JP2007016469A - Discharging construction method of adit deposit sediment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a new discharging construction method of adit deposit sediment capable of effectively using a bore formed in an adit by maximally wholly discharging sediment deposited in the adit without limited to an arranging position of a manhole. <P>SOLUTION: This discharging construction method comprises a device carrying-in process of carrying a sediment discharge device 1 in the adit P from one manhole M<SB>1</SB>, a linear body connecting process of connecting a linear body 25 inserted into the other manhole M<SB>2</SB>separated from the one manhole M<SB>1</SB>to the tip of the sediment discharge device 1, and a sediment discharge process of discharging the sediment in the adit P on the ground by the sediment discharge device 1 by moving the sediment discharge device 1 up to a lower part of the other manhole M<SB>2</SB>while extracting the linear body 25 from aboveground by driving the sediment discharge device 1. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for discharging a horizontal shaft sedimentation sediment used for discharging earth and sand accumulated in a horizontal shaft such as a water intake pipe and a water distribution pipe to the ground.

  Horizontal shafts such as water intake pipes and water distribution pipes are efficient because water and drainage are taken over a long period of time, so that sediment and sludge gradually accumulate and block the diameter of the water intake pipes and water distribution pipes. Intake / drainage is not possible. Therefore, conventionally, as a method of discharging the sediment and sludge accumulated in the horizontal shaft to the ground, a sand pump suspended above the ground is lowered into the horizontal shaft via the manhoe, and the sediment and sludge accumulated below the manhole is collected. Are discharged to the ground.

  However, the conventional method described above can discharge and remove the sediment and sludge corresponding to the place where the manhole is installed, but the sediment and sludge accumulated in the horizontal shaft between the manhole and the manhole will be discharged. I can't. In other words, the conventional construction method can only partially discharge sediment and the like, and the diameter originally formed in the horizontal shaft cannot be used effectively.

  Therefore, the present invention has been proposed to solve the problems of the conventional construction method described above, and does not stop at the manhole installation position, but discharges all sediment deposited in the horizontal shaft as much as possible. The purpose is to propose a new method for discharging horizontal sedimentation sediment that can effectively use the diameter formed in the mine.

  The present invention has been proposed in order to achieve the above-described object, and the first invention (the invention described in claim 1) includes an apparatus carrying-in step for carrying an earth and sand discharging apparatus from one manhole into a horizontal shaft. A linear body connecting step of connecting a linear body inserted through the other manhole spaced from the one manhole to the tip of the earth and sand discharging apparatus; and driving the earth and sand discharging apparatus; and The earth and sand discharging device is moved to the lower side of the other manhole while being pulled out from the ground, and the earth and sand discharging step for discharging the earth and sand in the horizontal shaft to the ground by the earth and sand discharging device is characterized in that is there.

  In this 1st invention, a horizontal shaft means the pipe line formed in the horizontal direction below the ground surface, for example, a water intake pipe, a drain pipe, etc. can be mentioned. In addition, it is not asked whether sewage, seawater, and fresh water exist in this horizontal shaft as well as earth and sand and sludge. In the first aspect of the present invention, the earth and sand discharging device is not limited as long as the earth and sand, sludge, or mud accumulated in the horizontal shaft can be discharged to the ground. If it is full, a sand pump can be used. Moreover, such earth and sand discharging apparatus needs to be able to move the inside of a horizontal shaft in the length direction of the horizontal shaft. Moreover, this earth and sand discharge apparatus draws in earth and sand and sludge from the front part side inside, and a flexible waste mud pipe needs to be connected to the rear part. That is, this earth and sand discharging apparatus sucks earth and sand and sludge from the front side, and discharges the earth and sand and sludge to the ground via the above-mentioned mud pipe. Moreover, in the said apparatus carrying-in process, the said earth-and-sand discharge apparatus passes the inside of one manhole from the ground, and carries it in in a horizontal shaft, and a crane, a jack, etc. are used in this apparatus carrying-in process. Moreover, the said linear body connection process is a process of connecting a linear body to the said earth and sand discharging apparatus carried in in a horizontal shaft, and this linear body may be a rope and a chain, but is a wire which comprises a winch. It is desirable. In addition, the linear body needs to be connected to the tip of the earth and sand discharging device and inserted into the other manhole that is separated from the one manhole used when the earth and sand discharging device is carried.

