KR101050493B1 - Embedded cone apparatus for supporting vertical concrete form, installation structure of form supporting assembly, and constructing method of vertical concrete - Google Patents

Abstract

PURPOSE: An installation structure of mold support assembly is provided to improve the supporting force to a vertical support beam and vertical mold using a mold fixing rod. CONSTITUTION: A cone main body(10) is buried in concrete. A latching member(20) is combined in the cone main body. The cone main body has a tapered portion of a cone. The latching member has a center member. A first flange part and a second flange part are located on the center member. A front end part of a mold fixing rod is combined with a vertical support beam of a mold support assembly in order to support a vertical mold.

Description

Embedded cone device for installing formwork assembly for supporting vertical formwork, installation structure of formwork assembly using same, and construction method of vertical concrete member using the same {Embedded Cone Apparatus for Supporting Vertical Concrete Form, Installation Structure of Form Supporting Assembly, and Constructing Method of Vertical Concrete}

The present invention provides a cone device embedded in a concrete member and a form support assembly using the same, in order to fix the vertical formwork used for the construction of the vertical concrete member and to install the formwork assembly supporting the vertical formwork. The present invention relates to a structure and a method of constructing a vertical concrete member using the same, in particular, in installing a vertical formwork and a formwork assembly supporting the same, in order to construct a vertical concrete member such as a concrete pylon, a concrete column, a concrete wall, and the like, The buried cone device is embedded in concrete, but the formwork rod can be coupled to the buried cone device. The formwork rod is used to support the vertical support beam of the formwork assembly horizontally, so that the concrete placing pressure is also reduced. Stably vertical formwork It is possible to support the construction of economically vertical concrete members by reducing the size and capacity of the inclined telescopic support or eliminating the installation of the inclined telescopic support. It relates to a buried cone device of the configuration, the installation structure of the formwork assembly using the same, and the construction method of the vertical concrete member using the same.

When installing vertical formwork to construct vertical concrete members such as pylons, concrete columns, concrete walls, etc., a buried cone device is used. 1 and 2 show a schematic exploded perspective view and an assembled perspective view of a conventional embedded cone device 100, respectively. 3 is a schematic perspective view showing a state in which a vertical formwork 200 is coupled to a conventional formwork assembly 300, and FIGS. 4A to 4D show the conventional buried cone shown in FIGS. 1 and 2, respectively. A schematic side view is shown showing the construction of a vertical concrete member by installing the formwork assembly 300 and the vertical formwork 200 using a device, while placing concrete sequentially in the vertical direction. For reference, the direction toward the concrete throughout this specification is referred to as "front", and the opposite direction is described as "rear".

1 and 2, the conventional buried cone device 100, the cone body 101 having a conical cone shape that is pointed toward the concrete, that is, the front is buried in the concrete, and the cone body 101 And a locking member 102 coupled to the rear of the horizontal support beam 301 of the formwork assembly 300 and coupled to the cone body 101. It has the structure containing the bolt member 103. Through-holes are formed in the center of the cone body 101, anchor rods 104 made of steel rods, etc. are fitted into the through-holes at the conical front end of the cone body 100 are coupled.

The locking member 102 is formed of a cylindrical member that is elongated, the bolt member 103 is the locking member (in the state in which the inner end of the locking member 102 is in close contact with the rear end of the cone body 101). After being inserted through the through hole 1023 of the 102, the locking member 102 is inserted into the through hole 1010 formed at the rear end of the cone body 101, and the locking member 102 is connected to the rear end of the cone body 101. Disassembly and assembly are possible. The cylindrical body of the locking member 102 is provided in a state in which the first flange portion 1021 and the second flange portion 1022 are greatly spaced in cross section. Therefore, as will be described later, the front end of the horizontal support beam 301 of the formwork assembly 300 is sandwiched between the first flange portion 1021 and the second flange portion 1022 so as to span.

