CN1693666A - Socket shield machine construction method - Google Patents

Abstract

This invention discloses a socket shield machine construction method. the procedures are the integrated socket with long and short axis on section, shield machine is pushed out well mouth, the first socket with front end covered by steel annular is installed at the well mouth. The second socket is transferred to work storehouse at end of shield mechanism, socket is rotated 90 degrees on Z axis then 90 degrees on X axis through mechanical knob. The socket is blocked up to the height needed, then it is installed in the steel annular of the first socket by socket laying oil cylinder. Section-by-section transport, rotating, block up is done according to the way said above, then oil cylinder is section-by-section laid by socket to heal up posterior installed socket, then pipe lay is finished. Comparing to common shield construction, integrated socket is used to conquer the defect of duct piece seam leakage, many accessories and auxiliary material is saved, structure stability is reinforced, installation speed is faster, construction period is shortened, cost is reduced. The sealing performance of joint is good, adapted earthiness range is wide.

Description

A kind of socket shield machine construction method

Technical field

The present invention relates to a kind of socket shield machine construction method, is the technical field of construction that belongs to a kind of non-excavation laying underground utilities.The bore that it is suitable for, generally should be meant the people can in pipe, carry out construction operation in, the laying of large-scale underground utilities.

Background technology

At present, in this, the job practices of large-scale pipeline non-excavation laying underground utilities has two kinds: a kind of jacking construction method of crying, the another kind of shield construction method of crying.

The jacking construction method is a kind of job practices of non-excavation laying underground utilities, and its equipment needed thereby is made of seven major parts shown in Figure 1 substantially: 1---received well, 2---push-bench, the follow-up pipe of 3---, 4---active well, 5---foundation ditch guide rail, 6---pressure-bearing steel loop, 7---jacking oil cylinder.Concrete method is: during construction, earlier respectively construct an active well and a received well in the pipe ends that will lay, in active well, put into foundation ditch guide rail, jacking oil cylinder, push-bench and follow-up pipe, pressure-bearing steel loop etc. again, then, cut the earth by push-bench, with the jacking oil cylinder push-bench and follow-up pipe one joint one is saved land and to push up received well from active well, take out in received well up to push-bench, the laying work of whole piece pipeline is also accused and is finished.The top power of jacking construction method is along with the growth of jacking length increases, and therefore, it requires very high to the compressive strength of tubing.The compressive strength of tubing has restricted the jacking length of jacking construction method.If increase the continuous ejection device that jacking length just must be set up relay well, the whole piece pipeline is divided into plurality of sections pushes up.More than the relay well one, troublesome poeration, move speed are also slow.It is also uneconomical with the jacking construction method at the above pipeline of 3500mm to lay bore in addition.Adopt the shield construction method so generally lay the pipeline of the above bore of 3500mm more.

The shield construction method is the job practices of the underground large-scale pipeline of a kind of non-excavation laying.It is mainly by five most of compositions shown in Figure 2: the 1---received well, and the 8---shield machine, 9---advances oil cylinder, 10--section of jurisdiction, 4---active well.Shield construction method concrete grammar is described below: during construction, earlier respectively construct an active well and a received well in the pipe ends that will lay, in active well, put into shield machine again, advance the oil cylinder retraction with advancing oil cylinder that shield machine is pushed ahead certain distance with relief then, in retraction is reserved next space, a piece pipe sheet assembling is become an annular tube coupling with manipulator.Ring by ring ground assembly unit is forward later on taken out in received well up to shield machine, and the laying work of whole piece pipeline is also accused and finished.The section of jurisdiction is exactly that wherein each part is exactly a section of jurisdiction each endless tube joint break into portions.In order to make the Stability Analysis of Structures in tunnel, all can make certain angle that staggers mutually between two adjacent sections of jurisdiction usually, all connect between each piece section of jurisdiction, shown in Fig. 2 below with bolt or pin.Common shield construction method is section of jurisdiction shield construction method in fact, and the whole piece tunnel is become by a piece pipe sheet assembling.When adopting shield construction, its seam that the section of jurisdiction is many is also many, must handle each bar seam well, does not allow its seepage, is not a nothing the matter.And segment assembly is very time-consuming.Make its structural instability easily after having endless tube joint to be divided into some sections of jurisdiction again.

