KR101915277B1 - Slip Foam Vertical Concrete Wall Curing System for Vertical Tunnels and Buildings Vertical Wall Curing device - Google Patents

Abstract

The present invention relates to a slip foam type vertical concrete wall curing system for vertical tunnels and a building vertical wall curing device. By using a planar heating element for uniformly curing the vertical concrete wall for vertical tunnels, while capable of adjusting a curing temperature and a curing time of the vertical concrete wall properly, curing of the vertical concrete wall for vertical tunnels can be effectively performed. Since a wire is connected to the planar heating element for supplying electricity, installation operation for a heating facility inputted into a vertical sphere is remarkably simply facilitated. An installation manpower is not required such that installation costs can be reduced. Since the curing time for the vertical concrete wall for vertical tunnels is reduced and construction of the vertical concrete wall for vertical tunnels with sufficient strength can be implemented, a structural strength can be improved.

Description

Technical Field [0001] The present invention relates to a vertical wall curing system and a vertical wall curing apparatus for a vertical slab-type vertical tunnel,

The present invention relates to a vertical concrete wall curing system for slip-foam type vertical tunnels and a vertical wall curing apparatus for buildings. More specifically, the present invention relates to a vertical concrete wall curing system for vertical tunnels which can be uniformly cured using an area heating element, It is possible to control the curing temperature and the curing time of the proper vertical concrete wall effectively, it is possible to effectively cure the vertical concrete wall for the vertical tunnel, and the electric heating is carried out by connecting electric wires to the surface heating element, It is possible to construct a vertical concrete wall for a vertical tunnel having a sufficient strength and shorten the curing period of a vertical concrete wall for a vertical tunnel, Strength can be improved A slip form concrete manner perpendicular vertical tunnel wall curing system and a vertical wall of the building relates to a vertical wall for welding apparatus for welding by using the planar heating element.

Generally, in order to prevent contamination of underground tunnels and platform air due to various harmful gases and fine dust contained in wind generated when a subway line is operated, A vertical tunnel structure serving as a passage for discharging the air in the tunnel and the platform to the ground or supplying the ground air into the underground tunnel and the platform.

The construction of such a vertical tunnel structure is carried out by excavating a horizontal tunnel from the ground to the ground, installing a steel structure on the inner surface of the tunnel, or preventing the vertical tunnel structure from collapsing by placing a concrete mortar, After the mold is laid and the foundation concrete is cured, once the curing of the foundation concrete is completed, the mold is dismantled and the waste material is collected from the ground and the construction is completed.

However, since the conventional concrete tunnel construction method has a limitation on the weight of the foundation concrete that can be supported by the form, the height at which the concrete can be constructed once is limited to a certain height (about 4m to 5m). Therefore, it is necessary to repeat the installation of the formwork from the bottom to the exit of the vertical tunnel structure, the installation / curing of the foundation concrete, and the dismantling of the formwork, so that the construction period and cost are excessively required, There is a problem that it exists.

In order to solve such a problem, the vertical tunnel structure is installed in the order of installing a steel structure, placing a mold on the outer side of the steel structure, curing the concrete inside the mold and curing. In recent years, A slip foam method capable of molding an integral concrete wall structure is widely used.

The slim foam method is a method of molding a uniformly integrated concrete wall structure by repeating the operation of continuously raising and lowering the slip foam together with the casting of concrete. In order to carry out the slip foam method, A jack rod 1 vertically installed from a bottom provided with a steel structure (not shown) and extending step-by-step with the steel frame structure, and a work table 1 vertically moving in cooperation with the jack rod 1 via a hydraulic jack 2 installed on one side. (3), and a slip foam panel (10) which is fixed to the work table (3).

In the conventional slip foam method, since the vertical concrete wall structure is continuously installed while the work table 3 is raised along the jack rod 1 installed from the bottom to the top, the operation period can be greatly shortened, There is a restriction that the slip foam panel 10 can not be lifted unless the unformed concrete is cured to such an extent that it has a certain strength or more.

Especially, in the environment where the outside temperature is low as in winter, when the water is frozen, the curing hardening reaction of the concrete proceeds under the condition that the water contained in the concrete pouring water is frozen, the curing speed is greatly lowered and the strength of the concrete concrete wall structure The construction of the concrete wall structure was hardly achieved and the construction work was delayed.

