KR101152588B1 - Upper panel for SRC column - Google Patents

Abstract

A top panel for an SLC pillar is disclosed. The upper panel for the SRC pillar of the present invention, the plate surface portion formed to be spaced apart from the side of the horizontal steel frame beam to form one side of the space in which concrete is poured and coupled to one side of the upper end of the vertical steel frame beam; At least one door part coupled to the plate part so as to be movable relative to the plate part to fill a separation distance between the horizontal steel beam and the plate part; And a profile part coupled along the edge of the plate surface part. According to the present invention, it is possible to shorten the air and lower the construction cost by making it easy to complete the upper formwork portion of the SRC column with a high degree of difficulty in the construction of the SRC column.

Description

Upper panel for SRC column

The present invention relates to a top panel for an SRC pillar, and more particularly, to shorten the air and lower the construction cost by allowing the SRC pillar to easily complete the upper formwork of the SRC pillar having a high degree of difficulty in construction. The upper panel for the RCS pillar that can be.

In general, the building structure is constructed of reinforced concrete structure (RC structure), steel structure (S structure) and steel and reinforced concrete composite structure (SRC structure, SRC structure). Among them, steel frame and reinforced concrete composite structure (SRC structure) is more expensive than reinforced concrete structure (RC structure), but it is widely used in the construction of high-rise buildings because it has the advantage of shortening air and high strength buildings.

The SRC structure is a vertical steel beam for the construction of columns and a horizontal steel beam that is joined to one side of the upper end of the vertical steel beam for the construction of slabs, and then reinforce the steel bars around the frame, and reinforce the circumference of the reinforcement. The formwork is installed along the concrete, and the concrete is poured and cured. In general, H-beams are widely used as vertical steel beams and horizontal steel beams.

In the case of constructing pillars that follow the SRC structure, first, formwork such as gangform and euroform should be installed on the lower side of the vertical steel beam, and then padded on the upper side of the lower gangform and euroform at the point where the vertical steel beam and the horizontal steel beam are connected. After combining the plywood to block the point where the vertical steel beam and the horizontal steel beam are connected, concrete is poured and cured.

However, as described above, the work of applying plywood or the like around the horizontal steel beam connected to one side of the upper end of the vertical steel beam is very complicated and difficult due to the shape of the vertical steel beam and the horizontal steel beam provided by the H-beam. It becomes a high difficult task.

In addition, even if the connection point of the vertical steel beam and the horizontal steel beam through the plywood, such as the plywood can be easily deformed or damaged when placing concrete, the conventional method is not practical and risk of safety accident There is a problem.

Therefore, when constructing a column according to the SRC structure, not only can the vertical steel beam and the horizontal steel beam be easily blocked, but also the resistance of the surface pressure generated when the concrete is poured can be secured while ensuring the quality of the finished SRC column. There is a special need for special panels.

It is an object of the present invention to provide a top panel for an SRC pillar that can shorten the air and lower the construction cost by allowing the construction of the SRC pillar to easily complete the upper formwork of the SRC pillar having a high degree of difficulty. .

The object is, according to the present invention, the plate surface portion which is formed spaced apart from the side of the horizontal steel frame beam is coupled to one side of the upper end of the vertical steel frame beam to form one side of the space in which concrete is poured; At least one door part coupled to the plate part to be movable relative to the plate part to fill a separation distance between the horizontal steel beam and the plate part; And it is achieved by the top panel for the SAL pillar, characterized in that it comprises a profile portion coupled along the edge of the plate surface portion.

The horizontal steel frame beam is an H beam, the door portion may be a pair of door parts slidably coupled at both sides of the upper end of the plate surface portion so as to be in close contact with both sides of the web of the H beam.

The profile unit may include: first profile units coupled along left and right edges of the plate surface unit; And a second profile portion coupled along the lower edge of the plate surface portion.

The door unit may include a pair of first fixing brackets provided on the upper end of the plate surface part so as to be symmetrical with respect to the central axis of the plate surface part; A pair of second fixing brackets spaced apart from each other by a predetermined interval under the pair of first fixing brackets; And a pair of sliding doors inserted between the pair of first fixing brackets and the pair of second fixing brackets, respectively, to be slidably coupled to the plate surface portion.

