KR200152842Y1 - The thermal insulation wall sectional structure for wooden building - Google Patents

Abstract

Disclosed is a heat insulating wall assembly structure of a log structure that provides a heat insulating effect to a log structure by inserting a heat insulating material into an inner surface of a log structure that forms an outer wall of a house using a log. The inner vertical support and the outer vertical support are installed in a zigzag manner between the pillars supporting the outer wall material, and the inner horizontal support is installed in the horizontal direction between the inner vertical support and the outer vertical support, and each vertical support and the horizontal support are provided. By inserting a heat insulating material between the spaces, a gap does not arise between a heat insulating material and a heat insulating material, and a heat insulation effect improves.

Description

Insulation wall assembly structure of log structure

The present invention relates to a log structure, and more particularly, to a heat insulating wall assembly structure of a log structure that provides a heat insulating effect to the log structure by inserting an insulating material on the inner surface of the log structure to form the outer wall of the house using the log. .

In general, in the construction of the outer wall of the house, it is common to laminate with cement bricks, but to double the inside and outside, and to purchase insulation therebetween. In forming the exterior wall of the house by using the log structure, logs are piled up in and out and the insulation is interposed therebetween to obtain a heat insulating effect. By the way, when the insulation is purchased between the inner wall of the log and the outer wall of the log, the insulation is purchased and laminated so as to face from the upper end to the lower end of the outer wall, so that a gap occurs in the contact portion between the insulation and the heat insulator, thereby deteriorating the insulation effect. That is, since the heat insulating material embedded between the inner wall and the outer wall of the log outer wall is usually formed into a rectangular shape, when the rectangular heat insulating material is embedded between the inner wall and the outer wall, one thermal insulation material is purchased and then the other thermal insulation material is embedded. Even though the insulation and the insulation are in close contact, a gap occurs between the insulation and the insulation due to the characteristics of the insulation. Therefore, there is a problem in that the insulation effect is deteriorated by the gap generated between the insulation even when using a heat insulating material having excellent heat insulating effect.

The present invention is devised to solve the above problems, the object of the present invention is to insert a heat insulating material on the inner surface of the log structure to form the outer wall of the house using the log of the log structure that provides a heat insulating effect to the log structure It is to provide a heat insulating wall assembly structure.

1 is a perspective view showing a state in which the support portion constituting the heat insulating wall of the log structure according to the present invention is installed.

Figure 2 is a perspective view showing the step of cutting the state of the heat insulating material assembled in the heat insulating wall of the log structure according to the present invention.

3 is a front view showing a state in which the heat insulation wall of the log structure according to the present invention is assembled.

4 is a cross-sectional view taken along line A-A of FIG. 3 according to the present invention.

* Explanation of symbols for main parts of the drawings

10a, 10b: pillar 20a: outside vertical support

20b: medial vertical support 30: medial horizontal support

40: insulation 50: outer wall

The present invention to achieve the above object is a pillar for supporting the outer wall vertically; An outer vertical support having a diameter corresponding to one third of the diameter of the pillar and installed at regular intervals between the pillars; An inner horizontal support having a diameter corresponding to one-third of the pillar and installed horizontally between the pillars to be perpendicular to the outer vertical support; A column whose diameter corresponds to a third, the inner vertical support being installed to be located between the outer vertical support; And it provides a heat insulating wall assembly structure of the log structure consisting of a heat insulating material provided between each of the outer vertical support, the inner horizontal support and the inner vertical support.

According to the present invention, the inner vertical support and the outer vertical support are installed in a zigzag manner between the pillars supporting the outer wall material, and the inner horizontal support is installed in the horizontal direction between the inner vertical support and the outer vertical support. By inserting a heat insulating material between the horizontal support and the vertical support, there is no gap between the heat insulating material and the heat insulating material, thereby improving the heat insulating effect.

Hereinafter, the present invention with reference to the accompanying drawings as follows.

1 is a perspective view showing a state in which the support portion constituting the heat insulating wall of the log structure according to the present invention is installed.

Figure 2 is a perspective view showing the step of cutting the state of the heat insulating material assembled in the heat insulating wall of the log structure according to the present invention.

3 is a front view showing a state in which the heat insulation wall of the log structure according to the present invention is assembled. 4 is a cross-sectional view taken along line A-A of FIG. 3 according to the present invention.

Referring to FIGS. 1 to 4, the heat insulation wall assembly structure of the log structure will be described. The pillars 10a and 10b vertically supporting the outer wall of the log structure are vertically installed. Between the pillars 10a and 10b, an outer vertical support 20a having a diameter equal to one third of the diameter of the pillars 10a and 10b is provided, and the outer vertical support 20a is a column 10a and 10b. Multiple pieces are installed at regular intervals between the backplanes. Between the pillars 10a and 10b, an inner horizontal support 30 having a diameter corresponding to one third of the pillar is installed, and the inner horizontal support 30 is installed in a horizontal direction between the pillars to support the outer vertical support. It becomes perpendicular to 20a. And a plurality of inner longitudinal support 20b is installed in the vertical direction between the pillar (10a, 10b), the inner longitudinal support 20b is installed to be located between the outer longitudinal support (20a) in a zigzag manner. . Between each of the outer vertical support 20a, the inner horizontal support 30 and the inner vertical support 20b, the heat insulating material 40 is each of the outer vertical support 20a, the inner horizontal support 30 and the inner vertical support ( 20b) is installed to be in close contact.