This conventional buried cone device 100 is used to install the vertical formwork 200 and the formwork assembly 300 suspended in midair as shown in FIGS. 4A-4D. The formwork assembly 300 is used to vertically install the vertical formwork 200 and to maintain the vertical formwork 200 in a vertical state even when a concrete placing pressure is applied thereto. The formwork assembly 300 generally comprises a horizontal support beam 301, a vertical support beam 302, and an inclined stretch support 303, as shown in FIGS. 3 and 4A-4D. The vertical support beam 302 is coupled to the outer surface of the vertical formwork 200, the lower end of the vertical support beam 302 is rotatably and horizontally coupled to the horizontal support beam 301. Specifically, a hinge member 305 is provided between the lower end of the vertical support beam 302 and the horizontal support beam 301, and the lower end of the vertical support beam 302 is horizontal in the hinge member 305. It is coupled to rotate while moving. The hinge member 305 is installed to change its position on the horizontal support beam 301. The inclined stretch support 303 is disposed to be inclined so that both ends are coupled to the vertical support beam 302 and the horizontal support beam 301, respectively, and is configured to be stretchable to support the vertical support beam 302 from the rear. The vertical support beam 302 is kept vertical. The inclined stretch support 303 is usually made of a hydraulic jack, as shown in Figures 4a to 4d, when the inclined stretch support 303 is extended, the vertical support beam 302 is positioned vertically, the inclined stretch support ( When the 303 contracts, the vertical support beam 302 is tilted outward while rotating about the lower end, such that the vertical formwork 200 is far from concrete. In FIG. 3, the member number 600 is provided on the formwork assembly 300, and the work bench 600 is provided by the worker to work up, and the member number 601 is a safety railing 601.

Figure 4a is in the process of manufacturing the vertical concrete member 400 using a conventional buried cone device, the formwork assembly 300, and the vertical formwork 200, using the concrete (C1) of the lower curing already completed It shows a state in which the vertical formwork 200 and the formwork assembly 300 is installed. As shown in FIG. 4A, the cone body 101 and the anchor rod 104 of the buried cone device 100 are embedded in the lower concrete C1 that has already been poured and cured, and the rear end portion of the cone body 101 is previously embedded. The engaging member 102 is coupled. The horizontal support beam 301 of the formwork supporting assembly 300 has its front end coupled horizontally with the locking member 102. Therefore, the support foot 306 protruding in the concrete direction from the bottom of the vertical extension beam 304 extending downward of the horizontal support beam 301 abuts the bottom concrete (C1) surface and the front end of the horizontal support beam 301 By being fastened with the locking member 102 of the buried cone device 100, the entire die support assembly 300 is installed while hanging on the concrete (C1) at the bottom. Accordingly, the vertical formwork 200 is also installed vertically withstanding the placing pressure of the upper concrete (C2). At this time, the vertical formwork 200 is previously coupled to the anchor body 104 and the cone body 101 of the buried cone device that can be embedded in the concrete (C2) of the top to be poured later. Subsequently, the concrete is poured over the lower concrete C1 to form the upper concrete C2. 4b shows a state in which the upper concrete C2 is poured onto the lower concrete C1.

When it comes to demolding the vertical formwork 200 from the upper concrete C2, as shown in Fig. 4c, the inclined stretchable support 303 is contracted, so that the vertical support beam 302 is tilted outward while rotating. As the vertical formwork 200 coupled with the vertical support beams 302 is separated from the upper concrete C2. At this time, the locking member 102 is coupled to the cone body 101 embedded in the upper concrete C2. Subsequently, as shown in FIG. 4D, the vertical formwork 200 and the formwork assembly 300 are lifted and lifted, and the front end of the horizontal support beam 301 of the raised formwork assembly 300 is the upper concrete C2. After spreading over the engaging member 102 of the buried cone device provided in the, extend the inclined stretch support 303 to rotate the vertical support beam 302 back inward to vertically form the vertical formwork 200, As shown in Figure 4a it is ready to pour concrete again.

In installing the conventional landfill cone device 100 and the formwork support assembly 300 using the same, and according to the step-by-step construction of the concrete of the vertical concrete member, it is caught with the cone body 101 of the landfill cone device Since the member 102 is coupled by the bolt member 103, the following inconveniences exist.

As described above, the cone body 101 and the locking member 102 have a through hole 1023 formed in the center thereof, and the cone body 101 is located in the state where the locking member 102 is located at the rear end of the cone body 101. The through hole 1010 formed in the rear end of the) and the through hole 1023 of the engaging member 102 are in communication with each other, the bolt member 103 is inserted into the communicating through hole and fastened, thereby the locking member ( 102 is coupled to the cone body 101. Accordingly, the buried cone device 100 merely serves to couple the horizontal support beam 301 of the formwork assembly 300.

As a result, the placing pressure of the concrete applied to the vertical formwork 200 is entirely supported by the inclined stretch support 303. The inclined telescopic support 303 is usually composed of a hydraulic jack, in order to withstand all the placing pressure of concrete, the inclined telescopic support 303 must be able to exert a large capacity, that is, a large support force, accordingly the device of the inclined telescopic support 303 In addition, the size and weight are also increased, and the cost is also increased, which lowers the construction economics.