The door unit may include: a plurality of spacers disposed to be symmetrical with respect to the central axis of the plate surface portion, and intermittently provided in the longitudinal direction of the plate surface portion; A pair of reinforcing beams provided to connect a spacer provided on a left side of the plate surface portion and an upper surface of a spacer provided on a right side of the plurality of spacers, respectively; And a pair of sliding doors inserted between the spacers adjacent to the web, among the plurality of spacers, to be slidably coupled to the plate surface portion.

The top panel for the SRC pillar may further include at least one reinforcing beam coupled to at least one surface of the left surface or the right surface of the plate surface portion in the longitudinal direction of the plate surface portion so as to resist the surface pressure caused by concrete placing. Can be.

The top panel for the SRC pillar may further include a pair of insertion brackets respectively coupled to the top surfaces of the pair of reinforcement beams so that the reinforcement member can be inserted therein.

The SLC pillar upper panel includes: an upper surface support portion protruding from one surface of an upper end portion of the door portion, a first side support portion extending downwardly at one end of the upper surface support portion, and a lower portion extending from one end portion of the upper surface support portion; Including a side support portion may further include a handle portion that serves as a handle during the relative movement of the door portion relative to the plate surface portion.

The first profile part may be a profile in which a plurality of pinholes are formed through the length direction, and the second profile part may be a profile in which a groove for clamp insertion recessed from a surface is formed along the length direction of the upper end part.

The pinhole may include a first pinhole having a circular cross-sectional shape so that the Al foam pin for aluminum foam can pass therethrough; And a pair of second pinholes each protruding to both sides of the first pinhole so that the wedge pin for the euroform may pass therethrough, and having a rectangular cross-sectional shape.

At least one of the first side support part and the second side support part has a fastening hole for fastening a support inserted into an interior of a space partitioned by the top support part, the first side support part and the second side support part. It may be penetrated.

According to the present invention, the difficulty of the work in the construction of the SRC column by the plate portion provided to be spaced apart from the side of the horizontal steel beam and the door portion provided to fill the separation distance between the side and the plate portion of the horizontal steel beam By simplifying the upper formwork at the top of the high SRC column, it is possible to shorten the air and lower the construction cost.

1 is a perspective view of an upper panel for an SRC pillar according to a first embodiment of the present invention.
Figure 2 is a schematic diagram showing a process of coupling the upper panel for the SRC pillar of Figure 1 to one side of the steel frame.
Figure 3 is a state of use of the top panel for the SAL pillar coupled to the steel frame in accordance with the process of FIG.
4 is an enlarged view of a portion A of FIG. 3.
5 is an enlarged view of a portion B of FIG. 3.
6 is a perspective view of the completed SRC pillar.
7 is a perspective view of an upper panel according to a second embodiment of the present invention.
8 is a perspective view of an upper panel according to a third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

1 is a perspective view of an upper panel for an SRC pillar according to a first embodiment of the present invention, Figure 2 is a schematic schematic diagram showing a process of coupling the upper panel for the SRC pillar of Figure 1 to one side of the steel frame, 3 is a state diagram of the use of the top panel for the SAL pillar coupled to the steel frame in accordance with the process of Figure 2, Figure 4 is an enlarged view of part A of Figure 3, Figure 5 is an enlarged view of part B of Figure 3 6 is a perspective view of the completed SRC pillar. Hereinafter, the present invention will be described assuming the case of constructing the SRC pillar, the vertical steel beam and the horizontal steel beam will be described on the assumption that each is provided with H-beam, but the scope of the present invention is not limited thereto.

Referring to these drawings, the top panel (100, hereinafter referred to as the 'top panel') for the SRC (SRC) pillar according to the first embodiment of the present invention is a plate portion forming one side of the space in which the concrete is placed ( 110, a door part 120 coupled to the plate surface part 110 so as to be capable of relative movement, and profile parts 140, 150, and 160 coupled along an edge of the plate surface part 110.

