CN216266852U - Modular mobile working system for producing flow-state self-compaction solidified soil - Google Patents

Abstract

The utility model belongs to the technical field of material mixing, and particularly relates to a modular mobile working system for producing fluidized self-compacting solidified soil, which comprises a batching component, a feeding component and a mixing component, wherein the batching component comprises a first support, three batching machines and conveying equipment which are linearly distributed are arranged on the first support, the conveying equipment is positioned below the three batching machines, two side baffles are fixedly arranged at the top of the first support, the mixing component comprises a second support and a stirring main building which are fixedly connected together, and a mixing hopper is arranged on the stirring main building. On the basis of meeting the use function, the equipment has the advantages of miniaturization, modularization, movability and the like, is convenient to transport, install and detach, and is not influenced by transportation conditions (height limitation, width limitation, size of transportation vehicles and the like); the device has better continuous operation performance and reliability, and can be flexibly installed and adjusted according to actual use requirements.

Description

Modular mobile working system for producing flow-state self-compaction solidified soil

Technical Field

The utility model relates to the technical field of material mixing, in particular to a modular mobile working system for producing fluidized self-compacting solidified soil.

Background

In the process of backfilling construction of various engineering foundation grooves, the problems of narrow backfilling space of the foundation groove, large backfilling depth, unstable ramming quality of backfilled soil, high quality requirement of the backfilled soil and the like are often encountered, in recent years, the engineering of deep foundation pit supporting is more and more, the sinking damage of parts such as scattered water, pipelines, residential roads and the like of a building is caused by the incompact of the backfilled soil, the accident of losing the use function sometimes occurs, meanwhile, the backfilling of the foundation groove is limited by the backfilling condition, the space and other factors, the condition brings harm to the seismic performance of a high-rise building, the traditional process mostly adopts plain soil or grey soil for construction by using small ramming equipment in layers, the construction difficulty is large, the backfilling period is long, the backfilling quality is difficult to control, therefore, most of the engineering only adopts plain concrete for backfilling to ensure the backfilling quality, the construction cost is high by adopting the plain concrete, the high strength brings problems to later maintenance and repair, the premixed fluidized solidified soil is a novel building material which is specially researched and innovated aiming at the problems, after a fertilizer groove and foundation pit are dug or waste foundation soil is fully utilized, after a curing agent and water in a certain proportion are mixed, fully and uniformly mixed by an original process and a special machine to form the pumpable and flowable reinforcing material, the premixed fluid-state solidified soil is used for backfilling and pouring of various fertilizer grooves, foundation pits and mine pits, and can be widely used in the field of reinforcing treatment of road beds, building foundations and the like, the slump of the premixed fluid-state solidified soil after uniform mixing is 8-20 cm, the strength of the premixed fluid-state solidified soil after hardening is 0.5-10 MPa, additives are added during mixing according to soil quality and design requirements, and the mixing proportion of the premixed fluid-state solidified soil can be adjusted according to use requirements to adjust the strength and the flowability of the premixed fluid-state solidified soil.

However, some concrete mixing stations are adopted to mix the fluid state solidified soil in advance, so that the mixing stations are large in size and relatively rigid in connection of all parts, the mixing stations can only continuously work in one place, the installation and the transfer are relatively troublesome, the flexibility is relatively poor, the size of equipment is relatively large, and the mixing stations are easily limited by transport vehicles and transport roads in the transportation process.

Therefore, we propose a modular mobile working system for producing fluidized self-compacting solidified soil to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a modular mobile working system for producing fluidized self-compacting solidified soil.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a production flow state self-compaction solidifies modularization of soil and removes operating system, includes batching subassembly, material loading subassembly and compounding subassembly, the batching subassembly includes support one, be equipped with three proportioning machine and the conveying equipment that is linear distribution on the support one, conveying equipment is located the below of three proportioning machine, the top fixed mounting of support one has two side shields, the compounding subassembly includes two and stirring main buildings of fixed connection support together, install the mixing hopper on the stirring main building, be equipped with control assembly and high-speed pulping machine between batching subassembly and the compounding subassembly, material loading subassembly movable mounting is at the top of control assembly, and material loading subassembly slope set up can dismantle with support one and support two and link together.