The present invention was developed to overcome the limitations of the prior art as described above, specifically, to reduce the size and capacity of the inclined telescopic support provided in the formwork assembly to support the vertical formwork for vertical concrete molding inclined telescopic support Even if the support force is reduced, the vertical support beam and the vertical formwork of the formwork assembly can be stably supported against the concrete placing pressure, thereby reducing the cost and reducing the size and capacity of the inclined stretch support. It aims at making construction economics improvement.

The present invention provides a buried cone device embedded in the concrete of the vertical concrete member, in order to suspend the formwork assembly for supporting the vertical formwork for the construction of the vertical concrete member, in order to achieve the above object, specifically As a buried cone device according to the present invention, the cone body having a conical cone shape that is pointed toward the embedded in the concrete, and the front end of the horizontal support beam of the formwork assembly is coupled to the rear of the cone body It includes a engaging member coupled; The cone body has a conical tapered portion, a coupling portion is formed at the rear end of the tapered portion, and a fastening hole is formed at the front end of the tapered portion to insert and engage an anchor rod; The locking member has a shape in which the central member extends long, and the central member is provided with a first flange portion and a second flange portion spaced apart from each other so as to have a cross section larger than a cross section of the central member. A front end of the center member is coupled to the coupling part of the cone body so as to be disassembled; The front end of the formwork holding rod coupled with the rear end to the vertical support beam provided in the formwork assembly to support the vertical formwork can be coupled to the locking member in a state in which the cone body and the locking member are engaged. The member is formed with a rear insertion hole into which the die fixing rod is inserted from the rear end to the center member.

The buried cone device of the present invention as above, the engaging portion is made of a portion protruding to the rear of the cone body; A screw is formed on an outer surface of the protruding coupling portion; A front insertion hole is formed at the front end of the central member; A screw is formed on an inner surface of the front insertion hole; The coupling part may be screwed into the front insertion hole so that the locking member and the cone body are coupled to each other so as to be disassembled.

In addition, in the present invention, by using the above-mentioned buried cone device, there is provided a structure for installing a formwork support assembly for supporting and installing the vertical formwork for vertical concrete member construction, specifically, the installation structure of the formwork support assembly according to the present invention In the formwork assembly comprises a vertical support beam coupled to an outer surface of the vertical formwork to support the vertical formwork, and the horizontal support beam to which the bottom of the vertical support beam is coupled; In the cured lower concrete, an anchor rod and a cone body of a buried cone device are embedded. The cone body has a conical tapered portion, and a rear end portion of the tapered portion has a coupling portion, and an anchor rod at the front end portion of the tapered portion. A fastening hole to be inserted and coupled is formed; In the state where the cone body is embedded in the concrete of the lower end, the rear end of the cone body is coupled to the engaging member coupled to the front end of the horizontal support beam of the formwork assembly is coupled, the locking member is a long center member It has an extended shape, the central member is provided with a first flange portion and a second flange portion extended to have a larger cross section than the cross section of the central member, the front end of the central member is the cone Coupled to the coupling portion of the main body so as to be disassembled, the central member having a rear insertion hole formed from the rear end thereof into the central member; A front end of the horizontal support beam is bent upwardly and is coupled in a form spanning the engaging member so that the horizontal support beam protrudes outward from the lower concrete and is horizontally installed; The cone body is coupled to the locking member, and the horizontal support beam is coupled to the locking member, and the vertical support beam is vertically disposed with the lower end coupled to the horizontal support beam, thereby making the vertical formwork vertical. It is installed, the front end of the formwork fixing rod is inserted and fixed to the rear insertion hole of the locking member, and the rear end of the formwork fixing rod is coupled to the vertical support beam, by the upper concrete which is cast on the vertical formwork disposed vertically A bearing force against the pouring pressure is exerted by the die fixing rod.

In addition, in the present invention, in order to achieve the above object, there is provided a construction method of the vertical concrete member using the buried cone device and the form support assembly, specifically, in the construction method of the vertical concrete member according to the present invention, the concrete at the bottom After the construction of the formwork, the formwork assembly is installed in the bottom concrete, and the vertical formwork for constructing the top concrete above the bottom concrete is installed so as to be supported by the formwork assembly; The formwork assembly comprises: the vertical support beam coupled to an outer surface of the vertical formwork to support the vertical formwork; and the horizontal support beam to which the bottom of the vertical support beam is coupled; In the lower concrete, the cone body of the anchor rod and the buried cone device is buried in advance so that the anchor rod and the cone main body are fixed to the lower concrete, and the cone body has a conical tapered portion, and the coupling portion is provided at the rear end of the tapered portion. It is formed, the fastening hole is formed in the front end of the tapered portion is coupled to the anchor rod is inserted; In the state in which the cone body is embedded in the concrete of the lower end, the rear end of the cone body is coupled to the engaging member coupled to the front end of the horizontal support beam of the formwork support assembly, the locking member is a long center member It has an extended shape, the central member is provided with a first flange portion and a second flange portion extended to have a larger cross section than the cross section of the central member, the front end of the central member is the cone Coupled to the coupling portion of the main body so as to be disassembled, the central member having a rear insertion hole formed from the rear end thereof into the central member; A front end of the horizontal support beam is bent upwardly, and the horizontal support beam is installed to protrude horizontally outward of the bottom concrete by coupling the front end of the horizontal support beam so as to span the locking member; The locking member is coupled to the cone body, and the horizontal support beam is coupled to the locking member, and the vertical support beam is vertically disposed with the lower end coupled to the horizontal support beam. Inserting the upper end of the fixing rod into the rear insertion hole of the locking member to fix the rear end of the mold fixing rod to the vertical support beam, the upper concrete is poured into the vertical formwork arranged vertically, the mold fixing rod By this, the bearing capacity against the placing pressure of the upper concrete is exerted.