  And in the discharge method of the horizontal shaft sedimentation sediment according to the first invention, the sediment and mud accumulated in the horizontal shaft is driven by driving the sediment discharge device while pulling out the linear body from the ground. And is discharged to the ground through the mud pipe.

  Further, according to a second invention (invention according to claim 2), in the first invention, in the earth and sand discharging step, the tip side is curved from the ground into the other manhole, and the length of the manhole is longer than that. A long cylindrical body was inserted, and the middle part on the front end side of the cylindrical body was brought into contact with a corner formed between the manhole and the horizontal shaft, and the linear body was inserted into the cylindrical body. The linear body is pulled out from the ground in a state.

  In the second aspect of the invention, the cylindrical body can be inserted into a linear body, is longer than the length (depth) of the manhole iron lid, and the distal end side needs to be curved. is there. Further, the cylindrical body needs to have a predetermined hardness or strength so that it is not easily bent or deformed when the linear body is pulled out, and it is desirable to use a metal pipe. . In addition, this cylindrical body is used by abutting the middle part on the tip side with a corner formed between the manhole and the horizontal shaft, and the position of the cylindrical body to be in contact with the corner. May be the curved part or a straight part. Moreover, when implementing the drainage method of the horizontal shaft sedimentation earth which concerns on this invention, the said cylindrical body may be hold | gripped by the operator on the ground, and may be fixed using an appropriate instrument.

  Moreover, 3rd invention (invention of Claim 1) is either the said 1st or 2nd invention, The other linear body inserted from the said one manhole in the rear part of the said earth and sand discharging apparatus. The earth and sand discharging device is discharged while the earth and sand discharging device is moved forward and backward in the side shaft by the operation of drawing or feeding the linear body and the operation of feeding or drawing the other linear body. It is characterized by doing.

  In the third aspect of the invention, the linear body is connected to the front part of the earth and sand discharging device, and another linear body is connected to the rear part, while the linear body is pulled out from the other manhole on the ground. Advance the earth and sand discharging device carried into the horizontal shaft, or retreat the above earth and sand discharging device while pulling out the other linear body from one manhole to discharge the sediment and sludge accumulated in the horizontal shaft. . In addition, it is desirable to use a wire for the other striated bodies as well as the striated bodies.

  According to a fourth invention (invention according to claim 4), in the first, second or third invention, the earth and sand discharging device comprises a sand pump and the sand pump accommodated therein. A cushioning material is disposed between the casing mainly composed of the above and between at least the upper surface of the sand pump and the casing and between the lower surface of the sand pump and the casing.

  In the fourth aspect of the present invention, the cushioning material is added to the sand pump when the sand pump is carried into or out of the horizontal shaft, or when it is advanced (or retracted) using the linear body in the horizontal shaft. The shape and the material are not particularly limited as long as the impact can be reduced.

  According to a fifth invention (invention according to claim 5), in the fourth invention, the earth and sand discharging device has a base end fixed to the casing and a tip at the front center of the earth and sand discharging device. It is characterized in that a connecting member to which the state body is connected is arranged.

  In the first invention (the invention described in claim 1), the earth and sand discharging device is driven, and the earth and sand discharging device is moved to a position below the other manhole while the linear body is pulled out from the ground. Since the equipment is equipped with a sediment discharge process that discharges the sediment in the horizontal shaft to the ground, it does not stop near the manhole installation position as in the conventional method, but sediment and sludge accumulated in the horizontal shaft as much as possible. All can be discharged, and as a result, the diameter formed in the horizontal shaft can be used effectively at the time of water intake or drainage. In particular, in this invention, since the earth and sand discharging device is advanced by pulling out the linear body on the ground, at least in the step of discharging earth and sand by the earth and sand discharging device, it is necessary for the operator to work in the horizontal shaft. There is no sex.

