CN212316899U - Precast pile construction auxiliary system and pile plug - Google Patents

Abstract

The utility model relates to a precast pile engineering technical field discloses a precast pile construction auxiliary system and stake stopper to improve the efficiency of precast pile construction. The utility model discloses precast pile construction auxiliary system includes: the pile plug is provided with at least one fluid material flushing pipe and at least one row of slag discharging pipes; the pile plug can be detachably filled in the precast pile, so that after the pile plug is filled in the precast pile, a closed space which forces the fluid to be flushed by the flushing pipe and then mixed with original substances in the pile hole to form slurry can be discharged from the slag discharge pipe is formed in the precast pile.

Description

Precast pile construction auxiliary system and pile plug

Technical Field

The utility model relates to a precast pile engineering technical field especially relates to a precast pile construction auxiliary system and stake stopper.

Background

Precast piles, such as prestressed pipe piles, are introduced into China since the end of the last century, and because of the wide use of numerous advantages, the annual output reaches nearly 4 hundred million linear meters, the annual output value is about 700 million RMB, and the value of related construction equipment is also nearly 100 million, the precast piles are gradually popularized and developed to countries such as southeast Asia. Due to the sand-egg interlayer in a plurality of domestic areas (such as Tianjin, Shandong, Guangdong and the like), the construction process of the precast pile is difficult to penetrate due to resistance, and the production is stopped frequently to delay the construction period.

In order to break through the construction bottleneck, relevant construction methods are researched at home and abroad, but the effect is not ideal. The method for solving the resistance of the precast pile in construction mainly comprises a long spiral hole leading method. According to the method, before the precast pile is constructed, a long spiral is used for guiding holes according to the size of the pile diameter. Generally, the guide hole is smaller than the diameter of the pile so as to avoid damage of side friction resistance; and if the defects are caused, soil on the pipe wall is still extruded and backfilled in the subsequent construction process of the precast pile, and the prior guide hole is compacted, so that the effect is influenced. In addition, in the process of leading the hole by the long spiral, the brought-out soil can cause serious dust emission and the adverse effects of corrosion damage to construction equipment and the like. Under special conditions, if the aperture of the guide hole is larger than that of the precast pile, the side friction resistance is seriously damaged; in order to compensate the damaged side friction resistance, compensation treatment such as grouting and the like must be carried out; but also easily causes the inclination of the precast pile in the pile sinking process; thereby affecting overall performance.

Therefore, the existing long spiral pilot hole method has the defect of considering the defect. In the existing construction method, if the pressure applied to the precast pile is increased without limit through the increase of the hammering force or the increase of the balance weight, the stress structure and the like of the precast pile are damaged to influence the overall performance; meanwhile, the counterweight has inherent defects of inconvenient long-distance transportation and large noise caused by hammering.

In addition, CN203782708U discloses a device for static pressure construction of thick and thin hard sand bed concrete pipe piles, and the applicant of the same case also filed for CN103898911A static pressure construction method of thick and thin hard sand bed concrete pipe piles on the same day, and the utility model is the Wang Qing leather at the same time. The main construction process comprises the following steps: firstly, a high-pressure water pump is used for carrying out high-pressure water impact on a hard sand layer in a concrete pipe pile (2) through a high-pressure steel wire rubber hose (1) to ensure that the surface of the sand layer is soft layer by layer, a water sand suction pipe (3) is used for sucking out the sand layer, and a fine pressing machine is used for carrying out work pressurization to ensure that the pipe pile sinks. However, in the construction process of the related art, because the caliber of the water and sand suction pipe is far smaller than the internal sectional area of the pipe pile, under the impact of high-pressure water, the water and sand which can be sucked away by the water and sand suction pipe is far less than the volume of the water and sand which splashes to the outside of the pipe pile; more seriously, a large amount of mud splashed to the outside of the tubular pile is deposited and spread to a bearing area of the pile pressing machine, so that potential safety hazards are easy to occur, and the passive shutdown caused by the fact that the pile pressing machine cannot be constructed is also influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to disclose a precast pile construction auxiliary system and stake stopper to improve the efficiency of precast pile construction.

