KR102308916B1 - Concrete box floatation apparatus and utilizing floatation method - Google Patents

Abstract

The present invention relates to a lifting device for differential settlement culverts and a lifting method for differential settlement culverts using the same, and more particularly, to differential settlement culverts for lifting the culverts during subsidence of some culverts due to subsidence of the ground after installation work of the culverts is made It relates to a lifting device and a lifting method of a unequal subsidence culvert using the same.
The lifting device of the unequal settlement culvert and the lifting method of the unequal settlement culvert using the same according to an embodiment of the present invention is a culvert unit consisting of a settlement culvert in which differential settlement has occurred and an adjacent culvert disposed on both sides in the longitudinal direction of the settlement culvert. A support frame disposed in the inner space and installed to be supported by the adjacent culvert; and a mortar injection unit that is lifted by the lifting unit and injects mortar into the subsidence space formed between the base ground and the subsidence culvert.

Description

The lifting apparatus of the differential settlement culvert and the lifting method of the differential settlement culvert using the same {Concrete box floatation apparatus and utilizing floatation method}

The present invention relates to a lifting device for differential settlement culverts and a lifting method for differential settlement culverts using the same, and more particularly, to differential settlement culverts for lifting the culverts during subsidence of some culverts due to subsidence of the ground after installation work of the culverts is made It relates to a lifting device and a lifting method of a unequal subsidence culvert using the same.

In general, a precast concrete box culvert (hereinafter, abbreviated as "culvert unit") is made of a precast member to have a predetermined length in the longitudinal direction, and the culvert units are sequentially arranged in the longitudinal direction. to be assembled and constructed. At this time, by forming a through hole at the edge of the culvert unit, a longitudinal pressing force is applied to the plurality of culvert units arranged in the longitudinal direction through the tension member.

In addition, a concave portion is formed on the joint surface where the culvert units face each other, and a filler such as non-shrink mortar is filled in the space formed between the culvert units that face each other to promote integral bonding and watertightness to the joint between the culverts.

However, since sufficient shear resistance between culvert units cannot be exerted only by the tension force in the longitudinal direction by the tension member as above employed in the joint structure of the conventional culvert unit and the bonding force of the filler at the joint, uneven subsidence of the ground and high overhead load When the loading of the culvert occurs, there is a high possibility that the culvert will sink, such as a step difference at the junction of the culvert unit, that is, a height difference between the two culvert units, or a gap between the junction surfaces of the culvert unit due to the action of shear force.

Republic of Korea Patent Registration No. 10-0981577 discloses a bonding structure of a precast concrete box culvert unit having a configuration to prevent uneven settlement through the fixing of tension members using a connecting anchor bar and the installation structure of the joint spanning, and a concrete box culvert having such a bonding structure. .

Republic of Korea Patent Registration No. 10-0775757 discloses a culvert segment joint structure and a method for combining the same of the unequal settlement lowering method by a fastening structure using a longitudinal pipe member.

The culvert unit bonding method as described above can supplement the bonding force and tension between the culvert units, but after some culvert units are settled due to an increase in surplus load or uneven subsidence of the ground, the existing culvert must be removed and reconstructed. have.

Republic of Korea Patent No. 10-0981577 Republic of Korea Patent No. 10-0775757

The present invention is to solve the problems as described above, and after construction is completed, some culvert units that have been submerged due to an increase in the superimposed load or unequal subsidence of the ground are lifted as well as by injecting mortar into the unequal subsidence as designed. An object of the present invention is to provide a lifting device for the unequal settlement culvert that enables the construction of

In order to solve the above technical problem, the lifting device of the unequal settlement culvert according to an embodiment of the present invention is a culvert unit consisting of a settlement culvert in which differential settlement has occurred and adjacent culverts disposed on both sides in the longitudinal direction of the settlement culvert. A support frame disposed in space and installed to be supported by the adjacent culvert, a culvert lifting unit installed on the upper portion of the support frame to lift the subsided culvert upward with respect to the support frame, and the subsidence culvert is the culvert lifting and a mortar injection unit that is lifted by the unit and injects mortar into the subsidence space formed between the base ground and the subsidence culvert.