  Moreover, in 2nd invention (invention of Claim 2), a linear body is penetrated to a cylindrical body, and the corner | angular part formed between the manhole and the horizontal shaft in the front end side middle part of this cylindrical body Since the tip end side of the cylindrical body is curved, the risk that the linear body is worn or cut by sliding contact with the corner portion during operation is effectively prevented. be able to.

  The third invention (the invention according to claim 3) is characterized in that the earth and sand discharging device is placed in the side shaft by the drawing operation or feeding operation of the linear body and the feeding operation or drawing operation of the other linear body. Since the sediment in the horizontal shaft is discharged while moving forward and backward, a large amount of sediment and sludge accumulates in the horizontal shaft, or the diameter of the horizontal shaft is larger than the capacity of the sediment removal device, If the earth and sand cannot be discharged / removed only by moving the discharge device forward, almost all the earth and sand etc. can be removed from the horizontal structure by moving the earth and sand discharge device backwards and gradually moving forward and backward. Can be discharged from.

  In the fourth invention (the invention described in claim 4), since the casing is mainly composed of a wire mesh, the weight of the entire earth and sand discharging device can be reduced, and at least the upper surface of the sand pump. Since a cushioning material is disposed between the casing and the bottom surface of the sand pump and between the casing and the casing, when the sand pump is carried into or out of the horizontal shaft, When advancing (or retreating) using the shaped body, the impact applied to the sand pump can be reduced, and the sand pump can be prevented from being damaged by the impact.

  In the fifth invention (the invention according to claim 5), the earth and sand discharging device has a base end fixed to the casing and a tip connected to the linear body at the front center of the earth and sand discharging device. Therefore, the earth and sand discharging device can be moved straight forward by pulling out the linear body. In addition, when a plurality of shafts projecting from the side of the casing and the shafts are integrated at the front center of the earth and sand discharging device as the connecting member, the connecting member is substantially conical. Even if there is an obstacle in front of the sediment discharge device, it is possible to avoid the danger of not being able to move forward.

  Hereinafter, a method for discharging horizontal shaft sedimentation according to the best mode for carrying out the present invention will be described in detail in the order of steps with reference to the drawings. This horizontal tunnel sedimentation method is applied to the method of discharging and removing the sediment deposited in the intake pipe formed underground.

  The drainage method for horizontal shaft sedimentation according to this embodiment (hereinafter sometimes referred to as the main construction method) is for discharging sediment deposited in the intake pipe using a sediment discharger. The discharge device will be described with reference to the drawings.

  As shown in FIG. 1, the earth and sand discharging device 1 includes a sand pump 2, a casing 3 that houses the sand pump 2, and one and other buffer plates 4 that are housed in the casing 3. , 5. The sand pump 3 is a horizontal sand pump. A pump main body (not shown) is built in the inside, and a suction port 2a for sucking soil and sludge accumulated in the intake pipe together with water is provided on the front side. In addition, a discharge port (not shown) for discharging earth and sand sucked from the suction port 2a is provided on the back surface, and a suction hose 6 is connected to the discharge port. As shown in FIG. 3, the suction hose 6 is connected to a treatment facility D installed on the ground, and as will be described later, the earth and sand S sucked up together with the water W in the intake pipe P is treated by this treatment. It is separated into earth and sand and water by the equipment D. A cylindrical frame member 2b for regulating the particle size of the earth and sand S sucked into the pump body is formed on the front side of the sand pump 2. The casing 3 includes a bottom plate portion 7, a left side plate portion 8 and a right side plate portion 9 erected from both left and right sides of the bottom plate portion 7, and a rear plate portion erected from the rear end of the bottom plate portion 7. 10 and a closing lid 11 that closes the upper part of the casing body. And the said casing main body is comprised mainly by the metal-mesh, between the said bottom plate part 7 and the left side plate part 8, between the bottom plate part 7 and the right side plate part 9, and the bottom plate part 7 and the back plate part. 10, an L-shaped frame member 12 is welded between the left side plate portion 8 and the back plate portion 10, and between the right side plate portion 9 and the back plate portion 10, and the left side plate portion 8. A plate-shaped frame member 13 having both ends welded to the L-shaped frame member 12 is welded to the upper end of the right-side plate portion 9 and the upper end of the right-side plate portion 9. An auxiliary frame 14 is welded to the left plate portion 8 and the right plate portion 9. The back plate portion 10 is formed with an opening 10a through which the suction hose 6 is inserted. The closing lid 11 is formed by welding a wire mesh to a rectangular frame member 15 formed in a rectangular shape, and a plurality of hooks 16 are fixed to the upper surface of the rectangular frame member 15. . The closing lid 11 and the casing body are fixed at a plurality of locations by a wire (not shown).

