KR101163026B1 - Hybrid Formwork Comprising Half Circle Type of Paperboard Tube and A Method of Forming Cylindrical Structure Using the Same - Google Patents

Abstract

The present invention relates to a single-ply semicircular branch pipe hybrid formwork comprising a metal support and a pair of semicircular branch pipes for supporting the formwork and maintaining its shape. Paper formwork according to the present invention is composed of a pair of semi-circular paper tube is easy to transport, install and remove the construction time and cost is significantly reduced compared to the formwork used in the prior art. In addition, by using a semi-circular branch pipe, not cylindrical, it can be applied not only to the reinforced RC structure, but also to the steel structure (SRC structure). In addition, it can be recycled several times due to its excellent peelability by the inner peripheral surface finish of the semicircular paper tube, has excellent water resistance and strength by the outer peripheral surface finish of the semicircular paper tube, and can be reused as a paper material after use. It is easy to handle and safe.

Paper formwork, semicircular paper tube, banding, PET coated paper, OPP coated paper, PE coated paper

Description

Hybrid Formwork Comprising Half Circle Type of Paperboard Tube and A Method of Forming Cylindrical Structure Using the Same}

The present invention relates to a metal support for supporting a formwork and maintaining its shape, and a single-ply semicircular paper tube hybrid formwork including a pair of semicircular paper tubes and a method of forming a cylindrical structure using the same.

Formwork refers to temporary materials that are temporarily installed in order to make concrete structures into predetermined shapes and dimensions. When building various buildings or structures, formwork is installed in columns, floors, walls, etc. After pouring the back, it is cured to obtain the desired shape.

In general, in the case of pillar formwork applied to buildings, bridge piers, etc., conventionally formed as a column having a rectangular cross-section, but the cylindrical column is better when comparing the aesthetic side, space, and loads per cross-sectional area. There are mainly cylindrical pillars. However, when manufacturing the cylindrical formwork from wood plywood, steel plate or plastic plate, there is a problem that the manufacturing cost of the formwork is expensive, it is not easy to manufacture in the form of garden. In addition, the diameter of the formwork for pillars according to the building use of the building is different, it is not easy to remove and reuse after curing the concrete, it is very disadvantageous in terms of the environment by discarding, and if used after disassembly and remanufacture There was a problem that the rise, not easy to reuse. In addition, when the diameter of pillars applied to buildings, bridges, piers, etc. is large, the size of the pillar formwork is also large, it is not easy to transport and move, and the weight is also increased according to the size, which makes it difficult to transport and unload to the construction site There was a problem in terms of safety in the field.

Therefore, in recent years, research on the formwork material applied to cylindrical pillars such as buildings, structures, bridges and piers has been actively conducted. Therefore, the paper formwork can be used to simplify the formwork installation process, thereby improving the efficiency and convenience of the work, and to reduce the weight, and to facilitate the handling of the transport or the unloading due to the easy handling. Since space and place can be minimized, it is possible to utilize a more efficient work space and manufacturing space, thereby reducing the production cost and labor costs. In addition, since corrosion does not occur, it is not only applied to buildings, structures, bridges, bridges, etc., but also applicable to various fields. There is an advantage.

However, when manufacturing the cylindrical formwork from the paper as described above, it is possible to use in the reinforcement structure, but there is a problem that is not easy to use in the steel structure. In addition, when forming a cylindrical formwork using a pair of semi-circular formwork, there is a problem that the semi-circular shape is deformed by the characteristics of the material during the movement and transfer process, it is very inconvenient to apply the work in the construction site.

Korean Laid-Open Patent No. 1992-0016680 discloses a formwork panel made of synthetic resin that can withstand the side pressures generated and can be used repeatedly when the underground structure with large side pressures is to be manufactured with on-site concrete. The formwork of the prior art has the advantage that it is possible to recycle, but because of the expensive manufacturing cost of the formwork made of synthetic resin, there is a problem that the effect of cost reduction is not large.

In order to solve the above problems, the present inventors support a formwork and at the same time fix a metal support for maintaining its shape, and put a semi-circular branch pipe into a single layer to form a cylindrical formwork, and formed paper After fixing the formwork formed by using a plurality of banding to withstand the side pressure of the concrete injected into the formwork, when constructing the underground structure using it, it is easy to install and dismantle the construction time and cost to the formwork used in the past Compared to the reinforcement structure as well as the steel structure, it is considerably reduced compared to the semi-circular paper tube, and can be recycled several times due to the excellent peeling property of the inner circumferential surface of the semi-circular paper tube. Has water resistance and strength, and species after use Since the material can be recycled, it is environmentally friendly, yet economical, know that there is a safe advantage and completed the present invention.

