JP5429568B2 - Lined concrete curing device, lined concrete curing system, and lined concrete curing method - Google Patents

Description

  The present invention relates to a lining concrete curing device, a lining concrete curing system, and a lining concrete curing method for curing lining concrete placed on the inner wall surface of a tunnel.

  In concrete such as lining concrete, the concrete temperature rises due to the heat generated by the hydration reaction of the cement after pouring, and then gradually cools to the outside temperature by heat dissipation. Cracks due to differences or cracks due to restraints received from the ground due to shrinkage of concrete may occur. Further, if the concrete surface is dried by evaporation of water accompanying the hydration reaction in a state where the concrete is not sufficiently cured, cracks may occur on the concrete surface. Therefore, in consideration of various conditions such as concrete type, tunnel tunnel temperature, humidity, and initial temperature when placing concrete, it prevents moisture from evaporating from the concrete surface and suppresses temperature rise inside the concrete. Curing is required.

  Conventionally, as a covering concrete curing device for maintaining the curing temperature of covering concrete placed in a tunnel, a heat insulating space formed by closing a heat insulating sheet and a covering concrete surface with a partition wall is provided, and the heat insulating space is provided. There is a lining concrete curing facility that adjusts the curing temperature of lining concrete by filling the air with (see, for example, Patent Document 1).

  In addition, as a lining concrete curing device that controls the curing temperature of lining concrete in the tunnel, mist water is sprayed into the curing space formed by the water shielding sheet and the lining concrete surface to keep it wet By doing so, the lining concrete curing equipment which cures lining concrete is proposed (for example, refer nonpatent literature 1).

JP 2006-291690 A

Tunnel and underground, No. 452, vol39, No.4, issued in April 2008

  However, in the lining concrete curing equipment described in Patent Document 1, although the heat-insulating space can be provided by the blown air to adjust the curing temperature of the lining concrete, for example, under severe conditions such as warm seasons and regions It was difficult to maintain the temperature of the heat insulation space at a desired temperature.

  In the lining concrete curing equipment described in Non-Patent Document 1, the temperature of spray water can be adjusted and the humidity in the curing space can be controlled. It was necessary to make it below a certain amount of water. For this reason, similarly to the above, it was difficult to maintain the temperature of the curing space at a desired temperature under severe conditions.

  The present invention has been made in view of the above circumstances, and is a lining concrete curing that can maintain a moist state without wetting the lining concrete surface and can adjust the curing temperature to a desired temperature even under severe conditions. An object is to provide an apparatus, a lining concrete curing system, and a lining concrete curing method.

  In order to achieve the above object, the lining concrete curing device of the present invention is a lining concrete curing device placed on the inner wall surface of a tunnel, and is formed from the surface along the surface of the lining concrete. A waterproof partition membrane provided to be spaced apart, a moisture supply means for supplying mist-like moisture to a wet curing space formed by the lining concrete surface and the partition membrane, and an inner periphery of the partition membrane A heat insulating sheet provided so as to be separated from the partition wall by a predetermined distance along the partition wall, and a blowing means for blowing temperature-controlled air into a temperature-controlled curing space formed by the partition wall film and the heat insulating sheet And.

  Moreover, the lining concrete curing device of the present invention is the above invention, wherein the temperature-controlled air is blown into the lining center where the lining concrete is placed, and the temperature of the lining concrete before deframement is increased. A means for adjusting is provided.

  Moreover, the lining concrete curing device of the present invention is characterized in that, in the above invention, the apparatus includes a plurality of membrane bonding means for fixing the partition membrane and the heat insulating sheet.

  Moreover, the lining concrete curing device of the present invention is the above-described invention, wherein the blowing means is an air outlet provided in a lower half portion of the temperature-controlled curing space and an exhaust port provided in the vicinity of the uppermost portion of the temperature-controlled curing space. And a blower for blowing the temperature-adjusted air.

  Moreover, the lining concrete curing device of the present invention is characterized in that, in the above-mentioned invention, a convex portion, a fin or a flock is provided on the surface of the partition membrane.

  Further, the lining concrete curing device of the present invention is the above-mentioned invention, wherein the wet curing space and the temperature-controlled curing space are each insulated into an upper half portion and a lower half portion of a tunnel in which the lining concrete is placed. A first moisture curing space in the upper half and a second moisture curing space in the lower half, and a first temperature conditioning curing space in the upper half and a second temperature conditioning curing space in the lower half. It is characterized in that the curing conditions can be changed.