To solve these problems, the proposed heating slip foam panel is known from Korean Patent No. 1013450. 2, the heating slip foam panel 20 includes a steel housing 21, a heating pipe 22 inserted into the steel housing 21 and heated by hot water circulating inside the steel housing 21, A heat insulating panel 23 attached to the front surface of the steel housing 21 so as to close the steel housing 21 and a reinforcing panel 23 fixed to the inside of the steel housing 21 to reinforce the structural strength of the steel housing 21 When the heating slip foam panel 20 is used, the unhardened concrete is rapidly cured due to the heat generated in the heating pipe 22. Therefore, the construction speed is increased, In winter, it is possible to construct a normal concrete wall structure, which can greatly shorten the entire construction period.

However, since the conventional heating slip foam panel 20 must additionally include related equipment for continuously circulating the hot water, there is a problem that the initial facility cost is excessive and the operation difficulty is generated, This problem is further exacerbated in view of the fact that a plurality of slip foam panels having different sizes and shapes must be manufactured in accordance with the width of the heating pipe. It is impossible to control the temperature by zone. Therefore, even in the lower zone where the drying is completed, unnecessary energy consumption is excessively generated due to the circulation of the hot water, which is the same as the upper zone where the drying is not performed.

In the conventional heating slip foam panel 20, it is very difficult to identify the fault location and the failure time in which part of the heating pipe occurred when normal heating is not performed. Therefore, the construction of the normal concrete wall is performed It is necessary to replace the entire panel or the entire heating pipe, which causes a problem of excessive maintenance and repair costs.

3, the heating slip foam panel includes a plurality of steel enclosures 100 disposed adjacent to each other, a heating wire 200 disposed inside the steel enclosure 100, A heating steam foam panel comprising a steel housing 100 and a locking member 300 for electrically connecting the heating wires 200 of the adjacent steel housing 100 is disclosed in Patent Document 10-1745645. However, the above patent has a very complicated structure in which the structure is composed of the steel housing 100 and the locking member 300, so that the manufacturing cost is high and the curing apparatus is expensive, so that ordinary people can not purchase and use it, There is a problem that the concrete hardens rapidly only at a portion where the heat exchanger 200 is disposed and the concrete is hardly partly cured, .

Also, when curing concrete in general buildings, it is currently used at room temperature to dry and cure at room temperature. However, during the rainy season and during the rainy season, There is a problem in that the safety strength of the apparatus can not be secured.

Patent No. 10-1737193 Patent No. 10-1745645

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a vertical concrete wall curing for vertical tunnels, which can be cured uniformly by a surface heating element using a slip form panel provided with a surface heating element, And it is possible to control the curing temperature and the curing time of the proper vertical concrete wall effectively, it is possible to effectively perform the curing of the vertical concrete wall for the vertical tunnel, thereby shortening the curing period of the vertical concrete wall for the vertical tunnel, A vertical concrete wall curing system for a slip-foam type vertical tunnel in which a vertical concrete wall for vertical tunnels can be constructed, and a vertical wall curing device for curing the vertical wall of a building using an area heating element.

This object of the present invention is achieved by a method of manufacturing a steel structure, comprising the steps of: installing a jack rod vertically installed from a bottom provided with a steel frame structure and extending stepwise with a steel frame structure and a hydraulic jack penetrating the jack rod, A vertical concrete wall curing system for a slip-foam type vertical tunnel, comprising a slip-form panel rising, wherein the slip-form panel comprises a support steel plate fixed to the work platform, a heat insulation material provided on the outer side of the support steel plate, Type vertical tunnel for a slip-foam type vertical tunnel according to the present invention, which is provided on the outer side of the waterproof plate and is in contact with the concrete pouring portion, is provided on the outer surface of the vertical heat- Wall curing system.

The object of the present invention is to provide a slip form which is vertically installed from the bottom and which is raised in a fixed state on a work table that vertically moves together with the jack rod through a jack rod extending stepwise together with the steel structure and a hydraulic jack penetrating the jack rod, Wherein the slip foam panel comprises a support steel plate fixed to the work table, a heat insulation material provided on the outer side of the support steel plate, a planar heat generating film provided on the outer side of the heat insulation material, The vertical wall curing apparatus according to the present invention includes the waterproof plate material provided on the outer side of the planar heat-generating film and the steel plate provided on the outer side of the waterproof plate and in contact with the concrete pouring portion.