Preferably, the proportioning machine includes the weighing hopper and the feeding funnel that are in the same place with a support fixed connection, the feeding funnel is located the top of weighing hopper, the bottom of feeding funnel is rotated and is installed the bin gate, one side of feeding funnel articulates there is hydraulic stem one, the bottom and the bin gate of hydraulic stem one articulate together, install screening equipment in the feeding funnel, one side fixed mounting of support two has the climbing ladder.

Preferably, the control assembly comprises a control chamber, and the control chamber is provided with two additive storage tanks and two water pumps.

Preferably, the top fixed mounting of control assembly has two guide rails two, and the equal fixed mounting in bottom of two guide rails two has a plurality of equidistant distribution's pole setting, the material loading subassembly includes the carriage, rotate on the carriage and install the conveyer belt, the bottom of carriage is equipped with adjusting part, adjusting part includes the installation strip one with carriage fixed connection together, the bottom slidable mounting of carriage has installation strip two, the bottom of installation strip one articulates there are two hinge bars one, the bottom of installation strip two articulates there are two hinge bars two, and the bottom of adjacent hinge bar one and hinge bar two articulates there is same slider two, and two respectively detachable sliding sleeve of two sliders are established on the guide rail two that correspond.

Preferably, two first sliding blocks are fixedly mounted on the second mounting bar, a first guide rail is mounted on the first sliding blocks in a sliding mode, the first guide rails are fixedly connected with the conveying frame, and two hydraulic rods are fixedly mounted on one side, close to each other, of the first mounting bar and one side, close to the second mounting bar, of the second mounting bar.

Preferably, crossed reinforcing ribs are fixedly mounted between the first two hinged rods and between the second two hinged rods.

Preferably, the conveying frame comprises a first mounting frame and a second mounting frame which are connected together in a rotating mode, the two sides of the top of the first mounting frame are connected with a second corresponding guide rail in a detachable mode respectively, the first mounting strip is connected with the second mounting frame in a connected mode, anti-skidding bolts are arranged on the second sliding block and penetrate through the second sliding block and are connected with the second sliding block in a threaded mode.

Preferably, be in the same place through the tube coupling between compounding subassembly, the control assembly and the high-speed pulping machine, the tube coupling between compounding subassembly, the control assembly and the high-speed pulping machine is the union coupling, the below of mixing hopper is equipped with height-adjustable's row's hopper, the unsettled setting of row's hopper is in the junction of support two and stirring owner building.

Preferably, it has two hydraulic stems three to articulate between mounting bracket one and the mounting bracket two, be equipped with two sets of rotating assembly between mounting bracket one and the mounting bracket two, rotating assembly includes three hornblocks one together with two fixed connection of mounting bracket and three hornblocks two together with one fixed connection of mounting bracket, three hornblocks are one to go up fixed mounting and have the rotation post, the rotation post runs through three hornblocks two and rotates with three hornblocks two and link together, two last fixed mounting of three hornblocks have the drum, fixed mounting has electro-magnet and spacing subassembly in the drum, spacing subassembly and the movable joint of rotation post are in the same place.

Preferably, a plurality of constant head tanks that are circular distribution have been seted up on the rotation post, spacing subassembly includes the disc one with drum inner wall fixed connection together, set up a plurality of constant head tanks quantity and equal and be circular distribution's guide hole on the disc one, one side of disc one is equipped with disc two, disc two is gone up fixed mounting has the locating pin that just is circular distribution with a plurality of constant head tanks quantity is equal, and a plurality of locating pins run through corresponding guide hole respectively and be in the same place with the inner wall sliding connection who corresponds the guide hole, the slip cap is equipped with the spring on the locating pin, the both ends of spring are in the same place with disc one and two fixed connection of disc respectively.

Compared with the prior art, the utility model has the beneficial effects that: when the device is transferred, the mounting bracket II is clockwise rotated by taking the mounting bracket I as the circle center, the mounting bracket II is horizontally placed above the support I and is positioned between the two side baffles, the size of the device is smaller, the transfer is convenient, the length of the two hydraulic rods is adjusted, the mounting bar II slides on the corresponding guide rail I through the two sliders I, the distance between the mounting bar I and the mounting bar II is changed, the distance between the two sliders II and the mounting bracket II is changed, the mounting bracket II is rotated by taking the mounting bracket I as the circle center, the distance between the mounting bracket II and the two guide rails II is changed, the highest position ground clearance of the conveying belt can be adjusted according to the actual use environment, and the feeding assembly is ensured to be always capable of accurately conveying materials to the mixing hopper.

