KR20130096079A - Form panel for end of the wall - Google Patents

Abstract

If only wall foam panels 6a of a certain size can be connected to construct the wall length to fit the design dimensions, after fabricating and installing separately 'non-standard' foam panels 6b according to the design dimensions, In order to solve the problem of the prior art that the panel 10 is installed as a coupling member on both end faces of the non-standard foam panel 6b,
The panel for curling according to the present invention is provided with a plurality of fastening holes 130 in the flange portion, by forming the fastening holes (130a ~ 130f) to have a constant distance (b) in the width direction of the flange portion,
Since any one of the fastening holes 130a to 130f may be selected to be combined with the angle coupling hole 51 in accordance with the remaining length of the wall to be constructed, the installation position of the panel 100 for curling is required. It can be changed according to.

Description

Formwork panel for cupboard and formwork assembly for wall using same {Form Panel for End of the Wall}

The present invention is a formwork panel (or also referred to as a wall end pannel) used for forming a wall end surface, or a space for installing a door frame or window frame in a concrete wall construction of a building, and a formwork assembly for a wall using the same Regarding,

Conventionally, in the situation where a non-standard dimension wall formwork has to be installed, it is assembled with a standard foam panel, and it is possible to install a formwork panel for a wall and a formwork assembly for a wall, which enables installation of a non-standard dimension wall residual formwork. will be.

On sites with many coplanar constructions, such as apartments and office buildings, form panels (often referred to as "Eurofoam" or "Alfom") to a certain size to be reused over a certain interval. After assembling by assembling the wall thickness, it is common to pour the wall concrete and construct it.

The foam panels used in the construction of such concrete walls are foam panels for the front and rear walls of the walls, as well as the panel panels (also called wall end pannels), which are used to form the end portions of the walls, and the space where the door frames or window frames are installed. Can be divided.

1 illustrates a state in which a wall foam panel and a copper panel which are generally used are combined. As shown in Figure 1, the wall form panel 6 facing each other and spaced apart from each other, and the end surface of the wall foam panel for the construction of the end surface of the wall, the copper panel 10 is a wedge-shaped fastening member ( 5) are firmly combined.

Generally, the copper panel 10 is configured by coupling the vertical member 1 for reinforcement to the rear surface of the steel sheet as shown in FIG. 1. In order to couple the above-mentioned copper panel 10 to both end faces of the wall foam panel 6, the horizontal member 4 having the coupling hole 3 is formed at regular intervals with the vertical member 1. After welding, the wedge-shaped fastening member 5 is engaged with the front and rear wall panel 6.

FIG. 2 is a plan view illustrating an existing formwork process in which a non-standard foam panel 6b is to be used, depending on the length of the wall to be constructed.

That is, when only a wall foam panel 6a of a predetermined size can be connected to construct a wall length suitable for a design dimension, as shown in FIG. 2, by connecting the wall foam panels 6a of a predetermined standard, After installing the formwork for the wall, after separately manufacturing and installing the 'non-standard' foam panel (6b) according to the design dimension in order to construct the end of the wall, the panel for the copper (10) 'non-standard foam panel ( 6b) has been coupled to both end faces as a fastening member. Reference numeral 9 which is not described in FIG. 2 shows a form tie (or also referred to as a 'flat tie') for supporting the wall form panel 6 spaced apart from each other at regular intervals.

In general, the width of the standard foam panel is manufactured and distributed in units of 50 mm, such as 400 mm, 450 mm, 500 mm, 550 mm, 600 mm, and the like, when the construction is performed according to the prior art.

That is, each construction company always secures these non-standard foam panels in case a non-standard foam panel (for example, 510mm, 520mm, 530mm, 540mm, etc.) that does not match the standard foam panel is required at a specific construction site. Should be stored in the material warehouse.

If a specific construction site requires foam panels of non-standard dimensions, the non-standard foam panels must be found and shipped, or they must be manufactured and ordered separately.

Due to this situation, the utilization of construction materials is extremely degraded, and construction management costs such as material storage and transportation costs are increasing.

KR 20-0315211 Y KR 20-0303825 Y KR 20-0285375 Y

The present invention has been made in order to solve the problems of the prior art as described above, it is an object of the present invention to propose a panel for a copper panel to enable the formwork for wall only by the standard foam panel.

Furthermore, an object of the present invention is to propose a wall-shaped formwork assembly using a wall-mounted panel that is capable of installing formwork for wall only with a standard foam panel.

