JPH06100076B2 - Exhaust method for excavated soil in the propulsion method - Google Patents

Description

TECHNICAL FIELD The present invention relates to a method for discharging excavated soil in a propulsion method. In particular, the present invention installs a suction hose in the propulsion pipe, opens it at the tip, absorbs the air in the propulsion pipe from the opening, and causes an air flow to flow to the rear end to the suction hose, and excavates the earth and sand. The present invention relates to a method of efficiently carrying out from a propulsion pipe by carrying it on an air flow, causing the carried sediment to settle in a tank, and discharging the sediment from the propulsion pipe.

(Prior art) The propulsion method is one of the methods of burying sewer pipes underground. The propulsion method is to first dig the starting shaft and then insert the leading conduit into the ground from the starting shaft, and then, after entering, push in the premade steel pipe or fume pipe with the driving force of the jack or frame it. This is a method of constructing concrete pipes and burying them underground. The buried steel pipe or fume pipe is called a propulsion pipe. In the propulsion method,
Most of the work is done under the ground, and only starting shafts or reaching shafts appear on the ground, so there is little obstruction to traffic, and in general, there is little construction pollution. Widely used for burial.

When burying a propulsion pipe with a diameter of several centimeters or more, excavate the ground located at the tip of the propulsion pipe with a leading conduit to propel this, and excavate the excavated earth and sand from the propulsion pipe. It is required to discharge to the outside. Therefore, until now, sediment was transported by trolleys or belt conveyors in the propulsion pipes. In addition, the excavated earth and sand was also discharged as sludge, but in this case as well, the earth and sand was often discharged by a truck or a belt conveyor. However, transportation by a dolly or a belt conveyor has various drawbacks.

The drawbacks are as follows. First of all, in the method of using the truck, the person will move the truck, but since the propulsion pipe is narrow and the visibility is poor, the work is dangerous and difficult, and it is troublesome to pull the sand from the shaft. I need
Therefore, it was not possible to efficiently discharge the earth and sand, and the propulsion pipe could not be continuously propelled, so that the pipe could not be propelled efficiently. Next, in the method using the belt conveyor, since it is expensive to install the belt conveyor and the belt conveyor occupies a large area in the pipe, it is difficult to move in and out of the pipe, and the belt is accompanied by the promotion of the pipe. There was also difficulty in moving the conveyor, and eventually it was not possible to efficiently discharge the earth and sand and proceed with the propulsion work. In addition, since the method of using sludge adds a large amount of sludge in order to convert excavated sediment to sludge, the amount of sediment to be discharged increases, and it is necessary to discharge several times the amount of sludge of excavated sediment. Therefore, it became more difficult to discharge sediment. In addition, the discharged sludge has another drawback that it is not easy to dispose because it must be dehydrated and discarded.

Japanese Patent Laid-Open No. 61-126297 describes a method of discharging excavated earth and sand as sludge from a propulsion pipe by a vacuum suction force of a suction hose. However, in this publication, the tip of the suction hose is not opened in the propulsion pipe, and is connected to the frustoconical opening, and the frustoconical opening has a structure in which air in the propulsion pipe cannot be sucked. Therefore, this suction hose cannot absorb the air in the propulsion pipe. The suction hose is adapted to absorb air supplied from an air supply pipe attached to the frustoconical opening. Therefore, the air flow flowing through the suction hose cannot have the amount and force enough to suspend the earth and sand.
Therefore, the excavated earth and sand could not be moved efficiently by this method.

(Problems to be Solved by the Invention) The present invention improves the drawbacks associated with the conventional methods as described above,
The purpose was to provide a method for efficiently and easily discharging the earth and sand excavated in the propulsion method from the propulsion pipe to the starting shaft.

The present inventor has made
We proposed two methods and applied for a patent for the method as Japanese Patent Application No. 63-120108. The method is a known propulsion method,
Install a suction hose in the propulsion pipe, absorb the air in the propulsion pipe from the tip of the suction hose and let this air flow to the rear end,
In this method, an independent air flow is generated in the suction hose, the excavated earth and sand is placed on this air flow, and the excavated earth and sand is discharged from the overtravel pipe by moving the earth and sand into the vertical shaft.

This inventor, in the above-mentioned already proposed method, the excavated earth and sand is accumulated in the tip opening of the suction hose,
If the excavated soil becomes viscous sludge,
I realized that it would be difficult to discharge the sediment. Therefore, it was necessary to improve that point.