According to the present invention, it is possible to install the formwork fixing rod by using the buried cone device at the installation position of the buried cone device, and to give the support force opposite to the concrete placing pressure to the vertical support beam by using the formwork fixing rod. In this way, by supporting the formwork and the vertical support beam to support the vertical formwork and the vertical support beam to prevent the vertical formwork and the vertical support beam subjected to the concrete placing pressure by the formwork fixed rod fixed by the buried cone device. It is possible to reduce the role of the inclined telescopic support, so that the capacity (size) of the inclined telescopic support can be reduced or further eliminate the need for the use of the inclined telescopic support. The cost can be reduced, and the weight of the formwork assembly can be reduced, and thus, the construction of the vertical concrete member can be performed more economically than the prior art. In addition, in the present invention, through the scale reduction or omission of the inclined stretch support, it is possible to further secure the working space, thereby exhibiting the effect of greatly improving the workability.

1 and 2 are schematic exploded and assembled perspective views of a conventional embedded cone device, respectively.
Figure 3 is a schematic perspective view showing a state in which the vertical formwork is coupled to a conventional formwork assembly.
Figures 4a to 4d show the construction of a vertical concrete member by installing the formwork assembly and vertical formwork using the conventional buried cone device shown in Figures 1 and 2, respectively, and placing concrete sequentially in the vertical direction. A schematic side view.
5 is a schematic assembly perspective view of a buried cone device according to an embodiment of the present invention.
6 is a schematic perspective view showing a state in which the anchor bar is coupled to the buried cone device of the present invention shown in FIG.
7 and 8 are schematic exploded perspective views of the embedded cone device according to the present invention, respectively.
9 is a schematic cross-sectional view of the buried cone device of the present invention along line AA in FIG. 5.
10A and 10B are schematic side views showing each step of constructing a vertical concrete member using the buried cone device of the present invention, respectively.
11A and 11B are schematic exploded perspective and assembly perspective views showing a state in which a horizontal support beam of a formwork assembly is coupled across a buried cone device in a construction method of the present invention, respectively.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, this is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

5 is a schematic assembly perspective view of the buried cone device 1 according to an embodiment of the present invention, Figure 6 is an anchor rod 104 to the buried cone device 1 of the present invention shown in FIG. A schematic perspective view is shown showing this coupled state. 7 and 8 are schematic exploded perspective views showing different views of the buried cone device 1 according to the present invention shown in FIGS. 5 and 6, respectively. For reference, in order to distinguish the conventional buried cone device 100 and the buried cone device of the present invention, the following description is given by attaching the member number 1 to the buried cone device of the present invention.

5 to 8, the buried cone device 1 according to the present invention includes a cone body 10 having a conical cone shape that is pointed toward the front, that is, embedded in concrete; It is coupled to the rear of the cone body 10, and has a configuration including a locking member 20 is coupled to the front end of the horizontal support beam 301 of the formwork assembly 300 to be described later. Specifically, the cone body 10 has a conical tapered portion 11, the coupling portion 12 is formed at the rear end of the tapered portion 11 (see Fig. 7). In order to protect the coupling part 12, an extension rim 13 having an expanded diameter and surrounding the coupling part 12 may be provided at the rear of the cone body 10. The expansion border portion 13 is formed in a ring shape, when the coupling portion 12 and the central member 21 of the engaging member 20 is coupled, as will be described later, coupled to prevent the inflow of concrete, etc. into the combined portion The outer part of the part is surrounded by a gap to protect the coupling portion.

A fastening hole 14 is formed at the center of the front end of the tapered part 11. When using the buried cone device 1, an anchor bar 104 made of steel rod or the like is inserted into the fastening bar 14. Combined. Depending on the use of the buried cone device, the tie bar may be inserted in place of the anchor rod 104.