In addition, it is installed on both sides of the support frame may further include a lateral flow prevention unit for preventing the subsidence culvert from flowing laterally with respect to the support frame.

In addition, the mortar injection unit may further include a mortar injection detection unit in which the inner space of the culvert unit communicates with the subsidence space.

On the other hand, in order to solve the above technical problem, the lifting method of the unequal settlement culvert according to an embodiment of the present invention consists of the generated settlement culvert in which differential settlement has occurred and adjacent culverts disposed on both sides in the longitudinal direction of the settlement culvert. A support frame installation step of installing a support frame in the inner space of the culvert unit so as to be supported by the adjacent culvert, and a culvert lifting step of lifting the subsidence culvert upward with respect to the support frame using a culvert lifting unit; A mortar injection step of injecting mortar using a mortar injection unit into the subsidence space formed between the base ground and the subsidence culvert as the culvert is lifted, and when the mortar injection step is completed, the support frame from the inner space of the culvert unit It includes the demolition phase of demolition.

According to one aspect of the present invention, the culvert lifting step is a support for fixing the support frame using a lateral flow prevention unit between the support frame and the culvert unit so that the support frame does not flow while lifting the subsidence culvert. It may include a frame fixing step.

In addition, the step of lifting the culvert may further include an interference removal step of removing the interference that may interfere as the subsidence culvert is lifted by remaining in the lifting direction of the subsidence culvert.

Alternatively, the culvert lifting step may further include a culvert position adjustment step of adjusting the position of the subsidence culvert using the lateral flow prevention unit while lifting the subsidence culvert.

In addition, the mortar injection step may include a mortar injection detection step of detecting the injection completion state of the mortar by sensing that the mortar injected into the subsidence space flows into the inner space.

As described above, the lifting device of the unequal subsidence culvert of the present invention and the salvage method of the unequal subsidence culvert using the same can partially lift the subsidence culvert in a submerged state through the support frame and the culvert lifting unit, and the submerged culvert can be lifted. There is an advantage of enabling construction as designed without dismantling the existing culvert unit by injecting mortar into the subsidence space formed between the subsidence culvert and the foundation ground in a state where the mortar is injected using a mortar injection unit.

1 is a cross-sectional view for explaining a state in which the conventional culvert unit is submerged;
Figure 2 is a partially cut-away perspective view showing a state in which the lifting device of the unequal subsidence culvert according to an embodiment of the present invention is installed in the inner space of the culvert unit;
Figure 3 is an exploded perspective view for explaining the lifting device of the unequal subsidence culvert of Figure 2;
Figure 4 is a cross-sectional view for explaining the operation of the lifting device of the unequal settlement culvert of Figure 2;
5 is a longitudinal cross-sectional view for explaining the process of injecting mortar into the subsidence space using the lifting device of the unequal subsidence culvert of FIG. 2;
Figure 6 is a block diagram for explaining the lifting method of the unequal subsidence culvert according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the lifting device 30 of the unequal subsidence culvert according to a preferred embodiment of the present invention will be described in detail.

1 shows the culvert unit 20 in a state in which differential settlement has occurred, and FIGS. 2 to 5 show the lifting device 30 of the culvert according to an embodiment of the present invention that can be applied to such a culvert unit 20. ) is shown.

2 to 5, the lifting device 30 of the unequal settlement culvert according to an embodiment of the present invention is disposed on both sides in the longitudinal direction of the settlement culvert 21 and the settlement culvert 21 in which differential settlement occurs. The support frame 40 is disposed in the inner space 23 of the culvert unit 20 made of the adjacent culvert 22 and is installed to be supported by the adjacent culvert 22, and is installed in the support frame 40. A culvert lifting unit 60 that lifts the subsidence culvert 21 upward with respect to the support frame, and the subsidence culvert 21 is lifted by the culvert lifting unit 60 to the base ground 10 and the subsidence A mortar injection unit 80 for injecting mortar into the subsidence space 11 formed between the culverts 21 is provided.

