KR20190099997A - Window frame with improved heat insulation property - Google Patents

Abstract

The present invention relates to a window frame with an improved heat insulation function, which comprises: an outer frame provided with a stainless material and formed in a hollow square pipe type of which an insertion hole penetrates into a central portion; and a heat insulation frame assembly inserted into the insertion hole of the outer frame by a forcible insertion method. Accordingly, the window frame is made of a stainless material, and a member for heat insulation can be easily coupled to the window frame. Moreover, heat insulation efficiency can be maximized.

Description

Window frame with improved heat insulation property

The present invention relates to a window frame, and more particularly to a window frame with improved insulation function to facilitate the easy coupling of the members for heat insulation, and to maximize the heat insulation efficiency.

In general, the windows used as building materials can identify the outside from the inside of the building, and are widely used for indoor ventilation, and include windows and frames coupled to the windows and frames that form the outer frame.

On the other hand, the window frame made of a conventional aluminum material has been applied a lot of heat insulating material for the insulation between the outdoor side and the indoor side.

In addition, the conventional window frame provided by the aluminum material as described above could be easily formed a complex structure that can be combined with the heat insulating material by extrusion molding.

In recent years, window frames made of stainless steel rather than aluminum have been developed, and it is preferable to apply a heat insulating material coupling structure for insulation between the indoor side and the outdoor side as well.

However, since the stainless steel is usually molded using a roll forming apparatus or the like, workability and formability are much lower than those of aluminum, and thus, development of an efficient structure capable of fixedly coupling a heat insulating material to a window frame made of stainless steel is required. .

Therefore, the situation is required to research and development of the window frame made of a stainless-based material, so as to be able to easily combine the members for insulation, and to maximize the insulation efficiency.

Registration of Republic of Korea Patent No. 0880339.16.2009. Registration of Republic of Korea Patent No. 1217213.12.24.2012. Registration of Republic of Korea Patent No. 1767089 2017.08.04.

In order to solve the problems as described above, an object of the present invention is to provide a window frame with improved thermal insulation function that can be easily combined with a member for thermal insulation, and to improve the thermal insulation efficiency.

In addition, the technology according to the present invention by applying the insulation frame assembly composed of the upper and lower assembly unit including the upper and lower insulating blocks, the side assembly unit including the central insulating block and the side insulating block is easy to manufacture and at the same time installed indoor and outdoor The purpose is to maximize the insulation efficiency for the side.

The present invention for achieving the above object is as follows. That is, the window frame with improved thermal insulation function according to the present invention is provided in a stainless material but is spaced apart from both sides from the upper center to form a pair of rails protruding, the lower portion of the rail is formed with a plurality of insertion holes in the width direction Insulating frame assembly is inserted into the frame and inserted through each insertion hole of the outer frame, wherein the insulating frame assembly is provided in pairs, provided in a rectangular bar type assembly grooves are formed on both sides and rectangular bar type A top and bottom assembly unit consisting of a top and bottom body frame is installed in the upper and lower heat insulating block is fixed to penetrate through the center, and a central insulating block and a pair arranged in close contact with the center of the top and bottom assembly unit provided in a pair, a rectangular bar type The upper and lower assembly units are provided on the upper and lower parts of the central insulating block Closely assembled on both sides of the arranged state, the pair of assembling protrusions are formed on the upper side and the lower side of the one side facing the assembly groove of the upper and lower assembly units, and the rectangular bar type side insulation block is fixed to penetrate the center. A side assembly unit consisting of a side body frame is installed, wherein the upper and lower insulating blocks, the central insulating block, the side insulating block is 50% by weight bottom ash, 10% by weight fly ash, 5% by weight glass beads, clay ash 15% by weight, 10% by weight of graphite ash, 5% by weight of sodium silicate and 5% by weight of auxiliary additives are prepared and mixed to obtain a heat insulating material, and a material preparation process for preparing a reinforcing plate on a zigzag plate, At least one of the reinforcing plates of the material is placed in the center of the mold, and the insulation material is pressed into the mold by pressing and receiving the mold into a rectangular bar type or rectangular bar type block shape. Forming process, drying process for 25 minutes at a temperature of 80 ~ 450 ℃ while passing the molded block through a drying furnace, firing process for firing the dried block for 35 minutes in a kiln of 900 ~ 1300 ℃ and An insulating block obtained by performing a cooling process of nitrogen-cooling the calcined block for 10 minutes, characterized in that applied to the insulating block provided with the at least one reinforcing plate in the central portion of the insulating material.