In order to achieve the above object, the utility model discloses a precast pile construction auxiliary system, which comprises a pile plug provided with at least one fluid material flushing pipe and at least one slag discharging pipe; the pile plug can be detachably filled in the precast pile, so that after the pile plug is filled in the precast pile, a closed space which forces the fluid to be flushed by the flushing pipe and then mixed with original substances in the pile hole to form slurry can be discharged from the slag discharge pipe is formed in the precast pile.

In order to achieve the above object, the present invention further discloses a pile plug, which is provided with at least one fluid flushing pipe and at least one row of slag discharging pipe, so that after the pile plug is plugged inside the precast pile, the fluid flushing pipe is forced to flush the material, and then the slurry formed by the original material in the pile hole is mixed, and the slurry can only be discharged from the closed space of the slag discharging pipe.

Correspond with above-mentioned precast pile construction auxiliary system and pile cap, the utility model discloses supporting precast pile construction method includes:

when the pressure application of the precast pile is invalid, deploying and starting the precast pile construction auxiliary system to impact and remove slag from original substances in the pile hole of the precast pile, and when the slag is removed to the bottom of the precast pile at the lowest stage, suspending the precast pile construction auxiliary system and applying pressure again; or

During the precast pile pressure application process (especially when the construction efficiency is lower than a specific threshold value), the precast pile construction auxiliary system is deployed and started to impact and remove slag from original substances in the precast pile hole, and when the slag is removed to the bottom of the precast pile at the lowest stage, the precast pile construction auxiliary system is suspended.

The utility model discloses following beneficial effect has:

1. the pile plug can avoid the pollution of high-pressure slurry splashing to equipment, effectively avoids the potential safety hazard caused by the slurry splashing to the outside of the precast pile silting and spreading to the bearing area of the pile pressing machine, lays a condition for a subsequent gas lift reverse circulation method, is convenient for continuous construction in geological complex geology such as a sand-egg layer and the like, greatly reduces the resistance in the precast pile construction process, improves the construction efficiency and reduces the construction cost of the precast pile.

2. The precast pile is convenient to reach the design elevation, and the precast pile is prevented from being wasted.

3. The application field of the precast pile can be expanded, and the cooperative development of industrial chains of the precast pile, precast pile construction equipment and the like is driven.

4. The construction method has obvious construction advantages on the precast pile, avoids the cost of increasing the counter weight due to the increase of pile pressing force, reduces the damage to the pile body and has wider application area in the future.

5. Further, the utility model discloses the stake stopper still is equipped with an at least trachea to arrange sediment through the inside mud of gas lift reverse circulation method helping hand to the precast pile. It should be noted that, because the internal area of the precast pile is much smaller than the construction area of the bored pile, it is difficult for those skilled in the art to make a correlation between the precast pile construction method and the bored pile construction method, so that those skilled in the art have a technical prejudice that the gas lift reverse circulation method commonly used by the existing bored pile driver cannot be applied to precast pile construction. Therefore, the utility model discloses the scarfing cinder in precast pile stake hole is applied to the gas lift reverse circulation method that drilling bored concrete pile was commonly used, has milestone's meaning.

6. The popularization of the method opens up a simpler, more convenient, more environment-friendly and lower-cost way for the static pressure pile planting method. Furthermore, the utility model discloses precast pile construction auxiliary system still can the precast pile outside is equipped with one and connects respectively the fluid dashes the circulation system of material pipe and scum pipe. For example: the utility model discloses circulation system includes at least: a mud tank; the pump is connected between the mud box and the fluid flushing pipe; and the device is used for carrying out corresponding filtering or sedimentation treatment on the particles which are discharged by the slag discharge pipe and influence the flow velocity. Therefore, a complete circulating gas lift reverse circulation construction method is constructed, and the resource saving and the cleanness of the field are ensured; further effectively avoiding the potential safety hazard caused by the fact that the mud splashed to the outside of the precast pile is deposited and spread to the bearing area of the pile pressing machine. The utility model creatively applies the mud box and the gas lift reverse circulation method to the field of the construction of the preset pile engineering; greatly improving the construction efficiency.