At this time, the culvert unit 20 to which the lifting device 30 of the unequal subsidence culvert according to an embodiment of the present invention is applied is prefabricated in the underground of the base ground 10 so that it can be used as a waterway, cable passage, etc. It is a conventional culvert unit 20 composed of a precast concrete member of a square cross section having an inner space 23 formed therein. The culvert unit 20 is assembled to be arranged in the longitudinal direction, and a tension member insertion hole 27 is formed through the corner of each culvert unit 20 to connect with other adjacent culvert units 20 and a tension member 26. It is designed to give a pressing force in the longitudinal direction.

In the lower base ground 10 of at least one culvert of the culvert unit 20 configured as described above, unequal settlement occurs due to constructional instability, soft ground, groundwater, slope activity, boiling, heaving, etc. The subsidence culvert 21 is generated by sinking to a lower position than the design buried position.

The support frame 40 is installed in the inner space 23 of the subsidence culvert 21 and the adjacent culvert 22 adjacent to both sides of the subsidence culvert 21, which are in such a unequal subsidence state. The support frame 40 supports the frame body 41 of a rectangular tube shape extending to a sufficient length to be disposed in the inner space 23 and the adjacent culvert 22 so as to position the frame body 41 upward. It is divided by a support part (45).

At this time, it is preferable that the frame body 41 is made of a material having sufficient bending strength so as not to be bent or bent by the load applied when the subsidence culvert 21 is lifted.

In addition, the frame body 41 may be formed of a single structure as shown, or alternatively may be formed of an assembly consisting of a plurality of structures.

The support part 45 is installed between each adjacent culvert 22 and the frame body 41 to support the frame body 41 upward with respect to the adjacent culvert 22 .

The support portion 45 is a material having sufficient compressive strength and buckling strength so that cracks or buckling do not occur due to the load of the settling culvert 21 and the frame body 41 loaded as the subsidence culvert 21 is lifted. And it is preferably formed in a shape. As shown, the support parts 45 are installed one on each side of the frame body 41, but a plurality of support parts 45 are also installed on the other hand.

In addition, a trolley 90 used for transporting or supporting a heavy object is installed in the lower portion adjacent to the adjacent culvert 22 so that the frame body 41 and the adjacent culvert 22 are not scratched or damaged between flows. Unlike the bar, one made of a soft wooden board (not shown) may be inserted.

A culvert lifting unit 60 is installed on the upper portion of the frame body 41 to lift the subsidence culvert 21 . The culvert lifting unit 60 extends upward to lift the culvert unit 20 upward with respect to the frame body 41, and a fluid injection part 63 to inject compressed air or hydraulic oil to exert lifting force. A fluid injection means (not shown) that is connected to the installed cylinder 61 and the fluid injection unit 63 and allows the user to generate pressure so that compressed air or hydraulic oil is injected into the cylinder 61 by using a piston or a pump. And a jackie (Jackey) consisting of a rod 62 installed in the cylinder 61 and transferred in one direction of the cylinder 61 by compressed air or hydraulic oil may be applied. It is preferable that a plurality of the culvert lifting units 60 are installed at predetermined intervals so that the subsidence culvert 21 does not incline while the submerged culvert 21 is lifted.

In addition, by being further installed to support the subsidence culvert 21 as well as the adjacent culvert 22, it is possible to exert a supplementary fixing force so that the frame body 41 does not flow while the subsidence culvert 21 is lifted.