  The casing 3 is welded to an L-shaped frame member 12 or a plate-like frame member 13 (a member having a length in the horizontal direction) that constitutes the casing body, and one end of the casing 3 is connected to the casing body. Four metal rod-like bodies 18... 21 which are located on the front side and located on the back side of the casing body are arranged at the other end. One end side middle portions of these metal rods 18... 21 are bent so that one end side is gradually inclined inward, and each end portion is welded to each other at the front side center of the casing body. A ring-shaped front side connection portion 22 is formed at the tip. On the other hand, the other end side middle portions of the four metal rods 18... 21 are bent so that the other end side is gradually inclined inward, and each end portion is welded to each other at the center of the back side of the casing body. A ring-shaped rear side connecting portion 23 is formed at the tip.

  In the casing 3, as shown in FIG. 2, one buffer plate 4 is disposed between the bottom plate portion 7 constituting the casing body and the sand pump 2, and the sand pump 2 The other buffer plate 5 is disposed between the closing lid 11 and the closing lid 11. These one and the other buffer plates 4 and 5 are formed by forming foamed polystyrene into a plate shape.

  Hereinafter, the sedimentation method of sedimentation horizontal shaft sedimentation earth and sand which is performed while using the soil sediment ejection device 1 described above will be described in detail in the order of each process.

First, the earth and sand discharging device 1 is suspended by a hoist Y or the like, and gradually lowered from above _one manhole M1 connected to the intake pipe P as shown in FIG. 3 and carried into the intake pipe P. . At this time, one wire 25 is connected to the rear side connecting portion 23 in advance. The one wire 25 is connected to one winch (not shown). Thus, when the earth and sand discharging device 1 is carried into the water pipe P, the winch is rotated reversely or idly. Keep it available. Moreover, in this way the step of transferring the sediment discharge device 1 from one manhole M ₁ into the intake pipe P is completed (or it in the previous step), the leading end of the other wire 26, the sediment discharge device 1 is connected to the front connecting portion 22 constituting the, as shown in FIG. 4, the state pulled out the wires 26 of the other side from the other in the vicinity of the manhole M ₂ adjacent to the manhole M _1. This method, for example, the other to the other wire 26, while inserted into intake tube P from the manhole M ₁ of one above, by inserting the tip into said mounting water pipe P, adjacent the manhole M ₁ of one said removal from the manhole M _2, with connecting the end opposite to the take-out side to the front side connection portion 22, a method for connecting the end taken out of the other manhole M ₂ to the other winch 27 Can be adopted. Alternatively, with inserting the tip of the other manhole M is connected to the other of the winches 27 in ₂ (wound) other wire 26, delivery the tip on one manhole M ₁ side of the, the You may employ | adopt the method of connecting a front-end | tip to the said front side connection part 22 which comprises the earth and sand discharge apparatus 1 carried in in the said intake pipe P. FIG.

