KR20140100025A - A warm brick an assembling type and method of manufacturing - Google Patents

Abstract

The present invention relates to a method to manufacture an assembling type heat reserving brick consisting of a basic body and a basic connection shaft, a corner body and a corner connection shaft, and an assistant body and an assistant connection shaft as one piece. The comparison of the corner body, lengths, heights, and widths to the main body are the same. The comparison of the assistant body, lengths and heights to the basic body are the same, but the width of the assistant body is 1/2 of the width of the basic body. The corner connection shaft and the heights are the same in comparison to the basic connection shaft, but the width of the corner connection shaft is 2/5 of the width of the basic connection shaft. The assistant connection shaft and width in comparison to the basic connection shaft are the same, but the height of the assistant connection shaft is 1/2 of the basic connection shaft. Two cylindrical connection grooves of the basic body and the corner body, and one cylindrical connection groove of the assistant body are connected to a connection hole, and vertically formed. Cylindrical connection rods of the basic connection shaft, the corner connection shaft, and the assistant connection shaft are vertically formed in both sides of a connection plate. The area of a connection plate and the diameter of a connection rod are formed to be smaller than approximately 2 mm in comparison to the area of a connection hole and the diameter of a connection groove, thereby smoothly joining thereof during construction. The empty space as the length of the basic body is formed inside a wall after construction, thus the present invention has the effects of heat reserving and insulating.

Description

Technical Field [0001] The present invention relates to a method of manufacturing a hot brick,

The present invention relates to a method of manufacturing a prefabricated thermal insulation brick, and more particularly, to a provision of a prefabricated thermal insulation brick in which a basic body, a basic connection axis corner body, a corner connection axis auxiliary body, and a supplementary connection shaft are assembled together.

Bricks are used for buildings, and old bricks are made up of cement bricks and red brick loam bricks.

Generally, bricks are formed as a rectangular parallelepiped or have two or three long holes in the center. When the bricks are installed, a bonding material such as cement is injected between the bricks and the bricks to fix the bricks. It is a construction that enables insulation by installing double insulation bricks on both sides.

The prefabricated thermal insulation bricks have been developed so that they can be installed more easily than these hassles, and these prefabricated thermal insulation bricks are provided with connecting rods of the basic connection axis, the corner connection axis and the auxiliary connection axis in the connection groove of the basic body and the corner auxiliary body , And construction.

The prefabricated thermal insulation brick will now be described with reference to FIG.

One or two cylindrical connecting grooves 12 are vertically formed at the upper end in association with the connecting ports 11 and are connected to the basic connecting shafts b, The corner connection axis d and the auxiliary connection axis f are vertically formed by a connecting plate 21 and cylindrical connecting rods 22 are vertically formed on both sides of the connecting connecting shaft 21. The connecting connecting grooves 12 and the connecting rods 22 can be combined It is composed of 6 groups.

The conventional bricks as described above are generally formed as a rectangular parallelepiped, or simply two or three long holes penetrate through the center portion, and a bonding agent such as cement is injected between the bricks and bricks when they are installed. There is a closed door that can not be constructed.

In addition, when inserting insulation material inside the wall for insulation, it is troublesome to construct brick on both sides, and when the construction is not done properly, the original shape of the brick is damaged in the process of separating the brick, There is a lot of problems such as waste and time required for construction.

In order to solve the above problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a cement- The main connecting axis, the corner connecting axis, and the auxiliary connecting axis are vertically connected to each other, and cylindrical connecting rods are formed on both sides. The connecting grooves and connecting rods are joined together. It is characterized by the formation of an empty space to provide insulation and insulation effect.

The present invention can easily be assembled and constructed so that anyone can easily construct it. If the construction is wrong, it can be separated and reused as a circular shape. Without using any heat insulating material, And has a warming and heat insulating effect.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a booth of a prefabricated thermal insulation brick according to the present invention, in which corners are separated from each other;
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated thermal insulation brick,
3 is a view showing the dimensions of a main part of a basic connecting shaft of the assembled thermal insulation brick of the present invention.
Fig. 4 is a view showing the construction using the prefabricated thermal insulation brick of the present invention. Fig.
DESCRIPTION OF REFERENCE NUMERALS OF MAIN PARTS OF DRAWINGS
a; Basic body
b; Basic connection axis
c; Corner
d; Corner connection axis
e; Auxiliary
f; Secondary connection axis
11; Connector
12; Connection groove
13; Rear corner
14; horizontal
15; Height
16; Vertical
21; Connecting plate
22; Connecting rod
23; Long hole
25; Height of connection axis
26; Length of connected axis

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of the prefabricated thermal insulation brick according to the present invention in which each body and each shaft are separated. Fig. 2 is a view showing the dimensions of a main part of the basic body of the present invention. FIG. 4 is a view showing the construction using the prefabricated thermal insulation brick of the present invention, and the construction and construction process will be described in detail.

The basic body (a) and the corner body (c) of the prefabricated thermal insulation brick to which the technique of the present invention is applied are the same in length 14 and height 15 and length 16 in auxiliary body e, (15) is the same as the basic body and the vertical body (16) is formed by half of the basic body.