In addition, as the culvert lifting unit 60 lifts the subsided culvert 21, the contact portion of the culvert lifting unit 60 with the submerged culvert 21 may slide. A plate-like first made of soft wood or plastic between the culvert lifting unit 60 and the subsidence culvert 21 to prevent scratching or damage and to distribute the stress applied from the culvert lifting unit 60 It is preferable that the slip member 68 is inserted.

On both sides of the frame body 41, lateral flow prevention units 70 are installed to support the support frame 40 so as not to flow in both sides with respect to both inner surfaces of the subsidence culvert 21 and the adjacent culvert 22. can do. The lateral flow prevention unit 70 is a jockey of the same form as the culvert lifting unit 60 so that it can operate to extend the length in each side to actively adjust the positions of the subsidence culvert 21 and the adjacent culvert 22 (Jackey) can be applied, and at this time, according to the lifting of the culvert lifting unit 60, the contact part of the lateral flow prevention unit 70 and the subsidence culvert 21 and the adjacent culvert 22 slips. A plate-shaped second slip member 78 made of soft wood or plastic may be installed between the lateral flow prevention unit 70 and the subsidence culvert 21 and the adjacent culvert 22 .

Contrary to the drawings, the lateral flow prevention unit 70 includes a splint (not shown) made of wood or metal having a predetermined length, a lateral flow prevention unit 70, a subsidence culvert 21 and an adjacent culvert ( 22), any means capable of fixing the support frame 40 so as not to flow in both sides, such as a gap adjusting member (not shown) fitted between them, may be used.

The mortar injection unit 80 includes a supply part 82 to which the mortar 81 is supplied, a pressing part 83 that applies pressure to the mortar 81 so that the mortar 81 is high-pressure sprayed, and the mortar 81 is a pressing part ( As the culvert unit 20 is lifted due to the pressure of 83), an injection unit 85 connected to the subsidence space is provided to form a flow path for transport to the subsidence space 11 formed below.

The mortar 81 is a mixture formed in the form of a dough produced by mixing cement, sand, gravel, water and additives, etc., and can be anything that exhibits a predetermined support strength by curing, but the lifting operation is completed due to expansion due to curing. Since the position of the unit 20 may change or additional destruction of the base ground may be made, it is preferable to use a non-shrinkable mortar with reduced expansion effect due to curing.

The injection part 85 is made of a cylindrical fibrous membrane body having a predetermined range of tensile strength so as not to be damaged by the pressure applied to the mortar 81, and it is possible to control the extent to which the mortar is expanded underground to the standard range of the mortar to be created. It is manufactured to a standard that allows, and when the culvert unit 20 is lifted, it is installed to be connected to the subsidence space 11 so that the mortar 81 supplied from the supply unit 82 can be injected, and the mortar 81 is injected. form a furnace

The pressurizing part 81 is installed on the mortar transport path when the injection part 85 is connected to the subsidence space 11 and a mortar transport path through which the mortar 81 in the kneaded state is transported is formed in the transport direction of the mortar 81 . to generate pressure. The pressurizing unit 81 may be composed of a hydraulic cylinder installed in the mortar transfer path of the injection unit 85 or an air compressor that pushes the mortar 81 by blowing in high-pressure compressed air.

The injection part 85 is installed so that the mortar injection unit 80 is installed on the ground and the base ground 10 is excavated so that the injection part 85 is connected to the subsidence space 11 as shown, or shown Unlike the above, the mortar injection unit 80 is installed in the inner space 23 of the culvert unit 20 and the injection part 85 passes through the subsidence culvert 21 or the adjacent culvert 22. Installation is also free.

The mortar injection unit 80 may further include a mortar injection detection unit 87 capable of detecting that the injection of the mortar 81 into the subsidence space 11 is completed. The mortar injection detection unit 87 is provided with a pipe communicating with the internal space 23 of the subsidence culvert 21 or the adjacent culvert 22 and the subsidence space 11, or as shown in the figure, the subsidence culvert 21. Alternatively, the mortar injection detection hole 25 may be formed through the adjacent culvert 22 .

