KR100638846B1 - A pillar concrete form - Google Patents

Abstract

A pillar form is provided to execute maintenance at low cost although deformation of a pillar form occurs in forming a pillar, to connect and utilize pillar forms previously made without individually making a pillar form of size corresponding to width of the pillar, and to minimize a part protruded from the pillar form in connecting pillar forms. A pillar form(100) comprises plural pillar form members connected to each other through connecting units to constitute one side of a square-shaped pillar. The pillar form includes main frames(110) of a hollow box shape; base veneer boards(120) layered on the inside of the main frames; placing veneer boards(130) separably combined with inside of the base veneer boards through fastening units; and reinforcing frames(140) arranged to the outside of the main frames at predetermined intervals in the vertical direction and installed to the main frames in multi-stages. The connecting unit comprises a first connecting unit comprising a haunch foundation veneer board interposed between foundation veneer boards of the pillar form member, and a fastening unit fastened to an overlapped part of the placing veneer board and the haunch foundation veneer board. Opposed ends of the placing veneer boards are overlapped at the haunch foundation veneer board.

Description

A pillar concrete form

1 is a state of use of the columnar foam according to the first embodiment of the present invention.

Figure 2 is a rear view of the main frame applied to the pillar form according to the first embodiment of the present invention.

3 is a configuration diagram of a pillar form according to the first embodiment of the present invention.

Figure 4 is a rear view of the columnar foam according to the second embodiment of the present invention.

Figure 5 is a state of use of the pillar form according to a second embodiment of the present invention.

Figure 6 is a perspective view of a pillar form according to a third embodiment of the present invention.

Figure 7 is an enlarged perspective view of the connecting means applied to the pillar form according to the third embodiment of the present invention.

Figure 8a and Figure 8b is an exploded perspective view and a coupled state perspective view of the connecting means applied to the pillar form according to the third embodiment of the present invention, respectively.

<Description of Signs for Main Parts of Drawings>

100: pillar form, 110: main frame

111: base plate, 112: reinforcement plate

113: connecting angle, 114: guide rail

120: basic plywood, 121: rivet

130: pouring plywood, 131,132: fastener

140: reinforcement frame, 150: hunting plywood

200: connection means, 210: channel connector

220: fastening bolt, 230: fixing pin

240: fastener

The present invention relates to a pillar form, and more particularly, it can be maintained at low cost even if the pillar form is deformed when constructing the concrete by placing the pillar, and the pre-fabricated without making a pillar form suitable for the size of the pillar By connecting a plurality of pillar foam members to form one surface of the rectangular pillar, and relates to a pillar foam to adjust the position of the reinforcement frame according to the size of the pillar.

In general, the pillar foam is a concrete reinforcement for forming a plane by supporting the outer surface of the concrete when forming a column, etc. using concrete. Initially, the pillar form is used as a plate by using wood, especially plywood, and as a support using wood beams, etc., but recently used metal sheet and padded with other reinforcements. There is a trend to use.

Pillar form according to the prior art is composed of a reinforcing frame installed in multiple stages on the outer surface of the iron plate and the iron plate.

However, the pillar foam according to the prior art has the following problems.

Deformation (cracks, flexural deformation, concrete fixation, etc.) occurs in the column foam due to the impact and pressure generated during the concrete casting of the column. If the deformed pillar form is reused, cracks may occur on the column or the surface may be uneven. Therefore, a new pillar form that is not deformed should be used. However, the cost is increased because the pillar form is made of expensive steel plates. .

In addition, there is a disadvantage in that the manufacturing cost is expensive because the pillar foam having a size corresponding to the width of the pillar must be manufactured for the construction of the pillar.

In addition, because the reinforcement frame for the reinforcement of the pillar form should be installed at the optimum position for reinforcement according to the height of the column, there is also the inconvenience of installing the reinforcement frame at the position corresponding to the height of the column when manufacturing the pillar form.

The present invention is to solve the above-mentioned problems, it is an object to provide a pillar form that can be maintained at a low cost even if the deformation occurs in the pillar form when the concrete is formed by pouring.

In addition, another object of the present invention is to be able to connect to the pre-fabricated pillar form without producing a column form of the size corresponding to the width of the column.

Another object of the present invention is to minimize the portion protruding from the pillar form when connecting the pillar form.

Another object of the present invention is to be able to freely adjust the position of the reinforcement frame to match the height of the column.

The pillar foam according to the present invention for achieving the above object is composed of a main frame made of steel, a base plywood and a pour plywood that are sequentially stacked on the inner surface of the main frame, the pour plywood is cheaper than the main frame It is characterized by providing a high quality pillar foam.