In order to achieve the above object, the panel 100 for a copper according to the present invention is a null member 110 having a width corresponding to the thickness of the wall to be constructed, and the flange portion extending rearward from both ends of the null member 120 and a plurality of fastening holes 130 are provided in the flange portion, and the fastening holes 130a to 130f are provided to have the same interval b in the width direction of the flange portion. It is done.

In addition, two fastening holes adjacent to each other of the fastening holes 130a to 130f may be formed to be spaced apart from each other with a predetermined interval h in the longitudinal direction of the panel 100.

Further, the wall formwork assembly using the panel 100 for the curling, having a coupling hole 51 of the same interval (h) with the longitudinal interval of the fastening holes 130a to 130f formed in the panel for curling. A "shape | angle angle 50, and it is comprised by the mutual coupling of the specification foam panel 6a for wall construction, and the said panel for 100,

The "a" shaped angles 50 are respectively coupled to each end frame of the standard form panel 6a spaced apart from each other by a wall thickness as a fastening member, and the harness according to the present invention between the two angles 50. The fastening panel 100 is inserted into and fastened, and any one of a plurality of fastening holes 130a to 130f formed in the flange portion of the panel 100 according to the remaining length of the wall to be constructed is combined with the angle. By matching the balls 51 and mutually engaging with the fastening member,

It is characterized in that it is configured to vary the installation position of the copper panel 100 between the wall form foam panel spaced apart from each other to match the remaining length of the wall to be constructed.

The panel for curling according to the present invention is provided with a plurality of fastening holes 130 in the flange portion, by forming the fastening holes (130a ~ 130f) to have a constant distance (b) in the width direction of the flange portion, Since any one of the fastening holes 130a to 130f may be selected to be combined with the angle coupling hole 51 in accordance with the remaining length of the wall to be constructed, the installation position of the panel 100 for curling is required. It can be changed according to.

Therefore, the problem of the prior art, which had to secure non-standard foam panels (for example, 510 mm, 520 mm, 530 mm, 540 mm, etc.) at all times for the construction of walls of a specific dimension that cannot be constructed only by the standard foam panels, and thus the utilization of construction materials Not only can it minimize problems such as deterioration and increase in construction management costs,

It is a useful invention that can improve the work quality, as well as the construction quality of the mold assembly for the copper mold is simple.

1 is a perspective view showing a general configuration of a conventional wall mold construction formwork, Figure 2 is a plan view for explaining the situation that the installation of a non-standard foam panel for wall wall construction in the prior art.
Figure 3 shows a perspective view of a panel for a cup according to the present invention,
Figures 4a to 4c shows an example of the mold assembly for the wall of the wall panel is applied according to the present invention,
Figures 5a and 5b shows another example of the mold assembly for the wall of the wall to which the panel for copper according to the present invention is applied,
Figure 6 shows another example of a mold assembly for a cupri wall to which the panel for a cup according to the present invention is applied.

Hereinafter, the configuration of the copper panel 100 according to the present invention will be described in detail with reference to FIG. 3.

3 is a perspective view of a panel for a cup according to the present invention,

The panel for copper according to a preferred embodiment of the present invention,

A board member (110) having a width corresponding to the thickness of the wall to be constructed, and forming a curl surface of the wall to be constructed;

A flange portion 120 extending rearward from both ends of the null member;

The flange portion is provided with a plurality of fastening holes (130).

In particular, the panel for a copper according to the present invention, by forming a plurality of fastening holes (130a ~ 130f) to have a predetermined distance (b) in the width direction (that is, the longitudinal direction of the wall) of the flange portion 120 The fastening holes (i.e., the difference in length between the end of the wall to be constructed and the end of the specification panel in case the wall formwork is installed only with the standard foam panels). 130a to 130f) by selecting any one of the fastening holes can be combined with the angle coupling hole 51, it characterized in that the installation position of the panel 100 for the copper can be changed as necessary.

In the detailed description of the present invention, the thickness direction of the wall to be constructed is the same direction as the width direction of the null member 110 constituting the panel 100 for the present invention to be described later, the height direction of the wall is the present invention The length direction of the wall to be constructed, and the longitudinal direction of the wall to be constructed means the same direction as the width direction of the flange portion 120 constituting the panel 100 for the present invention.