In addition, the present invention, the upper and lower thermal insulation block, the central insulation block, the side insulation block in the material preparation process, 50% by weight of the bottom ash is composed of evenly mixed particle size of 0.3 ~ 5mm, with respect to 100% by weight bottom ash , 4.75 ~ 5mm 10% by weight, 4.75 ~ 2.36mm 40% by weight, 2.36 ~ 1.18mm 30% by weight, 1.18 ~ 0.6mm 10% by weight, 0.6 ~ 0.3mm or less 10% by weight It is done.

In addition, the present invention is a reinforcing plate provided in the center of the heat insulating material of the upper and lower heat insulating block, the center heat insulating block, the side heat insulating block is provided on the zigzag plate, while the perforated plate is formed with a plurality of holes having a predetermined interval and different sizes It is characterized by being provided as a type.

In addition, the present invention, the upper and lower thermal insulation block, the central insulation block, the side insulation block is in the molding process, 3 to 5 parts by weight of the non-slip agent compared to 100 parts by weight of the insulating material on the surface in contact with the insulating material which is both sides of the reinforcing plate The non-slip agent is selected from one or a mixture of these kinds of ceramic powder, aluminum oxide powder, iron oxide powder and nonmetal powder, and the particle size is 300 mesh or less.

In addition, the present invention, the upper and lower thermal insulation block, the central insulation block, the side insulation block is in the molding process, 3 to 5 parts by weight of the non-slip agent compared to 100 parts by weight of the insulating material on the surface in contact with the insulating material which is both sides of the reinforcing plate In addition, the non-slip agent is made of one or a mixture of ceramic powder, aluminum oxide powder, iron oxide powder, non-metal powder, or a mixture of these species, but formed in the shape of different '+' rods of different sizes to form both sides of the reinforcing plate It is characterized in that it is irregularly applied to the surface in contact with the heat insulating material.

In addition, the present invention is applied to the upper and lower heat insulating block, the central heat insulating block, the side heat insulating block is a heat insulating block provided with the at least one reinforcement plate in the central portion of the heat insulating material, the top and bottom heat insulating block and the central heat insulating block one in the center of the heat insulating material While the side of the heat insulation block is applied as a heat insulation block provided with a reinforcement plate, the side heat insulation block is characterized in that it is applied as a heat insulation block provided with two reinforcement plates to be spaced apart at regular intervals on both sides based on the center of the heat insulating material.

Referring to the effect of the window frame with improved thermal insulation function according to the invention as follows.

First, it is made of a stainless steel material by including an insulating frame assembly provided by a stainless steel but inserted into the insertion hole of the outer frame and the outer frame formed of a hollow rectangular pipe type through the insertion hole is formed in the center. In addition, it is possible to easily combine members for thermal insulation, and at the same time improve the thermal insulation efficiency.

Second, the insulation frame assembly composed of the upper and lower assembly unit including the upper and lower insulation blocks, the side assembly unit including the center insulation block and the side insulation block is applied to simplify the manufacturing and at the same time, the insulation efficiency for the indoor side and the outdoor side is improved. It can be maximized.

1 is a view showing a window frame improved insulation function according to the present invention, a partial separation perspective view showing a state in which the outer frame and the insulation frame assembly separated.
Figure 2 shows a window frame with improved insulation function according to the present invention, a combined perspective configuration showing a state in which the outer frame and the insulation frame assembly is coupled.
Figure 3 is a partial separation perspective view showing the assembling structure for the insulation frame assembly that is the main portion of the window frame improved insulation function according to the present invention.
Figure 4 is a cross-sectional view of the assembled state of the insulating frame assembly showing the assembling structure for the insulating frame assembly which is the main portion of the window frame improved heat insulation function according to the present invention.
5 is a main portion of the reinforcing plate applied to the upper and lower insulation blocks, side insulation blocks and the center insulation block as a main part for the insulation frame assembly of the window frame with improved insulation according to the present invention.
Figure 6 is a perspective view showing the construction use state separated construction showing a structure in which the window frame is improved insulated function according to the present invention is applied to four of the rectangular frame type through the interconnect frame.
Figure 7 is a construction using a combined perspective view showing a combined state of Figure 6;
8 is a construction using state combined cross-sectional view showing a cross section of the coupling state of FIG.
9 is a view showing an improved window insulation frame according to another embodiment of the present invention, part of the separated perspective view showing a state in which the outer frame and the insulation frame assembly separated.
10 is a view showing an improved window insulation frame according to another embodiment of the present invention, a combined perspective view showing a state in which the outer frame and the insulation frame assembly is coupled.
Figure 11 is a cross-sectional view of the assembled state of the insulating frame assembly showing the assembling structure for the insulating frame assembly which is the main portion of the window frame with improved thermal insulation function according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the window frame with improved thermal insulation according to the present invention.

