KR100736216B1 - Contractible mold - Google Patents

Abstract

The present invention relates to a shrinkable formwork.

The present invention provides a connection member installed at each corner of the top plate and the four sides of the side plate, a corner member installed at the vertex portion in contact with the connection member, and the hardening shrinkage of the concrete is connected to the connection member and the inside of the corner member is poured Accordingly, the hydraulic cylinder for moving the connection member and the corner member is provided. Therefore, space efficiency is increased by making the corners of the inner formwork to contact each other at right angles, and by absorbing the shrinkage in the formwork, the residual stress is prevented from occurring in the concrete structure, thereby lowering the defective rate of the product. In addition, there is an effect of minimizing the movement of the inner formwork due to shrinkage to increase the life of the inner formwork.

Description

 Shrinkable Formwork {CONTRACTIBLE MOLD}

1 is a plan view schematically showing a state in which a general outer formwork and the inner formwork are installed.

2 is an exploded perspective view of the shrinkable formwork according to the present invention;

3 is a perspective view showing a state in which the corner member of the shrinkable formwork according to the present invention is moved;

Figure 4 is a side cross-sectional view of the shrinkable formwork according to the present invention.

Figure 5 is a side cross-sectional view showing an operating state of the shrinkage formwork according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: main plate 20: outer formwork

30: inner die 32: top plate

34: side plate 34 ': elastic portion

36: die fixture 37: inclined contact

40 connection member 42 movable surface

44: slope 50: corner member

60: hydraulic cylinder 62: piston rod

The present invention relates to the assembly of concrete structures, and more particularly, to a shrinkable formwork fabricated to form the inner corners of a concrete wall structure.

In general, in pouring a vertical hollow structure which is poured in a hollow form, the outer formwork and the inner formwork are assembled, and the concrete is placed therebetween, and after curing of the concrete is completed, the outer formwork and the inner formwork are disassembled.

The inner formwork is used here for the manhole concrete structure for manufacturing the communication manhole.

Commercially available inner formwork must be easily assembled in place and easily removed from the casting. In addition, all elements of the formwork must be interconnected with one another to avoid the risk of component loss between the assemblies, and the inner formwork must be closely aligned with the remainder of the formwork to produce a flat wall structure.

The inner formwork is often assembled to expand and contract inwardly with respect to the casting, and this shrinkage movement is fixed by hydraulic or the corresponding pressure of the iron sheet corresponding to the inner formwork, and when the shrinkage begins when the concrete is started and hardened. The fixed hydraulic cylinder is placed in neutral, and the inner formwork contracts with shrinkage while maintaining proper rigidity.

The shrinking formwork corresponds to a wall, and FIG. 1 is a plan view schematically illustrating a state in which outer formwork and inner formwork are installed.                         

The outer formwork 2 and the inner formwork 3 which are installed on the upper surface of the main plate 1 are installed, and the concrete is introduced therebetween to create a structure.

At this time, the contracting inner formwork 3 is bent at an appropriate angle at each end edge to provide a space in which the upper and lower inner wall formwork 4, 4 'and the left and right inner wall formwork 5, 5' must be moved at the same time. Chamfered portion 6 was formed.

However, the chamfered portion (6) helps to increase the structural strength, but by using the chamfered portion (6) to make a space that can not be used to reduce the actual space. The reduction of the real space is not significant in structures where the space at the corners is not important, such as manholes, but it is a very important obstacle in the medium and large structures that use the underground space compactly.

Therefore, the present invention is to solve such a conventional problem, it is an object to provide a shrinkage formwork to increase the space utilization efficiency by installing the corners of the inner form in contact with each other at a right angle.

The present invention for realizing the above object is in the shrinkage formwork assembled from the outer formwork, the top plate and the four-sided side plate located at a predetermined interval spaced inside the outer formwork; The connecting member is installed at each corner of the upper plate and the four-sided side plate, the corner member is installed at the vertex contacting the connecting member, and the hardening shrinkage of the concrete connected to the connection member and the inside of the corner member is poured It provides a shrinkable formwork, characterized in that the hydraulic cylinder for moving the connection member and the corner member is provided.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

Figure 2 is an exploded perspective view of the shrinkable formwork according to the present invention, Figure 3 is a perspective view showing a state in which the corner member of the shrinkable formwork according to the present invention, Figure 4 is a side cross-sectional view of the shrinkable formwork according to the present invention. ego. Figure 5 is a side cross-sectional view showing an operating state of the shrinkable formwork according to the present invention.

As shown in Figure 2, the shrinkage form according to the invention, the outer formwork 20 is fixed to the outermost by the main plate 10 and the hinge is installed, the inner formwork 30 forms a wall Four four-sided side plates 34 and top plates 32 are installed. And the connecting member 40 is installed at the corner where the side plate 34 is assembled, the corner member 50 is installed at the vertices where the connecting members 40 are in contact, and the connecting member 40 and the corner member ( A hydraulic cylinder 60 is installed to move and return 50 from the inside.