Moreover, in the discharge construction method of the sedimentary horizontal pit sedimentation earth which concerns on this embodiment, as shown in FIG. 4, the cylindrical body 30 is used. As shown in FIG. 5, the tubular body 30 has the other wire 26 inserted therein, and a curved portion 30 a curved in an arc shape is formed on the distal end side. Then, the other wire 26 the tubular body 30 which is inserted, to abut against the corner portion E formed by the manhole M ₂ and intake pipe P above the other. The abutting position is the curved portion 30a. The cylindrical portion 30 is suspended from the ground by a string or the like (not shown) so that the curved portion 30a abuts on the corner E according to the length thereof.

In this way, the earth and sand discharging device 1 is carried into the intake pipe P, one wire 25 is connected to the rear side connecting portion 23 of the earth and sand discharging device 1, and the other wire is connected to the front side connecting portion 22. When the process of connecting 26 is completed, the driving of the sand pump 2 constituting the earth and sand discharging device 1 is then started. Then, the earth and sand S and sludge accumulated in the intake pipe P are sucked from the front side of the sand pump 2 and filled into the processing equipment D via the suction hose 6. The other in this state, by driving the other winch 27 installed above the other manhole M _2, wound the other wire 26, the sediment discharge device 1 from one manhole M ₁ side moving the manhole M ₂ side. By drawing such other wire 26 (winding the other wire 26 at the other of the winch 27), the intake pipe P over to the other position of the manhole M ₂ from the position of the manhole M ₁ of one the Accumulated sediment S and sludge can be discharged effectively. In the earth and sand discharging apparatus 1, since one wire 25 is connected to the rear side connecting portion 23, the one wire 25 is rewound (one wire 25 is moved from the vicinity of _one manhole M1. with draw), by feeding the other wire 26 to the other manhole M _2, can also be retracted sediment discharge device 1, further, by repeating forward and reverse, were deposited in the intake pipe P Sediment S and sludge may be removed.

Thus, according to the construction method according to the above-described embodiment, the sediment S and sludge accumulated in the intake pipe P can be obtained without stopping near the installation position of the manholes M ₁ and M ₂ as in the conventional construction method. As much as possible, all the water can be discharged, and as a result, the diameter of the water intake pipe P can be used effectively at the time of water intake. In particular, in this construction method, the earth and sand discharging device 1 is advanced by pulling out the other wire 26 by the other winch 25 on the ground, so that at least in the step of discharging earth and sand by the earth and sand discharging device 1, There is no need for a person to work in the intake pipe P. Further, in the above method, the tubular body 30 is inserted the other wire 26, the corner portion formed between the curved portion 30a formed in the cylindrical body 30 and the other manhole M ₂ and intake pipe P Since it is brought into contact with E, it is possible to effectively prevent a risk that the other wire 26 is worn or cut by sliding contact with the corner E during the work. Further, the above-mentioned construction method includes the intake pipe while the earth and sand discharging device 1 is moved forward and backward in the intake pipe P by the operation of drawing or feeding the other wire 26 and the operation of feeding or drawing the one wire 25. When discharging the sediment in P, a large amount of sediment and sludge accumulates in the intake pipe P, or the diameter of the intake pipe P is larger than the capacity of the sediment discharge device 1, and the sediment discharge device 1 is simply installed. If the earth and sand cannot be discharged / removed only by moving forward, the earth and sand discharging device 1 is moved backward, and further gradually moved forward and backward, so that almost all the earth and sand are taken into the water pipe P. Can be discharged from.

