KR20140000492U - Deck panel and Intergrated Deck Plate with Deck panel - Google Patents

Abstract

The present invention relates to a deck panel and a deck panel integrated deck plate.
To this end, the metal plate body is integrally bent and one side of the widthwise end is formed with a connecting male ball, the other side is formed with a connecting arm ball, the upper surface of the metal plate body is formed with a pair of support holes in the longitudinal direction And a deck panel having a reinforcement protrusion protruding upward between the pair of support holes, wherein the support holes are bent upwards to a predetermined height by joining two support parts to form a first joint part. The upper portion of the holding portion of each of the bent downwards to the outside of the two first inclined portion is formed integrally, parallel to the first inclined upwardly inward to the two inclined portions are formed integrally ↑ And the first inclined portion and the second inclined portion are opposed to each other to form two second joint portions, and the two second inclined portions meet each other. That the welded portion protruded in which are integrally formed characterized.

Description

Deck panel and Intergrated Deck Plate with Deck panel}

The present invention relates to a deck panel welded to the bottom of the truss girder developed for the long span through a fixture and a deck panel integrated deck plate welded to the deck panel and the truss girder in this way.

In general, a concrete structure has a problem in that the air is long in the process of disposing the concrete after installing the formwork, reinforcing the reinforcing bars in the formwork, and then dismantle the formwork.

The deck plate in which the truss girder and the deck panel are integrated has been proposed to solve the above problems as it is possible to support the load of concrete that is installed between beams.

As shown in FIG. 1, in the conventional truss deck published in Korean Patent Publication No. 10-2005-0117689, the upper reinforcing bar is one and the lower reinforcing bar is one to two left and right. Alternately welded to the rebar, the bottom of the lattice material was bent to the outside to weld to the steel sheet.

However, in the conventional truss deck, during the welding process, a protrusion in the form of an acid is simply formed on the deck panel for the purpose of welding the lower panel of the lattice material and the deck panel. The protrusions in the shape of the mountain were easily developed by the load, or there was a possibility of being separated by corrosion later, and the height of the welded projections was low, so that there was a problem of generating pinholes or welding traces around the welding site. This leads to a decrease in strength due to corrosion.

In addition, when the deck panel and the truss girder are transported after being welded, there is a problem in that the air becomes long when they are welded in the field, and when the space of the long span is needed, Due to this, there was an economically inefficient problem that unnecessary materials are wasted.

In order to form a deck panel, the metal plate body is integrally bent to facilitate manufacture, to cope with tensile force effectively, and to form a support hole, so that no pinholes or welding traces are generated during the welding process.

In addition, the support sphere is configured to prevent buckling or deformation due to the load to maintain a constant shape.

In addition, the welding time can be shortened, so that unskilled workers can be easily and economically installed in the field, and the span of the deck plate can be widened without being restricted by the length through the end of the connector so that resources are not wasted. do.

To this end, the metal plate body 10 is integrally bent so that one connection side 110 is formed at one side of the widthwise end, and the other side has a connection arm hole 120 formed thereon, and an upper surface of the metal plate body 10. In the deck panel (A) is provided with a pair of support holes 130 are formed in the longitudinal direction, the reinforcement protrusion 140 is formed between the pair of support holes 130 to protrude upwards, The support 130 has two support parts 131 and 131 ′ facing each other to be bent upward to a predetermined height to form a first joint part 134, and the two support parts 131 and 131 ′. Each of the upper portions of the upper bent downwards are formed to be integrally formed with two first inclined portions 132 and 132 ', and the two inclined upwardly inward parallel to the first inclined portions 132 and 132'. Of the second inclined portions 133 and 133 'are integrally formed to have a ↑ shape, and the first inclined portions 132 and 132' and the second inclined portions 133 and 1 are formed. 33 ') are joined to each other to form two second joining portions 135 and 135', and the two second inclined portions 133 and 133 'are joined to each other to weld upwards 136. Characterized in that formed.

In addition, the connection port 110 is one side of the metal plate body 10 is bent to the outside upward inclined to form an inclined connecting portion 111 and the inclined connecting portion 111 is bent in the outer horizontal direction horizontal portion 112 Is formed, the horizontal portion 112 is bent vertically downward to form one side vertical portion 113, the one side vertical portion 113 is bent inwardly downward to form one side slope portion 114 integrally However, the connecting arm 120 is the other side of the metal plate body 10 is bent upwards, the other vertical portion 121 is formed and the other vertical portion 121 is bent inward upward and the other inclined portion 122 Characterized in that is formed.