(Means for Solving the Problem) The inventor has provided an air inlet in the middle of the above-mentioned suction hose, particularly near the tip of the suction hose, and the suction force naturally causes air to enter the suction hose. It has been found that when the cut soil is piled up around the tip of the suction hose, the suction hose does not block the suction sand and sucks the sand when the cut sand is accumulated. further,
The present inventor has found out that not only the suction of the sediment becomes smoother but also the moving speed of the sediment increases when the pressurized air is pressed in through the above-mentioned inlet. In addition, even if the ground is clayy and contains a large amount of water and the excavated sand is in the form of viscous sludge, the introduction of the above-mentioned inlet facilitates the excavation of such viscous earth and sand. I found that it can be transported. The present invention has been completed based on such knowledge.

This invention allows the leading conduit to enter the ground from the starting shaft,
In the propulsion method of burying the propulsion pipe after entering, install a suction hose inside the propulsion pipe, open the tip of the suction hose with the tip of the propulsion pipe, and open the rear end of the suction hose with sand. Connected to a suction machine via a tank, the suction of the suction machine sucks the air in the propulsion pipe from the tip opening into the suction hose to generate an air flow to flow to the suction machine, and the tip of the suction hose to the earth and sand excavated by the previous conduit. Aim the opening to move the earth and sand on the above air flow and move it to the vertical shaft, and additionally introduce air into the suction hose from the air inlet provided in the other of the suction hose to help move the earth and sand. The method for discharging excavated sediment in a propulsion method is characterized in that the moved sediment is settled in a sediment tank provided in front of a suction machine and collected.

(Example) The following will describe one example of the present invention with reference to the drawings. FIG. 1 is a vertical sectional view of the ground showing a model of the method of the present invention. FIG. 2 is a partially cutaway perspective view of the tip end waving in FIG. FIG. 3 is a partially cutaway perspective view of the equipment whose rear end is provided on the crocodile in FIG. 1. FIG. 4 is a model diagram for explaining the operation of the equipment shown in FIG. FIG. 5 is a partially cutaway side view of another suction hose. FIG. 6 is a perspective view of another equipment in which the rear end of the suction hose is provided on the crocodile.

In FIGS. 1 and 2, “a” represents a front conduit, “b” represents a propulsion pipe, and “c” represents a starting shaft. The tip conduit a is
The front ground is excavated by the cutter bit 1 provided at the tip, and the excavated earth and sand 2 is sent backward by the screw conveyor 3 and deposited in the box 4. Sediment 2 is net 5
Sieving with only small particles to the rear. The propulsion pipe b is made of iron, concrete, or the like, and when the propulsion pipe b is a prefabricated pipe, it is propelled toward the tip by the propulsion force of the jack 6 installed in the starting shaft c. In this way, the propulsion pipe b is press-fitted into the ground and successively buried underground.

A suction hose x is installed in the propulsion pipe b. The suction hose x may be made of a hard material, such as an iron tube, but is preferably made of a soft material. A preferred suction hose is made of, for example, a flexible synthetic resin and is like a suction hose used in a vacuum cleaner. A wire made of a hard material is attached to the hose wall in a spiral shape to reinforce it, and it is preferable that the hose wall is entirely transparent or translucent. For example, a hose sold under the trade name of Canada Inn by Totoku Kogyo Co., Ltd. is suitable. The inner diameter of the suction hose x is preferably 100 to 200 mm. The suction hose x can extend over a length of 400 meters. To install such a suction hose x, simply insert the suction hose x into the propulsion tube b, extend it into the propulsion tube b, fix the tip opening, and, if necessary, fix some parts to the propulsion tube. It ’s enough,
It is easy to install and easy to move.

The tip end 7 of the suction hose x is opened in the same size as the hose. An air introduction port is provided in the middle of the suction hose x, that is, near the tip, and an air introduction pipe 8 is attached thereto. The air introduction pipe 8 has an inner diameter smaller than that of the suction hose x. A valve is attached to the air introducing pipe 8 so that the amount of introduced air can be adjusted. The end of the air introduction tube 8 may penetrate the tube wall of the suction hose x and project slightly into the hose, but it may also end just above the tube wall. The end of the air introduction tube 8 is open in the propulsion tube.