On the basis of meeting the use function, the equipment has the advantages of miniaturization, modularization, movability and the like, is convenient to transport, install and detach, and is not influenced by transportation conditions (height limitation, width limitation, size of transportation vehicles and the like); the device has better continuous operation performance and reliability, and can be flexibly installed and adjusted according to actual use requirements.

Drawings

FIG. 1 is a front view of a modular mobile work system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 2 is a schematic diagram of the overall structure of the batching components in the modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 3 is a schematic diagram of the overall structure of a mixing assembly in a modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 4 is a side view of the dispensing assembly of the modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 5 is a top view of a modular mobile work system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 6 is a schematic view of the overall structure of a feeding assembly in a modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 7 is a schematic diagram of the overall structure of an adjusting assembly in the modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 8 is an enlarged view of portion A of FIG. 6;

FIG. 9 is a schematic diagram of the overall structure of the conveyor frame and the conveyor belt in the modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 10 is a schematic view of the overall structure of a feeding assembly in a folded state in a modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 11 is a schematic partial structural view of a carriage in a modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

FIG. 12 is an enlarged view of portion B of FIG. 11;

FIG. 13 is an exploded view of the rotating assembly of the modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention;

fig. 14 is a schematic overall structure diagram of a rotating column and a limiting component in a modular mobile working system for producing fluidized self-compacting solidified soil according to the present invention.

In the figure: 1. a dosing assembly; 11. a first bracket; 12. a dosing machine; 121. weighing a hopper; 122. Feeding a hopper; 123. a bin gate; 124. a first hydraulic rod; 13. a conveying device; 14. a side dam; 2. a feeding assembly; 21. a carriage; 211. a first mounting frame; 212. a second mounting frame; 213. A hydraulic rod III; 22. a conveyor belt; 23. an adjustment assembly; 24. a rotating assembly; 241. a first triangular block; 242. a second triangular block; 243. rotating the column; 2431. positioning a groove; 244. a cylinder; 245. an electromagnet; 246. a limiting component; 2461. a first disc; 2462. a guide hole; 2463. a second disc; 2464. positioning pins; 2465. a spring; 231. mounting a first bar; 232. mounting a second bar; 233. a first hinge rod; 234. a second hinge rod; 235. a first sliding block; 236. a first guide rail; 237. a second hydraulic rod; 238. a second sliding block; 3. a mixing assembly; 31. a second bracket; 32. stirring the main building; 33. a mixing hopper; 34. climbing a ladder; 4. a control component; 41. a control room; 42. an additive storage tank; 43. a water pump; 5. a high-speed pulping machine; 6. erecting a rod; 7. and a second guide rail.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-14, the present embodiment provides a modular mobile work system for producing fluidized self-compacting solidified soil, including a batching component 1, a loading component 2 and a mixing component 3, where the batching component 1 includes a first support 11, the first support 11 is provided with three batching machines 12 and three conveying devices 13 which are linearly distributed, the conveying devices 13 are located below the three batching machines 12, the top of the first support 11 is fixedly provided with two side baffles 14, the mixing component 3 includes a second support 31 and a stirring main building 32 which are fixedly connected together, the stirring main building 32 is provided with a mixing hopper 33, a control component 4 and a high-speed slurrying machine 5 are provided between the batching component 1 and the mixing component 3, the loading component 2 is movably installed at the top of the control component 4, and the loading component 2 is obliquely arranged and detachably connected with the first support 11 and the second support 31.

Specifically, an interlocking mechanism is established between the feeding assembly 2 and the mixing assembly 3, after the mixing assembly 3 finishes stirring and finishes discharging, next batch of raw materials can be timely conveyed into the mixing assembly 3, measures for preventing weighed raw materials from spilling need to be taken in the design of the feeding assembly 2 pair, the control assembly 4 needs to adopt products meeting the national quality standard, the control system of the control assembly 4 needs to be safe and reliable, the control system needs to be simple to operate, system keys need to be distinguished clearly, Chinese names are attached, and the control system needs to comprise two modes of manual control and automatic control.