The vertical concrete wall curing system for a slip-foam type vertical tunnel and the vertical wall curing system for a building according to the present invention include a slip-foam type vertical tunnel provided with a slip-form panel fixedly mounted on a work platform, A vertical concrete wall curing system characterized in that the slip foam panel comprises a support steel plate fixed to the work platform, a heat insulation material provided on the outer side of the support steel plate, a planar heat generating film provided on the outer side of the heat insulating material, And a steel plate provided on the outer side of the waterproofing plate and in contact with the concrete pouring portion, wherein the vertical concrete wall curing for the vertical tunnel is uniformly formed by the surface heating element using the slip foam panel having the surface heating element It is possible to control curing temperature and curing time of proper vertical concrete wall while curing is possible. It is possible to effectively perform vertical concrete wall curing for vertical tunnels, thereby shortening the curing period of vertical concrete walls for vertical tunnels, enabling the construction of vertical concrete walls for vertical tunnels having sufficient strength and effectively constructing outer walls of buildings There is excellent effect done.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing a state in which a concrete vertical structure is constructed through a general slip foam method; FIG.
2 is an exploded perspective view of a conventional heating slip foam panel.
FIGS. 3A, 3B and 3C are a perspective view of another conventional heating slip foam panel, an exploded perspective view of a steel housing constituting a heating slip foam panel, and a rear perspective view of a locking member.
4 is a schematic plan view of a conventional vertical tunnel
5 is a schematic longitudinal sectional view showing a state in which a concrete vertical structure of a vertical concrete wall curing system for a slip foam type vertical tunnel according to the first embodiment of the present invention is installed
FIG. 6 is a schematic plan sectional view of the slip foam panel shown in FIG.
FIGS. 7A and 7B are a schematic perspective view and a front view showing an adhered state of the surface heating film of the slip foam panel according to the first embodiment of the present invention
8a, 8b and 8c are a schematic longitudinal sectional view, a horizontal sectional view and a slip foam panel showing a state in which a concrete vertical structure of a vertical concrete wall curing system for a slip foam type vertical tunnel according to a second embodiment of the present invention is installed Partially incised front view
9 is a schematic vertical sectional view of a building vertical wall curing apparatus according to the first embodiment of the present invention

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. The same reference numerals are used for the same components, and only the different portions are described for the sake of clarity.

The vertical concrete wall curing system (A) for a slip-foam type vertical tunnel according to the present invention is vertically installed from a floor where a steel structure (not shown) is installed as shown in Fig. 5, A slip form panel 10 which is fixedly mounted on a work table 3 that ascends and descends in cooperation with the jack rod 1 through a hydraulic jack 2 passing through the jack rod 1, Respectively.

As shown in FIG. 4, the vertical tunnel B has a vertical tunnel wall B1 having a diameter of 10 to 15 m and a vertical tunnel wall B1 having a diameter of 10 to 15 m. And a vertical partition B2 such as a step or a work space is formed in the vertical tunnel wall B1.

As shown in FIG. 6, the slip foam panel 10 of the vertical concrete wall curing system for a slip-foam type vertical tunnel A comprises a support iron plate 11 fixed to the work table 3, A heat insulating material 12 provided on the outer side of the support steel plate 11 and a planar heat generating film 13 provided on the outside of the heat insulating material 12 and a waterproof plate 14 provided on the outside of the planar heat generating film 13 And a steel plate 15 installed on the outside of the waterproof plate 14 and in contact with the concrete pouring portion C for forming the vertical tunnel wall B1.

The support iron plate 11 includes a plurality of 'c' shaped support bases 11b fixed on the work table 3 and a plurality of 'c' shaped support bases 11b, (11b) is fixed to the work table (3) and is lifted and lowered along the work table (3).

The heat insulating material 12 is formed by forming a nonwoven fabric insulating material on a flat plate and coating a heat insulating film having a heat insulating function on the surface of the nonwoven heat insulating material. Such a heat insulating material 12 is commercially available and used . If the thickness of the non-woven heat insulating material is large, the heat insulating effect becomes high, so that the heat generating temperature of the surface heat generating film 13 can be effectively used, but it becomes difficult to fix the heat generating film 13 to the supporting steel plate 11.

The planar heating elements 13 are formed by connecting a plurality of generally used planar heating elements to a predetermined size, and the planar heating elements are already known, and a detailed description thereof will be omitted. In the present invention, It can be said that a plurality of surface heating elements connected to a large area can be easily connected and used.

As shown in Fig. 7, the surface heat generating film 13 is formed by laminating an adhesive tape having a leakproof and waterproof function on a surface heat generating film 13, which is in contact with moisture, And the adhesive tape 13a which is called Sika tape is used to adhere the surface heat generating film 13 to the surface of the heat insulating material 12 .

7, an adhesive tape 13a is attached on the edge of the surface heat generating film 13 and an electric tape 13b is adhered on the adhesive tape 13a to form the surface heat generating film 13 to adhere to the surface of the heat insulating material 12 so as to prevent the leakage of electricity and to have a waterproof function.

