CN216540139U - Mobile building muck in-situ curing equipment - Google Patents

Abstract

The utility model discloses a mobile construction waste soil in-situ curing device, which comprises a mobile transport vehicle running to the construction waste soil in-situ; the muck curing agent storage unit is arranged on the movable transport vehicle; the residue soil pre-turning and mixing unit is used for pre-turning the in-situ building residue soil; the conveying and feeding unit is used for providing power for outputting the muck curing agent in the muck curing agent storage unit and is connected with the muck curing agent storage unit; the residue soil curing and stirring unit is used for stirring and mixing the curing agent provided by the conveying and feeding unit and the pre-turned building residue soil; and the solidified slag soil tamping unit applies pressure to the curing agent and the building slag soil after stirring and mixing. The utility model can solve the problems of dust raising and transverse flow of muddy water, infirm surface spraying and the like caused by untreated muck.

Description

Mobile building muck in-situ curing equipment

Technical Field

The utility model relates to the technical field of in-situ solidification of building muck, in particular to a mobile in-situ solidification device for building muck.

Background

The building residue soil is a product of projects such as urban construction, road construction and the like, and has the advantages of large residue soil production amount, large resource utilization difficulty and few approaches. At present, the materials are stacked in disorder, covered by dust screens, simply sprayed and the like, and a small part of the materials are compacted to be used as temporary roads. The disordered, non-standard and simple spraying treatment of the dregs, even compaction as temporary roads and the like, dust is easily generated in dry weather, and mud and muddy water are easily generated in rainy seasons to influence travel and water pollution.

In the prior art, the treatment is carried out by adopting modes such as dust screen covering or manual spraying and curing, and the modes only can achieve short-term effects and consume a large amount of labor; in addition, dust is easily generated by compacting the slag soil as a temporary road and rolling for multiple times, and the passing is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mobile in-situ solidification device for building muck, which can solve the problems of raised dust and transverse flow of muddy water, infirm surface spraying and the like caused by untreated muck.

The technical scheme for solving the problems is as follows:

a mobile construction muck in-situ curing apparatus comprising:

a mobile transport vehicle for driving to the building residue soil original position;

the muck curing agent storage unit is arranged on the mobile transport vehicle;

the residue soil pre-turning and mixing unit is arranged on the movable transport vehicle and used for pre-turning the in-situ building residue soil;

the conveying and feeding unit is used for providing power for outputting the muck curing agent in the muck curing agent storage unit and is arranged on the movable transport vehicle and connected with the muck curing agent storage unit;

the residue soil curing and stirring unit is arranged on the movable transport vehicle and is used for stirring and mixing the curing agent provided by the conveying and feeding unit and the pre-turned building residue soil;

and the solidified residue soil tamping unit is arranged on the movable transport vehicle and applies pressure to the curing agent and the building residue soil after stirring and mixing.

The utility model can solve the problems of dust raising, transverse flow of muddy water, infirm surface spraying and the like caused by untreated muck by integrating muck pre-turning and stirring, curing agent conveying, in-situ curing and stirring of muck and tamping of the cured muck.

The device can realize the in-situ solidification of the muck.

The utility model has the advantages that: the utility model integrates the stirring, curing and tamping of the muck, integrates the processes on one mobile transport vehicle at the same time, and can be suitable for curing the muck. The utility model simplifies the process flow, reduces the labor cost and realizes the high-efficiency treatment of the building residue soil. Meanwhile, the utility model solves the problem of muck management, and the device integrates multiple functions to realize in-situ solidification and efficient management of muck.

Drawings

FIG. 1 is a front view of the mobile construction waste in-situ solidification apparatus of the present invention;

FIG. 2 is a top view of the mobile construction muck in-situ curing apparatus of the present invention;

FIG. 3 is a schematic diagram of the cooperation of a muck curing agent storage unit, a conveying and feeding unit and a muck pre-turning unit;

FIG. 4 is a schematic view of the cooperation of a muck curing agent storage unit, a conveying and feeding unit and a muck curing and stirring unit;

FIG. 5 is a schematic view of the cooperation of a muck curing agent storage unit with a conveying and feeding unit and a solidified muck tamping unit;

FIG. 6 is a partial schematic view of a mobile construction waste in situ solidification apparatus of the present invention;

FIG. 7 is a schematic diagram of one embodiment of the muck pre-turning unit and the muck curing and stirring unit and the solidified muck tamping unit;

reference numbers in the drawings:

the device comprises a muck curing agent storage unit 1, a conveying and feeding unit 2, a muck pre-turning and mixing unit 3, a muck breaker 3a, a first lifting driver 3b, a first lifting support 3c, a first driver 3d, a muck curing and stirring unit 4, a stirring component 4a, a second lifting driver 4b, a second lifting support 4c, a second driver 4d, a cured muck tamping unit 5, a tamping hammer 5a, a third lifting driver 5b, a third lifting support 5c, a third driver 5d, a movable transport vehicle 6, a control system 7, a pre-turning and mixing control button 8, a curing and stirring control button 9 and a tamping system control button 10.

