KR100748939B1 - Difference direction corrugated composition plate - Google Patents

Abstract

A corrugated composition plate is provided to install vertically a vertical plate of a reinforcement member and a reinforcement plate for horizontal reinforcement, thereby reducing the use amount of materials, easily manufacturing a product, and improving the mobility of concrete due to a plurality of ventilation holes and exhaust holes. A corrugated composition plate includes a plurality of outer ribs(23), a plurality of inner ribs(22), and an insertion hole. The outer ribs(23) protrude downward from an outer end portion of a reinforcement plate(20). The inner ribs(22) protrude downward from an inner peripheral surface of a ventilation hole(21). The insertion hole is formed with a predetermined interval between the outer ribs(23), and a reinforcement member is inserted into the insertion hole. A protrusion member, which is inserted into the ventilation hole of the vertical plate, is provided at the end portion of the outer rib of the reinforcement plate.

Description

Difference Direction Corrugated Composition Plate

1 is an explanatory diagram showing a conventional two-way corrugated composite top plate.

Figure 2 is a perspective view showing a two-way composite top plate according to the present invention.

Figure 3 is a cross-sectional view showing a two-way composite top plate according to the present invention.

4 is a cross-sectional view showing a reinforcing plate according to the present invention.

5 is an explanatory view showing a state in which a plurality of two-way composite top plates according to the present invention are coupled to each other;

Figure 6 is a block diagram showing another embodiment of a two-way composite top plate according to the present invention.

Figure 7 is a block diagram showing another embodiment of a two-way composite top plate according to the present invention.

* Description of the symbols for the main parts of the symbols in the drawings *

10: bidirectional corrugated composite top plate 11: flat plate 12: reinforcing piece

13: vertical plate 14, 16, 21, 28: through hole 15: horizontal plate

17: insertion portion 18: coupling piece 19: coupling groove

20: reinforcing plate 22: inner rib 23: outer rib

24: protrusion piece 25: exhaust hole 26: insertion groove

27: vertical material

The present invention relates to a two-way corrugated composite top plate, in particular, has a rigidity against deflection in the longitudinal and transverse directions, bidirectional corrugated to improve the binding strength and strength with concrete to make the slab lighter and slimmer It relates to a composite top plate.

As is well known, when constructing slabs or bridge decks of buildings, corrugated composite decks are installed in the lower part to reinforce the slabs or decks. Applicant has proposed as a utility model registration No. 20-0347024 (name: composite slab structure using a two-way corrugated deck plate) to have a two-way corrugated composite top plate, which is shown in Figure 1 attached. .

According to this, the bidirectional corrugated composite top plate 100 is provided with a plurality of transverse reinforcing pieces 102 and a plurality of longitudinal reinforcing pieces 107 arranged at regular intervals on the upper side of the flat plate 101, and the transverse reinforcing pieces 102. Silver is provided with a pair of side plates 103 having a through hole 104 in the upper side of the plate 101, the pair of side plates 103 so that the upper side is adjacent to each other and the lower side is an oblique inclination spaced apart to be trapezoidal, The horizontal plate 105 having a through hole 106 is provided on the pair of side plates 103.

In addition, the longitudinal reinforcing pieces 107 are installed at right angles to the transverse reinforcing pieces 102 between the transverse reinforcing pieces 102 arranged at regular intervals, and have a side plate 108 having a through hole 109. The pair is installed so that the upper side is narrow and the lower side is a wide trapezoidal shape, and the horizontal plate 110 having the through hole 111 is installed on the pair of side plates 108.

The bidirectional corrugated composite top plate 100 is used to be installed below the slab or the top plate when the slab or bridge top plate construction of the building, and has a rigidity against the longitudinal and transverse deflection of the slab or the top plate, Since the binding strength with the concrete is increased to increase the strength, the weight of the slab or the upper plate is reduced by reducing the thickness of the slab or the upper plate.

However, in the conventional bidirectional corrugated composite top plate 100, when the pair of side plates 103 and 108 are symmetrically inclined surfaces and the bending stress is applied, the deformation of the side plates 103 and 108 and the adhesion of concrete are reduced to weaken the strength of the structure. When constructing the slab or the upper plate, when using a plurality of two-way corrugated composite upper plate 100 by welding to fit the area, there is a problem in that the strength of the structure is weakened due to the large number of coupling parts and the complexity. have.

In addition, the conventional bidirectional corrugated composite top plate 100 has a side plate 108 and a horizontal plate 110 between the side plate 103 and the transverse reinforcing piece 102 having the horizontal plate 105. Since the direction reinforcing piece 107 is to be installed, there is a problem that the structure is complicated and the usage of the member is increased, thereby increasing the manufacturing process and cost.

The present invention can be easily manufactured at low cost in order to solve the conventional problems as described above, it is coupled to each other with a solid bonding force, as well as two-way bone does not cause deformation or reduction of adhesion to concrete with rigidity for bending stress It is an object to provide a plate-like composite top plate.

