KR20050046439A - Connecting apparatus for modular house - Google Patents

Abstract

The present invention is a fastener of a prefabricated building module having a long hole is formed in the front and both ends of the operator's hand and a plurality of coupling holes are formed on the left and right sides, both sides open, the plane of the pillar installed in the module And a connecting plate member covering the plane of the pillar installed in another module adjacent to the module at the same time, and protruding from the lower and upper surfaces of the connecting plate member to the sides of the pillar of the module and the pillars installed in other modules adjacent to the upper, lower, left, and right sides of the module. It includes a reinforcing member that is in close contact with the fastening hole is consistent with the coupling hole. This fastener secures the stability of the building by stably coupling adjacent modules.

Description

CONNECTING APPARATUS FOR MODULAR HOUSE}

The present invention relates to a fastener of a prefabricated building module, and more particularly to a fastener of a prefabricated building module that can be coupled to an adjacent module integrally.

Container houses are often used as temporary housing for workers in construction sites. Such temporary provisions have the advantage that installation cost is low because no additional construction is required. Recently, many temporary constructions have been built using containers in the short term. 1 shows a multi-layered construction made using a container. Each layer consists of a plurality of containers 100 arranged horizontally. Doors 110 are formed at both sides of the container 100, and the doors 110 are connected to the doors 110 of the container 100 arranged on the left and right sides. Therefore, even if the plurality of containers 100 are arranged horizontally, it is possible to enter and exit the inner container 100 through the doorway 110 of the container 100 located outside. On the container 100 arranged as described above, a plurality of containers 100 are arranged again to form another layer. The entrance 110 of the upper container 100 is provided with a staircase connected to the ground.

Container 100 is made of steel is quite heavy. Therefore, even if another container 100 is placed on the container 100, the stability of the structure is maintained to some extent by the weight of the container 100. However, it is vulnerable to natural disasters such as strong winds and earthquakes. Recently, in order to solve such a disadvantage, the connection to the holes 120 of the container 100 stacked up and down using a means such as a wire or a clamp. However, such a means can only connect the container 100 arranged vertically or vertically or left and right, there is a disadvantage that can not be connected as a whole. In addition, the holes 120 formed in the upper and lower portions of the container 100 are intended to be fitted with a rod-shaped steel or a fixing string to fix the container 100 to a transportation vehicle, and the like. Hard to get effect

Container constructions, on the other hand, were not suitable for long-term use as temporary buildings. Accordingly, there is a need for other types of prefabricated buildings that can be used forever and permanently, such as container construction.

The present invention is to solve the above problems, to provide a fastener of the prefabricated building module that can be integrally fastened adjacent modules to improve the stability of the permanent building made by the prefabricated building module. It is done.

According to an aspect of the present invention as a fastener of a prefabricated building module having a long hole is formed in the front and both ends of the operator's hand and a plurality of coupling holes are formed on the left and right sides, both sides of the open pillar, A connecting plate covering the plane of the pillar and the plane of the pillar installed in another module adjacent to the module at the same time, and a protrusion formed on the lower and upper surfaces of the connecting plate to be installed on the pillar of the module and the other modules adjacent to the top, bottom, left and right of the module. A fastener of a prefabricated building module is provided that includes a reinforcing member that is in close contact with the side of the coupling hole formed in accordance with the coupling hole.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows a prefabricated building module developed by the applicant of the present invention.

The prefabricated building module 200 is a rectangular structure of the same or similar size as the container. The prefabricated building module 200 has a different internal shape depending on its use. Exterior and interior work of the prefabricated building module 200 is made in a dedicated factory. Therefore, in the field, the prefabricated building module 200 constituting each module may be assembled according to the design.

Columns 210 are installed at the corners and wall portions of the prefabricated building module 200. Long holes 211 are formed at both ends of the pillar 210 and the plate 220 is coupled. The plate member 220 is provided with a plurality of coupling holes 221. The long hole 211 formed in the pillar 210 is formed so that the operator's hand can be entered, it is good to be largely formed within a range that does not significantly affect the allowable pressure acting on the pillar 210. Plate 220 is to have a stability when the prefabricated building module 200 is mounted on another prefabricated building module 200, the column 210 of the prefabricated building module 200 can be easily laminated It is better to be formed larger than the cross section.

The present invention is to connect a plurality of prefabricated building module 200 formed as described above.

When the prefabricated building module 200 described above is stacked and arranged, different pillars 210 are adjacent to each other as shown in the drawing. At this time, the pillars 210 of the prefabricated building module 200 stacked up and down contact each other, but the pillars 210 of the prefabricated building module 200 arranged on the side thereof do not contact. Therefore, the coupling relationship of the prefabricated building module 200 stacked up and down is relatively stable, but the coupling relationship of the prefabricated building module 200 arranged left and right is unstable. Therefore, in the present invention, when combining different prefabricated building modules 200, the prefabricated building modules 200 stacked up and down as well as the prefabricated building modules 200 arranged on the left and right sides can be integrally combined.

Figure 3 shows a fastening state of the prefabricated building module according to an embodiment of the present invention, Figure 4 shows a fastening state of the prefabricated building module according to another embodiment of the present invention, Figure 5 is another of the present invention It shows the fastening state of the prefabricated building module according to the embodiment.