In addition, the present invention is characterized in that the plurality of pillar foam members are connected through a separate plywood structure, and the protrusion of the connecting structure can be minimized when the pillar foam members are connected.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

<Example 1>

As shown in FIG. 1, the pillar foam 100 according to the present invention includes a main frame 110 having a box shape and a foundation stacked on an inner side surface of the main frame 110 (column P side in an installed state). Including a plywood 120, a pour plywood 130 laminated on the inner surface of the base plywood 120, and a plurality of reinforcement frame 140 horizontally installed in multiple stages on the outer surface of the main frame 110 It is configured to be installed on the periphery of the column (P) according to the shape of the column (P) to constitute the frame of the column (P).

As shown in Figure 1 and 2, the main frame 110 is made of steel and the outer side (installation state) of the base plate 111, the hollow of the longitudinally arranged in the interior of the base plate 111 It consists of a reinforcing bar (112).

As shown in Figure 1, the base plywood 120 is made of wood material is coupled to the inner surface of the base plate 111 of the main frame 110 is responsible for the foundation of the pour plywood 130.

As shown in FIG. 1, the pouring plywood 130 is made of wood and forms a pouring surface during concrete pouring of the pillar P, and is coupled to the base plywood 120 through a plurality of fasteners 131. That is, when the concrete is poured, the pour plywood 130 is deformed, and after disassembling the deformed pour plywood 130 by unfastening the fastener 131, the new pour plywood is fastened to the base plywood 120 by the fastener 131. Can be reused.

As shown in Figure 1, the reinforcement frame 140 is coupled to the outer surface of the main frame 110 in a multi-stage symmetrical pair of roughly the cross-section is welded or the like.

The assembly structure of the main frame 110, the base plywood 120, the pouring plywood 130 is as follows.

As shown in FIG. 3, the iron plate 111 and the base plywood 120 of the main frame 110 are assembled with a plurality of rivets 121, and the base plywood 120 and the pouring plywood 130 have a plurality of fasteners. 131 is assembled.

The pillar form 100 of this structure is disposed along the shape of the pillar (P), for example, in the case of a square pillar (P) is arranged in a square, in this case, the corners, as shown in the arc of Figure 1, in the form of a corner The main frames 110 on both sides which are adjacent to each other via the bent connection angle 113 are connected.

The action of the pillar form according to the present embodiment configured as described above is as follows.

At the time of construction of the pillar (P) this embodiment pillar form 100 is installed along the shape of the pillar (P). In the case of a square pillar (P), as shown in FIG. 1, the pillar foams 100 are arranged in a square shape, and the corner parts 100 are connected to each other by a connection angle 131, and the reinforcement frame 140 is installed. The pillar form 100 through the) to avoid leaving the square shape. The pillar foam 100 is made of a main frame 110, the base plywood 120 and the pouring plywood 130 of steel can maintain the installed state because of its high strength.

When the installation of the present embodiment pillar foam 100 is completed, the concrete is poured into the interior space of the pillar foam 100 to cure. When casting concrete, deformation (pillar due to impact, crack, shape deformation due to pressure, deformation due to concrete fixtures, etc.) occurs due to impact, pressure, sticking, etc. Almost no deformation is generated in the frame 110 and the base plywood 120, and the above-described deformation is generated only in the pour plywood 130 which is in direct contact with concrete.

When curing of the concrete is completed, the pillar foam 100 is demolished. Demolished pillar form 100 is reusable, and to be reused to remove the portion that cannot be reused, the main frame 110, the base plywood 120 has no deformation, deformation occurs only in the pour plywood 130 Therefore, after loosening the fastener 131 for fixing the pour plywood 130 to the base plywood 120 and separating the pour plywood 130 from the base plywood 120, the new pour plywood 130 is installed on the base plywood 120. Reassembled and reused when constructing another column.

<Example 2>

4 and 5, the pillar form 100 according to the present embodiment is coupled to a plurality of pillar form members (100A, 100B shown in Figure 2, but not necessarily limited to two) It is characterized by being able to form one side of the square pillar (P) (see Fig. 5). According to this embodiment, the pillar (P) by connecting a plurality of pre-formed pillar foam members (100A, 100B) without producing a pillar foam having a size corresponding to one side of the pillar (P) during construction of the square pillar (P) Because it can be completed the form of the pillar (P) during the construction of the pillar form (P) to fit the size of the pillar (P) does not have to be produced one by one.

The pillar foam members 100A and 100B are composed of the main frames 110A and 110B, the base plywood 120A and 120B and the pouring plywood 130A and 130B, as in the first embodiment.

The first connecting means of the pillar foam members 100A and 100B is, as shown in FIG. 5, the hunt superconducting plywood 150 interposed between the base plywood 120A and 120B of the pillar foam members 100A and 100B to be connected. ), Consisting of one or more fasteners 132 fastened to the overlapping portions of the placing plywood (130A, 130B) and the hunting gear plywood 150, respectively, to connect the pillar form members (100A, 100B). Specifically, the lengths of the facing base plywoods 120A and 120B are shorter than the lengths of the main frames 110A and 110B and the pouring plywoods 130A and 130B, and are shorter between the base plywoods 120A and 120B. One hunt plywood 150 having a true length is interposed so that the main frames 110A and 110B and the pour plywood 130A and 130B abut, and the hunt plywood 150 faces the plywood plywood 150A. And an end portion of 130B, and the fastener 132 is fastened to the overlap portion.