  Further, the present invention is a lining concrete curing system including one or more lining concrete curing devices as described above, wherein each lining concrete curing device is wet-cured according to the elapsed time from placing the lining concrete. The curing condition of the space and the temperature-controlled curing space is changed, and the lining concrete is cured.

  The lining concrete curing method according to the present invention is a method for curing lining concrete placed on the inner wall surface of a tunnel, and is provided so as to be separated from the surface by a predetermined distance along the surface of the lining concrete. A wet curing step for curing the lining concrete by supplying mist-like moisture to a wet curing space formed by the waterproof partition membrane and the lining concrete surface, and from the partition membrane along the partition membrane A temperature-conditioning step for adjusting the temperature of the humid-curing space by blowing temperature-conditioned air to the temperature-conditioning-curing space formed by the heat insulating sheet provided so as to be separated by a predetermined distance and the partition film; It is characterized by including.

  Moreover, the lining concrete curing method of the present invention is the above invention, wherein the temperature conditioning curing step supplies air temperature-controlled from the lower half of the temperature conditioning curing space, and the uppermost part of the temperature conditioning curing space. It is characterized by exhausting air from the vicinity.

  The lining concrete curing device, the lining concrete curing system, and the lining concrete curing method according to the present invention supply mist-like moisture to the wet curing space including the surface of the lining concrete, and temperature control to the temperature-controlled curing space. Since the temperature of not only the temperature-controlled curing space but also the wet-curing space can be adjusted by blowing the air, the curing temperature is maintained while keeping the surface of the lining concrete wet without damaging the surface of the lining concrete. Can prevent cracking of lining concrete. Moreover, the lining concrete curing device, the lining concrete curing system, and the lining concrete curing method according to the present invention blow the temperature-controlled air during the laying concrete placing and from the completion of the placement to the demolding. Thus, since the temperature of the lining concrete can be adjusted even during the period from placing to removal, it is possible to effectively suppress the temperature rise accompanying the hydration reaction of the concrete.

FIG. 1 is a longitudinal sectional view of a main part of a tunnel showing a lining concrete curing device according to Embodiment 1 of the present invention. FIG. 2 is a cross-sectional view taken along the line AA of the tunnel including the lining concrete curing device of FIG. 3 is a BB partial cross-sectional view of a tunnel including the lining concrete curing device of FIG. FIG. 4 is a cross-sectional view of the tunnel showing the lining concrete curing device according to Embodiment 2 of the present invention. FIG. 5 is a longitudinal cross-sectional view of the main part of the tunnel showing the lining concrete curing device according to Embodiment 2 of the present invention. FIG. 6 is a CC partial cross-sectional view of a tunnel including the lining concrete curing device of FIG. FIG. 7 is a cross-sectional view of a tunnel showing a lining concrete curing device according to Embodiment 3 of the present invention. FIG. 8 is a longitudinal cross-sectional view of the main part of the tunnel showing the lining concrete curing device according to Embodiment 2 of the present invention. FIG. 9 is a DD partial cross-sectional view of a tunnel including the lining concrete curing device of FIG. FIG. 10 is a longitudinal sectional view of a tunnel showing a lining concrete curing system according to Embodiment 4 of the present invention. FIG. 11 is a longitudinal sectional view of a tunnel showing a lining concrete curing system according to Modification 1 of Embodiment 4 of the present invention. FIG. 12 is a longitudinal sectional view of a tunnel showing a lining concrete curing system according to Modification 2 of Embodiment 4 of the present invention.

  Hereinafter, a lining concrete curing device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
1-3 is schematic which shows the lining concrete curing apparatus 100 which concerns on Embodiment 1 of this invention. Here, FIG. 1 shows a longitudinal sectional view (a cross section along the axial direction which is the tunnel excavation direction) of the main part of the tunnel 10 showing the lining concrete curing device 100, and FIG. 2 shows the lining concrete of FIG. FIG. 3 is a cross-sectional view taken along line AA of the tunnel including the curing device 100 (cross section perpendicular to the axial direction that is the tunnel excavation direction), and FIG. 3 is a cross-sectional view taken along line BB of the tunnel including the lining concrete curing device 100 of FIG. A partial cross-sectional view is shown.