The locking member 20 is a member coupled to the coupling portion 12 of the cone body 10 and has a shape in which the central member 21 is elongated. The central member 21 has a central member 21. The first flange portion 22 and the second flange portion 23, which are extended to have a cross section larger than the cross section of the spaced apart portion, are provided. The front end of the horizontal support beam 301 of the formwork assembly 300 to be described later is sandwiched between the first flange portion 22 and the second flange portion 23 so as to span the center member 21.

The front end of the center member 21 is coupled to the coupling portion 12 of the cone body 10 so as to be disassembled. To this end, the front end of the central member 21 can be screwed with the coupling portion 12, in the embodiment shown in the figure, the coupling portion 12 is made of a portion protruding rearward and protruding A screw is formed on the outer surface of the coupling portion 12, and a front insertion hole 24 is formed at the front end of the central member 21, and a screw is formed on the inner surface of the front insertion hole 24, Coupling portion 12 has a configuration that is screwed into the front insertion hole 24. However, the structure in which the front end of the central member 21 is assembled and assembled so as to be disassembled with the coupling part 12 is not limited thereto. Although not illustrated in the drawings, a screw is formed on the outer surface at the front end of the central member 21 in contrast to the above embodiment, and the engaging portion 12 of the cone member 10 is connected to the central member 21. It is configured to have a larger diameter than the front portion of the, forming a hole in such a coupling portion 12, by forming a screw in the inner surface of the hole of the coupling portion 12, the front end of the central member 21 It may be inserted into the hole of the coupling portion 12 to be screwed. As such, in the buried cone device 1 of the present invention, the front end of the locking member 20 is directly detachably coupled to the rear of the cone body 10 without a separate bolt member.

On the other hand, the rear insertion hole 25 is formed in the center member 21 from the rear end thereof into the center member 21. One end of the formwork fixing rod for fixing the vertical formwork 200 is inserted into and fixed to the rear insertion hole 25. It is preferable that a screw portion is formed on the inner surface of the rear insertion hole 25 so that one end of the formwork fixing rod is formed to be screwed into one end of the formwork fixing rod.

FIG. 9 is a schematic cross-sectional view of the buried cone device 1 of the present invention according to the line AA of FIG. 5. In the present invention, in constructing the cone body 10 and the engaging member 20 as described above, As shown in FIG. 9, the rear insertion hole 25 and the front insertion hole 24 formed in the locking member 20 communicate with each other to form a hole that entirely passes through the central member 21 of the locking member 20. It is preferable to produce with. When forming the through-hole in the locking member 20, it is more advantageous to easily form the member to form a hole penetrating the central member 21 as a whole, and as described later, the die fixing rod is fastened to the locking member 20 It is more advantageous because it can be inserted deep into the inside and fixed firmly. In addition, the fastening hole 14 formed in the cone body 10 is also formed in the form of a hole penetrating in the longitudinal direction of the cone body 10 to communicate with the hole formed in the locking member 20. desirable. This is because the die fixing rod penetrating the locking member 20 is deeply inserted into and fixed to the cone body 10 so that the die fixing rod can be more firmly combined with the buried cone apparatus 1. On the other hand, as shown in Figure 8, the inlet of the rear insertion hole 25 formed in the central member 21 preferably has a polygonal shape. This is because, when assembling or disassembling the locking member 20 to the cone body 10, the tool is inserted into the rear insertion hole 25 so that the locking member 20 can be easily turned.

The buried cone device 1 according to the present invention, since the engaging member 20 and the cone main body 10 are assembled to each other without using a separate bolt member as described above, the configuration of the device is simple to manufacture and use This convenient not only improves the construction economy of the vertical concrete member, but also a hole for inserting the die fixing rod into the rear side of the buried cone device 1 at the center position of the buried cone device 1, the buried cone device Since it can be secured at the position of (1), it is very useful in the method of the present invention to install the formwork assembly 300 by using the buried cone device (1) as described above to construct a vertical concrete member Will be exercised.

Figure 10a is a vertical formwork 200 to construct the concrete at the top after the construction of the concrete (C1) at the bottom in the construction method of the present invention by using the buried cone device 1 of the present invention to construct a vertical concrete member 4A is a schematic side view corresponding to FIG. 4A showing a state in which a state is installed, and FIG. 10B is a schematic side view corresponding to FIG. 4B, and the upper concrete (C1) above the lower concrete C1 following the step shown in FIG. Shows the state of pouring C2). In the construction method of the present invention, the formwork assembly 300 is hung and installed by joining the front end of the horizontal support beam 301 of the formwork assembly 300 over the buried cone device 1 as in the prior art. The vertical formwork 200 is vertically supported by the support assembly 300 to be installed.