7. In the construction process, whether the bottom of the precast pile leaks water can be judged by observing the slurry concentration in the slag discharge pipe or calculating the slurry amount, so that the precast pile construction auxiliary system is suspended when slag is removed to the bottom of the precast pile at the lowest stage; therefore, the problem that the construction is influenced by the fact that water leaks from the outer wall of the precast pile at the bottom of the lowest-stage precast pile.

8. The pile plug adopts a detachable structure, and in a construction environment needing to adopt multi-stage precast pile cascade connection, when any precast pile is pressed into a target depth and a new precast pile needs to be cascaded, the precast pile construction auxiliary system is suspended, and the pile plug in the precast pile which finishes a staged target is detached and is installed in the new precast pile in a shifting way; the utilization rate of the pile plug is improved.

The present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic view of a precast pile construction auxiliary system disclosed in the embodiment of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Example one

The present embodiment discloses a precast pile construction auxiliary system, as shown in fig. 1, including: the pile plug is provided with at least one fluid material flushing pipe and at least one row of slag discharging pipes; the pile plug can be detachably filled in the precast pile, so that after the pile plug is filled in the precast pile, a closed space which forces the fluid to be flushed by the flushing pipe and then mixes the original substances in the pile hole to form slurry can be discharged from the slag discharge pipe is formed in the precast pile.

In this embodiment, even if the pile plug is not provided with the following air pipe; however, the sealing effect of the pile plug is matched with the high-pressure impact of the fluid material flushing pipe, and the pile plug can be regarded as a weakened gas lift reverse circulation method environment.

Optionally, this embodiment precast pile construction auxiliary system equips on the pile driver, and for the operation of being convenient for, this pile driver still further is equipped with the loading and unloading the lift platform of stake stopper.

Preferably, the pile plug of the embodiment is further provided with at least one air pipe to discharge the slag of the slurry in the precast pile by the aid of the air lift reverse circulation method. Wherein, the trachea exposes and is connected with the air compressor machine with the part of precast pile outer end. Generally, the gas pipe can be deployed outside the slag discharge pipe; in some special applications, the gas pipe may also be integrated in the extraction pipe.

Furthermore, in this embodiment, a circulation system respectively connected to the fluid flushing pipe and the slag discharging pipe is further disposed outside the precast pile. Specifically, the circulation system may specifically include: a mud tank; the pump is connected between the mud box and the fluid flushing pipe; and the device is used for carrying out corresponding filtering or sedimentation treatment on the particles which are discharged by the slag discharge pipe and influence the flow velocity.

It is worth mentioning that: in actual operation, the mud tank is originally assembled with prepared mud with a prepared concentration or water. If the original water is filled in the slurry tank, the slurry tank impacts the original substances in the precast pile under the high-pressure conveying of the pump to form slurry; in addition, in the construction process, chemical agents such as caustic soda and the like can be added into the slurry tank according to the concentration condition of the slurry so as to optimize the performances such as the impact property, the fluidity and the like of the fluid.

As shown in fig. 1, an optional auxiliary system for precast pile construction in this embodiment includes: the device comprises a fluid flushing pipe 1, a pile plug 11, an air pipe 4, a slag discharge pipe 5, a pump 6, a filter 7, a mud pit 8 and a tubular pile 10.

Example two

The present embodiment discloses a pile plug, which is matched with the precast pile construction auxiliary system in the above embodiments, and is provided with at least one fluid flushing pipe and at least one slag discharging pipe, so that after the pile plug is plugged inside a precast pile, a closed space is formed inside the precast pile, wherein the closed space is used for forcing the fluid flushing pipe to flush materials and then mixing original substances in pile holes to form slurry, and the slurry can only be discharged from the slag discharging pipe.