SUMMARY OF THE INVENTION An object of the present invention is to provide a single-ply semicircular branch pipe hybrid formwork and a method of forming a cylindrical structure using the same, which is easy to transport, install and dismantle, and can be recycled, thereby reducing construction time and cost.

In order to achieve the above object, the present invention provides a single-ply semicircular branch pipe hybrid formwork including a metal support and a pair of semicircular branch pipes to support the formwork and maintain its shape.

According to the present invention, since the formwork is made of paper, not only is easy to transport, install and dismantle, it is also safe, and thus, the construction time and cost can be considerably reduced. Applicable, demolished formwork can be recycled and has an environmentally friendly effect.

Hereinafter, the present invention will be described in detail.

The present invention provides a single-ply semicircular branch tube hybrid formwork comprising a pair of semicircular branch tubes and a metal support for supporting the branch tubes and at the same time maintaining a cylindrical shape. The present invention further includes a plurality of bandings provided to fix the branch pipe.

1 shows one semicircular branch pipe 10 constituting the hybrid formwork of the present invention. In the hybrid formwork of the present invention, the pair of one semicircular branch pipe forms a cylindrical shape to form a formwork for a structure such as a cylindrical column. Hybrid formwork according to the present invention is composed of the semi-circular branch pipe, compared to the garden formwork formed of conventional wood plywood, steel plate or synthetic resin plate, it is easy to handle in the process of transport, unloading, etc. In addition, the production cost of the formwork is reduced, and because of the light weight, it is possible to ensure the safety of the builders during construction, and there is an advantage of reducing the additional finishing after curing the concrete.

In addition, the inner circumferential surface of the semi-circular paper tube 10 is finished using PET coated paper or OPP coated paper. Conventionally, the base paper base is finished using PE coated paper, but the inner circumferential surface of the semi-circular paper tube in the present invention is not only to improve water resistance by finishing using PET coated paper or OPP coated paper, but also after curing of concrete When removing the formwork has the advantage of improving the peelability.

The outer circumferential surface of the semi-circular branch pipe 10 is preferably finished by using hemp paper. In this way, by using the hemp finishing the outer peripheral surface of the semi-circular branch pipe (10), to improve the water resistance against heavy rain and the like to reduce the deformation in the harsh environment of the construction site to improve the strength of the outer surface of the hybrid formwork according to the present invention You can. In addition, on the outer circumferential surface of the semi-circular paper tube 10 according to the present invention, additional finishing treatment may be performed using a finishing material such as paraffin coated paper, PE coated paper, OPP coated paper, PE fiber coated paper, PP fiber coated paper, tarpaulin, and the like. Semi-circular branch pipe 10 according to the present invention is easy to damage the outer peripheral surface during transport and construction, such as transport or unloading, and the damaged portion of the outer peripheral surface often occurs because the situation that the strength decreases due to moisture such as water, It is preferable to finish the outer circumferential surface of the semi-circular branch pipe 10 using. In addition, by finishing the semi-circular branch pipe 10 according to the present invention as described above, the hybrid form according to the present invention can be prevented from being lowered in strength due to moisture, such as water.

2A and 2B are diagrams schematically illustrating a shape in which a pair of semi-circular branch tubes are installed with respect to the metal support after the metal support 30 is installed to support the formwork and maintain its shape. The metal support 30 serves to support a pair of semi-circular paper tubes, and at the same time, the pair of paper tubes are combined to form a cylindrical shape and to maintain it. Since the formwork according to the present invention has a semicircular shape, the semi-circular formwork is transported by stacking the layered form. At this time, due to the characteristics of the material of the form according to the invention the paper, the formwork in the lower layer is difficult to maintain the semi-circular shape by the change in diameter resulting from the thickness of the formwork in the upper layer. The metal support 30 is to act as a guide to form a cylindrical pair of the deformed pair of branch pipes in this way. As shown in FIGS. 2A and 2B, the metal support includes a protrusion 31, which abuts the seams of the pair of semicircular branch tubes to form a circumference. The protrusion serves to prevent a problem that one branch pipe can be inserted into the other branch pipe when the respective semicircular branch pipes directly contact at the seam. If one branch is inserted into another branch, it is not desirable to require additional finishing to the surface after curing and form removal.

On the other hand, in order to form a cylindrical shape as described above, a method using two layers of semicircular branch tubes is also possible. In this case, the inner pair of semicircular branch tubes form a substantial form, and the outer pair of semicircular branch tubes serve to keep the inner branch tubes cylindrical. However, compared with the present invention, there is a disadvantage in that twice the semicircular branch pipe is required for each formwork. The hybrid formwork according to the present invention requires only a pair of single-ply semicircular paper tubes for one formwork, and the metal support can be used continuously and repeatedly, thereby significantly reducing construction costs and the like.