When the suction hose x having an inner diameter of 100 to 200 mm is used, it is desirable to use the air introducing pipe 8 having an inner diameter of 25 mm or less. In addition, the position where the air introduction pipe 8 is attached is 200 mm from the tip 7 of the suction hose x.
It is desirable to place it at a distance of -1000 mm. It is desirable that the valve provided in the air introduction pipe 8 be capable of freely adjusting the amount of air passing therethrough. Suction hose x
The rear end is connected to a blower e which acts as a suction device,
The earth and sand tank d is connected on the way to the blower e. Therefore, when sucked by the blower e, an air flow is generated in the suction hose x, and the air flows from the tip opening 7 through the earth and sand tank d toward the blower e, where an air flow flowing in the direction of arrow y is generated. To be done.

The front end opening 7 of the suction hose x faces the inside of the box 4 and is located where the soil 2 having passed through the net 5 can be sucked. Net 5
Is attached to select only small-grained sand that can freely pass through the suction hose x. The small particles have a particle diameter of about ⅔ or less, preferably half or less of the inner diameter of the suction hose x. The earth and sand that have passed through the net 5 are carried by the air flow flowing in the suction hose and moved toward the earth and sand tank d. Thus, the excavated earth and sand is discharged from the propulsion pipe b.

If the air introducing pipe 8 is opened when the air is sucked from the tip opening 7, the air is naturally sucked from the air introducing pipe 8. While the earth and sand excavated around the tip opening 7 is not excessively accumulated, the tip opening 7 sucks the earth and sand even if air is not introduced from the air introduction period 8. Therefore, during this period, the valve of the empty introducing pipe 8 is closed. However, when sediment is deposited around the tip opening 7, suction of the sediment from the tip opening 7 becomes poor, and the sediment may be clogged in the suction pipe. In such a case, when the valve of the air introducing pipe 8 is opened and air is introduced from the introducing pipe 8, the earth and sand are smoothly sucked from the tip opening 7. In addition, even if a part of the suction hose is clogged with soil and sand, the clogging can be eliminated by introducing air from the air introduction pipe. It goes without saying that the soil referred to here contains viscous sludge-like substances.

A earth and sand tank and a suction machine are installed at the rear end of the suction hose x, and an example of the installation is shown in FIG.
In FIG. 3, the rear end of the suction hose x is divided into two parts by way of a switching valve f, enters into separate earth and sand tanks d, then enters a switching valve f ′ and joins, and then passes through a separator g and a blower. connected to e. In the earth and sand tank d, the air flow from the suction hose x enters from the lower part of the tank d, swirls along the side wall of the tank d, and then exits from the upper part of the tank. Therefore, the earth and sand carried on the air flow are settled by the weight in the tank d and accumulated in the tank d, and only the air is discharged from the upper part of the tank. However, the fine sediment particles may not be deposited in the tank, and may be carried by the air flow and discharged from the upper part of the tank.

Therefore, in order to prevent fine sediment particles from entering the blower e, a separator g is attached. The separator g serves to separate fine particles from the air based on the cyclone principle. As shown in FIG. 4, in the initial separator g ₁ , dust having a relatively large particle size among the fine particles is first settled and removed by the cyclone, and then the air flow in the separator g ₂ is removed. Of small particle size is removed by passing water through water, followed by vacuum suction by Roots blower e, and finally in separator g ₃ , residual dust is further removed and silenced, and then discharged into the air. To be done.

The switching valves f and f'are provided for continuously discharging the earth and sand. That is, in order to continuously discharge the sediment, two sediment tanks d are provided in parallel, and when the sediment accumulated in one tank is taken out, the air is stopped from flowing into the tank and at the same time, another Switching valves f and f'are provided for the purpose of flowing air into the tank. As a result, the earth and sand can be continuously discharged even when the earth and sand are taken out from the tank.

As the blower e, for example, a roots blower is used. A roots blower is a blower having a structure in which a plurality of rotary leaves mesh with each other and rotate to generate an air flow. In the present invention, it is desirable to use two roots blowers connected in series to generate a strong air flow. Further, it is preferable to use a roots blower having a structure in which three rotary leaves are engaged with each other. In this invention, the blower e
It is important to use a blower with a large capacity to generate a large capacity, high-velocity airflow in the suction hose x.