The heating temperature of the planar heating film 13 may vary depending on the thickness of the concrete pouring portion C. Generally, it is found that a heating temperature of about 40 to 50 ° C is suitable. More specifically, Since the concrete does not melt at a heating temperature of 20 ° C, the heating effect is lost. At 60 ° C or more, only the surface is cured rapidly and the inside is not cured. Therefore, Lt; RTI ID = 0.0 > C < / RTI >

The slip foam panel 10 is completed by bringing the waterproof pad 14 having a waterproof function into contact with the surface heat-generating film 13 thus adhered and bringing the galvanized steel sheet 15 into close contact with the waterproof pad 14, will be.

The slip form panel 10 is fixed with a plurality of portions by fixing rivets 16 extending from the galvanized steel plate 15 to the supporting steel plate portion 11 in order to fix the slip form panel 10 more reliably, 10).

A hole is formed in the galvanized steel plate 15 due to the fixing rivet 16 passing through the galvanized steel sheet 15. In order to prevent water from penetrating into the galvanized steel sheet 15 during rain, An installation step of sealing the holes formed in the steel plate 15 with silicon can be carried out. Further, in the case of forming the slim foam panel 10 with two or more zinc-plated steel sheets 15 being connected laterally, it is preferable that moisture can penetrate into the connecting surface formed by contacting the side surfaces of the respective galvanized steel plates 15 Therefore, the installation process of sealing the connection surface by spraying silicon can be performed in order to block the connection.

The slip foam panel 10 has a structure in which the support steel plate 11, the heat insulating material 12 and the surface heat generating film 13, the waterproof plate material 14 and the steel plate 15 are in close contact with each other, In order to prevent this, the uppermost part of the slim foam panel is sealed with a corner molding cover and the bottom part is coated with silicone to prevent moisture from penetrating through the upper and lower ends of the same structure. It is possible to prevent penetration of moisture that may occur through one side of the slim foam panel 10 in a sealing manner.

A temperature sensor 17 is disposed inside the slip-form panel 10, so that the curing temperature of the slip-form panel 10 can be accurately detected. More specifically, since the temperature sensor 17 is provided at the portion of the surface heating film 13 of the slip-form panel 10 facing the concrete placement portion C, the surface heat- It is possible to accurately grasp the heating temperature of the heating plate. The temperature of the temperature sensor 17 can determine the actual temperature of the temperature sensor 17 in an office (not shown) remote from the slip foam panel 10, It can be installed so that it can be recognized by an installed temperature indicator (not shown).

 Since the curing temperature of the temperature sensor 17 is displayed by the temperature indicator as described above, it is possible to accurately recognize the exothermic temperature of the surface heat generating film 13 from outside, The concrete filled in the concrete poured portion C having the optimum strength is cured to form a vertical partition B2 such as a step or a work space in the vertical tunnel wall B1 and the vertical tunnel wall B1 .

8a, 8b and 8c are a schematic vertical sectional view, a horizontal sectional view and a slip foam panel showing a state in which a concrete vertical structure of a vertical concrete wall curing system for a slip foam type vertical tunnel according to a second embodiment of the present invention is installed; A vertically cut vertical view is a vertical sectional view of a vertical concrete wall curing for a slip foam type vertical tunnel on both sides of the vertical partition wall B2 in order to cure a vertical partition wall B2 such as a staircase or a work space formed in the vertical tunnel wall B1 And the system (A) is installed.

The slip foam panel 10 is provided in contact with both side surfaces of the concrete installation portion C and the slip foam panel 10 has a plurality of ' The heat insulating material 12, the surface heat generating film 13, the waterproof plate material 14 and the steel plate 15 are fixed to the support base 11b and the support steel plate 11a, Since the heating film 13 is heated at a temperature of 40 to 50 DEG C at a reasonable heating temperature on both sides, the vertical partition B2 can be cured at a rapid and safe strength.

Similar to the above-mentioned vertical concrete wall curing system (A) for slip-foam type vertical tunnels, the vertical wall curing apparatus (D) of the present invention is also applied to an outer wall or an inner wall of a building for constructing a concrete vertical wall of a general ground vertical building In case of construction through construction, the construction time will be much faster and concrete vertical walls can be constructed in winter and summer.