In the present invention, a plurality of reinforcing pieces formed by connecting a horizontal plate having a hole on the top of a pair of vertical plates having a through hole are arranged at regular intervals on an upper side of the plate, and a reinforcing plate made of a plate on the top of the horizontal plate has a horizontal plate. A plurality of arrays are installed at right angles to the reinforcing plate, and a plurality of holes are formed in the reinforcing plate, and the plurality of at least one of the outer ribs protruding downward from the outer end of the reinforcing plate and the inner ribs and the outer ribs protruding downward from the inner circumferential surface of the through hole are provided at a predetermined interval. It is formed and characterized in that to form an insertion groove into which the reinforcing piece is inserted.

In addition, the present invention is coupled to one end of the plate and one side is bent in multiple stages in the vertical direction and horizontal direction to form a coupling groove between the plate and the other end of the plate in multiple stages in the vertical and horizontal direction bending It is characterized in that to form an insertion portion that is inserted into the coupling groove of the other plate.

In addition, the present invention is characterized in that a plurality of vertical members having holes are arranged at regular intervals on the upper side of the flat plate, and a plurality of reinforcing plates having holes are arranged at right angles with the vertical members.

Accordingly, the present invention can be easily manufactured at a low cost by reducing the use and manufacturing process of the member, and has a rigidity in the bending stress does not occur a phenomenon such as deformation of the product or adhesion to concrete is reduced, There is an advantage such as to be firmly synthesized to further strengthen the strength of the structure.

When described in detail with reference to the accompanying drawings an embodiment of the present invention as follows.

Figure 2 is a perspective view showing a composite top plate according to the present invention, Figure 3 is a cross-sectional view showing a composite top plate according to the present invention.

" 형태 되는 보강편(12)을 형성한다.According to the present invention, a plurality of pairs of vertical plates (13) having through holes (14) are arranged on the upper side of the flat plate (11) at regular intervals, and the horizontal plates having through holes (16) on top of the pair of vertical plates (13). By forming 15 connections "

Form a reinforcing piece 12 to be shaped.

The through hole 14 of the vertical plate 13 is formed so that the lower side extends to the upper end of the flat plate 11 so that the lower end of the through hole 14 is in contact with the flat plate 11.

In addition, a plurality of reinforcement plates 20 are installed at regular intervals on the top of the horizontal plate 15 in a direction perpendicular to the horizontal plate 15. The reinforcement plate 20 is shown in FIG. A plurality of through-holes 21 are formed at a predetermined interval, and the plate body forms a plurality of outer ribs 23 protruding downward from the outer end of the reinforcing plate 20 and protrudes downward on the inner circumferential surface of the through-holes 21. A plurality of inner ribs 22 are formed.

In addition, the outer ribs 23 are formed with a plurality of insertion grooves 26 at regular intervals, the insertion groove 26 is located between the outer ribs 23, the width of the reinforcing piece 12 The reinforcing piece 12 is inserted in the same manner as the above, and the protrusion piece 24 is inserted into the through hole 14 of the vertical plate 13 at the end of the outer rib 23 to form the concrete. It may be configured by forming a plurality of exhaust holes 25 in the reinforcing plate 20 so as to increase the adhesive force of the and to be discharged during the concrete curing.

In addition, Figure 5 is a view showing a coupling method of the flat plate 11 and the flat plate 11, at one end of the flat plate 11 by installing a coupling piece 18 bent in multiple stages in the vertical and horizontal directions A coupling groove 19 is formed between the coupling piece 18 and the flat plate 11, and the other end of the flat plate 11 is bent in multiple stages in the vertical direction and the horizontal direction to form the coupling groove of the other flat plate 11 ( The insertion part 17 is inserted into and coupled to 19.

The coupling piece 18 may be formed as a separate member, or may be formed by extending the reinforcing piece 12.

Reference numeral 10 in the accompanying drawings is a bidirectional corrugated composite top plate according to the present invention.

The present invention configured as described above is to assemble a plurality in the field to be installed in the upper floor of the slab or bridge of the building, the plurality of two-way corrugated composite top plate 10 to have the same area as the area of the slab or top plate to be constructed After the coupling portion 17 of the bidirectional corrugated composite top plate 10 is inserted into the coupling groove 19 of another bidirectional corrugated composite top plate 10 as shown in FIG. , Or join using bolts and nuts.

After this, the fixed two-way corrugated composite top plate is fixedly installed at a position to be installed, and the concrete is poured into the slab or the top plate to construct the flat plate 11 of the two-way corrugated composite top plate 10. When casting concrete, it functions as formwork and can withstand tensile stress.

In addition, the horizontal plate 15 of the reinforcing piece 12 can support the dead load or the transmissive load of the slab or top plate and withstand the compressive stress, the vertical plate 13 is the shortest between the flat plate 11 and the horizontal plate 15 By vertically connecting the distance, the use length of the material is reduced compared to the conventional inclined connection, and to withstand the tensile stress and the longitudinal vertical stress acting the main stress like the flat plate 11 is reinforced.