The batching machine 12 comprises a weighing hopper 121 and a feeding hopper 122 which are fixedly connected with a first support 11, the feeding hopper 122 is positioned above the weighing hopper 121, a bin gate 123 is rotatably arranged at the bottom of the feeding hopper 122, a first hydraulic rod 124 is hinged to one side of the feeding hopper 122, the bottom end of the first hydraulic rod 124 is hinged to the bin gate 123, screening equipment is arranged in the feeding hopper 122, and a climbing ladder 34 is fixedly arranged on one side of a second support 31.

It is specific, through setting up the material quantity that control that hydraulic stem 124 and proportioning machine 12 can be accurate need enter into in the compounding subassembly 3, and screening equipment can filter the unqualified material of thickness in the material, ensure that the coarse aggregate particle diameter after the screening should not be greater than 30mm, the vibrating equipment efficiency that screening equipment used must satisfy soil material screening speed demand, guarantee soil material screening speed and mixer stirring speed phase-match at least, make the thick liquids that the material mixture is more evenly fine and smooth, and the additive mixture can be ensured to title hopper 121, the cementitious material weighing system error should not be greater than 1 thousandth more, soil material weighing system error should not be greater than 2 thousandth more.

The control assembly 4 comprises a control chamber 41, and two additive storage tanks 42 and two water pumps 43 are arranged on the control chamber 41.

Specifically, the additive storage tank 42 can be suitable for various types and states of the solidified soil catalyst and the additive, and the additive storage tank 42 has good stirring performance, so that the pulping raw materials can be fully and uniformly mixed.

Two guide rails two 7 of top fixed mounting of control assembly 4, the equal fixed mounting in bottom of two guide rails two 7 has a plurality of equidistant distribution's pole setting 6, material loading subassembly 2 includes carriage 21, it installs conveyer belt 22 to rotate on the carriage 21, the bottom of carriage 21 is equipped with adjusting part 23, adjusting part 23 includes the installation strip one 231 with carriage 21 fixed connection together, the bottom slidable mounting of carriage 21 has installation strip two 232, the bottom of installation strip one 231 articulates there are two articulated rods one 233, the bottom of installation strip two 232 articulates there are two articulated rods two 234, the bottom of adjacent articulated rod one 233 and articulated rod two 234 articulates there is same slider two 238, two sliders two 238 detachable sliding sleeve respectively establish on corresponding guide rail two 7.

Specifically, the distance between the second slider 238 and the carriage 21 can be adjusted by adjusting the distance between the weighing hopper 121 and the second mounting bar 232, so that the inclination angle of the carriage 21 can be adjusted.

Two first sliding blocks 235 are fixedly mounted on the second mounting strip 232, a first guide rail 236 is mounted on the first sliding blocks 235 in a sliding mode, the first guide rail 236 is fixedly connected with the conveying frame 21, and two hydraulic rods 237 are fixedly mounted on one sides, close to each other, of the first mounting strip 231 and the second mounting strip 232.

Particularly, through setting up two hydraulic stem two 237 can be more laborsaving convenient adjustment mounting bar 231 and the interval between the mounting bar two 232, and the cooperation of slider 235 and slider 235 can be more in the same direction as smooth when can making on mounting bar two 232 and the carriage 21 gliding.

Crossed reinforcing ribs are fixedly arranged between the two first hinge rods 233 and between the two second hinge rods 234.

In particular, the crossed reinforcing ribs can reinforce the connection strength between the two first hinge rods 233 and the two second hinge rods 234, thereby improving the stability of the adjusting assembly 23.

The conveying frame 21 comprises a first mounting frame 211 and a second mounting frame 212 which are connected together in a rotating mode, two sides of the top of the first mounting frame 211 are detachably connected with a corresponding second guide rail 7 respectively, a first mounting strip 231, a second mounting strip 232 and the second mounting frame 212 are connected together, anti-skid bolts are arranged on a second sliding block 238 and penetrate through the second sliding block 238 and are in threaded connection with the second sliding block 238.

Specifically, the second mounting frame 212 and the first mounting frame 211 which are connected together in a rotating mode can enable the whole conveying frame 21 and the whole conveying belt 22 to be folded, so that the longer feeding assembly 2 can be completely accommodated above the batching assembly 1, the whole device is convenient to transport, and the position of the second sliding block 238 on the second guide rail 7 can be limited through the arrangement of the anti-skidding bolts.