It is preferable that the height of the said metal support is 1-2 m. As shown in Figure 3b, when the height of the formwork is high, a plurality of metal supports can be used by squeezing. That is, by standardizing the height of the metal support to 1 to 2 m and using a plurality of them, it can be easily applied to the formwork of various heights. If the height of the metal support is slightly lower than the height of the formwork, an empty space may be formed in the seam of the formwork, but the concrete leakage at the seam portion is obvious to those skilled in the art. It is possible to prevent through taping (not shown) or the like. The metal support is light in consideration of the convenience of the construction site, preferably a material capable of withstanding the load of concrete, and therefore the material of the metal support is preferably aluminum or light steel.

According to the method described above, the single-ply semicircular branch pipe hybrid formwork 1 formed by a pair of semicircular branch pipes 20 installed in the metal support 30 is fixed using a plurality of bands 40. As shown in Figure 3a, the hybrid formwork (1) according to the present invention can withstand the side pressure to be generated in consideration of the amount of concrete to be injected into the formwork according to the size of the column, such as the column to be built, that is, the diameter and height of the column, etc. Secured using a sufficient number and type of bandings 40. As such, it is easy for a person with ordinary skill in the art to determine the number of bandings sufficient to withstand the lateral pressure generated according to the amount of concrete injected into the formwork 1 according to the invention. . Specific examples of the banding 40 include tin band banding, iron banding, buckle-bonded iron banding, tumble buckle, transport fiber band banding, etc., one or two or more thereof may be mixed and used in the tin band. Banding is preferred. 4 is an assembly view of the tin band according to a preferred embodiment of the present invention. The banding can be recycled rather than disposable, which has the advantage of reducing the cost of subsidiary materials for construction.

Hybrid formwork 1 according to the invention is a pair of PET coated paper or OPP coated paper formed to be attached to the inner peripheral surface of the cylindrical paper tube 20 consisting of a pair of semi-circular paper tubes for a more complete finish surface treatment ( 11) may be further included. 5a and 5b is to insert a pair of PET coated or OPP coated paper (11) cut in consideration of the diameter of the circumference of the inner peripheral surface to be coupled to the inner peripheral surface of the hybrid formwork (1) according to the invention inside the hybrid formwork Figure is a schematic view of the scheme. The pair of PET coated paper or OPP coated paper 11 may be bonded to the inner peripheral surface of the hybrid formwork according to the present invention by an adhesive means such as double-sided tape. Thus, by coupling the pair of PET coated paper or OPP coated paper 11 to the inner circumferential surface of the hybrid formwork according to the present invention, to prevent the spiral traces by the tube pipe surface that can be formed while the concrete is cured, additional finishing treatment There is an advantage of not needing. In addition, in order to protect the cross-sectional area of the semi-circular branch pipe can be finished using masking tape, OPP tape, PE tape and the like.

6 and 7 are views schematically showing a state in which a single-ply semicircular branch pipe hybrid formwork 1 according to the present invention is applied to a reinforcing steel structure and a steel structure. As shown in Figure 6, the hybrid formwork (1) formed of a single-ply semicircular branch pipe and a metal support according to the present invention is fixed to the metal support 30 during construction at the construction site, the height of the column to be built, etc. In this case, additional support can be used to simply fix it. 6, 7, 8 and 9, a single-ply semicircular branch pipe hybrid formwork according to the present invention can be applied to rebar or steel structures in various ways.

Hereinafter, a method of forming a cylindrical structure using a single-ply semicircular branch pipe hybrid formwork according to the present invention will be described.

According to the diameter of the cylindrical structure to be molded, a pair of metal supports are fixed to the floor and installed (step 1). A PET coated paper or OPP coated paper is fixed to the inner circumferential surface of each of the pair of semicircular paper tubes by using a double-sided tape or the like, in consideration of the die inner circumferential surface diameter (step 2). The pair of semi-circular paper tubes to which the coated paper is fixed is installed on the fixed metal support (step 3). At this time, care should be taken because excessive force is applied to insert the deformed paper pipe into the metal support during the transport and transportation process. After the pair of semi-circular branch pipes are installed as described above, the seam portion of the form portion exceeding the height of the metal support is finished by taping or the like to prevent the concrete from leaking into the seam portion. Thereafter, the formwork is fastened using a plurality of bandings so that the formwork can withstand the side pressure of the concrete (step 4). At this time, the type of banding used may be tin band banding, iron banding, buckle-bonded iron banding, tumble buckle, transport fiber band banding, or a combination thereof, but the band of the tin band is preferable, the number of bandings in the construction environment Accordingly, it will be apparent to those skilled in the art to which the present invention pertains. If it is necessary to install the beam on the formwork, it may further comprise the step of cutting the upper portion of the formwork for the beam installation. In addition, in order to protect the cross-sectional area of the semi-circular branch pipe can be finished using masking tape, OPP tape, PE tape and the like. As such, after the formwork is completed, the concrete can be poured (step 5) and cured to form a cylindrical structure.