Hereinafter, the lifting method of the differential settlement culvert according to a preferred embodiment of the present invention using the lifting device 30 of the differential settlement culvert as described above will be described in detail.

6 is a block diagram showing the procedure of the lifting method of the unequal subsidence culvert according to a preferred embodiment of the present invention that can be carried out using the lifting device 30 of the unequal subsidence culvert shown in FIGS. have.

2 to 6, the lifting method of the unequal subsidence culvert according to a preferred embodiment of the present invention is disposed on both sides in the longitudinal direction of the subsidence culvert 21 and the subsidence culvert 21 in which the unequal subsidence has occurred. A support frame installation step 110 of installing the support frame 40 in the inner space 23 of the culvert unit 20 made of the adjacent culvert 22 to be supported by the adjacent culvert 22, and the culvert lifting unit A culvert lifting step 120 of lifting the subsidence culvert 21 upward with respect to the support frame 40 by using (60), and as the subsidence culvert 21 is lifted, the foundation ground 10 and the When the mortar injection step 130 of injecting the mortar 81 into the subsidence space 11 formed between the subsidence culverts 21 using the mortar injection unit 60, and the mortar injection step 130 is completed, the culvert and a dismantling step 140 of dismantling the support frame 40 from the inner space 23 of the unit 20 .

In the support frame installation step 110, the subsidence culvert 21 to be lifted is located between the inner space 23 so that the adjacent culvert 22 is positioned on both sides of the subsidence culvert 21 in the longitudinal direction. The frame body 41 is positioned on the pole, and the support part 45 is installed at the lower part of each both ends of the frame body 41 so that the frame body 41 is supported upward by the adjacent culverts 22 . At this time, by installing the trolley 90 between the support part 45 and the adjacent culvert 22 so that the frame body 41 can move relative to the adjacent culvert 22, the adjacent culvert 22 ), even if the flow is fine, the adjacent culvert 22 supporting the support portion 45 may be damaged or the position of the culvert lifting unit 60 for lifting the subsidence culvert 21 may not be changed.

When the support frame installation step 110 is completed, the culvert lifting unit 60 is installed between the frame body 41 and the subsidence culvert 21, and the culvert lifting unit 60 and the submerged culvert 21 are installed. By inserting the first slip member 68 between the units, the preparation for lifting the subsidence culvert 21 is completed.

In the culvert lifting step 120, as shown, when the culvert lifting unit 60 is configured as a jockey, hydraulic pressure is generated in the culvert lifting unit 60 so that the culvert lifting unit 60 extends upward in length. As it operates, the culvert lifting unit 60 lifts the subsidence culvert 21 upward with respect to the frame body 41 to overcome the step difference between the subsidence culvert 21 and the adjacent culvert 22, The subsidence culvert 21 may be corrected to be positioned at a design height.

At this time, in the support frame installation step 110, first, the subsidence culvert 21, such as the foundation ground 10 and soil located on the upper part of the subsidence culvert 21 in which the unequal subsidence has occurred, may interfere with the lifting of the subsidence culvert 21. During the lifting of the subsided culvert 21 by carrying out the interference removal step 121 to remove It is possible to prevent the possibility that this may not be achieved or that the surrounding ground may collapse.

In addition, by installing lateral flow prevention units 70 on both sides of the frame body 41, the frame body 41 is fixed to prevent flow to both sides while the subsidence culvert 21 is lifted. A fixing step 122 may be performed. In addition, when the lateral flow prevention unit 70 is configured as a jockey, the culvert position adjustment for adjusting the relative horizontal position of the subsidence culvert 21 with respect to the frame body 41 by operating the lateral flow prevention unit 70 Step 123 may be performed. In addition, by inserting a second slip member 78 between the lateral flow prevention unit 70 and the subsidence culvert 21 or the adjacent culvert 22, the lateral flow prevention unit 70 and the subsidence culvert ( 21) or it is preferable to prevent the subsidence culvert 21 and the adjacent culvert 22 from being damaged due to relative movement between the adjacent culverts 22.