The mixing component 3, the control component 4 and the high-speed pulping machine 5 are connected together through pipelines, the pipelines between the mixing component 3, the control component 4 and the high-speed pulping machine 5 are all connected through movable joints, a discharging hopper with the adjustable height is arranged below the mixing hopper 33, and the discharging hopper is arranged at the joint of the second support 31 and the main stirring building 32 in a suspension manner.

Specifically, owing to be that the union links together between compounding subassembly 3, control assembly 4 and high-speed pulping machine 5 and the pipeline, consequently also convenient dismantlement and equipment to make whole device modularization, mobilizable cross-over higher, be convenient for transport and ann tear open, two kinds of ejection of compact height designs, and the high requirement of conventional pump truck direct pumping is highly satisfied in first kind of ejection of compact, and the high requirement of material receiving of concrete tank truck is highly satisfied in second kind of ejection of compact.

Articulated between mounting bracket one 211 and the mounting bracket two 212 have three 213 of two hydraulic stems, be equipped with two sets of rotating assembly 24 between mounting bracket one 211 and the mounting bracket two 212, rotating assembly 24 includes triangle piece one 241 and triangle piece two 242 with mounting bracket one 211 fixed connection together with mounting bracket two 212 fixed connection together, fixed mounting has the rotation post 243 on the triangle piece one 241, the rotation post 243 runs through triangle piece two 242 and rotates with triangle piece two 242 and link together, fixed mounting has drum 244 on the triangle piece two 242, fixed mounting has electro-magnet 245 and spacing subassembly 246 in the drum 244, spacing subassembly 246 is in the same place with the movable joint of rotation post 243.

Specifically, when the included angle between the first mounting bracket 211 and the second mounting bracket 212 is adjusted, the second mounting bracket 212 and the first mounting bracket 211 can rotate around the rotating assembly 24 by controlling the three hydraulic rods 213, when the included angle between the first mounting bracket 211 and the second mounting bracket 212 is limited, the limiting assembly 246 is connected with the rotating column 243 in a clamping mode, the first triangular block 241 is not rotated with the second triangular block 242, when the included angle between the first triangular block 241 and the second triangular block 242 needs to be adjusted, the driving electromagnet 245 can drive the limiting assembly 246 to be separated from the rotating column 243, and the relation between the first triangular block 241 and the second triangular block 242 can be flexibly rotated.

The rotating column 243 is provided with a plurality of positioning grooves 2431 which are distributed in a circular shape, the limiting component 246 comprises a first disc 2461 which is fixedly connected with the inner wall of the cylinder 244, the first disc 2461 is provided with a plurality of guide holes 2462 which are distributed in a circular shape and have the same number as the positioning grooves 2431, one side of the first disc 2461 is provided with a second disc 2463, the second disc 2463 is fixedly provided with a plurality of positioning pins 2464 which are distributed in a circular shape and have the same number as the positioning grooves 2431, the plurality of positioning pins 2464 respectively penetrate through the corresponding guide holes 2462 and are connected with the inner wall of the corresponding guide holes 2462 in a sliding manner, the positioning pins 2464 are sleeved with a spring 2465 in a sliding manner, and two ends of the spring 2465 are respectively fixedly connected with the first disc 2461 and the second disc 2463.

Specifically, the second disc 2463 is made of a material capable of being adsorbed by magnetic force, when the limiting assembly 246 is clamped with the rotating column 243, the positioning pins 2464 are respectively inserted into the corresponding positioning grooves 2431, and then the first disc 2461 and the rotating column 243 are limited by the positioning pins 2464, so that the rotating column 243 is not easy to rotate, when the rotating column 243 needs to rotate, the electromagnet 245 is electrified to generate magnetic force, so that the second adsorbing disc 2463 is far away from the first disc 2461, the second disc 2463 drives the positioning pins 2464 to be separated from the corresponding positioning grooves 2431, the rotating column 243 can rotate randomly, and after the electromagnet 245 is powered off, under the reset elastic force of the spring 2465, the second disc 2463 is close to the first disc 2461 and drives the positioning pins 2464 to be clamped into the corresponding positioning pins 2464.

