JPS6119423Y2 - - Google Patents

Description

[Detailed description of the invention] This invention mainly connects the frames that make up the outer wall and the internal structure that makes up the refrigerated warehouse body in a refrigerated warehouse (including rack-type refrigerated warehouses) made of reinforced concrete or steel. Regarding the joint.

Conventionally, a joint made of H-shaped steel has been used as this type of joint, and such a joint has one end connected to the internal structure with a bolt, passed through the heat insulation layer, and the other end connected to the framework. , the joint is cooled by the cold air in the warehouse, so
The joints of the frame are also cooled, causing dew condensation, sometimes ice, and rust.

In order to eliminate the occurrence of such a phenomenon, a plate made of a heat insulating material is interposed between the shaft assembly and the connection part of the joint.
In most cases, sufficient insulation effect cannot be obtained because the construction is done on-site, and this cannot prevent dew condensation and freezing of the heat insulating material within the heat insulating layer.

An object of the present invention is to provide a joint having a structure that can prevent the occurrence of dew condensation and freezing caused by heat conduction of the joint.

In order to achieve this purpose, the architectural joint of the present invention has a metal joint main body having connecting flanges at both ends of the body, and a heat insulating layer mainly made of synthetic resin on the entire outer surface of the body and the flange. The body is formed of a cylindrical body, and a heat insulating material is filled in the body.

An embodiment of the present invention will be described below with reference to a specific example shown in the accompanying drawings.

As shown in Figure 1, the joint 1 of the present invention
In this method, a heat insulating layer 5 mainly made of synthetic resin is formed around a metal body, for example, a steel frame, which consists of a body part 2 that penetrates the heat insulating layer and connecting flanges 3 welded to both ends of the body part 2, and connecting flanges 3 welded to both ends thereof. A hole 6 for bolt insertion is bored in the part.

Although H-shaped steel may be used as the body 2, in this embodiment, the body 2 is made of cylindrical steel,
A heat insulating material 7 is filled inside to improve heat insulation performance. This example shows an example in which a foaming material such as polyurethane resin is injected and foamed as a heat insulating material through the hole 8 of one flange.

Further, from the viewpoint of strength, it is preferable to use glass fiber reinforced plastic (FRP) for the heat insulating layer 5.

Figure 2 shows an example of how to attach the joint of this embodiment.
An example is shown in which a joint 1 is attached to connect the H-shaped steel 10 as a frame that constitutes the outer wall. In the figure, 11 is a column made of H-shaped steel as an internal structure for constructing the beam 9, 12 is a concrete slab on the beam 9, and 13 is a plywood board 13a, 13.
14 is an outer wall slate, 15 is an outer wall slate 14 and an H-shaped steel 10, and an H-shaped steel 10 and a heat insulating layer 13.
The joint 1 penetrates the heat insulating layer 13 and connects the flanges at both ends to the web of the beam 9 and the flange of the H-shaped steel 10 by bolts 16 and nuts 17. .

According to this embodiment, the heat insulating layer 5 is interposed between the beam 9, the H-shaped steel 10, the heat insulating layer 13, indoor cold air, etc., and the steel material of the joint 1, so that the heat transfer through the joint 1 is as simple as that of the conventional one. As a result, dew condensation and ice formation on the surface of the H-shaped steel 10 or the heat-insulating layer 13 can be significantly reduced. In particular, since the joint 1 of this embodiment is filled with the heat insulating material 7, the heat insulation performance is even better.

The joint of the present invention can be used to connect columns or braces as an internal structure with external walls or ridge frameworks, and can also be applied to frozen warehouses made of reinforced concrete in addition to frozen warehouses made of steel bars. can.

As described above, according to the present invention, it is possible to prevent dew condensation and ice formation on the shaft bones and heat-insulating layers of external walls, etc., and to prevent the occurrence of rust and deterioration of materials, which are caused by these. This can prevent the weakening of the structure and the deterioration of insulation performance.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view showing an example of a joint according to the present invention, and FIG. 2 is a sectional view of a wall of a refrigerated warehouse showing an example of its use. In the figure, 1...joint, 2...torso, 3, 4
... Flange, 5 ... Heat insulation layer, 6 ... Bolt hole, 7 ... Heat insulation material.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) A metal joint main body having connecting flanges at both ends of the body, with a heat insulating layer mainly made of synthetic resin formed on the entire outer surface of the body and the flange. Joint. (2) The architectural joint according to claim 1, which is a registered utility model, characterized in that the body is formed of a cylindrical body, and a heat insulating material is filled therein.