KR20140005726U - Fabricated insulation barrier - Google Patents

Abstract

The present invention seeks to provide prefabricated insulation walls that are used indoors and are constructed to enable recycling of the components. The heat insulating wall of the present invention includes a leg portion 14 supported by a bottom surface, a brick having a predetermined height supported by the leg portion 14 and having bricks supported on an upper surface formed with a plurality of engaging holes 16 A base (10) having a support (12); A brick 40 laminated at a predetermined height on the base 10 and having a through hole 42 formed in a vertical direction; An engaging plate (20) mounted on the uppermost end of the laminated bricks (40) and provided with a plurality of engaging holes (22); The upper and lower ends of the connecting bar 20 and the brick supporting part 12 pass through the connecting holes of the bricks and the upper and lower ends of the connecting bars 20, (30).

Description

{Fabricated insulation barrier}

The present invention relates to a prefabricated heat insulating wall, and more particularly, to a prefabricated heat insulating wall configured to be able to be installed in a desired section in a prefabricated manner such as a heat insulating brick.

When a fireplace is installed in a room in the winter season, such a fireplace has a high temperature due to internal combustion. Therefore, it is desirable to secure a large space around the stove so as not to be ignited by the heat of the stove if possible.

However, when the space in the room where the fireplace is installed is narrow, it is conceivable that a material that can be easily burned is located there. In this case, it is preferable to provide a heat insulating wall. In the case of the heat insulating wall installed in the room, it is preferable that the indoor wall structure can be easily changed by the arrangement of the indoor furniture. In addition, although the insulation wall adjacent to the hearth is meaningful as the insulation itself, considering the fact that the hearth is used in the winter season, it is possible to accumulate the heat when blocking the heat in the hearth .

The object of the present invention is to provide a prefabricated thermal insulation wall which is installed in the vicinity of a device for generating heat in a room and can prevent a high temperature from being transmitted to other objects in the room do.

Another object of the present invention is to provide a heat insulating wall capable of storing a heat quantity corresponding to a heat stove installed in a room while partially blocking heat transfer between the stove and another object.

In order to accomplish the above object, a prefabricated heat insulating wall according to the present invention comprises: a leg portion supported by a floor; a brick support portion supported by the leg portion and having a predetermined height, A base; A brick which is stacked at a predetermined height on the base and has a through hole formed in a vertical direction; An engaging plate which is placed on the uppermost end of the laminated bricks and has a plurality of engaging holes; And a coupling bar passing through the coupling hole of the brick and having upper and lower ends fixed to the coupling plate and the brick support by the nut in a state of passing through the coupling hole.

The coupling hole is preferably formed as a long hole extending along the longitudinal direction of the coupling plate or the base.

It is also possible that the through-holes of the bricks are formed in a plurality, and the binding bars are stacked so that they are inserted along the through holes at the same position in the bricks, or the binding bars are stacked such that the bricks are inserted along the through- .

According to the present invention as described above, the heat insulating wall can be assembled at a desired position by easily building the insulating bricks in the room. In this case, since the assembled heat insulating wall is not used for cement or other adhesive material, it can be disassembled and reused, and thus it has a considerable advantage in terms of recycling of resources.

According to the present invention as described above, when the heat insulating wall substantially blocks the heat to the surroundings, the heat corresponding thereto is inevitably accumulated, and since the heat insulating wall made mainly of ceramic material has such a heat accumulating function, It is expected that the effect of maintaining the used heating is also expected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary perspective view of a prefabricated heat insulating wall according to the present invention; FIG.
Fig. 2 is a view showing an example of the laminated state of the assembled heat insulating wall according to the present invention. Fig.

Hereinafter, the present invention will be described in more detail based on the embodiment shown in the drawings.

As shown in FIG. 1 which is an exploded view of the heat insulating wall according to the present invention, the brick used in the assembled heat insulating wall of the present invention is a brick having a through hole 42 formed in the vertical direction. In the illustrated embodiment, the brick 40 has three through-holes 42 formed in the vertical direction.

The coupling plate 20 and the base 10 are coupled to the upper and lower portions of the brick 40. The coupling plate 20 and the base 10 are formed with a plurality of coupling holes 16 and 22 through which the coupling bar 30 can pass. The coupling holes 16 and 22 are formed to extend in the transverse direction in the same shape as a slot having a predetermined length, so that coupling with the coupling bar 30 can be made easier.

The coupling bar 30 may be a portion that supports the brick to be stacked at a predetermined height while passing through the through hole 42 of the brick 40. At least the upper and lower ends may be fastened with the nut 32 by screwing A thread is formed on the outer peripheral surface.