9, the vertical wall curing apparatus D of the present invention is constructed such that the slip foam panel 10 ascending in a state of being fixed to the work table 3 as shown in Fig. 9 is formed by curing both sides of the concrete vertical wall B3 of the building And a pair is provided. The workbench 3 to which the slip-form panel 10 of the vertical wall curing device D is attached is the same as the vertical concrete wall curing system A for the slip-foam type vertical tunnel of the first embodiment, A jack rod 1 vertically installed from the bottom provided with the steel structure and extending stepwise together with the steel frame structure and a work table 2 vertically moving up and down together with the jack rod 1 through a hydraulic jack 2 penetrating the jack rod 1. [ (3) are used, and the difference is that a pair of slip foam panels (10) are arranged so as to surround the concrete vertical wall (B3) so as to cure both sides of the concrete vertical wall (B3) of the building And the subsequent curing step of the concrete placement portion C is said to be the same, and a detailed description of the subsequent steps will be omitted.

The present invention can be said to be an industrially applicable invention because it can be said that it is possible to repeatedly manufacture the same product in a general construction industry, in a vertical concrete wall curing system and a vertical wall curing system for a slip-foam type vertical tunnel.

1: Jack rod 2: Hydraulic jack
3: Workbench 10: Slip-form panel
11: support iron plate part 12: heat insulating material
13: plane heat generating film 13a: adhesive tape
13b: electric tape 14: waterproof plate
15: steel plate 17: temperature sensor

Claims (7)

A work table 3 vertically installed from the floor and extending stepwise together with the steel structure and a work table 3 which cooperates with the jack rod 1 through a hydraulic jack 2 penetrating the jack rod 1, A vertical concrete wall curing system (A) for vertical tunnels provided with a slip foam panel (10) rising in a fixed state,
The slip foam panel (10) of the vertical concrete wall curing system (A) for a vertical tunnel comprises a support iron plate (11) fixed to the work table (3)
A heat insulating material 12 provided outside the support steel plate 11,
A planar heat generating film (13) provided on the outside of the heat insulating material (12)
A waterproof plate material 14 provided outside the surface heat generating film 13,
And a steel plate (15) provided outside the watertight plate (14) and in contact with a concrete installation portion (C) for forming a vertical tunnel wall (B1)
The surface heat generating film 13 is provided with an adhesive tape 13a having an electric leakage prevention function and waterproof function in order to prevent leakage of the surface heat generating film 13 in contact with moisture and to provide a waterproof function to the outside of the surface heat generating film 13 Adhered to the edge,
And an electric tape (13b) is attached on the edge of the adhesive tape (13a). The vertical concrete wall curing system The method according to claim 1,
The heat insulating material 12 is formed by forming a nonwoven heat insulating material on a flat plate surface, coating a heat insulating film having a heat insulating function on the surface of the nonwoven heat insulating material,
Wherein the planar heating film (13) is used by connecting a plurality of planar heating elements with a predetermined size. The vertical concrete wall curing system for vertical tunnels delete The method according to claim 1,
And a temperature sensor (17) is provided at a portion of the surface heating film (13) facing the direction of the concrete placement portion (C). The vertical concrete wall curing system The method according to claim 1,
Characterized in that one side of the slip-form panel (10) is sealed with silicone. The vertical concrete wall curing system for vertical tunnels 6. The method according to claim 1 or 5,
Characterized in that one side of the slip-form panel (10) is closed with a corner molding cover. The vertical concrete wall curing system for vertical tunnels A work table 3 vertically installed from the floor and extending stepwise together with the steel structure and a work table 3 which cooperates with the jack rod 1 through a hydraulic jack 2 penetrating the jack rod 1, And vertical barrier ribs B2 are formed on both sides of the vertical partition wall B2 so as to cure vertical barrier ribs B2 such as stairs or work spaces formed in the vertical tunnel wall B1. A vertical wall curing device (D) to be installed,
The slip foam panel (10) of the building vertical wall curing device (D) comprises a support iron plate (11) fixed to the work table (3)
A heat insulating material 12 provided outside the support steel plate 11,
A planar heat generating film (13) provided on the outside of the heat insulating material (12)
A waterproof plate material 14 provided outside the surface heat generating film 13,
And a steel plate (15) provided outside the watertight plate (14) and in contact with a concrete installation portion (C) for forming a vertical tunnel wall (B1)
The surface heat generating film 13 is provided with an adhesive tape 13a having an electric leakage prevention function and waterproof function in order to prevent leakage of the surface heat generating film 13 in contact with moisture and to provide a waterproof function to the outside of the surface heat generating film 13 Adhered to the edge,
And an electric tape (13b) is attached on the edge of the adhesive tape (13a). The vertical wall curing device

Images