  The lining concrete 1 prevents the collapse of the inner wall surface 10a of the tunnel 10 by blowing spray concrete 11 onto the inner wall surface 10a of the tunnel 10 excavated as shown in FIG. 1 and driving a lock bolt (not shown). Thereafter, a waterproof sheet (not shown) is stretched on the inner wall surface of the shotcrete 11 and is placed using a lining centle in a form in which the waterproof sheet is interposed between the shotcrete 11. The lining centle 12 has a formwork formed in a gate shape with a gap for placing the lining concrete 1 between the shotcrete 11 (waterproof sheet). The mold is formed with holes (not shown) for pouring concrete into the gap. Then, the lining concrete 1 casts the lining concrete 1 by pouring the concrete into the gap between the shot concrete 11 (waterproof sheet) through the hole from the inside of the formwork. The lining center 12 is removed after placing the lining concrete 1 after a curing period of a predetermined time (for example, 1 to 2 days).

  After removing the lining center, the lining concrete curing device 100 according to the first embodiment of the present invention is installed to cure the lining concrete 1, but the temperature by the lining curing device 100 is also at the lining center. Adjustment has started.

  The lining concrete curing device 100 includes a waterproof partition film 13 provided along the surface 1 a of the lining concrete 1, a heat insulating sheet 15 provided along the partition film 13, and a carriage that supports the heat insulating sheet 15. 19, a moisture supply means 20 for supplying mist-like moisture to a wet curing space 16 formed by the lining concrete surface 1 a and the partition film 13, and a temperature control formed by the partition film 13 and the heat insulating sheet 15. The curing space 17 is provided with air blowing means 21 for blowing the temperature-controlled air.

As shown in FIG. 1 to FIG. 3, a waterproof partition wall film 13 is provided at a predetermined distance H ₁ from the surface 1 a of the lining concrete 1 so as to cover the surface 1 a side of the lining concrete 1. Both ends of the membrane 13 are sealed with a heat insulating partition 14 provided in an arch shape on the lining concrete surface 1a to provide a wet curing space 16. The partition film 13 may be a waterproof material that can prevent the discharge of mist-like water particles (particle size: 10 to 100 μm) due to ventilation, and a film sheet without air permeability is suitable. Moreover, the partition film 13 preferably has a high heat transfer performance, and is preferably provided with convex portions, fins, or flocks that increase the surface area per unit area.

Further, a heat insulating sheet 15 is provided at a predetermined distance H ₂ along the partition wall film 13. Both ends of the heat insulating sheet 15 are also substantially sealed with a heat insulating partition wall 14 provided in an arch shape on the lining concrete surface 1 a to provide a temperature-controlled curing space 17. As the heat insulating sheet 15, for example, a sheet in which an aluminum film is laminated on foamed urethane is preferably used, but any film-like sheet having heat insulating properties may be used. In order to maintain the hermeticity of the wet curing space 16 and the temperature-controlled curing space 17, it is desirable to provide the partition wall 14, but without partitioning the partition wall 14, both ends of the partition film 13 and the heat insulating sheet 15 are welded, or It may be adhered to keep the sealing property.

  The water supply means 20 has a nozzle 20a, a water supply port 20b, and a water storage tank 20c, and supplies water adjusted to a predetermined temperature in the water storage tank 20c by a pipe and a liquid feed pump (not shown). After feeding to the mouth 20b, mist-like water is supplied to the wet curing space 16 by the nozzle 20a. The amount of water supplied to the moisture curing space 16 by the moisture supply means 20 is preferably such that water does not adhere to the lining concrete surface 1a, that is, the humidity in the moisture curing space 16 is less than 100%. . The greater the amount of water, the more moist the concrete surface 1a and promote the hydration reaction of the concrete. However, if the amount of water is too large, only the concrete surface is rapidly cooled by the heat of vaporization of the attached water, causing surface cracks. This is because traces of water remaining remain and detract from the beauty.

  The water supply port 20b is provided in contact with the heat insulating sheet 15 and supports the nozzle 20a. The nozzle 20a is installed through the partition wall film 13 and the heat insulating sheet 15, and supplies mist-like moisture into the wet curing space 16 from the tip of the nozzle 20a. Through the nozzle 20a through-hole of the partition wall film 13 and the heat insulating sheet 15, the partition film 13 and the heat insulating sheet 15 and the nozzle are prevented so that the mist moisture in the wet curing space 16 and the air in the temperature-controlled curing space 17 do not leak. The contact portion with 20a is shielded. Or you may install the water supply port 20b so that it may fix to the surrounding frame 19a of the trolley | bogie 19 mentioned later.

