JPH1122078A - Steel plate concrete structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate mounting and demounting only by mechanical work by forming a joining part with a steel plate of a projecting material installed to be joined to steel plate inside concrete as a mountable and demountable fitting or screw structure. SOLUTION: A stud 4 is installed on a contact plane 3 of a steel plate 1 to cover the outside of a building frame and inside concrete 2, and is formed as a mountable and demountable screw structure, and joining force is secured. A type largest in the number is formed as a standard thread type 5, and a female screw 6 is formed in the steel plate 1, and is joined by screwing in a stud 4 side male screw 7. A single structure adapter having a small thread type is screwed in a standard thread type 5 in a part enough in joining force smaller than a standard, and a small type stud is screwed in the thread type. An adapter to support one of plural large screw dies by striding over plural standard thread types having the large screw side, is also arranged in a part requiring large joining force, and is joined by using a large type stud. Therefore, a rational steel plate concrete structure according to joining strength can be realized.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a steel plate concrete structure building.

[0002]

2. Description of the Related Art In the prior art, as shown in FIG. 4, in the prior art, a composite structure of a steel sheet 1 covering the outside and a concrete 2 inside, which is a characteristic of the composite structure, is made of different materials. It is necessary to prevent the buckling and the like by making each of them act effectively and make their respective behaviors against the external force coincide. Then, the studs (hereinafter referred to as studs 4) attached for joining the steel plate 1 and the concrete 2 are connected to the steel plate 1 by mechanical work only.
This will be described with reference to FIG. In a steel plate structure, the studs 4 are provided at regular intervals on the steel plate 1 inside the steel plate 1 covering the outside as the most reliable and effective method for joining the parts, and the concrete is connected to the concrete. It is common to join by conjugated in 2.

[0003] Incidentally, those related to this type of structure are disclosed in, for example, Japanese Patent Application Laid-Open No. 2-229337 or Japanese Patent Application Laid-Open No. 2-282540.
However, the above publications are intended to reinforce the joint between the pillar and the floor. The joining part is to connect the protrusion to one side only by mechanical work such as insertion or screwing, and to join it with the other concrete, but according to the required strength of that part It is difficult to change the size and the like of the protrusions easily, and it is a property that is applied to a relatively small part in a building.

[0004]

In the conventional steel plate concrete structure, as a method of joining the studs 4 to the steel plate 1 for such a reason, a method of joining all the studs 4 to the inside of the steel plate 1 by welding is adopted. At this time, since the bonding strength between the steel plate 1 covering the outside and the concrete 2 inside follows the bonding strength between the steel plate 1 and the stud 4, there is not enough method for securing the strength according to the required strength of that portion. In this case, additional welding is currently performed. If the strength is excessive, the welding work is taken into consideration and the strength is left as it is.

That is, the joining method by welding requires additional work and excessive design. Further, in the additional work, the actual welding is also for welding the narrow portion between the studs 4, making it very difficult to manufacture, and it takes a lot of time and cost. Alternatively, even at the stage of construction, a change such as replacement of studs 4 at a construction site after fabrication at a factory requires a large-scale welding facility and the like, which is extremely difficult work and causes an increase in the construction process. Also. An object of the present invention is to join the steel plate 1 and the studs 4 only by mechanical work such as insertion or screwing, and also to join several types of studs 4 by changing the size or the like. An object of the present invention is to provide a reasonable steel plate concrete structure that does not cause overdesign.

[0006]

That is, the present invention is to provide a screw structure in which a joint of a projection attached to concrete in a steel plate concrete structure and a steel plate is detachable. The intended purpose is achieved by installing an adapter in the screw portion.

In addition, it is possible to cope with various conditions. And it becomes mechanical simple manufacture, such as insertion or screwing, not by welding etc., and simultaneous or short-time joining can be performed.

In the steel plate concrete structure, the protrusion attached to the concrete structure in the steel plate concrete structure has a detachable screw structure at the joint portion with the steel plate, so that it can be easily attached and detached only by mechanical work.

By installing an adapter on the above-mentioned threaded portion, it is possible to easily change studs of various sizes and shapes corresponding to various conditions.

In addition, it is possible to cope with various conditions. And it becomes mechanical simple manufacture, such as insertion or screwing, not by welding etc., and simultaneous or short-time joining can be performed.

[0011] In the adapter described above, if a smaller screw type is required compared to the standard screw type, use a single adapter provided with a small screw hole, or use a larger screw type that exceeds the allowable conditions of the standard screw type. If necessary, the use of an adapter that supports multiple large screw dies over multiple standard screw dies makes it possible to rationally construct a steel-plate concrete structure that can handle various joint strengths with only mechanical work. can do.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail based on illustrated embodiments. FIG. 1 is a cross-sectional view of a steel plate concrete structure in which a joint surface 3 with a steel plate 1 of a protrusion (hereinafter referred to as a stud 4) attached for bonding the steel plate 1 and the concrete 2 is detachable. It is shown. It is composed of a composite structure of a steel plate 1 that covers the outside of the skeleton and a concrete 2 inside, which is a feature thereof. The studs 4 are attached to each other so that the joint strength of the joint surfaces 3 is sufficiently ensured so that the behaviors against the external force such as buckling are matched with each other, so that the proof strength of the building is effectively applied. .

At this time, the female screw 6 is opened to the steel plate 1 with the most common type being the standard five screw type.
For the corresponding one, the joining is performed by directly screwing the male screw 7 on the stud side. Thereby, the labor of the studs 4 of the most numerous types is minimized and only simple mechanical work is performed.

However, due to the nature of being located at various conditions in each building part, there is a case where a joining strength different from that of the standard screw type 5 of the most number type is required. Details of such a case will be described with reference to FIGS.