In this embodiment, materials are fed into the three feeding hoppers 122 through the loading machine, the materials firstly pass through the screening device, qualified materials leak into the feeding hoppers 122, unqualified materials fall into the unqualified product stacking area under the action of the screening device, the bottom ends of the three feeding hoppers 122 are all in an open state during initial weighing, the materials all fall into the three weighing hoppers 121, when the weight of the materials in the three weighing hoppers 121 reaches a target range, and at the time, the accurate range is reached, two of the hydraulic rods one 124 drive the corresponding bin gate 123 to block the lower end of the corresponding feeding hopper 122, so that the materials do not flow out any more, the materials can only be fed into the corresponding weighing hopper 121 from one feeding hopper 122, thereby achieving the purpose of accurate weighing, and finally the materials are conveyed to the upper side of the feeding assembly 2 through the conveying device 13, and finally pass through the conveying of the feeding assembly 2, and completely enter the mixing hopper 33, meanwhile, the powder material and the premixed materials (water and additive) in the control assembly 4 are respectively put into the high-speed pulping machine 5, made into slurry water through the high-speed pulping machine 5, then the slurry water is pumped into the mixing hopper 33 through the equipment to be mixed and stirred with the soil, then a vehicle bearing the concrete can be driven to the lower part of the mixing hopper 33, and the mixed materials in the mixing hopper 33 can enter the vehicle through the discharge hopper.

In this embodiment, when the apparatus is transferred, by rotating the second mounting frame 212 clockwise around the first mounting frame 211 as a circle center, so that the second mounting bracket 212 is placed on the first bracket 11 and between the two side guards 14, the device is smaller in size, thereby facilitating the transfer, and by adjusting the length of the two hydraulic rods 237, the second mounting bar 232 slides on the corresponding first guide rail 236 through the two first sliding blocks 235, so that the distance between the first mounting bar 231 and the second mounting bar 232 is changed, therefore, the distance between the two second sliding blocks 238 and the second mounting frame 212 is changed, so that the second mounting frame 212 rotates around the first mounting frame 211 as a circle center, the distance between the second mounting frame 212 and the two second guide rails 7 is changed, thereby make conveyer belt 22 highest point ground clearance can adjust according to actual use environment, ensure that material loading subassembly 2 can be all the time with the accurate transport of material to in the compounding fill 33.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a production flow state self-compaction solidifies modularization of soil and removes operating system, includes batching subassembly (1), material loading subassembly (2) and compounding subassembly (3), its characterized in that, batching subassembly (1) includes support (11), be equipped with three batching machine (12) and conveying equipment (13) that are linear distribution on support (11), conveying equipment (13) are located the below of three batching machine (12), the top fixed mounting of support (11) has two side shields (14), compounding subassembly (3) are including support two (31) and stirring owner building (32) that fixed connection is in the same place, install mixing hopper (33) on stirring owner building (32), be equipped with control assembly (4) and high-speed pulping machine (5) between batching subassembly (1) and compounding subassembly (3), material loading subassembly (2) movable mounting is at the top of control assembly (4), and the feeding assembly (2) is obliquely arranged and is detachably connected with the first support (11) and the second support (31).

2. The modular mobile working system for producing the fluidized self-compacting solidified soil is characterized in that the batching machine (12) comprises a weighing hopper (121) and a feeding hopper (122) which are fixedly connected with a first support (11), the feeding hopper (122) is positioned above the weighing hopper (121), a bin gate (123) is rotatably installed at the bottom of the feeding hopper (122), a first hydraulic rod (124) is hinged to one side of the feeding hopper (122), the bottom end of the first hydraulic rod (124) is hinged to the bin gate (123), screening equipment is installed in the feeding hopper (122), and a climbing ladder (34) is fixedly installed at one side of a second support (31).

3. The modular mobile working system for producing fluidized self-compacting solidified soil according to claim 1, wherein the control assembly (4) comprises a control chamber (41), and two additive storage tanks (42) and two water pumps (43) are arranged on the control chamber (41).