Detailed Description

The present invention is further described below with reference to fig. 1 to 7.

The mobile building residue soil in-situ curing equipment comprises a mobile transport vehicle 6 driven to the building residue soil in-situ, a residue soil curing agent storage unit 1, a residue soil pre-turning and stirring unit 3, a conveying and feeding unit 2, a residue soil curing and stirring unit 4 and a cured residue soil tamping unit 5, wherein each part and the relationship among the parts are explained in detail as follows:

the movable transport vehicle 6 can drive to a position with building muck, and after reaching a specific position, the building muck is processed through the muck curing agent storage unit 1, the muck pre-turning and stirring unit 3, the conveying and feeding unit 2, the muck curing and stirring unit 4 and the cured muck tamping unit 5 which are arranged on the movable transport vehicle. The movable transport vehicle 6 can use vehicles such as engineering vehicles and has the advantages of large volume and easiness in installation of other units.

The muck curing agent storage unit 1 is arranged on the movable transport vehicle 6; the muck curing agent storage unit 1 consists of a container and a curing agent, wherein the curing agent is stored in the container, and the curing agent can be a liquid curing agent or a powdery curing agent according to specific building muck.

The residue soil pre-turning and mixing unit 3 is arranged on the movable transport vehicle 6, and the residue soil pre-turning and mixing unit 3 pre-turns the in-situ building residue soil. Since the building waste soil is already compacted after being stacked and settled, the building waste soil needs to be loosened before the solidification treatment. After the mobile transport vehicle 6 runs to a position with building muck, the muck pre-turning and mixing unit 3 is started to work, and the muck pre-turning and mixing unit 3 turns the muck loose so as to prepare for the curing and stirring system 4 to fully and uniformly mix the muck and the curing agent.

In the utility model, the residue soil pre-turning and mixing unit 3 comprises a plurality of residue soil breakers 3a, a first lifting driver 3b, a first lifting support 3c and a first driver 3d, wherein the first lifting driver 3b is connected with the first lifting support 3c, the residue soil breakers 3a are installed on the first lifting support 3c, and the residue soil breakers 3a are connected with the first driver 3 d.

During operation, order about first lifting support 3c through first lift driver 3b and descend, make dregs breaker 3a and building dregs heap form the cooperation, start first driver 3d and make first driver 3d order about dregs breaker 3a work to the operation of scarifying is piled to building dregs. In the working process, the first lifting driver 3b can be controlled to lift or descend according to the height of the building residue soil, and the movable transport vehicle 6 is controlled to move, so that the residue soil breaker 3a can loosen different parts of the building residue soil pile.

The conveying and feeding unit 2 provides power for outputting the muck curing agent in the muck curing agent storage unit 1, the conveying and feeding unit 2 is arranged on the movable transport vehicle 6, and the conveying and feeding unit 2 is connected with the muck curing agent storage unit 1; when the curing agent in the muck curing agent storage unit 1 needs to be supplied to the building muck pile, the curing agent in the muck curing agent storage unit 1 is conveyed to the building muck pile under the power action of the conveying and feeding unit 2. In this embodiment, the feeding unit 2 preferably employs a pump.

The residue soil solidification stirring unit 4 is arranged on the movable transport vehicle 6, and the residue soil solidification stirring unit 4 is used for stirring and mixing the curing agent provided by the conveying and feeding unit 2 and the pre-turned building residue soil.

In this embodiment, the residual soil solidifying and stirring unit 4 includes a plurality of stirring members 4a, a second lifting driver 4b, a second lifting support 4c, and a second driver 4d, the second lifting driver 4b is connected to the second lifting support 4c, the stirring members 4a are mounted on the second lifting support 4c, and the stirring members 4a are connected to the second driver 4 d.

After the pre-turning operation of the building residue soil heap by the residue soil breaker 3a is completed, the residue soil breaker 3a is reset, the second lifting support 4c is lowered through the second lifting driver 4b, the stirring component 4a is matched with the building residue soil heap, the second driver 4d is started, the second driver 4d drives the stirring component 4a to work, and the curing agent is conveyed to the building residue soil heap through the conveying and feeding unit 2, so that the stirring component 4a stirs and mixes the curing agent and the pre-turned building residue soil.

In this embodiment, a central conveying channel is provided on the stirring component 4a, and the output end of the conveying and feeding unit 2 is matched with the central conveying channel of the stirring component 4 a. When the stirring component 4a works, the curing agent is directly output from the central conveying channel on the stirring component 4a, so that the stirring component 4a can stir the part with the curing agent of the building muck pile, and the stirring is targeted, so that the working efficiency is ensured.

The solidified residue soil tamping unit 5 is arranged on the movable transport vehicle 6, and the solidified residue soil tamping unit 5 applies pressure to the curing agent and the building residue soil after stirring and mixing. After the slag soil solidification stirring unit 4 finishes stirring, the second lifting support 4c is lifted through the second lifting driver 4b, so that the slag soil solidification stirring unit 4 resets, and at the moment, pressure is applied to the mixed building slag soil pile through the solidified slag soil tamping unit 5 to tamp the building slag soil pile.