However, as described above, in the buried cone device 1 of the present invention, a hole for inserting the die fixing rod into the rear side of the buried cone device 1 is secured at the center position of the buried cone device 1. Therefore, in the construction method of the present invention, the formwork is fixed to the hole formed in the rear side from the center position of the buried cone device 1, that is, the rear insertion hole 25 formed in the central member 21 of the locking member 20. Insert the rod 110 to combine. A screw is formed in the rear insertion hole 25 and a screw is also formed on the outer surface of the front end of the formwork fixing rod 110, so that the front end of the formwork fixing rod 110 is screwed into the rear insertion hole 25. Can be fixed in a closed state.

The rear end of the formwork fixing rod 110 protrudes toward the formwork supporting assembly 300, and the rear end portion of the formwork fixing rod 110 is coupled with the vertical support beam 302 of the formwork assembly 300. Is fixed. For example, a through hole is formed in the vertical support beam 302, and a fixing member such as a nut is fixed by the fixing member such as a nut after the rear end of the form fixing rod 110 passes through the through hole of the vertical support beam 302. It may be fixed by being fastened to the rear end of the rod (110).

In order to insert the die fixing rod 110 into the rear insertion hole 25 of the locking member 20 as described above to protrude the die fixing rod 110, the horizontal support beam 301 of the die support assembly 300 Should be located under the locking member (20). To this end, the front end of the horizontal support beam 301 may be coupled to the locking member 20 in the following configuration. 11A and 11B are schematic exploded perspective and assembly perspective views showing a state in which the horizontal support beam 301 of the formwork assembly 300 is coupled across the buried cone device 1 in the construction method of the present invention, respectively. It is. 11A and 11B, the front end portion of the horizontal support beam 301 is bent upwardly, and the end portion of the bent and vertically upwardly extending portion extends over the catching member 20. The horizontal support beam 301 protrudes outward from the lower concrete C1 and is horizontally installed. As the locking member 20 is coupled to the rear of the cone body 10 while the cone body 10 is embedded in the concrete C1 at the bottom, the locking member 20 protrudes to the outside of the concrete member 400. It becomes. At the front end of the horizontal support beam 301, a vertical member extends upward, a coupling plate 3010 is provided at an end of the vertical portion, and a concave cutout is formed below the coupling plate 3010. It is. Therefore, the cutout portion of the coupling plate 3010 is sandwiched between the first flange portion 21 and the second flange portion 22 of the locking member 20 so as to span the center member 21, so that the horizontal support beam ( The front end of the 301 is fixed over the locking member 20 of the buried cone device 1, the position is fixed, the height of the horizontal support beam 301 is lower than the height of the locking member 20, the locking member It is to be able to combine the front end of the formwork fixing rod 110 into the (20). In the embodiment shown in the drawing, the rear end of the formwork fixing rod 110 penetrates the vertical support beam 302, and the nut member 309 is fastened to the rear end portion of the formwork fixing rod 110 through which the formwork fixing rod The rear end of the 110 is coupled to the vertical support beam 302.

As such, the front end of the horizontal support beam 301 is bent upwardly so that the die fixing rod 110 can be inserted therein, and the end portion of the bent portion extending vertically upwards is the locking member 20. Except for the configuration spanning and the configuration of the inclined stretch support 303 to be described later, the configuration of the other formwork assembly 300 is the same as the formwork assembly 300 of the prior art described in the background section above, so repeat this. Description is omitted.

In the formwork assembly 300, the vertical support beam 302 is coupled to the horizontal support beam 301 by a hinge member 304 as in the conventional case, but the vertical formwork 200 as shown in FIGS. 10A and 10B. In order to withstand the pouring pressure by standing vertically, by using the locking member 20 to arrange the die fixing rod 110 horizontally, the rear end of the die fixing rod 110 to the vertical support beam 302 It is fixed by coupling. In this configuration, the supporting force in the horizontal direction by the formwork fixing rod 110 is additionally applied to the vertical support beam 302, so that the vertical support beam 302 supporting the vertical formwork is exerted to resist the concrete placing pressure. The bearing capacity is further increased. That is, as shown in FIGS. 10A and 10B, the rotation of the vertical support beam 302 is essentially blocked in a state in which the die fixing rod 110 is coupled to the vertical support beam 302. When a concrete placing pressure is applied to the vertical formwork 200 supported by the vertical support beam 302 so that a force is applied outwardly with respect to the vertical formwork 200, in the conventional construction, This will cause the vertical support beam 302 to rotate, and in order to prevent the rotation of the vertical support beam 302, there is a significant amount of inclined stretch support 303 that exerts a large bearing force behind the vertical support beam 302. Had to be provided. However, in the present invention, the formwork fixing rod 110 is coupled to the vertical support beam 302, the formwork fixing rod 110 is the front end is coupled to the buried cone device (1), which is fixed in the concrete, Since the horizontal support force is exerted to the vertical support beam 302 through the fixing rod 110 in the forward direction, that is, the direction against the concrete placing pressure, the vertical support beam 302 is rotated even when the concrete placing pressure is applied. This is to be stopped.