  The blower means 21 has a blower port 21a, an exhaust port 21b, and a blower 21c capable of adjusting the temperature of the blown air. The air adjusted to a predetermined temperature by the blower 21c is supplied to the blower port 21a by a pipe (not shown). By blowing air, the air is blown into the temperature adjustment curing space 17. As shown in FIG. 2, the air blowing port 21 a of the air blowing means 21 according to the first embodiment is provided in the lower half of the temperature adjustment curing space 17, and the cold air supplied from the air blowing port 21 a to the temperature adjustment curing space 17 is Then, it rises while exchanging heat with the air in the wet curing space 16 through the partition wall film 13, and is discharged from the exhaust port 21 b provided near the uppermost portion of the temperature-controlled curing space 17. By the heat exchange between the cold air supplied from the blower port 21a and the wet curing space 16, the temperature of the wet curing space 16 can be reduced to a desired temperature, and the temperature rise of the lining concrete 1 can be suppressed. . Since the lining concrete 1 is strongly constrained on the invert side and the crack index tends to decrease at the lining legs, the lining concrete is effectively provided by providing a blower port 21a in the lower layer portion of the temperature curing space 17. 1 cooling can be performed. In addition, the temperature control in the humid curing space 16 is performed by the temperature of the air to be blown, the air volume, and the like.

  The air blowing means 21 may have a lining centle blowing line (not shown) for blowing the temperature-controlled air in the lining centle for placing the lining concrete 1. The blower means 21 has a valve for switching the temperature-controlled air blow to the lining centle blower line and the temperature-controlled curing space 17, and the cover is placed for a period from driving to de-framed by switching the valve. The engineered concrete 1 can also be cooled through a formwork. Alternatively, the lining concrete curing device 100 may have a blowing means different from the blowing means 21 for adjusting the temperature of the lining concrete 1 before being removed. In the case where the temperature-controlled air is blown into the lining centle from the blowing means, in order to effectively cool the lining concrete 1 by preventing the diffusion of the temperature-controlled air, the formwork of the lining centle is used. It is preferable to enclose the place with a heat insulating sheet.

  The partition film 13, the partition wall 14, and the heat insulating sheet 15 are supported by a carriage 19 along the surface 1 a of the lining concrete 1. The carriage 19 includes a peripheral frame 19a, columns 19b, beams 19c, braces 19f, and wheels 19d. As shown in FIG. 2, the peripheral frame 19 a is formed in a gate shape along the surface 1 a of the lining concrete 1. The column 19b, the beam 19c, and the brace 19f hold the peripheral frame 19a. The wheel 19d is provided at the tip of the pillar 19b and rotates the wheel 19d along a rail 19e extending along the tunnel axis direction to move the carriage 19 in the tunnel 10.

  As shown in FIGS. 1 and 2, the carriage 19 has a heat insulating property such that the wet curing space 16 and the temperature-controlled curing space 17 maintain the same arched shape as the lining concrete 1 by the peripheral frame 19 a and the beam 19 c. The sheet 15 is supported.

The membrane bonding yarn 18 bonds the partition film 13 and the heat insulating sheet 15 by welding or bonding. The membrane bonding yarn 18 is made of the same material as the heat insulating sheet 15 or the same material as the partition wall film 13, and the plurality of membrane bonding yarns 18 separate the partition film 13 and the heat insulating sheet 15 from each other by a predetermined distance (H ₂ ). By fixing with, even if air is blown into the temperature adjustment curing space 17 by the blowing means 21, the temperature adjustment curing space 17 can maintain a predetermined arch shape. In addition, by supporting the heat insulating sheet 15 by the carriage and holding the arched shape of the temperature-controlled curing space 17 by the membrane bonding yarn 18, a predetermined arched shape can also be maintained in the wet curing space 16. The membrane bonding yarn 18 may have a structure that can withstand the pressure of the air blown by the blower unit 21, and preferably has a structure that does not hinder the flow of the blown air.

  The partition wall 14 is provided along the arch shape of the peripheral frame 19a, and is formed in a bag shape in which air is filled. The partition wall 14 has heat insulation properties by filling the inside thereof with air. The partition walls 14 are arranged in pairs along the tunnel axis direction which is the tunnel excavation direction. The partition film 13 and the heat insulating sheet 15 are provided between the pair of partition walls 14. A partition wall film 13 and a heat insulating sheet 15 fixed by a membrane bonding yarn 18 are placed around the carriage 19, and the partition wall 14 attached to the peripheral frame 19a is filled with air. Thereafter, the air conditioned by the air blowing means 21 is supplied to the temperature-controlled curing space 17 and the moisture supply means 20 supplies the mist-like moisture to the wet-curing space 16 so that the surface 1a of the lining concrete 1 is wet. The lining concrete 1 can be cured by controlling the temperature of the temperature-controlled curing space 17 and the wet curing space 16 while maintaining the above.