Furthermore, the pile plug of the embodiment is also provided with at least one air pipe so as to discharge slag from the slurry in the precast pile by the aid of a gas lift reverse circulation method. Similarly, generally, the gas pipe can be deployed outside the slag discharge pipe; in some special applications, the gas pipe may also be integrated in the extraction pipe.

EXAMPLE III

In addition, the present embodiment discloses a precast pile construction method, which is matched with the precast pile construction auxiliary system in the above embodiments, and includes:

when the pressure application of the precast pile is invalid, the precast pile construction auxiliary system is deployed and started to impact and remove slag from original substances in the pile hole of the precast pile, and when the slag is removed to the bottom of the precast pile at the lowest stage, the precast pile construction auxiliary system is suspended and the pressure is applied again.

As a variation, the method of the present embodiment may also be:

during the precast pile pressure application process (especially when the construction efficiency is lower than a specific threshold value), the precast pile construction auxiliary system is deployed and started to impact and remove slag from original substances in the precast pile hole, and when the slag is removed to the bottom of the precast pile at the lowest stage, the precast pile construction auxiliary system is suspended. Namely, in the process of hammering outside or static pressure by a counterweight, external force application can be synchronously carried out with slag removal inside the precast pile.

In the construction environment needing to adopt the cascade connection of the multistage precast piles, when any precast pile is pressed into the target depth and a new precast pile needs to be cascaded, the precast pile construction auxiliary system is suspended, and the pile plug in the precast pile which finishes the stage target is detached and is installed in the new precast pile in a shifting way.

To sum up, the utility model discloses the precast pile construction auxiliary system and stake stopper and supporting construction method that each above-mentioned embodiment disclosed respectively have following beneficial effect:

1. the pile plug can avoid the pollution of high-pressure slurry splashing to equipment, effectively avoids the potential safety hazard caused by the slurry splashing to the outside of the precast pile silting and spreading to the bearing area of the pile pressing machine, lays a condition for a subsequent gas lift reverse circulation method, is convenient for continuous construction in geological complex geology such as a sand-egg layer and the like, greatly reduces the resistance in the precast pile construction process, improves the construction efficiency and reduces the construction cost of the precast pile.

2. The precast pile is convenient to reach the design elevation, and the precast pile is prevented from being wasted.

3. The application field of the precast pile can be expanded, and the cooperative development of industrial chains of the precast pile, precast pile construction equipment and the like is driven.

4. The construction method has obvious construction advantages on the precast pile, avoids the cost of increasing the counter weight due to the increase of pile pressing force, reduces the damage to the pile body and has wider application area in the future. The tonnage of the existing pile pressing machine is mostly over 600 tons, and the tonnage of the known main machine type is up to 1060 tons. Wherein the weight fraction is large. The bearing requirements on the construction site are extremely high. The embodiment can play a role in reducing the counter weight and accords with the technical trend of building two societies of resource conservation and environmental friendliness at present.

5. Further, the utility model discloses the stake stopper still is equipped with an at least trachea to arrange sediment through the inside mud of gas lift reverse circulation method helping hand to the precast pile. It should be noted that, because the internal area of the precast pile is much smaller than the construction area of the bored pile, it is difficult for those skilled in the art to make a correlation between the precast pile construction method and the bored pile construction method, so that those skilled in the art have a technical prejudice that the gas lift reverse circulation method commonly used by the existing bored pile driver cannot be applied to precast pile construction. Therefore, the utility model discloses the scarfing cinder in precast pile central authorities stake hole is applied to the gas lift reverse circulation method that bored concrete pile was commonly used, has milestone's meaning. The utility model creatively applies the mud box and the gas lift reverse circulation method to the field of the construction of the preset pile engineering; greatly improving the construction efficiency. The utility model creatively applies the mud box and the gas lift reverse circulation method to the field of the construction of the preset pile engineering; greatly improving the construction efficiency.