As described above, in the present invention, the form fixing rod 110 is installed using the embedded cone apparatus 1 at the installation position of the embedded cone apparatus 1, and the vertical support beam 302 is formed using the form fixing rod 110. ), It is possible to give a bearing force opposite to the placing pressure of the concrete. That is, the formwork fixing rod 110 is to perform the function of supporting the vertical formwork 200 and the vertical support beam 302 is subjected to the concrete placing pressure is not conducted. Therefore, as the mold fixing rod 110 exerts the horizontal support force, the inclined elastic support 303 should be exerted for the role of the inclined elastic support 303, that is, the support of the vertical formwork 200 and the vertical support beam 302. The supporting force is reduced, and accordingly, the capacity (size) of the inclined stretch support 303 can be reduced, and if necessary, the inclined stretch support 303 is no longer used as shown in FIGS. 10A to 10D, When only the vertical formwork 200 is separated from the concrete surface, the vertical formwork 200 and the vertical support beam 302 may be replaced with an inclined beam sufficient to support the weight, or the bending strength of the vertical support beam 302 may be reinforced. Only incidental reinforcements of existing information may be placed.

Therefore, according to the present invention, it is possible to reduce the cost according to the use of the inclined stretch support 303, the size of the various members constituting the formwork assembly 300 through the scale reduction or non-use of the inclined stretch support (303) By reducing or omitting the weight of the overall formwork assembly 300 can also be reduced, thereby exhibiting the advantage that the construction of vertical concrete members more economically than the prior art. In addition, through the scale reduction or omission of the inclined stretch support 303, it is possible to further secure the working space, thereby achieving an effect that can greatly improve the workability.

Although not shown in the drawing, when it is time to demold the vertical formwork 200 from the upper concrete C2, the vertical support is released by releasing the rear end of the formwork fixing rod 110 and the vertical support beam 302. After allowing the beam 302 to rotate, as in the prior art, the vertical support beam 302 is rotated backward to separate the vertical formwork 200 from the upper concrete C2, and then the formwork is supported using a crane or the like. After lifting the assembly 300 upward again, as shown in FIG. 10A, it is ready for subsequent concrete pouring work.

1: buried cone device
10: cone body
20: locking member
200: vertical formwork
300 formwork assembly

Claims (4)