  In this way, by providing the wet curing space 16 that keeps the surface 1a of the lining concrete 1 wet and the temperature-controlled curing space 17 that adjusts the curing temperature of the wet curing space 16, harsh regions such as temperate regions and seasons are severe. Even under the conditions, the lining concrete 1 can be kept at a wet and curing temperature, and cracking of the lining concrete 1 can be prevented.

  In addition, although the water supply means 20 of Embodiment 1 controls the water in the water storage tank 20c to a predetermined temperature, the moisture-controlled air is blown into the temperature-controlled curing space 17 by the blowing means 21 and humidified. Since the temperature in the space 16, that is, the temperature of the mist-like moisture supplied to the wet curing space 16 can be adjusted, the moisture supply port 20 b can be supplied from a water supply means such as a water pipe without providing the water storage tank 20 c. It is possible to control the temperature of the wet curing space 16 even if the liquid is directly fed to the wet curing space 16 and the mist-like moisture is supplied to the wet curing space 16 by the nozzle 20a.

(Embodiment 2)
The lining concrete curing device according to the second embodiment is different from the lining concrete curing device according to the first embodiment in that a temperature-controlled curing space for adjusting the temperature of the wet curing space is formed in the lower half of the tunnel. .

  Hereinafter, the lining concrete curing device 200 according to the second embodiment will be described in detail with reference to FIGS. 4-6, the same code | symbol is attached | subjected to the structure similar to Embodiment 1. FIG.

  FIG. 4 is a cross-sectional view of the tunnel 10 showing the lining concrete curing apparatus 200 according to Embodiment 2 of the present invention. FIG. 5 is a vertical cross-sectional view of the main part of the tunnel 10 showing the lining concrete curing device 200 according to Embodiment 2 of the present invention. 6 is a CC partial cross-sectional view of the tunnel 10 including the lining concrete curing device 200 of FIG.

  The lining concrete curing apparatus 200 has a heat insulating sheet 15A provided along the partition wall film 13 in the lower half portion of the tunnel 10, and the carriage 19A includes a partition film 13 in the upper half portion and a heat insulating sheet in the lower half portion. 15A is supported and the ventilation means 21 blows the temperature-controlled air to the temperature-controlled curing space 17A formed by the partition wall film 13 and the heat insulating sheet 15A.

  The heat insulating sheet 15 </ b> A is provided along the partition wall film 13 only in the lower half (leg) of the tunnel 10. Here, the lower half part (leg part) of the tunnel 10 is the lower side of the spring line S shown in FIG. The horizontal end of the heat insulating sheet 15A is welded or bonded to the partition wall film 13 to form a temperature-controlled curing space 17A. By forming the temperature-controlled curing space 17A in the lower half (leg) of the tunnel 10, the temperature of the lower half of the wet curing space 16 is lowered to cover the lower half (leg) of the tunnel 10 Since the temperature rise of 1 can be suppressed, it is possible to effectively prevent cracking resulting from the restraint of the lining concrete 1 that has been hardened and shrunk due to the temperature drop after the hydration reaction.

  The temperature adjusted curing space 17A is supplied with air adjusted to a predetermined temperature by the blower 21c through the blower port 21a and exhausted from the exhaust port 21b. The blower port 21a and the exhaust port 21b are respectively provided at the tunnel axial direction end portion of the temperature-controlled curing space 17A so that airflow is generated in the entire temperature-controlled curing space 17A (see FIG. 6). By providing the positions of the air blowing port 21a and the exhaust port 21 at the end of the temperature-controlled curing space 17A, the temperature of the wet curing space 16 can be effectively controlled.

The carriage 19A supports the heat insulating sheet 15A provided in the lower half of the tunnel with the peripheral frame 19a and the beam 19c, and the partition film 13 provided in the upper half (top end) of the tunnel with the peripheral frame 19a 'and the beam 19c. Support by '. Circumferential frame 19a 'and the beam 19c' is the partition wall layer 13, so as to support the predetermined distance _{H 1} is separated from the surface 1a of the lining concrete 1, it is formed in the tunnel 10 direction from the circumferential frame 19a and beam 19c.