In a preferred embodiment according to the invention, in forming the fastening holes (130a ~ 130f) to have a constant interval (b) in the width direction on the flange portion 120 of the copper panel, between the two adjacent fastening holes The smaller the spacing in the width direction (b), the smaller the number of joints can be selected and combined according to the exact dimensions of the remaining length (difference in length between the end of the wall to be constructed and the end of the standard panel).

When the spacing between two adjacent fastening holes are arranged too close, and when the fastening holes are drilled on the same horizontal line, the two fastening holes overlap or the base material rigidity between two adjacent fastening holes becomes weak.

When combined with the angle 50 to be described later as a fastening member, there may be a problem that the fastening member is not firmly supported in the fastening hole.

Therefore, not only the minimum diameters of the fastening holes 130a to 130f should be considered, but in particular, the plurality of fastening holes 130a to 130f are preferably configured such that they are not arranged on the same horizontal line.

As shown in FIG. 3 as a preferred embodiment according to the present invention, the fastening holes to have a constant distance (b) in the width direction (horizontal direction in Figure 3) to the flange portion 120 of the copper panel It is particularly preferable that 130a to 130f be formed under the following conditions.

That is, the second fastening hole 130b is formed by being spaced apart at a predetermined interval b from the position of the first fastening hole 130a, but the position higher than the position of the first fastening hole 130a by a predetermined interval h. To form a second fastening hole (130b). In addition, the third fastening hole 130c is spaced apart from the position of the second fastening hole (130b) to form a third fastening hole (130c), but the position higher than the position of the second fastening hole (130b) by a predetermined distance (h) It is particularly preferable to form the third fastening hole 130c in the groove. The fourth fastening hole 130d, the fifth fastening hole 130e, and the sixth fastening hole 130f are also formed to satisfy the above conditions.

Of course, if necessary, the third fastening hole 130c may be formed at a position lower by a predetermined interval h than the position of the second fastening hole 130b, in which case the fourth fastening hole 130d may be formed. The sixth fastening hole 130f is formed at a position higher by a predetermined interval h than the position of the third fastening hole 130c and lower than the position of the fifth fastening hole 130e and the fourth manufacturing hole 130d. ) May be formed at a position higher than the position of the fifth fastening hole 130e, so that each of the fastening holes may be arranged in a zigzag.

As described above, the fastening holes 130a to 130f are formed at different heights so as to have a predetermined distance b in the width direction on the flange portion 120 of the copper panel, thereby widthwise between two adjacent fastening holes. The gap can be minimized.

The embodiment shown in Figure 3 comprises a width of the flange portion 120 of the copper panel for 104mm, spaced distance (b) between the two fastening holes spaced apart by 10mm, the distance in the height direction (h ) To form a plurality of fastening holes 130 by spacing at intervals of 40mm.

4A to 4C are exploded perspective views, assembling perspective views, and horizontal cross-sectional views for explaining a state of use of the panel 100 for copper according to the present invention, respectively. 4A to 4C are explanatory views in which the "a" shaped angle 50 is coupled to the first fastening hole 130a in FIG. 3, and the length of the wall to be constructed is the standard foam panel 6a. Figures showing only the case that fits the dimensions by installing only.

As shown in Figure 4dp, the mold assembly for the wall using a panel for a cup according to the present invention,

Combining any one of the fastening holes 130a to 130f formed in the flange portion 120 of the copper panel and the coupling hole 51 of the "a" shaped angle 50 as a fastening member, the angle 50 In the formwork assembly for the wall of the wall formed by coupling the other side and the standard foam panel (6a) as a fastening member,

The "a" angle angle 50 is coupled to each end frame of the standard foam panel 6a installed to be spaced apart from each other by the thickness of the wall to be constructed as a fastening member, and the present invention between the two angles 50 Insert and fasten according to the copper panel 100 according to,

According to the remaining length of the wall to be constructed, any one of the plurality of fastening holes (130a ~ 130f) formed in the flange portion of the panel 100 for mating coincide with the coupling hole 51 of the angle to each other as a fastening member It is constructed by combining.

However, as described in the background art described above, construction sites that cannot match the length of the designed wall by installing only standard foam panels (wall foam panels having a width of 50 mm, such as 400 mm, 450 mm, 500 mm, 550 mm, and 600 mm) are installed. This often exists.

In this case, as shown in FIGS. 5A and 5B, another fastening hole formed in the flange portion 120 of the panel 100 according to the present invention and the corresponding coupling hole of the angle 50 are fastened. By engaging with the member, it is possible to adjust the installation position of the copper panel in the longitudinal direction of the wall by the widthwise interval between the two fastening holes.