The earth and sand 2 excavated by the tip conduit a have various properties depending on the type of ground. When the excavated soil is a large block,
This is crushed and then passed through the suction hose x.
Further, when the excavated earth and sand is clayey with high tackiness, a small amount of water is added to this to reduce the viscosity of the surface and prevent it from adhering to the inner wall of the suction hose.
In this case, the amount of water added should be small and care should be taken not to muddy the soil. This is because it is advantageous to transport the sediment without converting it into sludge because it has less sticking in the hose and is high and small. The range that can be transported in solid form is earth and sand
For 100 parts, the water is 30 parts or less. However, more water may be added to make the soil sludge-like or sludge-like.

The suction hose x can easily be extended if necessary, for example by means of a flange connection or a sleeve connection. When the suction hose x has a length of several meters, install an air cock in the middle. The air cock corresponds to the air inlet in the present invention. The air cock is used to introduce air from here when necessary to remove the dirt and sand adhering to the wall surface of the suction hose x.

Although FIG. 1 and FIG. 2 show a mode in which air is naturally sucked from the introduction pipe 8 without being pressurized, pressurized air can be introduced from the introduction pipe 8. In this case, as shown in FIG. 5, it is desirable to direct the tip portion of the introduction tube located inside the suction hose x in the direction of arrow y.
By doing so, the pressurized air blown out from the introduction pipe 8 flows toward the suction device, further promoting the flow of the air caused by the suction device.
Therefore, when the pressurized air is introduced, not only the earth and sand are smoothly sucked from the tip opening 7 of the suction hose x, but also the movement speed of the earth and sand is increased, and the earth and sand can be efficiently discharged. .

When pressurized air is introduced, the air pressurizer can be installed in the shaft, but it is preferable to install it on the ground. A pressurization rate of 5 kg / cm ² or less is sufficient.

When the pressurized air is introduced from the air inlet, the air inlet may be left open. However, when air is naturally introduced from the air inlet, the air inlet should normally be closed, and if the earth and sand flow becomes abnormal, such as when it becomes difficult for the earth and sand to be sucked in from the tip opening of the suction hose. Only open the inlet. In any case, the amount of air introduced from the air introduction port is smaller than the amount of air introduced from the tip opening. In this sense, the dynamic flow of air from the air inlet can be said to be auxiliary.

This invention inserts a suction hose into the propulsion pipe, causes the suction hose to absorb the round air from the tip to the rear side of the suction hose, and causes an air inlet to be provided in the middle of the suction hose. It is characterized in that it is provided and air is supplementarily introduced into the suction hose from here, a strong air flow is generated by this, and the excavated earth and sand is efficiently transported on this air flow. Some of the excavated earth and sand are sludge-like due to the nature of the ground, and some are sludge-like due to the addition of lubricants during excavation.
According to the method of the present invention, all of those sediments can be transported. However, it is desirable that the excavated earth and sand not be sludge or sludge-like as described above, but be transported as a solid state. This is because the sludge or sludge-like earth and sand is bulky and there is a constraint that it must be dehydrated and then discarded before it can be disposed of. Because it is treated as, it is not allowed to dispose of it as easily as ordinary earth and sand.

In FIG. 1, the excavated earth and sand are once put in the earth and sand tank d, and then transferred to the dump truck h for transportation, but it is more advantageous to carry out the operation as shown in FIG. 6 than that. is there. In FIG. 6, the earth and sand tank d is attached directly on the dump truck h, the suction hose x is directly connected to the earth and sand tank d on the dump truck h, and the excavated earth and sand is placed directly on the dump truck h. Sediment tank d on dump truck h
Has an inlet to be connected to the suction hose x at the lower rear end,
Above the front part there is an outlet to be connected to the separator g. Inside the sediment tank d, only sediment is settled and only air is discharged from the outlet while the air flow swirls along the tank wall. The earth and sand put in the tank d can be discharged by opening the side plate i at the rear end of the tank d and tilting the tank d, if necessary.

The method of the present invention can be used for laying water pipes, underdrains, sewers, and the like. Further, the method of the present invention can be applied to the shield construction method.