1 is a view showing an improved window insulation frame according to the present invention, is a partial separated perspective view showing a state in which the outer frame and the insulation frame assembly separated, Figure 2 is a window frame improved insulation function according to the present invention As shown, it is a combined perspective view showing a state in which the outer frame and the insulating frame assembly is coupled.

3 is an exploded perspective structural view showing the assembling structure for the insulation frame assembly which is the main part of the window frame with improved insulation function according to the present invention, Figure 4 is an insulation frame assembly that is the main portion of the window frame with improved insulation according to the present invention. It is a cross-sectional view of the assembled state of the insulation frame assembly showing the assembly structure for.

FIG. 5 is an exemplary view illustrating a reinforcing plate applied to upper and lower insulating blocks, side insulating blocks, and a central insulating block as main parts of an insulating frame assembly of a window frame having improved thermal insulation function according to the present invention.

FIG. 6 is a perspective view illustrating a construction use state separated perspective view showing a structure in which a window frame having improved thermal insulation function according to the present invention is applied to four frames and assembled into a rectangular frame type through an interconnecting frame, and FIG. 7 is a combination of FIG. 6. Construction use state combined perspective configuration diagram showing the state, Figure 8 is a construction use state combined cross-sectional view showing a cross section for the engagement state of FIG.

As shown in Figures 1 to 8, the window frame with improved thermal insulation function according to a preferred embodiment of the present invention is provided with a stainless steel but the outer frame is formed of a hollow rectangular pipe type formed through the insertion hole 110 in the center ( 100) and the insulating frame assembly 200 is inserted and installed through an interference fit into the insertion hole 110 of the outer frame 100.

At this time, the insulation frame assembly 200 is classified into a larger upper and lower assembly unit 210, the central insulation block 220 and the side assembly unit 230 is formed.

In detail, the upper and lower assembly units 210 are provided in pairs, but are provided in a pair of square bars to form assembling grooves 212 formed at both sides, and the upper and lower portions of which the upper and lower insulating blocks 215 of the rectangular bar type are fixed to penetrate the center thereof. It is composed of a body frame 211.

In addition, the central insulating block 220 is disposed in close contact with the center of the upper and lower assembly unit 210 is provided in a pair, it is formed in a rectangular bar type.

And the side assembling unit 230 is provided in a pair is assembled on both sides of the upper and lower assembly unit 210 in close contact with the upper, lower portion of the central insulating block 220, the upper and lower assembly unit ( A pair of assembling protrusions 232 are formed at an upper side and a lower side of the side facing the assembly groove 212 of the 210, and a side portion in which a rectangular bar type side insulation block 235 is fixed to penetrate the center thereof. It is composed of a body frame (231).

On the other hand, the upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 in the heat insulating material frame assembly 200 having the configuration as described above is a material preparation process, molding process, drying process and As a heat insulating block obtained by performing a sintering process and a cooling process, the at least one reinforcing plate 217, 227, 237 is preferably applied to a central portion of the heat insulating material 216, 226, 236.

At this time, the material preparation process is 50% by weight bottom ash, 10% by weight fly ash, 5% by weight glass beads, 15% by weight clay ash, 10% by weight graphite ash, 5% by weight of sodium silicate and auxiliary 5 wt% of additives are prepared and mixed to obtain a heat insulating material, and the reinforcing plates 217, 227, and 237 on the zigzag plate are prepared.

In the forming process, at least one or more reinforcing plates 217, 227, 237 of the prepared materials are arranged at the center of the mold, and the insulation material is pressed into the mold by pressing and receiving a heat insulating material. The process consists of molding into a block form.

And the drying process consists of performing a drying for 25 minutes at a temperature of 80 ~ 450 ℃ while passing the molded block through the drying furnace.