As a buried cone device 1 fixed to the vertical concrete member, in order to install the formwork supporting assembly 300 for supporting the vertical formwork 200 for vertical concrete member construction,
A cone body (10) embedded in concrete, and a locking member (20) coupled to the cone body (10) and coupled to a front end of a horizontal support beam (301) provided in the formwork assembly (300);
The cone body 10 has a conical tapered portion 11 that is pointed toward the buried in the concrete, the coupling portion 12 is formed at the rear end of the tapered portion 11, the tapered portion A fastening hole 14 to which the anchor rod 104 is inserted and coupled is formed at the front end of the 11;
The locking member 20 has a central member 21 having a long extended shape, the first flange portion 22 and the second extended to have a larger cross-section than the cross section of the central member 21 The flange member 23 is provided in the central member 21 in a spaced apart state, and the front end of the central member 21 is coupled to be disassembled with the engaging portion 12 of the cone body 10. ;
The front end of the die fixing rod 110, the rear end is coupled to the vertical support beam 302 provided in the formwork support assembly 300 to support the vertical formwork 200, the center member ( The buried cone device (21) is characterized in that the rear insertion hole (25) is formed from the rear end to the center member (21).
The method of claim 1,
The engaging portion 12 is formed of a portion projecting rearwardly;
A screw is formed on an outer surface of the protruding coupling portion 12;
A front insertion hole 24 is formed at the front end of the central member 21;
A screw is formed on an inner surface of the front insertion hole 24;
Landfill cone, characterized in that the engaging portion 12 is screwed into the front insertion hole 24, the locking member 20 and the cone body 10 is coupled to be separated from each other. Device.
As an installation structure of the formwork supporting assembly 300 for supporting and installing the vertical formwork 200 for vertical concrete member construction,
The formwork support assembly 300 is coupled to the outer surface of the vertical formwork 200, the vertical support beam 302 for supporting the vertical formwork 200, and the lower end of the vertical support beam 302 is coupled A horizontal support beam 301;
The anchor rod 104 and the cone body 10 of the buried cone device 1 are embedded and fixed to the cured bottom concrete C1, and the cone body 10 has a conical tapered portion 11 that is sharply forward. And a coupling part 12 is formed at the rear end of the tapered part 11, and an anchor rod 104 is inserted and coupled to the front end of the tapered part 11. Is formed;
With the tapered portion 11 of the cone body 10 embedded in the concrete C1 at the bottom, the rear end of the cone body 10 of the horizontal support beam 301 of the formwork assembly 300 The locking member 20 of the buried cone device 1 coupled to the front end is coupled, and the locking member 20 is provided with a central member 21 having an elongated shape, the central member 21. The first flange portion 22 and the second flange portion 23 is extended to have a cross section larger than the cross section of the provided with the central member 21 spaced apart, the front of the central member 21 The end is coupled to the coupling portion 12 of the cone body 10 so as to be disassembled, and the central member 21 has a rear insertion hole 25 formed from the rear end thereof into the central member 21. ;
The front end of the horizontal support beam (301) is bent in the form of the upper bent, coupled to the form across the engaging member 20, protrudes in the outward direction of the bottom concrete (C1) is installed horizontally;
The cone body 10 and the locking member 20 are coupled, the horizontal support beam 301 is coupled to the locking member 20, and a lower end is coupled to the horizontal support beam 301. As the vertical support beam 302 is vertically disposed, the vertical formwork 200 is vertically installed, and the front end of the formwork fixing rod 110 is inserted into the rear insertion hole 25 of the locking member 20. And the rear end of the formwork fixing rod 110 is coupled to the vertical support beam 302 so that the support force against the placing pressure by the upper concrete C2 cast on the vertical formwork 200 is fixed to the formwork. Installation structure of the formwork support assembly for supporting the vertical formwork 200 for the vertical concrete member construction, characterized in that exhibited by the rod (110).
As a construction method of the vertical concrete member,
After the construction of the bottom concrete (C1), the formwork support assembly 300 is installed on the bottom concrete (C1), and the vertical formwork for constructing the top concrete (C2) above the bottom of the concrete (C1) ( 200 is installed vertically supported by the formwork assembly 300;
The formwork assembly 300 is coupled to the outer surface of the vertical formwork 200, the vertical support beam 302 for supporting the vertical formwork 200, and the bottom of the vertical support beam 302 is horizontally coupled A support beam 301;
The anchor rod 104 and the cone body 10 of the buried cone device 1 are buried in the concrete C1 at the bottom, and the anchor rod 104 and the cone body 10 are fixed to the concrete C1 at the bottom. Although the cone body 10 has a conical tapered portion 11, the rear end of the tapered portion 11 is formed with a coupling portion 12, the front of the tapered portion 11 A fastening hole 14 is formed at an end thereof so that the anchor rod 104 is inserted into the fastening hole 14 and coupled;
In the state in which the cone body 10 is embedded in the bottom concrete (C1), the front end of the horizontal support beam 301 of the formwork assembly 300 is coupled to the rear end of the cone body 10 is embedded Coupling the locking member 20 of the cone device 1, the locking member 20 is provided with a central member 21 having a long elongated shape, the cross section larger than the cross section of the central member 21 The first flange portion 22 and the second flange portion 23 extended to have a spaced apart state is provided on the central member 21, the front end of the central member 21 is the cone body ( 10 is detachably coupled to the coupling part 12 of the central member 21, and the rear insertion hole 25 is formed in the central member 21 from the rear end thereof in the central member 21;
By coupling the front end of the horizontal support beam 301 formed in the upper bent to the engaging member 20, so that the horizontal support beam 301 to protrude horizontally outward of the lower concrete (C1). Install;
The horizontal support beam 301 is installed on the engaging member 20 coupled to the cone body 10, and the vertical support beam 302 is vertically disposed in a state where a lower end is coupled to the horizontal support beam 301. The vertical formwork 200 is installed vertically, and the front end of the formwork fixing rod 110 is inserted into the rear insertion hole 25 of the locking member 20 to fix the rear end portion of the formwork fixing rod 110. In the state coupled to the vertical support beam 302, by pouring the upper concrete (C2) to the vertical formwork 200, the bearing force against the placing pressure of the upper concrete (C2) by the form fixing rod 110 is exhibited Vertical concrete member construction method using a buried cone device and the form support assembly, characterized in that the.

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