In FIG. 5, the fifth fastening hole 130e and the angle 50 coupling hole are combined to each other in the width direction between the first fastening hole 130a and the fifth fastening hole 130e shown in FIG. 4. The length of the wall to be constructed can be adjusted by pushing the board member 110 of the copper panel in the longitudinal direction between the wall formwork by the interval (4 times the interval b, denoted by S in Fig. 5b).

As shown in Figure 5b, by changing the position of the fastening hole of the panel according to the invention by reducing the length of the wall to be constructed by S, the same effect as using a non-standard foam panel having a width of W1 can be obtained eventually It is a top view explaining that there exists.

By such a configuration, between the two wall formwork consisting only of the wall form foam panel, the installation position of the copper panel 100 can be varied along the longitudinal direction of the wall in accordance with the remaining length of the wall to be constructed. do.

And, Figure 6, in the embodiment shown in Figure 3, the first coupling hole 130d and the corresponding coupling hole 51 of the angle 50 is coupled to each other as a fastening member, the first fastening hole (130a) and The length of the wall to be constructed can be adjusted by pushing the board member 110 of the copper panel in the longitudinal direction between the wall formwork by the interval in the width direction (three times the interval b) between the fourth fastening holes 130d. Will be.

At this time, since the first fastening hole 130a and the fourth fastening hole 130d are spaced apart by a distance “3 × h” in the longitudinal direction of the copper panel, the copper panel 100 according to the present invention is In comparison, the coupling state shown in FIG. 4 is moved upward by a predetermined interval (shown as H in FIG. 6). Thus, an empty space is formed at the lower end of the panel 100 for curling, and to supplement the empty space, the panel for billing is cut by a corresponding length (H) to produce an auxiliary cupping panel 100a to form the empty space. It is preferable to combine with a panel for copper for.

Although the coupling hole 51 and the coupling hole 51 of the corresponding angle 50 shown in the drawings attached to the present invention, and the pin shown as a fastening member exemplarily shown a circular shape, the wedge of the plate The pin may be used as a fastening member and may be modified to be inserted into the rectangular fastening hole 130 and the coupling hole 51.

W: Width of standard foam panel (standard width)
W1: Width of non-standard formnel (non-standard width to be constructed)
6: wall foam panel
6a: compliant foam panel, 6b: non-compliant foam panel
50: "a" angle, 51: coupling hole
100: panel for copper
110: board member, 120: flange portion, 130 (130 ~ 130f): fastening hole
140: reinforcing member, 100a: auxiliary copper panel

Claims (4)

A board member (110) having a width corresponding to the thickness of the wall to be constructed, and forming a curl surface of the wall to be constructed;
A flange portion 120 extending rearward from both ends of the null member;
It is provided with a plurality of fastening holes 130 in the flange portion;
The fastening holes (130a ~ 130f) is a panel for copper, characterized in that the interval in the width direction of the flange portion is provided so that the same interval (b).
The method of claim 1,
Two fastening holes adjacent to each other of the fastening holes (130a ~ 130f) is a panel for marruguri, characterized in that are formed spaced apart from each other with a predetermined interval (h) in the longitudinal direction of the panel (100).
The method of claim 2,
The copper panel, the reinforcing member 140 for firmly connecting the two flange portions 120 extending rearward from both ends of the null member 110 are formed at regular intervals along the longitudinal direction of the copper panel. A panel for a cupboard, characterized in that.
The coupling holes (130a ~ 130f) formed in the copper panel according to any one of claims 1 to 3 provided with a coupling hole 51 formed at the same interval (h) in the longitudinal direction of the panel In the formwork assembly for the wall of the "a" shaped angle 50, the standard foam panel (6a) for wall construction, and the panel 100 for the above-mentioned
The "a" angle angle 50 is coupled to each end frame of the standard foam panel 6a installed to be spaced apart from each other by the thickness of the wall to be constructed as a fastening member, and the present invention between the two angles 50 Insert and fasten according to the copper panel 100 according to,
According to the remaining length of the wall to be constructed, any one of the plurality of fastening holes (130a ~ 130f) formed in the flange portion of the panel 100 for mating coincide with the coupling hole 51 of the angle to each other as a fastening member By combining
The formwork assembly for the wall of the wall, characterized in that configured to be variable in accordance with the remaining length of the wall to be constructed, the installation position of the panel for the panel 100 is spaced apart from each other installed between the standard foam panel.

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