The plate portion 110 forms one side of a space in which concrete is poured and is spaced apart from the side of the horizontal steel beam 20 coupled to one side of the upper end of the vertical steel beam 10. As shown in FIG. 1, the plate portion 110 is provided to have a 'c' shape such that the upper end portion is spaced apart from each side 22a and 22b of the horizontal steel beam 20 by a predetermined distance (ie, the plate portion). Inside the 110, openings are formed spaced apart from both side surfaces 22a and 22b of the web W of the horizontal steel frame beam 20). This shape of the plate portion 110 is adopted in consideration of the shape of the horizontal steel beam 20 is coupled to the upper end of the vertical steel beam 10, the operator to the top panel 100, the top of the lower panel 60 Just by coupling to the upper panel 100 can be adjacent to the horizontal steel frame beam 20, so the convenience of the operation is facilitated. The plate portion 110 is provided using a thin steel sheet unlike the prior art and thus has a characteristic that can sufficiently resist the surface pressure of the concrete to be poured.

The door part 120 is configured to be coupled in a relative motion with respect to the plate surface portion 110 is provided in a pair provided to fill the separation distance between the horizontal steel frame beam 20 and the plate surface portion 110. The pair of door parts 120 are provided with a pair of first fixing brackets 121 provided at the upper end of the plate surface part 110 so as to be symmetrical with respect to the central axis C of the plate surface part 110 and the first fixing part. A pair of sliding doors inserted between the pair of second fixing brackets 122 and the first fixing brackets 121 and the second fixing brackets 122 spaced apart from each other by a predetermined interval below the bracket 121. 123. The pair of first fixing brackets 121 and the pair of second fixing brackets 122 are respectively coupled to the upper and lower sides of the plate surface portion 110 so as to be symmetrical with respect to the central axis C of the plate surface portion 110. , A pair of sliding doors 123 is configured to be relative to the plate surface portion 110. As shown in FIG. 1, the first fixing bracket 121 and the second fixing bracket 122 according to the present embodiment are provided by bending a flat metal piece. However, the shape of the first fixing bracket 121 and the second fixing bracket 122 may be variously changed as long as the pair of sliding doors 123 are inserted to move relative to the plate surface 110. Can be.

The sliding door 123 is inserted between the first fixing bracket 121 and the second fixing bracket 122 so as to move relative to the plate surface portion 110 so that both sides 22a of the web W of the horizontal steel beam 20 are horizontal. , 22b) is configured to be in close contact with each other. As is well known, the H-beam comprises a pair of flanges F protruding from the top and bottom thereof, and a web W interconnecting the pair of flanges F, as described above. The upper end of the 110 is provided so as to be spaced apart from both side surfaces 22a and 22b of the web W by a predetermined interval. Such spacing must be closed by a specific configuration before placing concrete, and the sliding door 123 is responsible for this role. The operator couples the upper panel 100 to the upper end of the lower panel 60 and slides the sliding door 123 to prevent the separation distance between the plate surface 110 and the web W both sides 22a and 22b.

On the other hand, the profile parts 140, 150, 160 are provided along the circumference of the plate surface 110 so that the adjacent top panel 100 and each other, the top panel 100 and the lower panel 60 can be coupled to each other. to be. The profile parts 140, 150, and 160 may include first profile parts 140 and 150 provided at left and right edges of the plate surface part 110, and second profile parts 160 provided at a lower edge of the plate surface part 110. It includes.