In addition, the firing process consists of baking the dried block for 35 minutes in a firing furnace of 900 ~ 1300 ℃, the cooling process consists of the process of nitrogen cooling the calcined block for 10 minutes.

The upper and lower thermal insulation block 215, the central insulation block 220, the side insulation block 235 as described above, in particular, in the material preparation process, 50% by weight of the bottom ash is composed of evenly mixing the particle size of 0.3 ~ 5mm However, with respect to 100% by weight of bottom ash, 10% by weight of 4.75-5mm, 40% by weight of 4.75-2.36mm, 30% by weight of 2.36-1.18mm, 10% by weight of 1.18-0.6mm, 0.6-0.3mm or less It is preferable to mix-mix 10 weight%.

In addition, the upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is a heat insulating material in contact with the surface of the insulating material which is both sides of the reinforcing plate (217, 227, 237) in the molding process. 3 to 5 parts by weight of the non-slip agent per 100 parts by weight may be included and applied.

At this time, the non-slip agent is selected from one or a mixture of these kinds of ceramic powder, aluminum oxide powder, iron oxide powder, non-metal powder, it is preferable that the particle size is provided to be 300 mesh or less.

As described above, when an appropriate amount of the non-slip agent is applied to the surfaces of the reinforcing plates 217, 227, and 237 in contact with both sides of the reinforcing plates 217, 227, and 237, the slip on the surfaces of the reinforcing plates 217, 227, and 237 is restrained so that Junction bonding can be further improved.

In addition, the upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is a heat insulating material in contact with the surface of the insulating material which is both sides of the reinforcing plate (217, 227, 237) in the molding process. 3 to 5 parts by weight of the non-slip agent is included relative to 100 parts by weight, and the non-slip agent is selected from one or a mixture of ceramic powders, aluminum oxide powders, iron oxide powders, and non-metal powders, and has different sizes. 'It may be formed in the shape of a bar and may be irregularly applied to the surface in contact with the insulating material which is both sides of the reinforcing plate (217, 227, 237).

On the other hand, the upper and lower heat insulating block 215, the central heat insulating block 220, the side of the heat insulating material (216, 226, 236) of the heat insulating block 235 is provided in the reinforcement plate (217, 227, 237) As shown, it is preferably provided in a zigzag plate, while being provided in a perforated plate type in which a plurality of through holes 217a, 227a, and 237a having different sizes are formed.

Furthermore, the upper and lower heat insulating blocks 215, the central heat insulating blocks 220, and the side heat insulating blocks 235 are provided with the at least one reinforcing plate 217, 227, and 237 at the center of the heat insulating material 216, 226, and 236. Is applied to the insulating block, the upper and lower insulating block 215 and the central insulating block 220 is an insulating block provided with one reinforcing plate (217, 227, 237) in the central portion of the heat insulating material (216, 226, 236). It is desirable to apply.

In addition, the side insulation block 235 is applied to the insulating block provided with two reinforcing plates 217, 227, 237 to be spaced apart at regular intervals on both sides of the center portion of the heat insulating material (216, 226, 236). It is more preferable.

In the window frame having improved heat insulation according to the present invention having the configuration as described above, as shown in Figures 6 to 8, the insulating frame assembly 200 provided shorter than the length of the outer frame 100 is the outer frame ( One set inserted through insertion into the insertion hole 110 of 100) is provided in four sets to be installed to form a rectangular frame.

At this time, the corner portion of the four sets of facing square frame is connected to the insertion projection 310 of the connection frame 300 is inserted into the insertion hole 110 of the outer frame 100 to complete the rectangular frame desirable.

According to the window frame with improved heat insulation according to the present invention made of a configuration as described above, provided with a stainless material but inserted into the insertion hole of the outer frame and the outer frame is formed of a hollow rectangular pipe type through the insertion hole in the center By including the insulation frame assembly is inserted through the installation is made of a stainless-based material, while allowing easy coupling of the members for insulation, and at the same time can improve the insulation efficiency.

Moreover, the insulation frame assembly composed of the top and bottom assembly unit including the top and bottom insulation block, the side assembly unit including the center insulation block and the side insulation block is applied, thereby making it easy to manufacture and the insulation efficiency for the indoor side and the outdoor side during installation. It can be maximized.