The base 10 includes a brick support portion 12 having a predetermined height and a lower portion extending downward from the brick support portion 12 so as to be separated from the floor surface And a support leg portion 14 capable of supporting the brick support portion 12 at a constant height. In the illustrated embodiment, the supporting leg portions 14 are formed on both sides of the brick supporting portion 12. [

Since the base 10 is constructed by laminating the bricks 40 in a row or in one direction, it can be said that the base 10 has a substantially constant length. Therefore, it is preferable that the brick support portion 12 has a width (equal or slightly larger width) corresponding to the width of the brick, and that the engagement holes 16 and 22 have a constant length along the longitudinal direction, It is possible to facilitate the coupling with the connector 30.

Bricks 40 may be stacked on the brick support 12 of the base 10 as shown. At this time, any of the through holes 42 of the bricks 40 to be stacked should be stacked so as to coincide with each other. When the bricks 40 are stacked at a desired height, one of the through holes 42 in the up-and-down direction coincides with each other, so that the binding bar 30 can be penetrated. When the nut 32 is fastened to the upper end of the coupling bar 30 (the upper surface of the coupling plate) and the lower end (the lower surface of the brick support portion of the base), the bricks piled up at a certain height can be firmly fixed .

Another example of brick lamination according to the present invention is as follows. When the coupling bar 30 is passed through the coupling hole 16 of the base 10 and one nut 32 is coupled to the bottom of the brick supporting portion 12, A plurality of bricks 40 may be stacked on the base 10 in such a state that the through holes 42 are stacked while allowing the coupling bars 30 to penetrate. When the bricks of desired height are stacked, the engaging plate 20 is positioned on the upper surface of the brick, and the nut 32 is fastened to the upper end of the engaging bar 30 projected from the engaging hole 22.

As described above, according to the present invention, the bricks 40 having the through holes 42 are vertically stacked, and the coupling bars 30 are formed on the upper and lower portions of the bricks 40 using the coupling plates 20 and the base 10, As shown in FIG. In order to facilitate the passage of the coupling bars 30, it is convenient that the coupling holes 16 and 22 have a predetermined length in the longitudinal direction of the base or coupling plate in the form of a slot.

And the base 10 is provided with the brick support portion 12 and the leg portion 14 so that the nut 32 and the lower end of the coupling bar 30, which are engaged with the lower portion of the brick support portion 12, It may be more convenient to shield the base 10 while keeping it horizontal.

Next, the stacking of the bricks 40 will be described. In FIG. 1, it is understood that a plurality of bricks are stacked in a straight line. That is, the left and right sides of the bricks 40 are stacked while being aligned in a vertical line. When the bricks 40 are laminated in this manner, it is expected that there will be an advantage that both end portions of the heat insulating wall can be formed as vertical lines.

And Fig. 2 shows another embodiment of stacking the bricks 40. Fig. The present embodiment can be said to be applied when a plurality of through holes 42 are formed in the bricks 40 and the bridges are stacked through the through holes 42 in which the coupling bars 30 are located at different positions. That is, according to the illustrated embodiment, the bricks 40 are stacked in a zigzag form with respect to the vertical direction. Such a laminated structure can be expected to provide a stronger lamination capability.

And the insulation wall substantially according to the present invention is installed indoors at a certain height and length. It will be appreciated that the heat insulating wall can be moved indoors, but it can be disassembled as a whole by releasing the nut 32 and releasing the coupling bar 30 from the brick 40. Since the dismantled brick (40) is the same as the initial state, it can be used again, which is useful in terms of resource recycling.

10 ..... base
12 ..... brick support
14 ..... leg part
16 ..... joining ball
20 ..... engaging plate
22 ..... joining ball
30 ..... joining bar
32 ..... nut
40 ..... brick
42 ... through hole

Claims (3)

And a brick support portion 12 supported by the leg portion 14 and having a predetermined height and having a plurality of engaging holes 16 formed therein and having bricks supported on the upper surface thereof, A base 10;
A brick 40 laminated at a predetermined height on the base 10 and having a through hole 42 formed in a vertical direction;
An engaging plate (20) mounted on the uppermost end of the laminated bricks (40) and provided with a plurality of engaging holes (22); And
And the upper and lower ends of the coupling bar 20 and the brick supporting portion 12 pass through the coupling holes of the bricks and pass through the coupling holes 16 and 22 of the coupling plate 20 and the brick supporting portion 12, 30). ≪ / RTI >
The prefabricated thermal insulation wall according to claim 1, wherein the coupling hole is formed as a long hole extending along the longitudinal direction of the coupling plate or the base.
The prefabricated thermal insulation wall according to claim 1 or 2, wherein the brick has a plurality of through holes.

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