4. The modular moving work system for producing the fluidized self-compacting solidified soil according to claim 1, wherein two guide rails II (7) are fixedly mounted at the top of the control assembly (4), a plurality of upright rods (6) are fixedly mounted at the bottoms of the two guide rails II (7) and are distributed at equal intervals, the feeding assembly (2) comprises a conveying frame (21), a conveying belt (22) is rotatably mounted on the conveying frame (21), an adjusting assembly (23) is arranged at the bottom of the conveying frame (21), the adjusting assembly (23) comprises a first mounting bar (231) fixedly connected with the conveying frame (21), a second mounting bar (232) is slidably mounted at the bottom of the conveying frame (21), two first hinged rods (233) are hinged at the bottom of the first mounting bar (231), and two second hinged rods (234) are hinged at the bottom of the second mounting bar (232), the bottom ends of the adjacent first hinge rod (233) and the second hinge rod (234) are hinged with a second sliding block (238), and the second sliding blocks (238) are respectively detachably sleeved on the corresponding second guide rails (7) in a sliding manner.

5. The modular mobile working system for producing fluidized self-compacting solidified soil according to claim 4, wherein two first sliding blocks (235) are fixedly mounted on the second mounting bar (232), a first guide rail (236) is slidably mounted on each of the two first sliding blocks (235), the two first guide rails (236) are fixedly connected with the conveying frame (21), and two second hydraulic rods (237) are fixedly mounted on one sides of the first mounting bar (231) and the second mounting bar (232) close to each other.

6. The modular mobile working system for producing fluidized self-compacting solidified soil according to claim 4, wherein cross-type reinforcing ribs are fixedly arranged between the two first hinge rods (233) and between the two second hinge rods (234).

7. The modular mobile working system for producing fluidized self-compacting solidified soil according to claim 4, wherein the conveying frame (21) comprises a first mounting frame (211) and a second mounting frame (212) which are rotatably connected together, two sides of the top of the first mounting frame (211) are detachably connected with a corresponding second guide rail (7) respectively, the first mounting bar (231), the second mounting bar (232) and the second mounting frame (212) are connected together, and the second sliding block (238) is provided with anti-skid bolts which penetrate through the second sliding block (238) and are in threaded connection with the second sliding block (238).

8. The modular mobile working system for producing the fluidized self-compacting solidified soil according to claim 1, wherein the mixing component (3), the control component (4) and the high-speed pulper (5) are connected together through pipelines, the pipelines between the mixing component (3), the control component (4) and the high-speed pulper (5) are all connected through movable joints, a discharge hopper with adjustable height is arranged below the mixing hopper (33), and the discharge hopper is arranged at the joint of the second support (31) and the stirring main building (32) in a suspension manner.

9. The modular mobile working system for producing fluidized self-compacting solidified soil according to claim 7, wherein two hydraulic rods III (213) are hinged between the first mounting frame (211) and the second mounting frame (212), two sets of rotating assemblies (24) are arranged between the first mounting frame (211) and the second mounting frame (212), each rotating assembly (24) comprises a first triangular block (241) fixedly connected with the second mounting frame (212) and a second triangular block (242) fixedly connected with the first mounting frame (211), a rotating column (243) is fixedly installed on the first triangular block (241), the rotating column (243) penetrates through the second triangular block (242) and is rotatably connected with the second triangular block (242), a cylinder (244) is fixedly installed on the second triangular block (242), and an electromagnet (245) and a limiting assembly (246) are fixedly installed in the cylinder (244), the limiting component (246) is movably clamped with the rotating column (243).

10. The modular mobile working system for producing fluidized self-compacting solidified soil according to claim 9, wherein the rotating column (243) is provided with a plurality of positioning grooves (2431) which are distributed in a circular shape, the limiting assembly (246) comprises a first disc (2461) which is fixedly connected with the inner wall of the cylinder (244), the first disc (2461) is provided with a plurality of guide holes (2462) which are distributed in a circular shape and are equal to the positioning grooves (2431), one side of the first disc (2461) is provided with a second disc (2463), the second disc (2463) is fixedly provided with positioning pins (2464) which are distributed in a circular shape and are equal to the positioning grooves (2431), the positioning pins (2464) respectively penetrate through the corresponding guide holes (2462) and are slidably connected with the inner wall of the corresponding guide holes (2462), and the positioning pins (2464) are slidably sleeved with springs (2465), and two ends of the spring (2465) are fixedly connected with the first disc (2461) and the second disc (2463) respectively.

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