When the subsidence culvert 21 is lifted by the culvert lifting step 120 being carried out, a mortar injection step of injecting mortar into the subsidence space 11 between the subsidence culvert 21 and the base ground 10 ( 130) is possible.

In the mortar injection step 130, first, the base ground 10 is excavated to connect the injection part 85 of the mortar injection unit 80 to the subsidence space 11 as shown, or the culvert unit ( 20) may be drilled to connect the injection unit 85 to the subsidence space 11 .

When the injection part 85 is buried in the foundation ground 10, the subsidence culvert 21 and the subsidence culvert 21 and It is preferable to drill the base ground 10 at a predetermined distance from the adjacent culvert 22 .

When the injection unit 85 is connected to the subsidence space 11 and the flow path through which the mortar 81 can be transported communicates with the subsidence space 11 , the kneaded mortar 81 is injected through the supply unit 82 . The mortar 81 may be supplied from the supply unit 82 and pressurized through the pressing unit 83 so that the mortar 81 is injected through the flow path.

At this time, when the mortar injection detection hole 25 communicating the subsidence space 11 and the inner space 23 is formed through the subsidence culvert 21 or the adjacent culvert 22, in the mortar injection step 140, It may include a mortar injection detection step 131 capable of detecting that the injection of the mortar 81 into the subsidence space 11 is completed by observing the mortar 81 flowing out through the mortar injection detection hole 25. .

In addition, when the injection of the mortar 81 into the subsidence space 11 is completed, the injection part 85 is removed from the subsidence space 11 and the mortar 81 is cured for a predetermined time for hardening. By performing (132), the kneaded mortar 81 can be phase-changed into a solid phase having sufficient structural strength to support the subsidence culvert 21 and the adjacent culvert 22. At this time, the time required for curing the mortar 81 is preferably in accordance with the construction standards of the mortar 81 according to the temperature and humidity of the mortar 81 injected into the subsidence space 11 .

In addition, an additional gap may be formed in each adjacent portion of the subsidence culvert 21 or the adjacent culvert 22 according to the lifting of the subsidence culvert 21. By sealing the gap using a mortar 81, It is possible to reinforce the airtightness of the inner space 23 of the culvert unit 20 .

When the mortar injection step 130 as described above is completed, the culvert lifting unit 60 supporting the subsidence culvert 21 and the adjacent culvert 22 with respect to the frame body 41 in the inner space 23 . ) and release the support state of the lateral flow prevention unit 70, completely remove the support frame 40 from the inner space 23 of the culvert unit 20, and the subsidence culvert 21 and the By performing the demolition step 150 to supplement the soil removed from the upper portion of the adjacent culvert 22, the lifting method of the unequal subsidence culvert according to an embodiment of the present invention can be completed.

The salvage method of the unequal subsidence culvert according to an embodiment of the present invention as described above can partially salvage the subsidence culvert 21 in the state in which the subsidence is made, and in the state in which the subsidence culvert 21 is lifted ( 21) and the mortar injection unit 80 using the mortar injection unit 80 to inject the mortar 81 into the subsidence space 11 formed between the base ground 10 and the culvert unit 20 to enable construction as designed without dismantling the culvert unit 20 There is an advantage.

The lifting apparatus of the unequal settlement culvert according to the present invention described above and the lifting method of the unequal settlement culvert using the same have been described with reference to the example shown in the drawings, but this is merely exemplary, and those of ordinary skill in the art It will be appreciated that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the scope of true technical protection of the present invention should be defined by the technical spirit of the appended claims.