The first profile parts 140 and 150 are provided at left and right edges of the plate surface part 110 so as to be connected to any one top panel 100 and the other top panel 100 disposed adjacent thereto. . A plurality of pinholes 140a and 150a are penetrated along the length direction of the first profile portions 140 and 150. The pinholes 140a and 150a include first pinholes 140b and 150b each having a circular cross-sectional shape, and second pinholes 140c and 150c protruding to both sides of the first pinholes 140b and 150b. As is well known, a pair of aluminum foams are fastened to each other by an alfoam pin having a cylindrical shape, and a pair of flow paths are fastened to each other by a wedge pin having an awl-shaped flat plate shape. That is, a separate pin for fastening the panel should be provided according to the type of panel used. As shown in FIG. 1, the upper panel 100 of the present embodiment includes the first pinholes 140b and 150b and the second pin. By including the pinholes 140c and 150c, both alfompin and wedge pins can be used. When combining a pair of upper panel 100 that is adjacently arranged using the Al foam pin, the Al foam pin is fastened through the first pin holes 140b and 150b (not shown), the wedge pin (W) is used In order to couple a pair of adjacent top panels 100, the wedge pins W are fastened through the first pin holes 140b and 150b and the second pin holes 140c and 150c (see FIG. 5). ).

The second profile part 160 is provided at the lower edge of the plate surface part 110 so as to connect between the upper panel 100 and the lower panel 60 disposed on the lower side of the upper panel 100. A clamp insertion groove 161 is recessed from the surface along the central region of the upper surface of the second profile portion 160. Similarly, a clamp insertion groove 61a is recessed from the surface along the central area of the lower surface of the upper profile 61 of the lower panel 60. The clamp 40 is fastened along the clamp insertion grooves 161 and 61a to couple the upper panel 100 and the lower panel 60 to each other. However, similarly to the first profile parts 140 and 150, the pinholes having the same shape as the pinholes 140a and 150a of the first profile parts 140 and 150 are formed through the second profile part 160 in the longitudinal direction. In this case, a pinhole having the same shape is formed through the upper profile 61 of the lower panel 60 to combine the upper panel 100 and the lower panel 60 by using an Alfoam pin or wedge pin (W). It may be possible (not shown). In addition, although not shown, the first profile part 140 and 150 and the second profile part 160 may be provided as aluminum profile or euroform profile, respectively.

On the other hand, the upper panel 100 of the reinforcement beam 124 is coupled along the longitudinal direction of the plate surface portion 110, the insertion bracket 125 is coupled to the upper surface of the reinforcement beam 124, the door portion 120 It further comprises a handle 170 provided in the upper end.

The reinforcing beam 124 is configured to be coupled to the left and right surfaces of the plate portion 110 along the longitudinal direction of the plate portion 110 so as to resist the surface pressure due to the concrete placing. As described above, when the concrete is placed inside the formwork completed by the plurality of top panels 100 and the plurality of lower panels 60, the plate surface portion 110 has a strong surface pressure corresponding thereto. Deformation in which a part protrudes bulge may occur in the part 110. This deformation is a factor to deteriorate the quality of the finished SRC pillar, so there is a need to prevent it, and the reinforcing beam 124 is provided for this purpose. The reinforcing beam 124 includes a 'ㅁ' shaped hollow steel tube 124a and a reinforcing bar 124b inserted into the hollow steel tube 124a, respectively, coupled to the left and right surfaces of the plate surface part 110. When the upper panel 100 and the lower panel 60 are combined, the reinforcing bar 124b is omitted, so that the work can be reduced, so that the weight of the upper panel 100 can be reduced. After completing the coupling of the upper panel 100 and the lower panel 60 by inserting the reinforcing bar (124b) in the hollow steel pipe (124a) to prevent deformation of the plate surface portion (110).

Insertion bracket 125 is configured to be respectively coupled to the upper surface of the pair of reinforcing beams 124 to insert a reinforcing member such as a wood block (SB) provided over the upper panel 100 and the lower panel (60). . Insertion bracket 125 is provided in a 'c' shape so that the wood (SB), etc. can be easily inserted through the open one side. The operator combines the upper panel 100 and the lower panel 60 by using the clamp 40, and then inserts a lumber (SB) into the insertion bracket 125, and the upper panel 100 and the lower panel through the wire, etc. By fixing to (60) it is to reinforce the connection strength of the upper panel 100 and the lower panel (60). At least one through-hole 125a is formed in the insertion bracket 125 to fix the corner SB with a nail.