<Example 3>

As shown in Figure 6 and 7, the pillar foam 100 according to the present embodiment is handled by the connecting means 200 for connecting a plurality of pillar foam members (100A, 100B) as in the second embodiment ( Storage, transportation, installation, etc.) to prevent interference.

Specifically, as shown in Figures 6 to 8b, the second connecting means 200 are connected side by side reinforcement frame (140A, 140B) of the pillar form member (100A, 100B) constituting one surface of the rectangular pillar To form the pillar form member (100A, 100B) to be integrated, inserted into the space between the reinforcing frames (140A, 140B) disposed up and down, respectively, so as not to protrude to the outside and made in the form of a box open toward the inside in the front And a plurality of fastening bolts having a plurality of through holes 211 provided at upper and lower portions thereof, and having a pin inserting portion 221 and a bolt portion 222 inserted into and fixed inside the channel connector 210. 220, the through-holes 141A and 141B of the reinforcing frames 140A and 140B communicating with each other, the through-holes 211 of the channel connector 210 and the pin insertion portion 221 of the fastening bolt 220, are reinforced. A plurality of fixing pins 230 and fastening bolts 220 fixing the channel connectors 210 and the fastening bolts 220 to the frames 140A and 140B. Is screwed into teubu 222 comprises a pressure port (240), tightening the fastening bolt 220. Fastener 240 may be composed of a disk portion 241 and the operating portion 242 in the form of a butterfly nut.

That is, according to the present embodiment, the channel connector 210 is inserted into the reinforcing frames 140A and 140B and does not protrude outward, but only a part of the bolt portion 222 of the fastener 240 and the fastening bolt 220. Since it protrudes out of the reinforcement frames 140A and 140B, interference is hardly generated.

As described above, according to the pillar form according to the present invention, since the pillar can be formed by replacing the plywood, which is cheaper than the main frame of steel material, it is possible to construct a pillar with even surface, maintenance of the pillar form You can save money.

In addition, since the preformed pillar foam members can be connected to each other to form one surface of the pillar, it is not necessary to produce a pillar foam according to the size (width) of the pillar every time, thereby saving resources and easy handling.

In addition, when connecting a plurality of pillar foam members through the connecting means is less protruding than the surface of the pillar foam is easy to store, transport, and can prevent a safety accident due to interference during installation.

In addition, since the reinforcement frame can be integrated in the reinforcement frame and the pillar form by adjusting the position in the state in which the reinforcement frame is mounted, there is an effect such as very easy storage and transportation.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (4)

delete delete A main frame 110 having a box-shaped hollow inside; A base plywood 120 laminated on the inner surface of the main frame; A pour plywood 130 detachably coupled to the inner surface of the base plywood through a fastener 131; And, consisting of a pair of reinforcement frame 140 is installed in a plurality of stages in the main frame made up of a pair disposed at regular intervals up and down on the outer surface of the main frame, are connected to each other through a connecting means of a rectangular pillar ( In the pillar form consisting of a plurality of pillar foam members (100A, 100B) forming one side of P), The connecting means may be interposed between the base plywood (120A, 120B) of the columnar form member, the hunt plywood (150) overlapping the opposite ends of the pouring plywood (130A, 130B); Pillar form comprising a first connecting means consisting of a fastener 132 is fastened to the overlapping portion of the pour plywood and the hunting gear plywood. A main frame 110 having a box-shaped hollow inside; A base plywood 120 laminated on the inner surface of the main frame; A pour plywood 130 detachably coupled to the inner surface of the base plywood through a fastener 131; And, consisting of a pair of reinforcement frame 140 is installed in a plurality of stages in the main frame made up of a pair disposed at regular intervals up and down on the outer surface of the main frame, are connected to each other through a connecting means of a rectangular pillar ( In the pillar form consisting of a plurality of pillar foam members (100A, 100B) forming one side of P), The connecting means includes a plurality of through holes (141A, 141B) formed in the reinforcing frame; A channel connector (210) formed in a box shape opened toward the front and having a through hole (211) formed in each of the upper and lower parts thereof so as not to protrude from the reinforcing frame between the reinforcing frames; A fastening bolt 220 having a pin insertion portion 221 and a bolt portion 222 inserted into the channel connector; A fixing pin (230) penetrating the through hole of the reinforcing frame, the through hole of the channel connector, and the pin insertion portion of the fastening bolt to connect the reinforcing frames through the channel connector; Pillar form, characterized in that the reinforcing frame second connecting means consisting of a fastener (240) screwed to the bolt portion of the fastening bolt further comprises.

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