Fastener according to an embodiment of the present invention is a rectangular connecting plate 300. A plurality of fastening holes 310 are formed in the connecting plate 300. The connecting plate 300 is formed long enough in consideration of the distance between the pillars 210 of the prefabricated building module 200 arranged left and right. In addition, the fastening hole 310 of the connecting plate 300 is formed to match the coupling hole 221 formed in the plate 220 of each prefabricated building module 200. However, some errors may occur during the construction process, so that the fastening hole 310 formed in the connecting plate 300 is formed to be slightly larger than the coupling hole 221 formed in the plate 220 or may have a rectangular shape. .

The coupling sequence of the prefabricated building module 200 using the connecting plate 300 is as follows.

First, the lower prefabricated building module 200 is arranged. One connecting plate 300 is placed on the plate 220 of the two prefabricated building modules 200 adjacent to each other. At this time, the fastening hole 310 of the connecting plate member 300 and the coupling hole 221 of the plate member 220 are aligned using the pins for fixing the position. When the connecting plate 300 is fixed on the plate 220, the upper prefabricated building module 200 is placed on the connecting plate 300 to match the lower prefabricated building module 200. When the coupling hole 221 formed in the plate 220 of the upper and lower prefabricated building module 200 and the fastening hole 310 formed in the connecting plate 300 are all matched, four prefabricated building modules 200 are formed using bolts and nuts. ) Is fixed to the connecting plate (300). Thus, the prefabricated building module 200 fixed via the connecting plate 300 is directly connected up and down and left and right are connected to each other via the connecting plate 300 as a medium, so that they are not separated from each other by any external force. On the other hand, the pillar 210 of the prefabricated building module 200, the hollow 211 is formed for the convenience of the operator, so that the bolt is easily made.

4 and 5 show different embodiments of the present invention, respectively, showing fasteners used when both ends of the pillars 210 of the prefabricated building module 200 are opened.

The support plate 220 is preferably coupled to the pillar 210 of the prefabricated building module 200, but may not be present due to the characteristics of the prefabricated building module 200. In this case, since the coupling hole 221 is formed on the side of the pillar 210, a fastener of a new shape is required. Therefore, the fastener of the present embodiment, unlike the previous embodiment, further comprises a reinforcing member 320 in addition to the rectangular connecting plate 300. At this time, a separate fastening hole is not formed in the connecting plate member 300, but a plurality of fastening holes 310 are formed at the side surface of the reinforcing member 320.

The reinforcing member 320 protrudes perpendicularly to the upper and lower surfaces of the connecting plate 300. This reinforcing member 320 is coupled to the side of the pillar (210). Meanwhile, in the present invention, two types of reinforcing members 320 are shown. One is fitted inside each pillar 210 in a 'c' shape as shown in Figure 4, the other is bonded to the outside of each pillar 210 in a vertically upward shape as shown in FIG. . The fastening hole 310 of the reinforcing member 320 is formed to match the coupling hole 221 formed in the pillar 210. A bolt and a nut are fastened and fixed to the fastening hole 310 and the coupling hole 221. Thus, each prefabricated building module 200 is fixedly coupled to each other by the combination of the pillar 210 and the reinforcing member (320).

On the other hand, using the fastener formed in this way it is easy to stack the assembly of prefabricated building module 200. That is, since the reinforcing member 320 protrudes in the direction of the pillar 210, it is easy to fix the fastener to the pillar 210, and the prefabricated building module 200 and the lower assembled building module 200 are placed on the fastener. The advantage is that the positions naturally match.

The present invention makes it easy to perform on-site assembly and disassembly of the prefabricated building module, and has the effect of ensuring structural stability and horizontal maintenance of the building made by the prefabricated building module.

Although the technical idea of the fastener of the prefabricated building module has been described together with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1 illustrates a hypothesis formed by stacking containers,

Figure 2 shows a prefabricated building module developed by the applicant of the present invention,

Figure 3 shows a fastening state of the prefabricated building module according to an embodiment of the present invention,

Figure 4 shows the fastening state of the prefabricated building module according to another embodiment of the present invention,

Figure 5 shows the fastening state of the prefabricated building module according to another embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

200: prefabricated building module 210: pillar

220: plate 300: connecting plate

310: fastening hole 320: reinforcing member

Claims (3)

It is a fastener of a prefabricated building module having a long hole that can be opened and closed by the operator's hands at both ends, a plurality of coupling holes are formed on the left and right sides, and both sides open. A connection plate material covering the plane of the pillars installed in the module and the plane of the pillars installed in another module adjacent to the module; The prefabricated building module including a reinforcing member protruding on the bottom and the upper surface of the connecting plate material and the reinforcing member is formed in close contact with the side of the pillar installed in the module and the other modules adjacent to the upper, lower, left and right sides of the module and coincide with the coupling hole Fasteners. The fastener of the prefabricated building module according to claim 1, wherein the reinforcing member protrudes in a 'c' shape to fit inside the pillar. The fastener of the prefabricated building module according to claim 1, wherein the reinforcing member protrudes to be joined to the outer surface of the pillar.