(Embodiment 3)
The lining concrete curing apparatus according to the third embodiment is that the wet curing space and the temperature-controlled curing space are separated into the upper half of the tunnel and the lower half of the tunnel, respectively. Different from the device.

  FIG. 7 is a cross-sectional view of the tunnel 10 showing the lining concrete curing device 300 according to Embodiment 3 of the present invention. FIG. 8 is a vertical cross-sectional view of the main part of the tunnel 10 showing the lining concrete curing device 300 according to Embodiment 3 of the present invention. FIG. 9 is a DD partial cross-sectional view of the tunnel 10 including the lining concrete curing device 300 of FIG. 7-9, the same code | symbol is attached | subjected to the structure similar to Embodiment 1. FIG.

  The lining concrete curing device 300 includes partition walls 14b that separate the wet curing space and the temperature-controlled curing space into a tunnel upper half and a tunnel lower half, respectively. As shown in FIGS. 7 and 8, the partition wall 14b is provided at a position of the spring line S that divides the tunnel 10 into an upper half portion and a lower half portion. The partition wall 14b is formed in a bag shape filled with air in the same manner as the partition wall 14, and by filling the partition wall 14b with air, the upper half wet curing space 16B and the lower half wet curing space 16C. In addition, the temperature adjustment curing space is divided into an upper half temperature adjustment curing space 17B and a lower half temperature adjustment curing space 17C.

  The lining concrete curing device 300 includes a moisture supply means 20B for supplying mist-like moisture to the upper half wet curing space 16B, and a moisture supply means 20C for supplying mist-like moisture to the lower half wet curing space 16C. The water supply unit 20B supplies water adjusted to a predetermined temperature in the water storage tank 20c-1 to a water supply port 20b by a pipe and a liquid supply pump (not shown), and then enters the upper half wet curing space 16B by the nozzle 20a. Supply mist-like moisture. The water supply means 20C supplies water adjusted to a predetermined temperature in the water storage tank 20c-2 to the water supply port 20b by a pipe and a liquid supply pump (not shown), and then enters the lower half wet curing space 16C by the nozzle 20a. Supply mist-like moisture. The water temperature supplied to each wet curing space can be managed individually by providing a water storage tank that stores the water supplied to each wet curing space, so the curing conditions can be managed more precisely. It becomes. However, since the temperature of each wet curing space depends on the temperature of each temperature-controlled curing space to be described later than the temperature of the supplied water, it is also possible to supply water to each wet curing space by one moisture supply means. is there.

  Moreover, the lining concrete curing device 300 has a blowing means 21B for supplying temperature-controlled air to the upper half-temperature curing space 17B and a blowing means 21C for supplying temperature-controlled air to the lower half-temperature curing space 17C. With. The blower 21B blows the air adjusted to a predetermined temperature by the blower 21c-1 to the blower opening 21a-1 through a pipe (not shown), and blows the air to the upper half temperature conditioning space 17B through the blower opening 21a-1. The gas is discharged from the exhaust port 21b-1. As shown in FIG. 7, the air blowing port 21a-1 of the air blowing means 21B according to the third embodiment is provided in the vicinity of the spring line S of the upper half temperature adjustment curing space 17B, and the upper half temperature adjustment from the air blowing port 21a-1. The cold air supplied to the curing space 17B rises while exchanging heat with the upper half wet temperature control space 16B through the partition film 13, and the exhaust port 21b-1 provided near the uppermost part of the upper half temperature control space 17B. Discharged from. The air blower 21C blows the air adjusted to a predetermined temperature by the blower 21c-2 to the blower opening 21a-2 through a pipe (not shown), and blows the air to the lower half 17C of the temperature-controlled curing space via the blower opening 21a-2. The gas is discharged from the exhaust port 21b-2. The air blowing port 21a-2 and the exhaust port 21b-2 are respectively provided at the end portions in the tunnel axial direction of the lower half temperature conditioning space 17C so that airflow is generated in the entire lower half temperature conditioning space 17C (see FIG. 9). ).

  In the third embodiment, the wet curing space is divided into the upper half wet curing space 16B and the lower half wet curing space 16C, and the temperature controlled curing space is divided into the upper half temperature controlled curing space 17B and the lower half temperature controlled curing space 17C. The lining concrete curing device 300 can precisely manage the curing conditions of the lining concrete 1 in the upper half of the tunnel 10 and the lining concrete 1 in the lower half. In the lining concrete 1, the cause of the crack generated in the upper half and the crack generated in the lower half may be different. In the upper half, the crack is mainly generated in the tunnel axial direction when the tunnel underground temperature is low. In the lower half, cracks are generated in the direction perpendicular to the tunnel axis direction due to externally constraining the shrinkage of the hardened concrete. In such a case, cracking of the lining concrete 1 can be effectively prevented by curing the upper half and the lower half of the lining concrete 1 under different conditions in consideration of the external environment. .