Summary of the invention

The objective of the invention is provides a kind of new underground pipeline laying construction method, i.e. socket shield machine construction method in order to overcome the shortcoming in the existing non-excavation laying underground pipeline construction method.

Technical scheme of the present invention is: a kind of socket shield machine construction method is characterized in that method step is:

1. the worker scene has a plurality of whole tube couplings that have major axis, minor axis with corresponding its section of need tubing size and be equipped with the joint sealing circle on an end face;

2. respectively construct an active well and a received well in the pipe ends that will lay, in active well, put into shield machine, and by advancing oil cylinder that shield machine is pushed ahead;

3. arrive when pipe joint joint position can be installed when shield machine is pushed out active well, front end is with the first pipe joint joint first segment tube coupling of steel collar, be installed to place, active well hole, finish the installation of first pipe joint joint;

4. handle the sealing between first segment tube coupling and the active well hole, the space, hole is blocked with quick hardening cement or leak stopping king;

5. continue to advance shield machine, in second pipe joint when joint, can be installed with crane second pipe joint be saved and hang down when being advanced to, laterally be transported to after the shield tail housing, turn 90 degrees by first second pipe joint joint is revolved around the Z axle of manipulator, again it is revolved around X-axis and turn 90 degrees, and by cushion block the integral ring-shaped tube coupling bed hedgehopping of this grade to desired height, lay by tube coupling that oil cylinder saves second pipe joint and the first segment tube coupling links up;

6. continue to advance shield machine, in three-joint pipe when joint, can be installed with crane three-joint pipe be saved and hang down when being advanced to, by the 5th) one step process rotates three-joint pipe joint, and by cushion block this pipe joint joint bed hedgehopping to desired height, lay that oil cylinder saves three-joint pipe and second pipe joint saves and links up by tube coupling;

7. repeat the 6th) one step process connects the 4th pipe joint joint and three-joint pipe joint, the 5th pipe joint joint and the 4th pipe joint joint connect, distance tube coupling transport with the tube coupling travelling bogie, pursue successively and save connection, until final section, be open to traffic, laying is finished.

The invention has the beneficial effects as follows:

The present invention compares with common shield-tunneling construction, and following advantage is arranged:

1. tube coupling is to use whole tube coupling without pipe sheet assembling, has overcome the shortcoming of the seam seepage between the segment joint, saves many annexes and auxiliary material, has strengthened structural stability, and installation rate is accelerated.

2. the present invention has cancelled the secondary inner lining process in the common shield-tunneling construction, has reduced the construction section of pipeline, has shortened construction period widely, reduces construction cost.

3. joint sealing performance of the present invention is good, to adapt to the soil property scope wide.

The present invention compares with common jacking construction, and following advantage is arranged:

1. invention can realize long distance, the jacking of over distance pipeline, and does not need to add auxiliary equipment such as relay well.

2. can realize the pipeline jacking of any direction of small curvature radius, its orientation measurement is much simple more than the orientation measurement of push pipe.

3. the present invention does not need as common jacking construction, reduce the jacking resistance by injecting lubricated slurry.

4. the used tube coupling of the present invention does not need to have very high axial compression strength as common jacking construction.

Description of drawings

Fig. 1 is a jacking construction method schematic diagram;

Fig. 2 is the shield construction schematic diagram;

The conduit section form that Fig. 3 is suitable for for socket shield machine construction method;

Fig. 4 is a socket shield machine construction method equipment needed thereby schematic diagram;

The schematic diagram of pipe joint joint installation headed by Fig. 5;

Fig. 6 catches the tube coupling schematic diagram for manipulator;

Fig. 7 turn 90 degrees schematic diagram for manipulator revolves tube coupling around the Z axle;

Fig. 8 turn 90 degrees schematic diagram for manipulator revolves tube coupling around X-axis;

Fig. 9 is second pipe joint joint scheme of installation;

Figure 10 is an active well hole encapsulation process schematic diagram;

Figure 11 is for to shift tube coupling onto in steel collar schematic diagram;

Figure 12 is for connecting filling slurry Grouting Pipe schematic diagram;

Figure 13 is for to push ahead schematic diagram to shield machine and operation storehouse thereof;

Figure 14 is a T-steel collar scheme of installation;

Figure 15 is a F shaped steel collar scheme of installation;

Figure 16 is that two collar tongue-and-groove type joints connect signal.