The handle portion 170 is configured to be provided at the upper end of the door portion 120 to serve as a handle during the relative movement of the door portion 120 relative to the plate surface portion 110. The handle part 170 includes an upper surface support part 171 protruding from one surface of an upper end of the sliding door 123, and a first side support part 172 and a second side support part extending downward from both ends of the upper support part 171, respectively. (173). That is, the handle portion 170 is provided in a 'c' shape with the lower side open to form a space in which a support bar such as a wooden box (SB) can be inserted. A fastening hole 172a is formed in the first side support part 172 and the second side support part 173, respectively, and then, after the support bar is inserted, it is fixed using a nail or the like. The handle 170 not only assists the simple movement of the sliding door 123 but also plays a role of reinforcing a force capable of resisting the surface pressure caused by concrete placing.

Hereinafter, a specific method of using the top panel 100 according to the first embodiment of the present invention will be briefly described.

In order to construct the SRC pillar, first, after installing the vertical steel beam 10 supported from the bottom and combining the horizontal steel beam 20 to one side of the upper end of the vertical steel beam 10, the vertical steel beam 10 A plurality of reinforcing bar 30 is arranged along the perimeter of the.

After arranging the lower panel 60 along the lower circumference of the reinforced bar 30, the upper panel 100 is coupled to the upper end of the lower panel 60 by using the clamp 40. In this case, the upper panel ( According to the shape of the 100, the upper panel 100 can be easily disposed at the point where the vertical steel frame beam 10 and the horizontal steel frame beam 20 is connected.

After the arrangement of the upper panel 100 is completed, insert a support bar such as lumber (SB) into the handle portion 170 and then fasten nails along the fastening holes 172a to fix one end, and the other end of the horizontal steel frame. It supports to the nut etc. which were provided in the beam 20 (refer FIG. 3). Next, the reinforcing bar 124b of the reinforcing beam 124 is inserted into the reinforcing bar 124b, and after inserting the lumber (SB) along the insertion bracket 125 and fixing it, a pair disposed adjacently Fasten the top panel 100 of the 'b' using the angle (Ag) and wedge pin (W).

Next, by sliding the sliding door 123, both sides 22a and 22b of the web W of the horizontal steel frame beam 20 are closed, and concrete is poured and cured in the interior of the completed form to build a column.

The top panel 100 according to the present embodiment can shorten the air and lower the construction cost by allowing the top formwork portion of the SRC column having a high degree of difficulty of work to be easily completed.

7 is a perspective view of an upper panel according to a second embodiment of the present invention.

Referring to FIG. 7, the upper panel 200 according to the second embodiment of the present invention may allow a relative movement with respect to the plate portion 210 and the plate portion 210 that form one side of the space in which the concrete is placed. The door portion 220 is coupled to each other, and the profile portions 240, 250, and 260 coupled along the edge of the plate surface portion 210.

The upper panel 200 according to the present embodiment is completed by combining a pair of unit panels 200a and 200b having symmetrical shapes to each other. Coupling profile portions 200c and 200d are provided at lower ends of the pair of unit panels 200a and 200b, respectively, and the wedge pins W are fastened to the coupling profile portions 200c and 200d. The profile parts 200c and 200d are interconnected.

Other matters relating to the configuration may be sufficiently understood with reference to the upper panel 100 of the above-described first embodiment, and thus redundant descriptions thereof will be omitted.

The upper panel 200 according to the present embodiment is provided separately from a pair of unit panels 200a and 200b having symmetrical shapes so that the upper panel 200 is disposed at a portion adjacent to the horizontal steel beam 20 when the SRC column is constructed. Panel 200 has the advantage that can be installed more easily.

8 is a perspective view of an upper panel according to a third embodiment of the present invention.

Referring to FIG. 8, the upper panel 300 according to the third embodiment of the present invention may allow relative movement with respect to the plate portion 310 and the plate portion 310 that form one side of the space in which the concrete is placed. Door portion 320 is coupled to, and includes a profile portion 340, 350, 360 coupled along the edge of the plate portion 310.

The door part 320 includes a plurality of spacers 321 provided symmetrically with respect to the central axis of the plate surface part 310, a reinforcement beam 322 connecting the upper surface of the spacer 321, and a plate surface part 310. It includes a pair of sliding doors 323 slidably coupled with respect to.