FIG. 2 is a cross-sectional view of an example using a single-structure adapter 11 used mainly when a substandard bonding strength is required. In the figure, reference numeral 1 denotes a steel plate, 2 denotes concrete, and 5 denotes a standard screw type 5 having the largest number. Screw type 10 smaller than standard screw type 5
The single-structured adapter 11 provided with the screw is screwed into the standard screw mold 5, and the small-sized stud 12 is screwed into the small screw-type mold 10 provided on the single-structured adapter 11. Thus, if the strength is excessive,
Using a stud 12 having a small shape corresponding to that can easily prevent excessive design.

FIG. 3 mainly shows an adapter (hereinafter referred to as a composite adapter 1) supporting a plurality of large screw types over a plurality of standard screw types used when a bonding strength higher than the standard is required.
A cross-sectional view of an example using (4) is shown. In the figure, 1
Denotes a steel plate, 2 denotes concrete, and 5 denotes a standard screw type 5 having the largest number. Standard screw type 5
A composite adapter 14 provided with a larger screw mold 13 is installed, and a large shaped stud 15 is screwed into the large screw mold 13 provided therein. Composite adapter 1
Reference numeral 4 denotes a plurality of standard screw molds 5 which cover the required joining force to compensate for the insufficient joining force. In this case, the joining force is distributed at an angle of about 45 ° from the stud 15 and depends on both the tensile load 18 applied to the concrete 2 and the tensile load with the composite adapter 14. In the former, the strength increases as the stud 15 is inserted deeper into the concrete 2.
This is because the tensile load 18 is distributed at an angle of about 45 °, so that the total strength increases.

If the composite adapter 14 is not used, it is necessary to match all the standard screw types 5 to the large screw type 13, and it is necessary to install the adapter for all of the most common types of standard screw types 5. It is inefficient.

That is, the combination of the adapter corresponding to the small shape in FIG. 2 and the adapter corresponding to the large shape in FIG. Can be built.

A specific example of use will be described with reference to FIG.
FIG. 5 is a perspective view of an example using the standard screw type 5, the single structure adapter 11, and the composite adapter 14, respectively. In the figure, reference numeral 1 denotes a steel plate, 2 denotes concrete, and 5 denotes a standard screw type 5 having the largest number. The steel plate side is manufactured on all of the standard screw dies 5 of the type having the largest quantity, and efficient manufacture is performed. And
In a portion 16 where the wall thickness is small and a joining force smaller than the standard is required, a single structure adapter 11 provided with a screw type 10 smaller than the standard screw type 5 is screwed into the standard screw type 5 and provided on the single structure adapter 11. The small-shaped stud 12 was screwed into the small screw mold 10 thus obtained.
In addition, the load of the supporting structure 17 is applied to the steel plate 1 outside the steel plate concrete structure, and the portion 17 requiring a bonding force larger than the standard is spread over a plurality of standard screw types provided with the screw type 13 larger than the standard. Then, an adapter 14 for supporting one large screw mold was installed, and a large stud 15 was screwed into a large screw mold 13 provided therein. The type of adapter is divided into several stages, and the one that matches that part is used as needed.

[0020]

According to the present invention, the steel plate and the stud can be joined only by mechanical work such as insertion or screwing, and the stud can be joined under various conditions. It is possible to provide a reasonable steel plate concrete structure that does not require design.

As a result, it is possible to quickly, reasonably and economically construct a steel plate concrete structure building.

[Brief description of the drawings]

FIG. 1 is a sectional view of a steel plate concrete.

FIG. 2 is an explanatory diagram of an example of an adapter corresponding to a small shape.

FIG. 3 is an explanatory diagram of an example of an adapter corresponding to a large shape.

FIG. 4 is an explanatory diagram of a conventional technique.

FIG. 5 is an explanatory diagram of the embodiment.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Steel plate, 2 ... Concrete, 3 ... Joint surface, 5 ... Standard screw type, 11 ... Single structure adapter, 12 ... Small shape stud, 13 ... Large screw type, 14 ... Composite adapter, 1
5 studs having a large shape, 16 parts requiring less than the standard bonding force, 17 parts requiring a larger bonding force than the standard, 18 concrete tensile loads.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Sakae Ebata 3-1-1, Sachimachi, Hitachi-shi, Ibaraki Pref. Hitachi Plant, Ltd. Hitachi Plant (72) Inventor Takanori Aramaki 1-chome, Sachimachi, Hitachi-shi, Ibaraki No. 2 Hitachi Life Co., Ltd. (72) Norihide Toyama Inventor 3-2-1 Sachimachi, Hitachi City, Ibaraki Prefecture Within Hitachi Engineering Co., Ltd. (72) Tomohiko Kikuyama Inventor Tomohiko Kikumachi Hitachi City, Ibaraki Prefecture Hitachi Engineering Co., Ltd.

Claims (4)

[Claims] 1. A steel plate concrete structure comprising a steel plate concrete structure in which a joint portion with a steel plate of a projection attached for bonding with the concrete inside the steel plate is detachably fitted or screwed. Construction. 2. A steel plate concrete structure in which an adapter is installed on the screw portion according to claim 1, and a projection attached for joining with a concrete inside a steel plate can correspond to various conditions. 3. The steel plate according to claim 1, wherein the joining portion has a screw structure, so that a mechanically simple manufacturing such as insertion or screwing without welding or the like is possible, and simultaneous or short-time joining is possible. Concrete structure. In the case where a small screw type is required for the standard screw type having the largest quantity, a single adapter provided with a small screw hole is used. If a larger screw type is required, use an adapter that spans multiple standard screw types and supports a single large screw type. Steel plate concrete structure that can respond to various conditions.