In addition, the space portion 137 is integrally formed at the lower portion of the welding portion 136, and when the load acts on the welding portion 136, the support port 130 is characterized in that the T-shaped deformation.

In another embodiment, in the deck plate (C) formed by welding the truss girder (B) to the upper portion of the deck panel (A), the deck panel (A) is the metal plate body 10 is integrally bent in the width direction One side of the end is connected to the connection (110) is formed, the other side is connected to the connecting hole (120), the upper surface of the metal plate 10 is formed with a pair of support holes 130 in the longitudinal direction However, between the pair of support holes 130, a reinforcement protrusion 140 is formed to protrude upwards, and the support hole 130 has two support portions 131 and 131 'against each other. The first junction 134 is formed by being bent upward to a height, and the upper portions of the two pillars 131 and 131 ′ are respectively bent downward to the outside to form two first inclined portions 132 and 132 ′. Is integrally formed, but is bent upwardly in parallel with the first inclined portions 132 and 132 'so that the two second inclined portions 133 and 133' are It is integrally formed and is formed in a ↑ shape, and the first inclined portion 132, 132 'and the second inclined portion 133, 133' are opposed to each other to form two second bonding portions 135 ( 135 'is formed, and the two second inclined portions 133 and 133' are formed to be integrally formed with a welded portion 136 protruding upward, and the truss girder B is upper reinforcing 210 The lattice material 220 bent in a wave shape on both sides with respect to the) is welded, respectively, the lower reinforcement 230 is welded to the lower outer portion of the lattice 220, characterized in that formed in a triangular form. do.

In addition, the connection port 110 is one side of the metal plate body 10 is bent to the outside upward inclined to form an inclined connecting portion 111 and the inclined connecting portion 111 is bent in the outer horizontal direction horizontal portion 112 Is formed, the horizontal portion 112 is bent vertically downward to form one side vertical portion 113, the one side vertical portion 113 is bent inwardly downward to form one side slope portion 114 integrally However, the connecting arm 120 is the other side of the metal plate body 10 is bent upwards, the other vertical portion 121 is formed and the other vertical portion 121 is bent inward upward and the other inclined portion 122 Characterized in that is formed.

In addition, the space portion 137 is integrally formed at the lower portion of the welding portion 136, and when the load acts on the welding portion 136, the support port 130 is characterized in that the T-shaped deformation.

In addition, the lower end portions of the lattice material 220 of the truss girder (B) are each bent in the outer horizontal direction so that the foot portion 240 is integrally formed so that the foot portion 240 is a base of the deck panel (A) ( 130) it is characterized in that the welding is placed on the top.

It is easy to manufacture and economical by integrally bending the metal plate body to form the deck panel, and also has a reinforcing protrusion on the metal plate body can effectively cope with the tensile force.

Forming the support port is to bend upward above a certain height to prevent pinholes or welding traces during the welding process.

At the same time, the support is bent to face the support, and the space is integrally formed so that when the load is applied to the weld, the support is deformed into a T-shape so that the support is not buckled or deformed to maintain a constant shape. .

By shortening the welding time, unskilled workers can be easily installed on the site while maintaining the construction quality economically, and the resources of the deck plate can be widened without being restricted by the length through the end connection.

1 is a perspective view showing a conventional deck panel.
Figure 2 is a perspective view of the deck panel according to the present invention.
Figure 3a is a partially enlarged view of the deck panel support of an embodiment according to the present invention.
Figure 3b is a partially enlarged view of the deck panel support of another embodiment according to the present invention.
Figure 4 is a perspective view of the deck panel integrated deck plate according to the present invention.
Figure 5a is an enlarged view of the portion of the base before the welding coupling of the deck panel integrated deck plate according to the present invention.
Figure 5b is an enlarged view of the portion of the base after the welding coupling of the deck panel integrated deck plate according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more readily disclose the contents of the present invention and that the scope of the present invention is not limited to the range of the accompanying drawings, You will know.

Conventional deck panels and deck plates are mainly used in slabs of building structures such as steel structure (S group), reinforced concrete structure (RC group), steel reinforced concrete structure (SRC group), as shown in Figure 1 deck The truss girder is coupled to the top of the panel to have an integral form.