In addition, the lower end of the through-hole 14 formed in the vertical plate 13 extends to the flat plate 11 so that the concrete enters the reinforcing piece 12 more easily, so that it can be cast without empty space and adhered to the concrete. This is further improved.

In addition, the reinforcing plate 20 is coupled to the upper side of the reinforcing piece 12 by a general coupling means such as welding or bolt, the inner rib 22 and the outer rib 23 formed on the reinforcing plate 20 is To prevent deformation of the reinforcing plate 20, the insertion groove 26 and the protrusion piece 24 to fix the installation position of the reinforcing plate 20 and to maintain a more firm coupling state.

The reinforcement plate 20 is to reinforce the deflection or deformation with the reinforcing piece 12, and with the horizontal plate 15 can support the dead load or the transmissive load of the slab or top plate and withstand the compressive stress, longitudinal tensile stress It is to strengthen the endurance.

In addition, the exhaust hole 25 of the reinforcing plate 20 is the reinforcing plate 20 to facilitate the air discharge of the concrete to be cured in the lower side of the reinforcing plate 20 and the horizontal plate 15 during the concrete casting curing The lower side of the horizontal plate (15) is such that no bubbles or hollow part is generated.

The present invention has a high binding strength with concrete, so the strength is large, so that the thickness of the slab or the top plate can be reduced, thereby reducing the weight of the slab or the top plate.

On the other hand, Figure 6 is a block diagram showing another embodiment of the bidirectional composite top plate according to the present invention, a plurality of vertical members 27 having a through-hole 28 on the upper side of the flat plate 11 in the form of a corrugated plate Arranged at regular intervals, a plurality of reinforcing plate 20 having a through-hole 21 on the upper end of the vertical member 27 is arranged in a direction perpendicular to the vertical member 27.

7 is a configuration diagram showing another embodiment of the bidirectional composite top plate according to the present invention, in which a pair of vertical members 27 having a through hole 28 are provided at an oblique inclination on an upper side of the flat plate 11 to trapezoidal shape. It was to be in the form.

In this alternative embodiment, the reinforcing plate 20 serves as the horizontal plate 15, so that the amount of material used is further reduced and the manufacturing process of the product is simplified to provide economics.

As described above, the present invention forms a vertical plate of the reinforcing piece vertically and installs a reinforcing plate for longitudinal reinforcement, thereby reducing the amount of material used and making the product easy and economical. Since the fluidity of the cured concrete is smooth, bubbles or hollows are not generated in the cured concrete, thereby improving durability.

In addition, when the construction according to the present invention is used as a formwork without the need for support, and after the concrete can be used to replace the reinforcement stresses in place of the reinforcement, do not need to reinforce the reinforcement and can withstand a lot of loads because of excellent composite strength with concrete, It is economical by providing convenience of construction.

In addition, due to the high bending stress, the deflection is small, making it suitable for the construction of slabs of long span bridges or buildings, and by strengthening the longitudinal direction in which the main stress acts, it is resistant to tensile stress and reduces the thickness of the slabs and slabs. Has a useful effect.

Claims (8)

delete A plurality of reinforcing pieces 12 having a horizontal plate 15 having a through hole 16 connected to an upper end of the pair of vertical plates 13 having a through hole 14 are arranged at regular intervals above the flat plate 11, An anisotropy provided with a plurality of reinforcing plates 20 arranged at regular intervals in a direction perpendicular to the horizontal plate 15 at the upper end of the horizontal plate 15, and a plurality of through holes 21 formed in the reinforcing plate 20 In the fragrant corrugated composite top plate, The reinforcing plate 20 includes a plurality of outer ribs 23 protruding downward from the outer end of the reinforcing plate 20, a plurality of inner ribs 22 protruding downward from the inner circumferential surface of the through hole 21, and a plurality of outer ribs. Bidirectional corrugated composite top plate, characterized in that the ribs 23 are formed at regular intervals and the insertion groove 26 is inserted into the reinforcing piece (12). The method of claim 2, Bidirectional corrugated composite top plate, characterized in that the protrusion piece 24 is inserted into the through hole 14 of the vertical plate 13 at the end of the outer rib 23 of the reinforcing plate 20. The method according to any one of claims 2 to 3, Bidirectional corrugated composite top plate, characterized in that a plurality of exhaust holes 25 are formed in the reinforcing plate (20). The method of claim 2, The through hole 14 of the vertical plate 13 is a bidirectional corrugated composite top plate, characterized in that the lower side is formed extending to the top of the flat plate (11). The method of claim 2, A coupling piece 18 coupled to one end of the flat plate 11 so that one side of the flat plate 11 is bent in multiple stages in the vertical and horizontal directions so that the coupling groove 19 is formed between the flat plate 11 and the flat plate 11. Bidirectional corrugated composite top plate, characterized in that the other end is provided with an insertion portion (17) which is inserted into the coupling groove 19 of the other plate 11 by bending in multiple stages in the vertical direction and the horizontal direction. delete delete

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