(Effect of the Invention) According to the present invention, the suction hose is installed in the propulsion pipe in the propulsion method, and the tip of the suction hose is opened by the propulsion pipe with the tip end, and the rear end of the suction hose is attached to the sand tank. The suction hose easily absorbs the air in the propulsion pipe from the tip opening into the suction hose and creates an air flow that flows to the suction hose, which facilitates a powerful air flow in the suction hose. Can be caused to. In this state, since the tip opening of the suction hose is directed to the earth and sand excavated by the leading conduit, the fragments of earth and sand can be carried on the air flow and moved to the starting shaft to be carried into the earth and sand tank. In this case, if the suction hose is only open at the tip, a large amount of earth and sand excavated around the opening will accumulate, and if the opening becomes covered with earth and sand, the earth and sand will not be sucked in from the opening. However, in the present invention, since the air introduction port is provided in the middle of the suction hose and the air is introduced into the suction hose through the air introduction port, the suction of the sand and sand is assisted by this, and even in such a case, Can be sucked in smoothly. Furthermore, by introducing pressurized air from the air inlet, not only can the suction of sand be smoothed, but also the speed of movement of sand can be increased and the discharge of sand can be performed efficiently, and over a longer distance. Can carry earth and sand. Therefore, it can be transported to the earth and sand tanks all at once. Further, since the earth and sand are carried through the suction hose, it is possible to prevent the earth and sand from scattering outside the suction hose, and keep the inside of the propulsion pipe clean to improve the working environment. Further, since the suction hose having a small cross-sectional area is sufficient, it is easy for a person to move in and out of the propulsion pipe, and therefore work is facilitated. Also, if the particle diameter of the sand is set to be less than two thirds of the inner diameter of the suction hose and then put into the suction hose, there is no possibility that the sand will block the inside of the suction hose. Can be discharged. Furthermore, since the air inside the propulsion pipe is absorbed from the tip opening of the suction hose and the rear end flows to the wa, the ventilation inside the propulsion pipe is performed naturally, and no special equipment and work are required for ventilation. . Furthermore, since no heavy object is placed in the propulsion pipe other than the suction hose, the jack can facilitate the propulsion. Further, since the suction hose is easily replenished, it is easy to move and connect the suction hose with the propulsion of the pipe, so that the propulsion method can be smoothly advanced. In particular, when the cut soil is sucked into the suction hose as a solid, it can be used as it is for landfill and is easily discarded. The present invention provides many such advantages.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of the ground showing a model of the method of the present invention. FIG. 2 is a partially cutaway perspective view of the tip end waving in FIG. FIG. 3 is a partially cutaway perspective view of the equipment whose rear end is provided on the crocodile in FIG. 1. Figure 4 shows
It is a model figure explaining the effect | action of the equipment shown in FIG. FIG. 5 is a partially cutaway side view of another suction hose. Sixth
The figure is a perspective view of another equipment in which the rear end of the suction hose is provided on the alligator. In the figure, a is a front conduit, b is a propulsion pipe, c is a starting shaft,
d is a sediment tank, e is a blower, and x is a suction hose.

Claims (4)

[Claims] 1. A front conduit is introduced into the ground from a start shaft,
In the propulsion method of burying the propulsion pipe after entering, install a suction hose inside the propulsion pipe, open the tip of the suction hose with the tip of the propulsion pipe, and open the rear end of the suction hose with sand. Connected to a suction machine via a tank, the suction of the suction machine absorbs the air in the propulsion pipe from the tip opening into the suction hose, and causes an air flow to flow to the suction machine, and the tip of the suction hose to the sand excavated by the previous conduit. Aim the opening, and move the earth and sand on the starting air shaft by placing the earth and sand on the air flow, and assist the movement of earth and sand by introducing air auxiliary into the suction hose from the air introduction port provided in the middle of the suction hose, A method for discharging excavated sediment in a propulsion method, characterized in that the moved sediment is settled and collected in a sediment tank provided in front of a suction machine. 2. A plurality of earth and sand tanks are attached in parallel, and a suction hose immediately before entering the earth and sand tank is branched into a plurality of pieces by a switching valve and connected to each earth and sand tank, and the suction hose that comes out of each earth and sand tank is connected. The excavated soil according to claim 1, characterized in that it is connected to another switching valve to be merged, and then connected to a suction device via a separator to suck air. Ejection method. 3. The method according to claim 2, wherein the earth and sand tanks and the suction hose are made detachable so that the earth and sand tank containing the earth and sand can be carried on a dump truck. Excavation method for excavated soil. 4. The method for discharging excavated sediment according to claim 3, wherein the sediment tank is built in the dump truck.