KR100852454B1 - Unit panels, composite unit panels and variable system formwork - Google Patents

Abstract

The present invention relates to a system formwork, in which a stay bar having a fitting groove formed at regular intervals along a length direction between vertically spaced vertical panels disposed to face each other is installed by a control bar, wherein the installation height of the stay bar, the spacing of the formwork, the formwork It provides system formwork that can adjust the width and connection angle between formwork.

Description

Unit panel, complex unit pannel and Variable system form

The present invention relates to a formwork used in the production of concrete structures in the field of construction and civil engineering, and more particularly to a system formwork that can adjust the installation height of the stay bar, the spacing of the formwork, the width of the formwork and the connection angle between the formwork. will be.

Concrete has a wide range of applications such as buildings, roads, bridges, water and sewage. Therefore, the design of the concrete structure appears in various forms.

An object of the present invention is to provide a system formwork that can be modified to be applicable to a variety of construction sites.

1. Form a plurality of fitting grooves in the length members (vertical angle and stay bar) installed in the vertical and horizontal directions, respectively, and integrate the system formwork through the control bar that is fitted and fixed at the same time to the vertical groove and the fitting groove of the stay bar. And adjust the installation height of the stay bar and the spacing of the formwork by adjusting the position of the control bar.

2. The main panel and the subpanel are overlapped so that the overall width of the formwork can be adjusted through the lateral sliding movement of the subpanel.

3. The panel unit is configured to be connected and integrated horizontally, and the connecting part is configured to adjust the connection angle while the panels are connected horizontally.

According to the present invention has the following effects.

1. By adjusting the installation height of the stay bar, the stay bar can be used for various purposes, such as formwork spacing zone, concrete placing baseline and mounting frame of other members according to the construction situation.

2. The combination of vertical angle, stay bar and control bar makes it easy to adjust the formwork spacing, so it can be used for wall construction designed in various thicknesses.

3. By using the composite unit panel with panel width adjustment function, it is easy to cope with the situation that needs to add or subtract the formwork width.

4. The connection part can be fixed while adjusting the connection angle between panels, so it can be used for the part where the angle of wall is changed.

Hereinafter, the present invention will be described in detail with the accompanying drawings.

1. Unit panel

The present invention is composed of a formwork 110 and the frame portion 120 coupled to the upper and lower ends of the formwork 110, as shown in Figure 1, a plurality of fitting grooves 11 at regular intervals along the longitudinal direction The formed vertical angle 10 provides a unit panel 100, characterized in that coupled to both sides of the formwork (110).

Since the unit panel 100 constitutes one component of the variable system formwork 100 to be described later, a more detailed description of the unit panel 100 will be described later.

2. Composite Unit Panel

The present invention is composed of a main formwork 210a and a main frame portion 220a coupled to upper and lower ends of the main formwork 210a, as shown in FIG. 2A, and a plurality of fitting grooves at regular intervals along the longitudinal direction. A vertical angle 10 having the 11 formed therein is provided with a main panel 200a provided at one side of the main formwork 210a, and as shown in FIG. 2B, a sub formwork 210b and the sub formwork 210b. And a vertical frame 10 having a plurality of fitting grooves 11 formed at predetermined intervals along the longitudinal direction, the sub-frame part 220b coupled to the upper and lower ends of the main panel 200a. It provides a composite unit panel 200 consisting of a sub-panel 200b provided on the opposite side.

The composite unit panel 200 is configured such that the main panel 200a and the sub-panel 200b overlap with each other, and the sub-frame panel 210b is in contact with the rear surface of the main-frame panel 210a and the sub-frame. The part 220b is in contact with the inner surface of the main frame part 220a, respectively, and the sub-panel 200b is configured to slide along the main frame part 220a to adjust the panel width.

Meanwhile, as illustrated in FIG. 3, a horizontal groove 221 is formed in the upper frame portion 220b of the subpanel 200b, and the horizontal frame 221 is formed in the upper frame portion 220 of the main panel 200a. By mounting the fixing bolt 222 penetrating the groove 221 and the fixing nut (not shown), it is possible to fix the entire width of the composite unit panel 200 as it is adjusted.