(Embodiment 4)
Embodiment 4 of the present invention is a lining concrete curing system that uses one or more lining concrete curing devices of the present invention.

  The excavation of the tunnel 10 and the placement of the lining concrete are continuously performed, and the excavation of the tunnel 10, the placement of the lining concrete, and the subsequent curing of the lining concrete can be performed at the same time. desirable. However, when the lining concrete is cured for a time equivalent to the time required for excavation of the tunnel 10 or the placement of the lining concrete and for the same span, it is desired due to external environmental factors such as region and season. There is a possibility that the expression of strength cannot be obtained. The lining concrete curing system according to the fourth embodiment uses one or more lining concrete curing devices according to the present invention to cure the lining concrete so that the type, area, season, etc. of the concrete can be improved. Without being affected by external environmental factors, the strength is expressed to a desired level and the occurrence of cracks and the like is prevented.

  With reference to FIG. 10, the lining concrete curing system 500 concerning Embodiment 4 of this invention is demonstrated. FIG. 10 is a longitudinal sectional view of the tunnel 10 showing the lining concrete curing system 500 according to Embodiment 4 of the present invention.

  The lining concrete curing system 500 is based on the length of the lining concrete 1 placed by the lining center 12 as shown in FIG. 10 (the length in the axial direction that is the tunnel excavation direction). Three lining concrete curing devices 100 (see FIGS. 1 to 3) are configured in succession with the length of the formwork as one span and the length in the axial direction of the tunnel 10 equal to the length of one span. The lining concrete curing system 500 includes a lining concrete curing device 100-1 that performs cooling curing of the lining concrete 1 after the placing process of the lining concrete 1 by the lining center 12, and a first heat retention after the cooling curing. It consists of a lining concrete curing device 100-2 that performs curing and a lining concrete curing device 100-3 that performs second heat insulation curing. The curing conditions for the first and second thermal curing regimes may be the same or different. The lining concrete curing system 500 continuously configures the lining concrete curing device 100 corresponding to the length of the formwork of the lining center 12, so that the elapsed concrete since the placement of the lining concrete 1 has elapsed. The lining concrete 1 can be cured by appropriately changing the curing conditions of the wet curing space and the temperature-controlled curing space of the lining concrete curing devices 100-1, 100-2, and 100-3. As a result, the strength can be expressed to a desired level without being affected by external factors such as the type of concrete, season, region, etc., and cracking of the lining concrete 1 can be prevented.

  The most frequent cracking of the lining concrete 1 occurs in the summer, and how to suppress the internal temperature of the lining concrete 1 from the stage when the lining concrete 1 is driven from the lining center 12 is a point for preventing cracking. It becomes. If the lining concrete curing apparatus 100 according to the present invention is used in the cooling curing process starting from the time of driving, an increase in the internal temperature of the lining concrete 1 can be effectively suppressed, and in the subsequent thermal curing, a balloon type curing is performed. Even if a device or a mist type curing device is used, cracks can be prevented while developing the strength of the concrete.

  The lining concrete curing system 500 according to the fourth embodiment is configured with three lining concrete curing devices 100 in succession. However, the lining concrete curing device 100 is provided according to the type of concrete and external environmental conditions. Two units may be continuously subjected to cooling curing and heat curing. In addition, as a continuous structure of four or more units, cooling curing and heat-retaining curing, for example, as the first cooling curing, the first heat-retaining curing, the second heat-retaining curing, the second cooling curing, each curing condition is appropriately changed and the lining concrete You may perform 1 curing.

  Further, as a first modification of the fourth embodiment, a lining concrete curing system 500A in which three lining concrete curing devices 200 (see FIGS. 4 to 6) are continuously configured is illustrated (see FIG. 11). The lining concrete curing system 500A is similar to the lining concrete curing system 500 in that the lining concrete curing devices 200-1, 200-2, and 200-3 are set according to the elapsed time from the placement of the lining concrete 1. Curing of the lining concrete 1 can be performed by appropriately changing the curing conditions of the wet curing space and the temperature-controlled curing space. This makes it possible to develop a desired strength without being affected by external factors such as the type of concrete, season, region, and the like, and also prevent cracking of the lining concrete 1.