The present invention made in this way to install the pillars (10a, 10b) on the floor at regular intervals in order to install the outer wall 50 of the log structure (not shown). Since the pillars 10a and 10b support the outer wall, a material having a large diameter (30 cm) is used.

A plurality of small supports (for example, an inner vertical support, an outer vertical support, an inner horizontal support, etc.) are installed between the pillars 10a and 10b, and the thermal insulation material 40 is closely attached between the pillars 10a and 10b. . That is, since the diameters of the pillars 10a and 10b (for example, 30 cm) correspond to the thickness of the outer wall 50, the thickness of the outer wall 50 is divided into three and one third is occupied by the outer vertical support 20a. The work is occupied by the inner horizontal support 30, and the remaining third is occupied by the inner longitudinal support 20b. An inner horizontal support 30 is installed between the outer vertical support 20a and the inner vertical support 20b, and between the outer vertical support 20a, the inner vertical support 20b, and the inner horizontal support 30. Since the heat insulating material 40 is installed in close contact with the heat insulating material 40 installed on the outer wall 50 is made of three.

In more detail, the pillars 10a and 10b are vertically installed on both sides of the outer wall 50, and the outer side of the outer wall 50 has the interval in which the heat insulating material 40 is vertically installed based on the pillars 10a and 10b on both sides. The vertical support 20a is installed. The outer vertical support 20a is installed to be supported on the bottom surface. And, between the outer vertical support 20a is installed so that the heat insulating material 40 is in close contact with the outer vertical support (20a).

In addition, the inner horizontal support 30 is installed in the horizontal direction to the inner side of the outer vertical support (20a), between the inner horizontal support 30 so that the heat insulating material 40 is in close contact with the inner horizontal support (30). Is installed. The inner horizontal support 30 is supported and installed on the left and right pillars (10a, 10b). Therefore, the outer vertical support 20a and the inner horizontal support 30 are crossed at right angles, and are installed between the heat insulating material 40 and the inner horizontal support 30 installed between the outer vertical support 20a. The heat insulating material 40 is also crossed at a right angle.

In addition, the inner vertical support 20b is installed in the longitudinal direction inside the outer wall 50, and the heat insulating material 40 is installed to closely contact the inner vertical support 20b between the inner vertical support 20b. . The inner vertical support 20b is installed on the bottom surface, the inner vertical support 20b is located between the outer vertical support 20a so that the outer vertical support 20a and the inner vertical support 20b are zigzag mutually. Will be located. Therefore, the heat insulating material 40 provided between the outer vertical support 20a and the heat insulating material 40 provided between the inner vertical support 20b are also zigzag-shaped. In addition, the heat insulating material 40 provided between the inner vertical support members 20b and the heat insulating material 40 provided between the inner horizontal support members 30 are also crossed at right angles.

Accordingly, the heat insulating material 40 provided between the heat insulating material 40 provided between the outer vertical support 20a and the inner vertical support 20b is provided between the heat insulating material 40 and the inner horizontal support 30. Since the gaps generated between the heat insulating material and the heat insulating material are sealed by the heat insulating material provided on the mutually different supports, the heat insulating effect is improved.

As can be seen from the above description, the present invention is the inner vertical support member and the outer vertical support are installed in a zigzag form between the pillars for supporting the outer wall material, and between the inner vertical support and the outer vertical support in the horizontal direction. An inner horizontal support is installed, and a gap is not formed between the heat insulating material and the heat insulating material by inserting a heat insulating material between each horizontal support and the vertical support, thereby improving the heat insulating effect.

Claims (2)

Pillars 10a and 10b vertically supporting the outer wall; An outer vertical support 20a having a diameter corresponding to one third of the diameter of the pillars 10a and 10b and installed at regular intervals between the pillars 10a and 10b; An inner horizontal support 30 having a diameter corresponding to one third of the pillars 10a and 10b and installed in a horizontal direction between the pillars 10a and 10b to be perpendicular to the outer vertical support 20a; An inner vertical support 20b having a diameter corresponding to one third of the pillars 10a and 10b and installed to be positioned between the outer vertical support 20a; And it is installed between each of the outer vertical support 20a, the inner horizontal support 30 and the inner vertical support 20b, the outer vertical support 20a, the inner horizontal support 30 and the inner vertical support 20b. Insulation wall assembly structure of the log structure consisting of a heat insulating material 40 in close contact with each of the. According to claim 1, wherein the outer vertical support 20a and the inner horizontal support 30 are perpendicular to each other, the inner vertical support 20b is installed vertically so as to be located between the outer vertical support (20a). The outer vertical support 20a, the inner horizontal support 30, and the inner vertical support 20b are installed to be mutually displaced, and are provided with a heat insulating material 40 and an inner horizontal support provided between the outer vertical support 20a. Insulation material 40 is installed between the insulating material 40 and the inner vertical support 20b between the 30 is installed so as to deviate from each other is characterized in that the gap generated between the natural insulating material is sealed. Insulation wall assembly structure of log structure.