By allowing the width of the composite unit panel 200 to be adjusted, the present invention can be applied to a wall designed to various lengths. Since the composite unit panel 200 also constitutes one component of a variable system formwork to be described later, a more detailed description of the composite unit panel 200 will be described later.

3. Variable system formwork

The present invention is a system formwork in which the stay bar 20 is formed by the control bar 30 is provided with a stay bar (20) formed at regular intervals along the longitudinal direction between the vertical surface panels 300 spaced apart from each other to face each other, The vertical panel 300 includes two unit panels 100 of claim 1 or two composite unit panels 200 of claim 2 or a unit 40 between the unit panel 100 and the composite unit panel 200. It is connected in the horizontal direction, the control bar 30 is a member bent to have a vertical portion 31 and the horizontal portion 32, the vertical portion 31 is the fitting groove 21 of the stay bar 20 At the same time, the horizontal portion 32 is simultaneously fitted into the fitting grooves 11 of two adjacent vertical angles 10, so that the stay bar 20 is between two unit panels 100 or two composite unit panels ( Variable type, characterized in that installed or fixed between the 200 or between the unit panel 100 and the composite unit panel 200 It provides a formwork system 1000.

4 illustrates one embodiment of a variable system formwork 100 in accordance with the present invention, and FIG. 5 illustrates one embodiment of a vertical face panel 300.

The illustrated vertical surface panel 300 shows an embodiment of a vertical surface panel in which the unit panel 100 and the composite unit panel 200 are laterally connected, and according to a construction situation, two unit panels 100 or two composite units are shown. The panel 200 may be connected laterally to be used as a vertical surface panel. However, when the connection angle between unit panels (or composite unit panels) is adjusted, it may be necessary to vary the widths of the vertical panel panels facing each other. In this case, the panel width adjustment function of the composite unit panel 200 may be adjusted. It can be useful.

On the other hand, the stay bar 20 is a form spacing holding zone for maintaining a constant spacing of the vertical panel 300 disposed to face each other against the side pressure during the concrete pouring, the length as shown in FIG. A plurality of fitting grooves 21 are formed at regular intervals along the direction.

 In the embodiment shown in FIG. 4, the stay bar 20 is disposed to cross a portion where the unit panel 100 and the composite unit panel 200 are joined together, and then fixed in a state installed by the control bar 30. do.

The control bar 30 is composed of a vertical portion 31 and a horizontal portion 32 as shown in Figure 7, wherein the vertical portion 31 is fitted into the fitting groove 21 of the stay bar 20, The horizontal portion 32 is inserted into and fixed to the fitting grooves 11 of two adjacent vertical angles 10 at the same time.

The installation height of the stay bar 20 and the arrangement interval of the vertical surface panel 300 vary according to the coupling state of the vertical angle 10, the stay bar 20, and the control bar 30.

That is, the stay bar coupled with the vertical part 31 of the control bar 30 depends on where the horizontal part 32 of the control bar 30 is fitted into the fitting groove 11 of the vertical angle 10. The installation height of 20 is determined, and the vertical portion 31 of the control bar 30 is fitted to the vertical angle 10 depending on which of the fitting grooves 21 of the stage bar 20 is fitted. By the arrangement interval of the vertical panel 300 to be coupled to the horizontal portion 32 of the control bar 30 is determined, as described above the installation height of the stay bar 20 and the vertical interval of the vertical panel 300 Is controlled in an organic linked state through the control bar (30).

On the other hand, the control bar 30 may be used that the vertical portion 31 is provided in the form of a taper (taper). Although the installation height of the stay bar 20 is determined according to which of the vertical grooves 10 of the vertical portion 10 of the control bar 30 is fitted, the control bar provided in a tapered form By the height change of the vertical part of 30, the fine adjustment of the installation height of the stay bar 20 is attained.