The specific embodiment

What Fig. 3 was represented is the conduit section shape that socket shield machine construction method is suitable for, and the section configuration of integral ring-shaped tube coupling is consistent with the section configuration of tubing, can be ellipse, kidney shape, polygon and rectangle, present embodiment adopts oval whole tube coupling, in construction, can make the minor axis of ring pipe place level, be vertical laying, also can make the major axis of ring pipe place level, be horizontal laying, present embodiment is the integral ring-shaped tube coupling that adopts the elliptical section shape, and its used capital equipment as shown in Figure 4, among the figure, the 1---received well, the 11---shield machine, the 12---shield machine advances oil cylinder, the 13---manipulator, the 14---tube coupling is laid oil cylinder, 15--storehouse tail sealing device, 16---injected hole, 17---filling slurry, the whole tube coupling of 18---, 4---active well, 19---1/3rd annular concrete pipe pads, 20---foundation ditch guide rail, the 21---steel collar, 22---tube coupling travelling bogie, 23---joint sealing circle, the 24---arc-shaped bracket, 25---operation storehouse.

Embodiments of the invention elaborate in conjunction with the accompanying drawings:

1. have a plurality of at the construction field (site) and the corresponding oval integral ring-shaped tube coupling that on an end face, is equipped with seal nipple of need tubing size;

2. by shown in Figure 4, respectively construct an active well 4 and a received well 1 in the pipe ends that will lay, in active well 4, put into shield machine 8, arc-shaped bracket 24 is removed, advance shield machine oil cylinder 12 and tube coupling to lay oil cylinder 14 withdrawals, allow the operation storehouse be that shield tail housing 25 is reserved a bigger space, the internal diameter in operation storehouse must be bigger than tube coupling external diameter, being convenient to tube coupling overturns in the operation storehouse and installs, space between operation storehouse and the tube coupling external diameter is provided with tail sealing device of shield, and this device can prevent underground water and filling slurry seepage in the operation storehouse;

3. arrive when the annular tube coupling of joint position can be installed when deactivate well 4 of shield machine 8, after the first segment tube coupling is disposed across tube coupling transport vehicle 22 and is transported to the operation storehouse, as shown in Figure 5, catch first segment tube coupling 18 by manipulator 11 then, annular tube coupling transport vehicle 22 is removed, as shown in Figure 6;

4. earlier first segment tube coupling 18 is revolved around the Z axle and turn 90 degrees, as shown in Figure 7, again it is revolved around X-axis and turn 90 degrees, make seal nipple be the steel pipe collar 21 end face forward, and ring pipe left on the arc-shaped bracket, as Fig. 8, shown in Figure 9, and by cushion block this grade tube coupling bed hedgehopping to desired height, be installed to active well hole place, finish the installation of chopped-off head annular tube coupling, first pipe joint joint must expose a part in active well, with convenient with the sealing problem between first pipe joint joint of post processing and the active well hole;

5. continue to advance shield machine, in second pipe joint when joint, can be installed with crane second pipe joint be saved and hang down when being advanced to, by the 4th) one step process rotates second pipe joint joint, and by cushion block this grade tube coupling bed hedgehopping to desired height, laying oil cylinder 12 by tube coupling shifts second pipe joint joint onto in the first segment tube coupling steel collar 21 at its rear, first, second pipe joint joint is linked up, as Figure 10, shown in Figure 11;

6. after finishing first and second pipe joint joint installation, need to handle the sealing between first segment tube coupling and the active well hole, with quick hardening cement or leak stopping king the space, hole is blocked, as shown in figure 10;

7. continue to advance shield machine,, the three-joint pipe joint hung down repetition 3 with crane when being advanced to when the three-joint pipe joint can be installed), 4), 5) one step process saves three-joint pipe and second pipe joint saves and links up; The 4th pipe joint joint and three-joint pipe joint are connected, and the 5th pipe joint joint and the 4th pipe joint joint connect, and connect by joint successively, until final section, are open to traffic, and the installation of tube coupling is laid and finished;