6. The popularization of the method opens up a simpler, more convenient, more environment-friendly and lower-cost way for the static pressure pile planting method. Furthermore, the utility model discloses precast pile construction auxiliary system still can the precast pile outside is equipped with one and connects respectively the fluid dashes the circulation system of material pipe and scum pipe. For example: the utility model discloses circulation system includes at least: a mud tank; the pump is connected between the mud box and the fluid flushing pipe; and the device is used for carrying out corresponding filtering or sedimentation treatment on the particles which are discharged by the slag discharge pipe and influence the flow velocity. Therefore, a complete circulating gas lift reverse circulation construction method is constructed, and the resource saving and the cleanness of the field are ensured; further effectively avoiding the potential safety hazard caused by the fact that the mud splashed to the outside of the precast pile is deposited and spread to the bearing area of the pile pressing machine. The utility model creatively applies the mud box and the gas lift reverse circulation method to the construction field of precast pile engineering with relatively small caliber; greatly improving the construction efficiency of the precast pile.

7. In the construction process, whether the bottom of the precast pile leaks water can be judged by observing the slurry concentration in the slag discharge pipe or calculating the slurry amount, so that the precast pile construction auxiliary system is suspended when slag is removed to the bottom of the precast pile at the lowest stage; therefore, the problem that the construction is influenced by the fact that water leaks from the outer wall of the precast pile at the bottom of the lowest-stage precast pile.

8. The pile plug adopts a detachable structure, and in a construction environment needing to adopt multi-stage precast pile cascade connection, when any precast pile is pressed into a target depth and a new precast pile needs to be cascaded, the precast pile construction auxiliary system is suspended, and the pile plug in the precast pile which finishes a staged target is detached and is installed in the new precast pile in a shifting way; the utilization rate of the pile plug is improved.

In addition, based on experimental data of the existing scene of the patent, compared with the same geological region, the efficiency improvement of the construction method of the patent on the pile pressing construction period can be improved by more than 30% above the existing construction method; and can meet the requirement of continuous construction in most areas; can be widely popularized at home and abroad.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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 (7)

1. A precast pile construction auxiliary system is characterized by comprising a pile plug which is provided with at least one fluid material flushing pipe and at least one row of slag discharging pipes; the pile plug can be detachably filled in the precast pile, so that after the pile plug is filled in the precast pile, a closed space which forces the fluid to be flushed by the flushing pipe and then mixed with original substances in the pile hole to form slurry can be discharged from the slag discharge pipe is formed in the precast pile.

2. The auxiliary system for precast pile construction as recited in claim 1, wherein the pile plug is further provided with at least one air pipe for discharging slag from slurry inside the precast pile by assistance of a gas lift reverse circulation method.

3. A precast pile construction auxiliary system according to claim 1 or 2, wherein a circulation system respectively connecting the fluid flushing pipe and the slag discharge pipe is provided outside the precast pile.

4. A precast pile construction assistance system according to claim 3, wherein the circulation system includes at least:

a mud box is arranged at the bottom of the mud box,

the pump is connected between the mud box and the fluid flushing pipe; and

and the device is used for carrying out corresponding filtering or sedimentation treatment on the particles which are discharged by the slag discharge pipe and influence the flow velocity.

5. The precast pile construction auxiliary system according to claim 4, wherein the precast pile construction auxiliary system is equipped on a pile press machine, and a lifting platform for loading and unloading the pile plug is further provided on the pile press machine.

6. A pile plug is characterized in that at least one fluid flushing pipe and at least one row of slag discharging pipes are arranged, so that after the pile plug is filled in a precast pile, a closed space which forces the fluid flushing pipe to flush and then mixes original substances in a pile hole to form slurry can only be discharged from the slag discharging pipes is formed in the precast pile.

7. The pile plug of claim 6, further comprising at least one air tube for removing the residue from the slurry inside the precast pile by the aid of a gas lift reverse circulation method.

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