Various effects can be expected from being able to adjust the installation height of the stay bar 20 as described above. That is, the installation height of the stay bar 20 may be a reference line of concrete placing, and may be mounted on the stay bar 200 with a predetermined other member, so that it may be variously applied in kicker installation and road boundary stone construction. .

8 illustrates a state in which the formwork is laterally abutted, and is in contact with one side of the main formwork 210a of the composite unit panel 200, that is, the formwork 110 of the unit panel 100 laterally. It can be seen that the vertical groove 211 is formed in the site.

Since the vertical grooves 211 perform a function as a passage through which the stay bar 20 moves in the vertical direction, the vertical grooves 211 do not always need to be formed in the main die 210a as shown in FIG. It can also be formed in the formwork 110 of the panel.

However, when pouring concrete between opposing vertical surface panels 300, there is a risk that concrete may escape into the vertical grooves 211, but this concern can be resolved by packing the vertical grooves 211 before concrete placement.

On the other hand, the connection unit 40 for connecting two unit panel 100 or two composite unit panel 200 or the unit panel 100 and the composite unit panel 200 laterally is preferably configured to adjust the connection angle. Do.

For the adjustment of the connection angle can be considered a coupling by a hinge applied to the general swing door, in the present invention, in addition to adjusting the connection angle, in consideration of the fixing in the state in which the connection angle is adjusted, the connection portion as shown in FIG. 40 is presented.

9, the hinge bolt 41 is installed over two vertical angles 10 adjacent to each other so that the connection angle between the connected unit panel 100 and the composite unit panel 200 is adjusted. It is composed.

The hinge bolt 41 is formed with a hole in one end of the bolt, the hole forming portion is arranged and fixed on the bracket 42 installed in the vertical angle 10 on one side, the bracket 42 and the hinge bolt 41 The pin bolt 43 coupled to the fixing nut 45a in a state penetrating the through hole of the shaft is installed to be rotatable, and the bolt portion having the male thread is installed to be rotatable in the vertical axis direction on the other vertical angle 10. In a state in which the hinge block 44 is mounted, it is fixed by fixing nuts 45b and 45c coupled at both sides of the hinge block 44.

The operation of the connecting portion 40 will be described in more detail with reference to FIG. 9, hereinafter, the through-hole side of the hinge bolt 41 is defined as the left side, and the bolt side of the hinge bolt 41 is defined as the right side in FIG. 9. The null side is defined as the inner frame part outside.

In a state where the unit panel 100 and the composite unit panel 200 are connected to form one surface, the left fixing nut 45b of the fixing nuts 45b and 45c coupled to the hinge bolts 41 at both sides of the hinge block 44. ) Is moved to the left side and the unit panel 100 and the composite unit panel 200 are flipped outwards, and then the fixing nuts 45b and 45c of both sides of the hinge block 44 are tightened to fix the vertical panel 300. Is fixed in an outwardly folded state as shown in FIG. 10A.

On the contrary, the fixing nut 45c on the right side of the hinge block 44 is moved to the right side, and the unit panel 100 and the composite unit panel 200 are folded inward, and both fixing nuts 45b, Tightening and fixing 45c), the vertical surface panel 300 is bent inward as shown in Fig. 10b.

As such, as the connection angle of the unit panel or the composite unit panel is adjusted, it may be usefully used when manufacturing a wall designed to be bent at various angles.

On the other hand, the hinge block 44 is processed into a U-shape as shown in Figure 11 so that the hinge bolt 41 pivots the pin bolt 43 to the axis, and is fitted through the side of the hinge block 44 Can be configured to be mounted. In this case, since the hinge bolt 41 may be mounted or dismantled through the side of the hinge block 44, the operation of adjusting the connection angle of the unit panel or the composite unit panel may be more easily performed.

The variable system formwork 1000 can be used by connecting a plurality in the horizontal direction, the configuration and operation of the connecting portion 40 is applied to the connection between the vertical panel 300 of the variable system formwork 1000 as described above. can do.

Figure 1 shows one embodiment of a unit panel in the present invention.