10: foundation ground 20: culvert unit
21: subsidence culvert 22: adjacent culvert
30: lifting device of differential settlement culvert
40: support frame 60: culvert lifting unit

Claims (8)

A frame body positioned in the inner space of a culvert unit consisting of a subsidence culvert on which unequal settlement has occurred and adjacent culverts disposed on both sides in the longitudinal direction of the subsidence culvert, and the frame body so that the frame body is supported by the adjacent culvert. a support frame having a support part installed in the lower part;
a culvert lifting unit installed on the upper portion of the frame body and operated to extend upward to lift the subsidence culvert upward with respect to the frame body;
It is installed on both sides of the frame body and is operated to extend the length laterally, and the frame body is moved to prevent the frame body from flowing laterally while lifting the settling culvert. a lateral flow prevention unit supporting the inner surface;
and a mortar injection unit for injecting mortar into the subsidence space formed between the subsidence culvert and the subsidence culvert by being lifted by the culvert lifting unit,
The culvert lifting unit and the lateral flow prevention unit include a cylinder provided with a fluid injection part so as to inject compressed air or hydraulic oil, and is connected to the fluid injection part to generate a pressure so that the compressed air or hydraulic oil is injected into the cylinder. and a fluid injection means that can
The mortar injection unit is connected to a supply part to which the mortar is supplied, a pressurizing part for applying pressure to the mortar so that the mortar is sprayed at high pressure, and a subsidence space formed in the lower part as the culvert unit is lifted. A mortar injection detection unit capable of detecting that the injection of the mortar into the subsidence space is completed is provided with an injection unit for transporting to the space,
The mortar injection detection unit is formed through a mortar injection detection hole in the subsidence culvert or the adjacent culvert so as to communicate with the subsidence space and the inner space, and observes the mortar flowing out through the mortar injection detection hole to enter the mortar in the subsidence space. The lifting device of the unequal subsidence culvert, characterized in that it can detect that the injection is completed. delete delete The frame body is positioned in the inner space of the culvert unit consisting of the generated subsidence culvert on which uneven settlement has occurred and adjacent culverts disposed on both sides in the longitudinal direction of the subsidence culvert, and the frame body is located at the lower part of both ends of the frame body. a support frame installation step of installing a support unit to be supported upward by an adjacent culvert;
a culvert lifting step of generating hydraulic pressure in the culvert lifting unit to lift the submerged culvert upward with respect to the frame body as the length of the culvert lifting unit extends upward;
A mortar injection step of injecting mortar using a mortar injection unit into the subsidence space formed between the base ground and the subsidence culvert as the subsidence culvert is lifted, and detecting the injection completion state of the mortar into the subsidence space;
When the mortar injection step is completed, a demolition step of removing the support frame from the inner space of the culvert unit; includes,
The culvert lifting unit is installed on the upper part of the frame body when the support frame installation step is completed,
A lateral flow prevention unit that can be operated to extend the length laterally is installed on both sides of the frame body so that the frame body is supported against both inner surfaces of the subsidence culvert and the adjacent culvert while lifting the subsidence culvert sideways flow is prevented,
The culvert lifting unit and the lateral flow prevention unit include a cylinder provided with a fluid injection part so as to inject compressed air or hydraulic oil, and is connected to the fluid injection part to generate a pressure so that the compressed air or hydraulic oil is injected into the cylinder. and a fluid injection means that can
The mortar injection unit is connected to a supply part to which the mortar is supplied, a pressurizing part for applying pressure to the mortar so that the mortar is sprayed at high pressure, and a subsidence space formed in the lower part as the culvert unit is lifted. A mortar injection detection unit capable of detecting that the injection of the mortar into the subsidence space is completed is provided with an injection unit for transporting to the space,
The mortar injection detection unit is formed through a mortar injection detection hole in the subsidence culvert or the adjacent culvert so as to communicate with the subsidence space and the inner space, and observes the mortar flowing out through the mortar injection detection hole to enter the mortar in the subsidence space. Lifting method of unequal subsidence culvert, characterized in that it can detect that the injection of
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