  Further, as a second modification of the fourth embodiment, a lining concrete curing device generally used as a curing device for the lining concrete 1 is applied to the lining concrete curing device 100 according to the first embodiment. Good. For example, generally used lining concrete curing devices 400-1 and 400-2 may be used like a lining concrete curing system 500B shown in FIG. As a generally used lining concrete curing device represented by the lining concrete curing devices 400-1 and 400-2, air is blown to a balloon in close contact with the surface of the lining concrete, and the surface of the lining concrete is cured. Examples include a balloon-type curing device that performs curing while moistening, and a curing device that performs curing while supplying moisture with an ultrasonic device or a spray nozzle to wet the surface of the lining concrete.

  The lining concrete curing device, the lining concrete curing system, and the lining concrete curing method of the present invention are useful for curing the lining concrete placed in the tunnel, and are particularly deframed early after the concrete is placed. In curing lining concrete, it is suitable for developing the strength to the desired level.

DESCRIPTION OF SYMBOLS 1 Covering concrete 1a Surface 10 Tunnel 10a Inner wall surface 11 Shotcrete 12 Covering centle 13 Bulkhead membrane 14, 14b Bulkhead 15, 15A Thermal insulation sheet 16 Wet curing space 17, 17A Temperature curing space 18 Membrane bond yarn 19 Cart 19a, 19a 'Peripheral frame 19b Pillar 19c, 19c' Beam 19d Wheel 19e Rail 19f Bracing 20 Moisture supply means 21 Blower means 100, 200, 300 Covering concrete curing device 500 Covering concrete curing system S Spring line

Claims (9)

A lining concrete curing device placed on the inner wall of the tunnel,
A waterproof partition membrane provided along the surface of the lining concrete so as to be separated from the surface by a predetermined distance;
Moisture supply means for supplying mist-like moisture to the wet curing space formed by the lining concrete surface and the partition membrane;
A heat insulating sheet provided so as to be separated from the partition film by a predetermined distance along the inner periphery of the partition film;
In the temperature-controlled curing space formed by the partition film and the heat insulating sheet, a blowing means for blowing temperature-controlled air,
A lining concrete curing device characterized by comprising:   2. The apparatus according to claim 1, further comprising means for blowing the temperature-controlled air into the lining center where the lining concrete is placed, and adjusting the temperature of the lining concrete before deframement. Lining concrete curing device.   The lining concrete curing device according to claim 1 or 2, further comprising a plurality of membrane coupling means for fixing the partition membrane and the heat insulating sheet.   The air blowing means includes a blower opening provided in a lower half portion of the temperature-controlled curing space, an exhaust port provided near the uppermost portion of the temperature-controlled curing space, and a blower for blowing temperature-adjusted air. The lining concrete curing device according to any one of claims 1 to 3.   The lining concrete curing device according to any one of claims 1 to 4, wherein a convex portion, a fin, or a flock is provided on the surface of the partition film. Insulating partition walls that divide the wet curing space and the temperature-controlled curing space into an upper half and a lower half of a tunnel in which lining concrete is placed, respectively,
The curing conditions of the first wet curing space in the upper half and the second wet curing space in the lower half, and the first temperature conditioning curing space in the upper half and the second temperature conditioning curing space in the lower half can be changed. The lining concrete curing device according to any one of claims 1 to 5. A lining concrete curing system including at least one lining concrete curing device according to any one of claims 1 to 6,
The lining concrete is cured by changing the curing conditions of the wet curing space and the temperature-controlled curing space of each lining concrete curing device according to the elapsed time from the lining concrete placement. Concrete curing system. A curing method for lining concrete placed on the inner wall of a tunnel,
A mist of moisture is supplied to a wet curing space formed by a waterproof partition membrane and a surface of the lining concrete that is provided along the surface of the lining concrete so as to be separated from the surface by a predetermined distance. Wet curing step to cure the engineered concrete,
A temperature-controlled air is blown into a temperature-controlled curing space formed by a heat-insulating sheet provided so as to be separated from the partition film by a predetermined distance along the partition film and the partition film. A temperature conditioning step to adjust the temperature,
A lining concrete curing method characterized by comprising:   The said temperature control curing step supplies air temperature-controlled from the lower half part of the said temperature control curing space, and discharges air from the uppermost part vicinity of the said temperature control curing space, It is characterized by the above-mentioned. Lining concrete curing method.

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