2A and 2B illustrate an embodiment of a main panel and a subpanel constituting the composite unit panel according to the present invention, respectively.

3 illustrates a frame portion of the main panel and the subpanel.

Figure 4 illustrates one embodiment of a variable system formwork according to the present invention.

Figure 5 illustrates one embodiment of a vertical face panel.

6 shows a stay bar.

7 shows a control bar.

8 illustrates a state in which the formwork is laterally abutted.

Figure 9 shows an embodiment of a connecting portion.

10A and 10B illustrate a state in which a connection angle between the unit panel and the composite unit panel is adjusted.

<Explanation of symbols for main parts of the drawings>

1000: variable system formwork

100: unit panel 200: composite unit panel

200a: main panel 200b: subpanel

300: vertical face panel

10: vertical angle 20: stay bar

30: control bar 40: connection

Claims (6)

It consists of a formwork 110 and the frame portion 120 coupled to the upper and lower ends of the formwork 110, Unit panel 100, characterized in that the vertical angle (10) formed with a plurality of fitting grooves 11 at regular intervals along the longitudinal direction is coupled to both sides of the formwork (110). It consists of a main formwork (210a) and the main frame portion (220a) coupled to the upper and lower ends of the main formwork (210a), a vertical angle (10) formed with a plurality of fitting grooves 11 at regular intervals along the longitudinal direction The main panel 200a provided on one side of the main formwork 210a, A vertical angle 10 having a plurality of fitting grooves 11 formed at regular intervals along a longitudinal direction, and including a sub-frame member 210b and a sub-frame portion 220b coupled to upper and lower ends of the sub-module 210b. As the sub-panel 200b provided on the side opposite to the height adjusting part of the main panel 200a is configured to overlap, The sub die 210b is in contact with the rear surface of the main die 210a, and the sub frame part 220b is in contact with the inner side of the main frame part 220a, respectively, and the sub panel 200b is The composite unit panel 200 configured to adjust the panel width by sliding along the main frame part 220a. As a system formwork, in which a stay bar 20 having a fitting groove 21 formed at regular intervals along a longitudinal direction between vertical surface panels 300 spaced apart from each other is installed by a control bar 30, The vertical surface panel 300 includes two unit panels 100 of claim 1 or two composite unit panels 200 of claim 2 or the unit panel 100 and the composite unit panel 200 connected to the connection portion 40. Connected laterally by  The control bar 30 is a member bent to have a vertical portion 31 and a horizontal portion 32, the vertical portion 31 in the fitting groove 21 of the stay bar 20, the horizontal portion ( 32 is simultaneously fitted in the fitting grooves 11 of two adjacent vertical angles 10 so that the stay bar 20 is between two unit panels 100 or between two composite unit panels 200 or the unit. Variable system formwork (1000), characterized in that installed and fixed between the panel 100 and the composite unit panel (200). The method of claim 3, wherein the control bar 30, Variable system formwork (1000), characterized in that the vertical portion 310 is provided in the form of a taper (taper). The method of claim 3, wherein the connection portion 40, Hinged bolts 41 having a hole formed at one end of the bolt are installed over two vertical angles 10 adjacent to each other, and configured to adjust a connection angle between the unit panels 100. The hinge bolt 41, The through hole forming portion is arranged and fixed on the bracket (42) installed in the vertical angle 10 on one side, the pin is coupled to the fixing nut (45a) in the state through the through hole of the bracket 42 and the hinge bolt 41 It is installed to be able to rotate the bolt 43 to the shaft, Fixing nuts 45b and 45c coupled to both sides of the hinge block 44 in a state in which a bolt portion in which a male thread is formed is mounted on a hinge block 44 installed to be rotatable in the vertical axis direction at the other vertical angle 10. Variable system formwork, characterized in that fixed by the 1000. In claim 5, The hinge block 44 is machined into a U-shape so that the hinge bolt 41 pivots about the pin bolt 43 and is fitted through the side of the hinge block 44 to be mounted. Formwork (1000).

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