In the base body (a), two connecting grooves (12) are vertically formed at the upper center portion toward the front surface at regular intervals in association with the connecting holes (11).

Two connection grooves 12 are vertically formed at regular intervals in association with the connection ports 11, one at the upper right side and one at the upper left side.

The auxiliary body (e) has a connection groove (12) vertically formed in the center of the upper end thereof in association with the connection hole (11).

The height 25 of the basic connection axis b is the same as that of the basic body a and cylindrical connection rods 22 are vertically formed on both sides of the connection plate 21 in the same manner as the height 25.

The corner connecting axis d has a height 25 and the connecting plate 21 and the connecting rod 22 are formed to be the same as the basic connecting axis b but the length 26 is formed to be 2/5 of the basic connecting axis.

The auxiliary connection shaft f is formed by connecting plate 21 and connecting rod 22 and the longitudinal axis 26 is the same as the basic connecting axis b but the height 25 is formed by 1/2 of the basic connecting axis.

A circular slot 23 having a diameter equal to 1/3 of the diameter of the connecting rod is vertically passed through the center of the connecting rod 22 in the auxiliary connecting shaft f and the basic connecting shaft b and the corner connecting shaft d.

The diameter of the connection groove 12 of the base body a is 1/2 of the length of the width 14 and the width of the connection hole 11 is 1/5 of the length 16 length.

The diameter of the connecting rod 22 of the basic connecting shaft b and the width of the connecting plate 21 are smaller by about 2 mm than the diameter of the connecting groove 12 of the base body a and the width of the connecting hole 11, So that they can be joined together smoothly.

The diameter of the connecting groove 12 and the width of the connecting hole 11 are the same as the diameter of the connecting groove 12 of the basic body a and the width of the connecting hole 11 in the corner c and the auxiliary body e Do.

The diameter of the connecting rod 22 of the corner connecting axis d and the auxiliary connecting axis f and the width of the connecting plate 21 are the same as the diameter of the connecting rod 22 of the basic connecting shaft b and the width of the connecting plate Do.

The prefabricated thermal insulation bricks are arranged in two rows with the basic body (a) and the auxiliary body (e) arranged at a distance of about the length (14) of the basic body (a)

In this case, the auxiliary coupling shaft f is inserted into the coupling groove 12 of the basic body a and the auxiliary body b disposed on both sides. The upper end of the auxiliary coupling shaft is aligned with the middle of the coupling groove 12.

The lower end of the connecting rod 22 is aligned with the upper end of the auxiliary connecting shaft f and the upper end of the connecting rod 22 is exposed at the upper end of the connecting groove 12 of the basic body or the auxiliary body .

The corner c is inserted at a point where the wall surface is bent to the letter "a ", and the corner connecting axis d serves as a connecting link for joining corners and corners disposed on both sides.

The auxiliary body (e) serves as an auxiliary for adjusting the length (16) of the charging body (a) at the finishing point.

The front and right corners (13) of the corners are oval in shape, and a predetermined "v" -shaped groove is formed between the brick and the brick after the installation, and a bonding agent such as cement You will be able to close the grooves.

The long hole 23 vertically penetrating the center of the connecting rod 22 forms a circular tunnel perpendicular to the inside of the wall surface after the installation to enhance a thermal effect.

The present invention is advantageous in that a hollow space of about 14 lengths is formed in the wall surface after the construction so that insulation and insulation effects are provided without using a separate insulation.

Claims (4)

A manufacturing method of a prefabricated thermal insulation brick comprising a base body (a), a basic connection axis (b), a corners (c) and a corner connection axis (d) ;
The basic body (a) is a rectangular parallelepiped, and the width (14) and the height (15) are 1/2 of the length (16);
The height 15 and the length 14 of the basic body a and the corners c are equal to each other and the auxiliary body e has the same height 15 and 14 as the height 16, A half of the basic body (a);
The basic body (a) and the corner body (c) are formed such that one coupling groove (12) is vertically formed in association with the coupling hole (11) for the two auxiliary bodies (e)
The main connecting shaft b and the auxiliary connecting shaft f are connected to each other by a connecting rod 22 on each side of the connecting plate 21 and a circular elongated hole 23 vertically through the center of the connecting rod. do.
The height 26 of the corner connecting axis d is 2/5 of the basic connecting axis a and the height 25 of the auxiliary connecting axis f is 1/2 of the basic connecting axis b. A method of manufacturing a hot brick. The method of claim 1, further comprising:
Wherein the width of the connecting plate and the diameter of the connecting rod are respectively smaller by about 2 mm than the width of the connecting hole and the diameter of the connecting groove. The method of claim 1, further comprising:
Wherein the diameter of the elongated hole (23) of the basic connection axis, the corner connection axis and the auxiliary connection axis is 1/3 of the diameter of the connection rod (22). The method of claim 1, further comprising:
Wherein both sides of the rear surface of the basic body (a) and the rear surface of the auxiliary body (e) and the rear surface of the corner body (c) and the front right corner (13) are elliptical.

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