The present invention is the connection panel 110 is formed on one side in the width direction of the deck panel (A), the connecting arm (120) is formed on the other side is configured to be repeatedly coupled in the width direction, regardless of the length of the span It can cope with long span effectively.

Economical production is possible by integrally bending the metal plate body 10 to form the deck panel A. A pair of welding protrusions 130 are bent to form a foot part 240 of the truss girder B to be described later. It is welded in a stable supported state, but is formed so as to effectively respond from the tensile force by forming a reinforcement protrusion 140 therebetween.

The support 130 has two support parts 131 and 131 ′ facing each other to be bent upward to a predetermined height to form a first joint part 134, and the two support parts 131 and 131 ′. Each of the upper portions of the upper bent downwards are formed to be integrally formed with two first inclined portions 132 and 132 ', and the two inclined upwardly inward parallel to the first inclined portions 132 and 132'. Of the second inclined portions 133 and 133 'are integrally formed and formed into a ↑ shape, and the first inclined portions 132 and 132' and the second inclined portions 133 and 133 'are formed. Are joined to each other to form two second joint parts 135 and 135 ', and the second second inclined parts 133 and 133' are formed to be integrally formed with a weld part 136 protruding upward. have.

The support hole 130 has two support parts 131 and 131 ′, and the first joining part 134 is formed, and the first inclined part and the second inclined part are joined to each other to form the second joining part 135 ( 135 ') is formed to a certain thickness and is formed by bending upwards above a predetermined height to prevent pinholes or welding traces from occurring during the welding process.

In addition, through the first junction 134, 134 'and the second junction 135, 135' to protect the support 130 to a certain shape from the occurrence of buckling or deformation, to prevent the eccentricity of the load. Can be.

Since the welding part 136 is welded in a one-contact manner, only a part of the welding part 136 which is to be contacted with the foot part 240 to be described later may be selectively transported, and thus an individual member may be easily transported, and even an inexperienced person may be easily welded. There is this.

The connection port 110 is bent in one side of the metal plate body 10 is inclined upwardly outward to form an inclined connection portion 111 and the inclined connection portion 111 is bent in the outer horizontal direction to form a horizontal portion 112. The horizontal portion 112 may be bent vertically downward to form one side vertical portion 113, and the one side vertical portion 113 may be bent downward to form one side inclined portion 114. .

In addition, the connecting arm 120, the other side of the metal plate body 10 is bent upwards, the other vertical portion 121 is formed, and the other vertical portion 121 is bent inwardly upward, the other inclined portion 122 Can be formed.

Through the continuous binding of the connection number 110 and the connecting arm 120, so that the span of the deck plate (C) can be widened without being limited in length so that unnecessary waste of resources is not generated.

On the other hand, the space portion 137 is integrally formed at the lower portion of the welding portion 136, when the load is applied to the welding portion 136, the support 130 may be deformed in the T-shape.

When simply pressed to weld the truss girder (B) to the T-shaped projection, the buckling to the T-shaped projection or deformation in the left and right direction is likely to cause a problem in the welding quality, but the lower portion of the protruding weld 136 In the case where the space portion 137 is formed integrally therewith, the welding portion 136 is compressed to deform the shape of the support hole 130 to a T-shape, so that the welding quality is improved. There is an advantage.

As another embodiment of the present invention, in the deck plate (C) formed by welding the truss girder (B) to the upper portion of the deck panel (A), as described above, the deck panel (A) is a metal plate body ( 10) is integrally bent to one side of the width direction end connection port 110 is formed, the other side is connected to the connecting arm 120 is formed, the upper surface of the metal plate 10 a pair of support holes 130 is formed in the longitudinal direction, but the reinforcing protrusions 140 protruding upward are formed between the pair of support holes 130.

At this time, the support hole 130 is the two pillars 131, 131 'butted together to be bent upward to a predetermined height to form a first junction 134, the two pillars 131, 131 The upper part of ') is bent downwardly to each other so that two first inclined portions 132 and 132' are integrally formed, and upwardly bent inward in parallel with the first inclined portions 132 and 132 '. Two second inclined portions 133 and 133 'are integrally formed to form a ↑ shape, and the first inclined portions 132 and 132' and the second inclined portions 133 and 133 are formed. ') Are opposed to each other to form two second joints 135 and 135', and the two second inclined portions 133 and 133 'meet and protrude upwardly to integrally weld 136. Is formed.