8. after the installation of second pipe joint joint is laid and finished, need in its injected hole, to connect filling slurry Grouting Pipe 26, as shown in figure 12, and prepare after the three-joint pipe joint installs, when shield machine advances oil cylinder, to begin slip casting.As shown in figure 13, in shield machine cutting and casting, advance oil cylinder inchmeal shield machine and operation storehouse to be pushed ahead, and in Grouting Pipe, inject the filling slurry of certain pressure simultaneously, to prevent surface settlement with shield machine;

9. last, after shield machine advances oil cylinder to shift the position onto, stop and advance shield machine oil cylinder and tube coupling to lay oil cylinder and all withdraw, remove Grouting Pipe simultaneously and block injected hole.Next can be installed in the T-steel collar on the annular tube coupling in the operation storehouse by same method of ring pipe and step are installed, so far, a circulation finishes, and goes round and begins again by above-mentioned cyclic process later on, up to being open to traffic.

The seal nipple form of tube coupling has three kinds of the T-steel collar, the F shaped steel collar and tongue-and-groove type joints etc., the T-steel collar cooperates the F shaped steel collar by sealing ring 23 between the T-steel collar 21 and the ring-like pipe as shown in figure 14, its detail drawing is as shown in figure 15: 21---steel collar, 23---sealing ring.The tongue-and-groove type joint, as shown in figure 16, the 23--sealing ring.

Claims (5)

1. a socket shield machine construction method is characterized in that, method step is:

A) have a plurality of tube couplings that have major axis, minor axis with corresponding its section of need tubing size and on an end face, be equipped with seal nipple at the construction field (site);

B) respectively construct an active well and a received well in the pipe ends that will lay, in active well, put into shield machine, and by advancing oil cylinder that shield machine is pushed ahead;

C) arrive when pipe joint joint position can be installed when shield machine is pushed out active well, front end is with the first pipe joint joint first segment tube coupling of steel collar, be installed to place, active well hole, finish the installation of first pipe joint joint;

D) sealing between processing first segment tube coupling and the active well hole blocks the space, hole with quick hardening cement or leak stopping king;

E) continue to advance shield machine, in second pipe joint when joint, can be installed with crane second pipe joint be saved and hang down when being advanced to, laterally be transported to after the shield tail housing, turn 90 degrees by first second pipe joint joint is revolved around the Z axle of manipulator, again it is revolved around X-axis and turn 90 degrees, and by cushion block the whole tube coupling bed hedgehopping of this grade to desired height, lay by tube coupling that oil cylinder saves second pipe joint and the first segment tube coupling links up;

F) continue to advance shield machine, in three-joint pipe when joint, can be installed with crane three-joint pipe be saved and hang down when being advanced to, by the 5th) one step process rotates three-joint pipe joint, and by cushion block this pipe joint joint bed hedgehopping to desired height, lay that oil cylinder saves three-joint pipe and second pipe joint saves and links up by tube coupling;

G) repeat the 6th) one step process connects the 4th pipe joint joint and three-joint pipe joint, the 5th pipe joint joint and the 4th pipe joint joint connect, distance tube coupling transport with the tube coupling travelling bogie, pursue successively and save connection, until final section, be open to traffic, laying is finished.

2. a kind of socket shield machine construction method according to claim 1 is characterized in that, to have the whole tube coupling of major axis, minor axis be ellipse or polygon or kidney shape to used its section in the method.

3. a kind of socket shield machine construction method according to claim 1 is characterized in that, to be the sealing ring that is equipped with of the outside by the tube coupling two ends with the seal nipple that is equipped with on the annular tube coupling the match formation of the sealing between the 2-section pipe joint.

4. a kind of socket shield machine construction method according to claim 3 is characterized in that, the sealing between the described 2-section pipe joint also can be formed by connecting by the tongue joint that tube coupling is made.

5. a kind of socket shield machine construction method according to claim 3 is characterized in that, the seal nipple that is equipped with on the described tube coupling is the T-steel collar or the F shaped steel collar.

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