  In addition, since the casing 3 is mainly composed of a wire mesh, the earth and sand discharging apparatus 1 can reduce the weight of the entire earth and sand discharging apparatus 1, and at least the lower surface of the sand pump 2 and the casing 3 can be reduced. Since one buffer plate 4 is disposed between the upper surface of the sand pump 2 and the casing 3, the other buffer plate 5 is disposed between the two, and the sand pump 2 is carried into the water pipe P. The impact applied to the sand pump 2 can be mitigated at the time of carrying out, carrying out, or moving forward (or retreating) using the other wire 26 (or one wire 25) in the intake pipe P, It is possible to prevent the sand pump 2 from being damaged by the impact. Further, a front side connecting portion 22 to which the other wire 26 is connected is formed in front of the earth and sand discharging device 1, and a rear side connecting portion 23 to which one wire 25 is connected is formed at the rear, Since both the front-side connecting portion 22 and the rear-side connecting portion 23 are formed at the center of the earth and sand discharging device 1, the earth and sand discharging device 1 can be moved straight forward by pulling out the other wire 26. By pulling out the wire 25, the wire 25 can be receded straight. Moreover, the front side connection part 22 and the rear side connection part 23 are each formed by welding the ends of the four metal rod-like bodies 18. Even when there is an obstacle in front of the earth and sand discharging device 1, it is possible to effectively avoid the danger of being unable to advance.

  In the above embodiment, the present invention is applied to a construction method for discharging sediment and sludge accumulated in the intake pipe P. However, the present invention is not limited to such an intake pipe P. The earth and sand accumulated in the water pipe (not shown) may be discharged. Also, on the lower surface of the casing 3, for example, warp plates may be arranged on the left and right in order to reduce the frictional resistance with the accumulated earth and sand. Moreover, in the earth and sand discharging apparatus 1 which concerns on the said embodiment, although the four metal rod-shaped bodies 18 ... 21 were used as the component, you may further increase the number of these metal rod-shaped bodies.

It is a disassembled perspective view which shows the earth and sand discharge apparatus. It is a sectional side view which shows typically the earth and sand discharge apparatus shown in FIG. It is side sectional drawing which shows typically the state in which the earth and sand discharge apparatus was carried in into the intake pipe from one manhole. It is a sectional side view showing typically the state where the earth and sand discharging device is moving from one manhole side to the other manhole side. It is a perspective view which shows a cylindrical member.

Explanation of symbols

1 sediment discharge device 2 Sand pump 3 casing 4 one buffer plate 5 other buffer plate 18 ... 21 metallic rod-shaped body 23 rear-side connecting part 25 one of the wires 26 other wire 30 the cylindrical body P intake pipe M ₁ One manhole M _{2 The} other manhole E Corner

Claims (5)

A device carrying-in process for carrying the earth and sand discharging device from one manhole into the horizontal shaft,
A linear body connecting step of connecting a linear body inserted into the other manhole spaced from the one manhole to the tip of the earth and sand discharging device;
Sediment discharging step of driving the earth and sand discharging device, moving the earth and sand discharging device to below the other manhole while pulling out the linear body from the ground, and discharging the earth and sand in the horizontal shaft to the ground by the earth and sand discharging device. When,
A drainage method for sedimentation of horizontal shaft sediments characterized by comprising:   In the earth and sand discharging step, a cylindrical body that is curved at the front end side and is longer than the length of the manhole is inserted into the other manhole from the ground, and a middle part at the front end side of the cylindrical body is laterally crossed with the manhole. 2. A horizontal pit pile according to claim 1, wherein the pit is brought into contact with a corner formed between the pit and the linear body is pulled out from the ground with the linear body inserted into the cylindrical body. Sediment discharge method.   By connecting the other linear body inserted from the one manhole to the rear part of the earth and sand discharging device, the pulling operation or feeding operation of the linear body and the feeding operation or pulling operation of the other linear body, 3. The method for discharging lateral sediments according to claim 1 or 2, wherein the sediment in the lateral shaft is discharged while the sediment discharge device is moved forward and backward in the lateral shaft.   The earth and sand discharging device includes a sand pump, a casing mainly containing a metal mesh that is housed in the sand pump, at least between the upper surface of the sand pump and the casing, and between the lower surface of the sand pump and the casing. 4. The drainage method of horizontal shaft sedimentation sediment according to any one of claims 1, 2, and 3, wherein a cushioning material is arranged in each. 5. The earth and sand discharging device according to claim 4, wherein a connecting member to which the base end is fixed to the casing and the tip is connected to the linear body at the front center of the earth and sand discharging device is disposed. Method for discharging horizontal shaft sediment.