In this embodiment, the solidified residue soil compacting unit 5 includes a ram 5a, a third lifting driver 5b, a third lifting support 5c, and a third driver 5d, where the third lifting driver 5b is connected to the third lifting support 5c, the ram 5a is installed on the third lifting support 5c, and the ram 5a is connected to the third driver 5 d.

The third lifting driver 5b enables the third lifting support 5c to descend, the rammer 5a is matched with the building residue heap, the third driver 5d is started, the third driver 5d drives the rammer 5a to work, and the rammer 5a compacts the building residue heap.

In the utility model, a conveying and feeding unit 2, a residue soil pre-turning and stirring unit 3, a residue soil solidifying and stirring unit 4 and a solidified residue soil tamping unit 5 are controlled by a control system 7, the control system 7 consists of a pre-turning and stirring control button 8, a solidifying and stirring control button 9 and a tamping system control button 10, the pre-turning and stirring control button 8 controls the residue soil pre-turning and stirring unit 3, the solidifying and stirring control button 9 controls the residue soil solidifying and stirring unit 4, and the tamping system control button 10 controls the solidified residue soil tamping unit 5. When each unit receives a corresponding working signal, each unit respectively sinks to touch the ground to start working, and when the working is finished, each unit is lifted to be powered off and standby.

The working process of the utility model is as follows: the movable type transport vehicle 6 slowly moves when reaching a residue soil field needing to be solidified, the residue soil pre-stirring unit 3 starts to put down and stir the residue soil for stirring after obtaining a signal, then the curing agent is conveyed to the lower end of the residue soil curing and stirring unit 4 under the action of the conveying and feeding unit 2, the stirring part 4a of the residue soil curing and stirring unit 4 starts to stir the curing agent and the residue soil to be solidified in the pre-stirred soil, so that the residue soil and the curing agent are uniformly mixed, and then the solidified residue soil tamping unit 5 starts to compact the uniformly stirred solidified residue soil by the signal.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention to illustrate the technical solutions of the present invention, but not to limit the technical solutions, and not to limit the patent scope of the present invention; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention; in addition, the technical scheme of the utility model is directly or indirectly applied to other related technical fields, and the technical scheme is included in the patent protection scope of the utility model.

Claims (5)

1. The utility model provides a portable building dregs in situ solidification equipment which characterized in that includes:

a mobile transport vehicle (6) which runs to the building muck original position;

the muck curing agent storage unit (1), the muck curing agent storage unit (1) is arranged on the mobile transport vehicle (6);

the residue soil pre-turning and mixing unit (3) is arranged on the movable transport vehicle (6), and the residue soil pre-turning and mixing unit (3) pre-turns the in-situ building residue soil;

the conveying and feeding unit (2) provides power for outputting the muck curing agent in the muck curing agent storage unit (1), the conveying and feeding unit (2) is arranged on the movable transport vehicle (6), and the conveying and feeding unit (2) is connected with the muck curing agent storage unit (1);

the residue soil solidifying and stirring unit (4) is arranged on the movable transport vehicle (6), and the residue soil solidifying and stirring unit (4) is used for stirring and mixing the solidifying agent provided by the conveying and feeding unit (2) and the pre-turned building residue soil;

and the solidified residue soil tamping unit (5) is arranged on the movable transport vehicle (6), and the solidified residue soil tamping unit (5) applies pressure to the curing agent and the building residue soil after stirring and mixing.

2. The mobile construction waste in-situ solidification equipment according to claim 1, wherein the waste pre-stirring unit (3) comprises a plurality of waste breakers (3a), a first lifting driver (3b), a first lifting bracket (3c) and a first driver (3d), the first lifting driver (3b) is connected with the first lifting bracket (3c), the waste breakers (3a) are installed on the first lifting bracket (3c), and the waste breakers (3a) are connected with the first driver (3 d).

3. The mobile construction waste in-situ solidification equipment according to claim 1, wherein the waste solidification stirring unit (4) comprises a plurality of stirring parts (4a), a second lifting driver (4b), a second lifting bracket (4c) and a second driver (4d), the second lifting driver (4b) is connected with the second lifting bracket (4c), the stirring parts (4a) are installed on the second lifting bracket (4c), and the stirring parts (4a) are connected with the second driver (4 d).

4. The mobile construction waste in-situ solidification equipment according to claim 3, characterized in that the stirring component (4a) is provided with a central conveying channel, and the output end of the conveying and feeding unit (2) is matched with the central conveying channel of the stirring component (4 a).

5. The mobile construction waste in-situ solidification equipment according to claim 1, characterized in that the solidified waste compacting unit (5) comprises a ram (5a), a third lifting driver (5b), a third lifting bracket (5c) and a third driver (5d), wherein the third lifting driver (5b) is connected with the third lifting bracket (5c), the ram (5a) is installed on the third lifting bracket (5c), and the ram (5a) is connected with the third driver (5 d).

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