As illustrated in FIG. 8, the plurality of spacers 321 are intermittently arranged along the longitudinal direction of the plate surface 310 so as to be mutually symmetrical with respect to the central axis of the plate surface 310. In FIG. 8, six spacers 321 are shown on the left and right sides of the plate surface 310, respectively, but the number of spacers 321 may be changed depending on the size of the plate surface 310.

The reinforcing beam 322 is provided to connect the upper surfaces of the spacers 321 respectively provided on the left and right sides of the plate surface portion 310, the hollow steel pipe 322a and the hollow steel pipe 322a in the same manner as in the first embodiment described above. It includes a reinforcing bar 322b to be inserted.

The sliding doors 323 are inserted between the pair of spacers 321 arranged adjacent to both side surfaces 22a and 22b of the web W among the plurality of spacers 321 to be slidable with respect to the plate surface portion 310. It is a configuration that is combined.

Other matters relating to the configuration may be sufficiently understood with reference to the upper panel 100 of the above-described first embodiment, and thus redundant descriptions thereof will be omitted.

The upper panel 300 according to the present embodiment has an advantage of reducing the manufacturing cost by further simplifying the configuration of the upper panel 100 according to the first embodiment of the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Therefore, such modifications or variations are not to be understood individually from the technical spirit or point of view of the present invention, the modified embodiments will belong to the claims of the present invention.

100: top panel 110: plate portion
120: door portion 140, 150, 160: profile portion

Claims (11)

A 'c' shaped plate portion which forms an opening on the inner side so as to be spaced apart from both sides of the web of the H-shaped horizontal steel beam coupled to one side of the upper end of the vertical steel beam by forming one side of the space in which the concrete is poured;
In order to fill the gap formed between the opening and both sides of the web before the concrete is poured, one end portion may be in close contact with both sides of the web so as to be movable relative to one side of the plate portion along the width direction of the plate portion. A pair of door parts of a sliding plate shape; And
The upper panel for the SR pillars characterized in that it comprises a profile portion coupled along the edge of the plate surface portion. delete The method of claim 1,
The profile portion,
First profile parts respectively coupled along left and right edges of the plate surface part; And
The upper panel for the SLC pillars, characterized in that it comprises a second profile portion coupled along the lower edge of the plate surface portion. The method of claim 1,
The door portion, respectively
A first fixing bracket provided at an upper end of the plate surface part;
A second fixing bracket provided at a predetermined interval apart from the lower side of the first fixing bracket; And
An upper panel for an SLC pillar comprising a sliding door inserted between the first fixing bracket and the second fixing bracket and slidably coupled to the plate surface. The method of claim 1,
The door portion, respectively
A plurality of spacers intermittently provided along one longitudinal direction of the plate surface portion;
Reinforcing beams connecting upper surfaces of the plurality of spacers; And
And a sliding door inserted between the spacers adjacent to the web among the plurality of spacers, the sliding door being slidably coupled to the plate surface. The method of claim 1,
At least one reinforcing beam further comprises a reinforcing beam coupled to at least one surface of the left or right surface of the plate surface portion in the longitudinal direction of the plate surface portion so as to resist the surface pressure due to the concrete pouring panel. The method according to claim 5 or 6,
The top panel for the SRC pillar further comprises a pair of insertion brackets respectively coupled to the top surface of the pair of reinforcement beams so that the reinforcement member can be inserted. delete The method of claim 3,
The first profile portion,
It is a profile through which a plurality of pinholes are formed along the longitudinal direction,
The second profile portion,
The top panel for the SR pillars, characterized in that the profile is formed in the groove for the clamp insertion recessed from the surface along the longitudinal direction of the upper end. 10. The method of claim 9,
The pinhole is,
A first pinhole having a circular cross-sectional shape so that the alfoam pin for aluminum foam can pass therethrough; And
An upper panel for an SLC pillar, which includes a pair of second pinholes each protruding to both sides of the first pinhole so that the wedge pin for the euroform can pass therethrough, and having a square cross-sectional shape. delete

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