9 is a view showing an improved window insulation frame according to another embodiment of the present invention, is a partial separated perspective view showing a state in which the outer frame and the insulation frame assembly separated, Figure 10 is in accordance with another embodiment of the present invention A window frame with improved thermal insulation is shown, and a combined perspective view showing a state in which an outer frame and an insulating frame assembly are coupled to each other.

9 to 11 are different from the embodiments described with reference to FIGS. 1 to 8 only in the outer frame, and therefore, refer to FIGS. 1 to 8 for the detailed configuration of the insulation frame assembly. Hereinafter, detailed description of the configuration having the same reference numerals will be omitted.

The window frame with improved thermal insulation according to another embodiment of the present invention is a window frame for manufacturing the window frame of the sliding window, provided with a stainless material but spaced apart from each other from both sides from the upper center to form a pair of rails 101 Being inserted into the lower portion of the rail 101 by inserting the outer frame 100 is formed in the width direction in the width direction and the respective insertion holes 110 of the outer frame 100. Insulation frame assembly 200 is included.

At this time, the insulation frame assembly 200 is classified into a larger upper and lower assembly unit 210, the central insulation block 220 and the side assembly unit 230 is formed.

In detail, the upper and lower assembly units 210 are provided in pairs, but are provided in a pair of square bars to form assembling grooves 212 formed at both sides, and the upper and lower portions of which the upper and lower insulating blocks 215 of the rectangular bar type are fixed to penetrate the center thereof. It is composed of a body frame 211.

In addition, the central insulating block 220 is disposed in close contact with the center of the upper and lower assembly unit 210 is provided in a pair, it is formed in a rectangular bar type.

And the side assembling unit 230 is provided in a pair is assembled on both sides of the upper and lower assembly unit 210 in close contact with the upper, lower portion of the central insulating block 220, the upper and lower assembly unit ( A pair of assembling protrusions 232 are formed at an upper side and a lower side of the side facing the assembly groove 212 of the 210, and a side portion in which a rectangular bar type side insulation block 235 is fixed to penetrate the center thereof. It is composed of a body frame (231).

On the other hand, the upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 in the heat insulating material frame assembly 200 having the configuration as described above is a material preparation process, molding process, drying process and As a heat insulating block obtained by performing a sintering process and a cooling process, the at least one reinforcing plate 217, 227, 237 is preferably applied to a central portion of the heat insulating material 216, 226, 236.

At this time, the material preparation process is 50% by weight bottom ash, 10% by weight fly ash, 5% by weight glass beads, 15% by weight clay ash, 10% by weight graphite ash, 5% by weight of sodium silicate and auxiliary 5 wt% of additives are prepared and mixed to obtain a heat insulating material, and the reinforcing plates 217, 227, and 237 on the zigzag plate are prepared.

In the forming process, at least one or more reinforcing plates 217, 227, 237 of the prepared materials are arranged at the center of the mold, and the insulation material is pressed into the mold by pressing and receiving a heat insulating material. The process consists of molding into a block form.

And the drying process consists of performing a drying for 25 minutes at a temperature of 80 ~ 450 ℃ while passing the molded block through the drying furnace.

In addition, the firing process consists of baking the dried block for 35 minutes in a firing furnace of 900 ~ 1300 ℃, the cooling process consists of the process of nitrogen cooling the calcined block for 10 minutes.

The upper and lower thermal insulation block 215, the central insulation block 220, the side insulation block 235 as described above, in particular, in the material preparation process, 50% by weight of the bottom ash is composed of evenly mixing the particle size of 0.3 ~ 5mm However, with respect to 100% by weight of bottom ash, 10% by weight of 4.75-5mm, 40% by weight of 4.75-2.36mm, 30% by weight of 2.36-1.18mm, 10% by weight of 1.18-0.6mm, 0.6-0.3mm or less It is preferable to mix-mix 10 weight%.

Bottom ash applied in the material preparation process is a coal material that is used as a fuel in a thermal power plant and has a relatively light weight porous property, and when applied to the window frame of the present invention can reduce the weight thereof. .

On the other hand, the upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is a heat insulating material in contact with the surface of the insulating material which is both sides of the reinforcing plate (217, 227, 237) in the molding process. 3 to 5 parts by weight of the non-slip agent per 100 parts by weight may be included and applied.

At this time, the non-slip agent is selected from one or a mixture of these kinds of ceramic powder, aluminum oxide powder, iron oxide powder, non-metal powder, it is preferable that the particle size is provided to be 300 mesh or less.