1 is a view showing one semicircular branch pipe forming a hybrid formwork according to the present invention.

2A is a perspective view showing a metal support and a pair of semicircular branch tubes coupled thereto.

2B is a top plan view of a metal support and a pair of semicircular branch tubes coupled thereto.

3A is a view showing a state in which a hybrid formwork formed of a metal support and a pair of semicircular branch tubes is fixed by a plurality of bandings.

3B is a view showing a state in which a plurality of metal supports are coupled to a pair of semicircular branch tubes for a high circular column.

4 is an assembly view of the tin band according to an embodiment of the present invention.

5a is a view schematically illustrating a method of fixing a pair of PET coated paper or OPP coated paper cut inside the hybrid formwork in consideration of the circumferential diameter of the inner circumferential surface so as to be processed on the inner circumferential surface of the hybrid formwork according to the present invention.

5B is a top plan view of a pair of PET coated paper or OPP coated paper fixed inside a hybrid formwork.

6 is a view schematically showing a state in which the hybrid formwork according to the present invention is applied to the rebar structure.

7 is a view schematically showing a state in which the hybrid formwork according to the present invention is applied to the steel structure.

8 is an enlarged view showing an embodiment in which the hybrid formwork according to the present invention in the portion A shown by the circle of FIG. 6 is applied to the steel structure.

FIG. 9 is an enlarged view showing another embodiment in which the hybrid formwork according to the present invention in the portion A shown by the circle of FIG. 6 is applied to the steel structure.

<Short description of drawing symbols>

1: single layer semi-circular branch pipe hybrid formwork

10: semicircular branch pipe

11: PET coated paper or OPP coated paper

20: cylindrical branch pipe

30: metal support

31: protrusion

40: band assembly

41: band

42: lumber

43: flat iron

44 and 45: bolts and nuts

50: support

Claims (12)

A metal support including a support portion formed in the formwork longitudinal direction to support the formwork, and a shape maintaining portion formed at both ends of the support portion and formed along the circumference of the formwork outer portion to maintain the form of the formwork; Banding for fixing the semicircular branch pipe to the metal support; And Including a pair of semicircular branch tubes; The inner circumferential surface of the semi-circular branch pipe is a single-ply semi-circular branch pipe hybrid formwork, characterized in that the finish is treated with PET coated paper or OPP coated paper. delete The single-ply semicircular branch pipe hybrid formwork as set forth in claim 1, wherein the height of the metal support is 1 to 2 m. The single-ply semicircular branch pipe hybrid formwork according to claim 1, wherein the metal support is made of aluminum or light steel. delete 2. The single-ply semicircular branch pipe hybrid formwork according to claim 1, wherein the outer circumferential surface of the semicircular branch pipe is finished with a mat. 7. The semi-circular single layer of claim 6, wherein the outer circumferential surface of the semicircular paper tube is further finished using a finishing material selected from the group consisting of paraffin coated paper, PE coated paper, OPP coated paper, PE fiber coated paper, and tarpaulin paper. Branch pipe hybrid formwork. The single-ply semicircular branch pipe hybrid formwork according to claim 7, wherein the cross section of the semicircular branch pipe is finished using a tape selected from the group consisting of masking tape, OPP tape and PE tape. The single-ply semicircular branch pipe hybrid formwork according to claim 1, wherein the banding is at least one selected from the group consisting of tin band banding, iron banding, buckle-bonded iron banding, tumble buckle, and transport fiber band banding. The single-ply semi-circular branch pipe hybrid formwork according to claim 1, wherein the single-ply semi-circular branch pipe hybrid formwork further comprises a pair of PET coated paper or OPP coated paper along the inner circumference of the paper tube. 11. The single-ply semi-circular paper tube hybrid formwork according to claim 10, wherein the pair of PET coated paper or OPP coated paper is attached to the inner circumferential surface of the semi-circular paper tube using a double-sided tape. Metal support including a support formed in the longitudinal direction of the form to support the form according to the size of the circular structure and a shape retaining portion provided on both ends of the support and formed along the circumference of the outer portion of the form to maintain the form of the form Installing the step (step 1); Fixing the PET coated paper or the OPP coated paper to the inner circumferential surface of each of the pair of semicircular paper tubes in consideration of the die inner circumferential diameter (step 2); Installing a pair of single-ply semicircular branch tubes with the coated paper fixed to the metal support (step 3); Forming a form by fastening the pair of semicircular branch tubes using a plurality of bandings (step 4); And Method for forming a cylindrical column using a single-ply semicircular branch pipe hybrid formwork comprising the step of pouring concrete to the formed formwork (step 5).

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