On the other hand, the truss girder (B) is welded to the lattice material 220 bent in a wave shape on both sides with respect to the upper reinforcement 210, respectively, the lower reinforcement 230 is lower outside the lattice material (220) Each is welded to form a triangular shape.

The truss girder (B) has a triangular shape in the side, the lower width is 60mm, the height is 100mm, preferably the length is approximately 3,300mm to 4,000mm. In addition, one truss girder (B) is to be arranged in two rows to three rows for this purpose deck plate (A) is preferably to have a width of 3,300mm to 4,000, 600mm vertical.

However, the above specification is a matter that can be easily changed by those skilled in the art, if the truss girder (B) is arranged in three rows on the girder plate (A) having a width of 600mm, the upper reinforcement of the truss girder (B) ( 210 is preferably to be installed at a position within 200mm around the central portion and the center portion, the upper reinforcement 210 is 10mm to 13mm, lattice material 220 is 5mm to 6mm and the lower reinforcement 230 is 8mm It is desirable to have a diameter of 10 mm.

In addition, as described above, the connection figure 110 is one side of the metal plate body 10 is bent inclined upwardly outward to form an inclined connection portion 111 and the inclined connection portion 111 is bent in the outer horizontal direction horizontal A part 112 is formed, and the horizontal part 112 is bent vertically downward to form one side vertical part 113, and the one side vertical part 113 is bent downward to the inside so that one side inclined part 114 is formed. Is formed integrally, the connecting arm 120, the other side of the metal plate body 10 is bent upwards, the other vertical portion 121 is formed and the other vertical portion 121 is bent upwards inward to the other side inclination The part 122 may be formed.

On the other hand, the space portion 137 is integrally formed at the lower portion of the welding portion 136, when the load is applied to the welding portion 136, the support 130 may be deformed in the T-shape.

In addition, the lower end portions of the lattice material 220 of the truss girder (B) are each bent in the outer horizontal direction so that the foot portion 240 is integrally formed so that the foot portion 240 is a base of the deck panel (A) ( 130 may be placed on the top and welded.

The manufacturing process of the deck panel A and the deck panel integrated deck plate which have such a structure is as follows.

 First, the metal plate body 10 is integrally bent so that a plurality of pairs of support holes 130 are formed in the girder plate A in the longitudinal direction, and the reinforcement protrusions 140 are formed therebetween. .

At this time, the support port 130 is the two support parts 131, 131 'butted together to be bent upward to a predetermined height to form a first joint 134, the two support parts 131, 131' ) Is bent upwardly to the outside to form two first inclined portions 132 and 132 'integrally, and upwardly bent inward in parallel with the first inclined portions 132 and 132'. Two second inclined portions 133 and 133 'are integrally formed to form a ↑ shape, and the first inclined portions 132 and 132' and the second inclined portions 133 and 133 'are integrally formed. ) Are joined to each other to form two second joints 135 and 135 ', and the two second inclined portions 133 and 133' meet and protrude upward to form a weld 136 integrally formed. To be done.

Next, the connection panel 110 is formed at one side of the width direction end of the deck panel A, and the other side is obtained by bending the connection arm sphere 120 to be formed.

Next, the lattice material 220 is welded to both sides of the upper reinforcement 210, respectively, and the lower reinforcement 230 is welded to the lower outer side of the lattice material 220, respectively, and is configured in a triangular form, and the lattice Lower ends of the ashes 220 are horizontally bent to the outside to obtain the truss girder B in which the foot portions 240 are formed, respectively.

And the foot panel 240 of the truss girder (B) is mounted on the protruding welding portion 136 formed in the support opening 130 of the deck panel (A) to be welded to the deck panel integral deck plate ( Get C)

At this time, the space portion 137 is integrally formed at the lower portion of the welding portion 136 to seat the foot 240 of the truss girder B on the upper portion of the welding portion 136 so as to support the support hole 130. The deck panel integrated deck plate (C) can be obtained by making the T-shaped shape deform.

