate 65.

The L-shaped water outlet pipe 66 penetrates through the side wall of the first cavity 7, at least two Y-shaped stirring rods 10 are arranged and are symmetrical about the first motor output shaft 11, and a second water outlet pipe 68 is arranged at the bottom of the first cavity 7.

The spiral drill rod 33 comprises a first spiral drill rod 69 and a second spiral drill rod 70, the first spiral drill rod 69 and the second spiral drill rod 70 are formed by splicing, the requirements of different drilling depths are met, and the interiors of the first spiral drill rod 69 and the second spiral drill rod 70 are both hollow structures.

The top of the third cavity 9 is provided with a groove 71, a square water inlet 72 is arranged inside the groove 71, a third filter screen plate 73 is arranged inside the square water inlet 72, the setting of the third filter screen plate 73 ensures the preliminary filtering requirement of water, the square water inlet 72 is connected with the water filtering tank 29, the lower part of the three-jaw 5 is provided with a spine part 74, and the setting of the spine part 74 ensures that the grouting control system 1 can be stably fixed on a soil body.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The grouting control system of the screw drilling grouting structure is characterized in that: the grouting control system comprises a grouting hose and a grouting device, wherein the bottom of the grouting device is provided with a lifting device, the lifting device comprises three claws and a telescopic rod, one end of the telescopic rod is connected with the three claws, the grouting device is of a structure with a cavity inside, and the cavity inside is provided with a first cavity, a second cavity and a third cavity;

2. The auger grouting structure in a grouting control system of an auger grouting structure according to claim 1, characterized in that: the device comprises a device body, wherein the device body comprises a propelling beam system, a grouting joint, an auger stem, a rod unloading mechanism and a support, the grouting joint comprises a hollow cylinder, the upper cover of the hollow cylinder is provided with a rotary adjusting cylinder, a cavity structure is formed between the rotary adjusting cylinder and the hollow cylinder, the hollow cylinder is of a sealing structure, the rotary adjusting cylinder is provided with a feed inlet II, the feed inlet II is connected with one end of a grouting hose, the bottom of a first cavity is provided with a discharge pipe, the discharge pipe is provided with a switch valve I, the other end of the grouting hose is connected with the discharge pipe, one end of a pumping machine is connected with the discharge pipe, the grouting joint is provided with a clamping plate I and a clamping plate II, one end of the auger stem is fixed on the hollow cylinder, the upper cover of the auger stem is provided with the rod unloading mechanism, and a positioning sleeve is arranged below the rod unloading mechanism, the positioning sleeve is sleeved on the auger stem, the propulsion beam system is located above the grouting joint, the grouting joint is arranged downwards, the lifting wheel is arranged above the support, the arc-shaped flange is arranged at the bottom of the support, the threaded hole is formed in the arc-shaped flange, the rod unloading mechanism is fixed on the support, and the propulsion beam system is fixed on the support.

3. The auger grouting structure in a grouting control system of an auger grouting structure according to claim 2, characterized in that: the rod unloading mechanism comprises a cylinder and a fixing support, wherein a first L-shaped fixing rod, a second L-shaped fixing rod and a third fixing rod are arranged on the fixing support, the two ends of the third fixing rod are respectively connected with the first L-shaped fixing rod and the second L-shaped fixing rod, a flange plate is arranged on the first L-shaped fixing rod and the second L-shaped fixing rod, a stepped fixing device is arranged on the second L-shaped fixing rod, a telescopic component is arranged on the side wall of the stepped fixing device, the end portion of the telescopic rod is provided with a clamping rod, a first U-shaped groove is formed in the clamping rod, a second U-shaped groove is formed in the third fixing rod, and the first U-shaped groove is located above the second U-shaped groove.

4. The auger grouting structure in a grouting control system of an auger grouting structure according to claim 3, characterized in that: the U-shaped groove I and the U-shaped groove II are both provided with height-adjusting gaskets, the gaskets can be fixed on the U-shaped groove I or the U-shaped groove II through bolts, the L-shaped fixing rod I and the L-shaped fixing rod II are movably fixed on the fixing rod III, and the telescopic member is movably fixed on the stepped fixing device.

5. The auger grouting structure in a grouting control system of an auger grouting structure according to claim 3, characterized in that: the propulsion beam system comprises a first bottom plate, a first side plate and a second side plate, the first bottom plate, the first side plate and the second side plate are integrally formed, a motor device is arranged on the first bottom plate, the first side plate and the second side plate are vertically fixed on the first bottom plate, a flange plate is arranged on the side wall of the cylinder, and reinforcing ribs are arranged between the flange plate and the cylinder.

6. The grouting control system of a screw drilling grouting structure according to claim 1, characterized in that: the volume of the second cavity is smaller than that of the third cavity, the volume of the third cavity is smaller than that of the first cavity, a first filter screen plate and a second filter screen plate are arranged inside the water filtering box, the diameter of a filter hole in the first filter screen plate is larger than that of a filter hole in the second filter screen plate, the first filter screen plate is located above the second filter screen plate, an L-shaped water outlet pipe is arranged below the first filter screen plate, and a first water outlet pipe is arranged below the second filter screen plate.

7. The grouting control system of a screw drilling grouting structure according to claim 6, characterized in that: the L-shaped water outlet pipe penetrates through the side wall of the first cavity, at least two Y-shaped stirring rods are arranged and are symmetrical relative to the motor output shaft I, and a second water outlet pipe is arranged at the bottom of the first cavity.

8. The grouting control system of a screw drilling grouting structure according to claim 1, characterized in that: the spiral drill rod comprises a first spiral drill rod and a second spiral drill rod, the first spiral drill rod and the second spiral drill rod are formed by splicing, and the interiors of the first spiral drill rod and the second spiral drill rod are both of hollow structures.

9. The grouting control system of a screw drilling grouting structure according to claim 1, characterized in that: the top of the third cavity is provided with a groove, a square water inlet hole is formed in the groove, a third filter screen plate is arranged in the square water inlet hole, the square water inlet hole is connected with a filter tank, and the lower portion of each of the three claws is provided with a spine portion.