Here, each side plate 34 is made of an elastic portion 34 'corresponding to shrinkage by elasticity of the steel sheet, and fixes one end of the elastic portion 34' and is fixed to the main plate 10 which is the bottom surface. Formwork fixtures 36 are respectively installed. And the inclined contact surface 37 inclined at a predetermined angle toward the center or central axis of the formwork is formed on the side surface of the four-sided side plate 34.

And referring to Figure 4, the connecting member 40 is provided with a movable surface 42 inclined inward so that one end of the corners that meet each other can be folded at an acute angle, the upper plate 32 and the four side plates ( On the side that meets 34, an inclined surface 44 is formed to be moved obliquely toward the center of the formwork.

And the corner member 50 is assembled to the corner portion of the square that will be assembled to the three connecting members 40.

And the hydraulic cylinder 60 is installed to help the reduction movement or return in the direction of the center axis of the formwork inside the respective connecting member 40 and the corner member 50.

The hydraulic cylinder 60 preferably includes a reciprocating piston (not shown) and a piston rod 62.

The action of the shrinkage formwork according to the present invention configured as described above is as follows.

First, the outer formwork 20 and the inner formwork 30 will be poured between the polymer concrete that hardening shrinkage occurs greatly.

The polymer concrete is reduced in weight by 1/3 compared with conventional concrete, and exhibits excellent performance in strength and durability, and shrinks the inner formwork 30.

Looking at the shrinkage process of the inner formwork 30 in detail, as shown in Figure 3, the corner member 50 is exited toward the center of the formwork by the retraction of the piston rod 62 of the hydraulic cylinder (60).                     

Subsequently, referring to FIG. 5, the movable surface 42 which is inclined inwardly moves in abutting manner before moving to the central axis of the inner formwork 30 while the corners of the connecting member 40 meet at right angles. .

The movement of the connecting member 40 is that the inclined movable surface 42 is folded because the piston rod 62 of the hydraulic cylinder 60 that was supported is folded backward.

When the operation of the connecting member 40 is completed in this way, the elastic part 34 ′ of the four-sided side plate 34 constituting the wall is elastically supported inward in a state in which one end thereof is fixed by the die holder 36. , Like the spring action of the leaf spring, the movement is contracted to fit the inclined contact surface 37 of the four-sided side plate 34 corresponding to the inclined surface 44 of the connecting member 40.

This absorbs the shrinkage in the elastic portion 34 ′ of the four-sided side plate 34, thereby preventing residual stress from occurring in the concrete structure and minimizing the movement of the inner formwork due to the shrinkage.

At this time, depending on the degree of shrinkage of the structure to be poured is contracted with a rigid enough not to cause damage to the structure.

And when the structure is completed curing, remove the outer formwork (30, 20) is to return the corner member 50 and the connection member 40 by the hydraulic cylinder (60).

The shrinkage formwork connected in this way allows the connecting member 40 and the corner member 50 installed at right angles to the corner to be structurally contracted so that there is no waste of inner space. At the same time, to minimize the moving part of the inner formwork, and to increase the formwork life and shrinkage efficiency by the spring function corresponding to the shrinkage by the characteristics of the steel plate of the four sides of the side plate (34).

In the above description, it should be understood that those skilled in the art can make modifications and changes to the present invention without changing the gist of the present invention as merely illustrative of a preferred embodiment of the present invention.

As described above, the shrinkage formwork according to the present invention increases the space efficiency by making the corners of the inner form contact with each other at right angles, and absorbs the shrinkage from the formwork, thereby preventing the occurrence of residual stress in the concrete structure and lowering the defective rate of the product. There is.

In addition, there is an effect of minimizing the movement of the inner formwork due to shrinkage to increase the life of the inner formwork.

Claims (3)

An outer formwork, and a shrinkage formwork assembled with a top plate and a four-sided side plate which is spaced at a predetermined interval inwardly into the outer formwork; The connecting member is installed at each corner of the upper plate and the four-sided side plate, the corner member is installed at the vertex contacting the connecting member, and the hardening shrinkage of the concrete connected to the connection member and the inside of the corner member is poured Shrinkage formwork, characterized in that the hydraulic cylinder for moving the connecting member and the corner member is provided. The method of claim 1, The connecting member, the inclined movable surface is formed so that one end of the corners that meet at right angles to each other can be folded at an acute angle at right angles, the other end is inclined surface formed to be inclined toward the center of the formwork . The method according to claim 1 or 2, Shrinkable formwork, characterized in that the inclined contact surface corresponding to the inclined surface is formed on the side of the upper plate and the four-side side plate in contact with the inclined surface of the connecting member.

Images