A: Deck Panel 10: Metal Plate
110: connecting port 111: inclined connection
112: horizontal portion 113: one side vertical portion
114: one side slope portion 120: connecting arm
121: other vertical part 122: other inclined part
130: support 131,131 ': supporter
132,132 ': First inclined part 133,133': Second inclined part
134: first joint 135,135 ': second joint
136: welding part 137: space part
140: reinforcement protrusion B: truss girder
210: upper rebar 220: lattice material
230: lower reinforcement 240: foot part
C: Deck Plate

Claims (7)

The metal plate body 10 is integrally bent so that one connection side 110 is formed at one side of the widthwise end, and the other side has a connection arm hole 120 formed thereon, and a pair of upper surfaces of the metal plate body 10. In the support panel 130 of the deck panel (A) is formed in the longitudinal direction, the reinforcement protrusion 140 is formed between the pair of support holes 130 protruding upward,
The support 130 has two support parts 131 and 131 ′ facing each other to be bent upward to a predetermined height to form a first joint part 134, and the two support parts 131 and 131 ′. Each of the upper portions of the upper bent downwards are formed to be integrally formed with two first inclined portions 132 and 132 ', and the two inclined upwardly inward parallel to the first inclined portions 132 and 132'. Of the second inclined portions 133 and 133 'are integrally formed and formed into a ↑ shape, and the first inclined portions 132 and 132' and the second inclined portions 133 and 133 'are formed. Are joined to each other to form two second joint parts 135 and 135 ', and the second second inclined parts 133 and 133' are formed to be integrally formed with a weld part 136 protruding upward. Deck panel characterized by losing. The method of claim 1,
The connection port 110 is bent in one side of the metal plate body 10 is inclined upwardly outward to form an inclined connection portion 111 and the inclined connection portion 111 is bent in the outer horizontal direction to form a horizontal portion 112. The horizontal portion 112 is bent vertically downward to form one side vertical portion 113, and the one side vertical portion 113 is bent inward downward to form one side slope portion 114 integrally.
The connecting arm hole 120 is bent upward of the other side of the metal plate body 10 to form the other vertical portion 121, and the other vertical portion 121 is bent upwards inward to form the other inclined portion 122. Deck panel characterized in that. The method of claim 1,
A space panel 137 is integrally formed at the lower part of the welding part 136, so that when the load is applied to the welding part 136, the supporting port 130 is deformed to a T shape. In the deck plate (C) formed by welding the truss girder (B) to the upper portion of the deck panel (A),
The deck panel (A) is the metal plate body 10 is integrally bent so that one side of the width direction end connection port 110 is formed, the other side connection arm sphere 120 is formed, the metal plate body 10 On the upper surface of the pair of support holes 130 are formed in the longitudinal direction, between the pair of support holes 130 is formed a reinforcement protrusion 140 is protruded to the top,
The support 130 has two support parts 131 and 131 ′ facing each other to be bent upward to a predetermined height to form a first joint part 134, and the two support parts 131 and 131 ′. Each of the upper portions of the upper bent downwards are formed to be integrally formed with two first inclined portions 132 and 132 ', and the two inclined upwardly inward parallel to the first inclined portions 132 and 132'. Of the second inclined portions 133 and 133 'are integrally formed and formed into a ↑ shape, and the first inclined portions 132 and 132' and the second inclined portions 133 and 133 'are formed. Are joined to each other to form two second joint parts 135 and 135 ', and the second second inclined parts 133 and 133' are formed to be integrally formed with a weld part 136 protruding upward. Understand,
The truss girder (B) is welded to the lattice material 220 bent in a wave form on both sides with respect to the upper reinforcement 210, respectively, the lower reinforcement 230 is welded to the lower outside of the lattice material (220) Deck panel integrated deck plate, characterized in that formed in a triangular form. 5. The method of claim 4,
The connection port 110 is bent in one side of the metal plate body 10 is inclined upwardly outward to form an inclined connection portion 111 and the inclined connection portion 111 is bent in the outer horizontal direction to form a horizontal portion 112. The horizontal portion 112 is bent vertically downward to form one side vertical portion 113, and the one side vertical portion 113 is bent inward downward to form one side slope portion 114 integrally.
The connecting arm hole 120 is bent upward of the other side of the metal plate body 10 to form the other vertical portion 121, and the other vertical portion 121 is bent upwards inward to form the other inclined portion 122. Deck panel integrated deck plate characterized in that. 5. The method of claim 4,
A space panel 137 is integrally formed at the lower portion of the welding part 136, and thus, when the load is applied to the welding part 136, the support hole 130 is deformed in a T-shape. plate. The method according to claim 4 to 6,
The lower ends of the lattice material 220 of the truss girder B are bent in the outer horizontal direction, respectively, so that the foot part 240 is integrally formed so that the foot part 240 supports the support panel 130 of the deck panel A. Deck panel-integrated deck plate, characterized in that placed on the top and welded.

Images