As described above, when an appropriate amount of the non-slip agent is applied to the surfaces of the reinforcing plates 217, 227, and 237 in contact with both sides of the reinforcing plates 217, 227, and 237, the slip on the surfaces of the reinforcing plates 217, 227, and 237 is restrained so that Junction bonding can be further improved.

In addition, the upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is a heat insulating material in contact with the surface of the insulating material which is both sides of the reinforcing plate (217, 227, 237) in the molding process. 3 to 5 parts by weight of the non-slip agent is included relative to 100 parts by weight, and the non-slip agent is selected from one or a mixture of ceramic powders, aluminum oxide powders, iron oxide powders, and non-metal powders, and has different sizes. 'It may be formed in the shape of a bar and may be irregularly applied to the surface in contact with the insulating material which is both sides of the reinforcing plate (217, 227, 237).

On the other hand, the upper and lower heat insulating block 215, the central heat insulating block 220, the side of the heat insulating material (216, 226, 236) of the heat insulating block 235 is provided in the reinforcement plate (217, 227, 237) As shown, it is preferably provided in a zigzag plate, while being provided in a perforated plate type in which a plurality of through holes 217a, 227a, and 237a having different sizes are formed.

Furthermore, the upper and lower heat insulating blocks 215, the central heat insulating blocks 220, and the side heat insulating blocks 235 are provided with the at least one reinforcing plate 217, 227, and 237 at the center of the heat insulating material 216, 226, and 236. Is applied to the insulating block, the upper and lower insulating block 215 and the central insulating block 220 is an insulating block provided with one reinforcing plate (217, 227, 237) in the central portion of the heat insulating material (216, 226, 236). It is desirable to apply.

In addition, the side insulation block 235 is applied to the insulating block provided with two reinforcing plates 217, 227, 237 to be spaced apart at regular intervals on both sides of the center portion of the heat insulating material (216, 226, 236). It is more preferable.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and the present invention can be variously modified by those skilled in the art to which the present invention pertains. Is included in the scope of the present invention.

100: frame 101: rail
110: insertion hole 200: insulating frame assembly
210: upper and lower assembly unit 211: upper and lower body frame
212: assembly groove 215: upper and lower insulating block
216: insulation 217: reinforcing plate
217a: through hole 220: central insulation block
226: insulation 227: reinforcing plate
227a: through hole 230: side assembly unit
231: side body frame 232: assembly protrusion
235: side insulation block 236: insulation
237: gusset 237a: through hole
300: connection frame 310: connection projection

Claims (6)

In the window frame for manufacturing the window frame of the sliding window,
Provided with a stainless material but spaced apart from each other from the upper center to a pair of rails 101 are formed protruding, the lower portion of the rail 101, the outer frame 100 is formed with a plurality of insertion holes 110 in the width direction And including the insulating frame assembly 200 is inserted through the interference fit into each insertion hole 110 of the outer frame 100,
The insulating frame assembly 200 is provided as a pair, but is provided in a square bar type assembly grooves 212 is formed on both sides and the upper and lower body frame is fixed to penetrate the center through the upper and lower heat insulating block 215 of the rectangular bar type Upper and lower assembly unit 210 consisting of (211),
The center insulating block 220 is arranged in close contact with the center of the upper and lower assembly unit 210 provided in a pair, and formed in a rectangular bar type and
It is provided in pairs and assembled close to both sides of the upper and lower assembly unit 210 in a state where the upper and lower assembly unit 210 is in close contact with the upper, lower portion of the central insulating block 220, and the assembling groove 212 of the upper and lower assembly unit 210 A pair of assembling protrusions 232 are formed at an upper side and a lower side of the opposite side, and a side assembly is formed of a side body frame 231 having a rectangular bar type side insulation block 235 fixedly installed to penetrate the center thereof. Unit 230,
The upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is 50% by weight bottom ash, 10% by weight fly ash, 5% by weight glass beads, 15% by weight clay ash, Preparing and mixing 10 wt% of graphite ash, 5 wt% of sodium silicate, and 5 wt% of auxiliary additives to obtain a heat insulating material, and preparing a reinforcing plate (217, 227, 237) on a zigzag plate. ,
Among the prepared materials, at least one reinforcing plate (217, 227, 237) is to be placed in the center of the mold and then the insulation material is pressed into the mold by pressing and receiving the mold to form a block of rectangular bar type or rectangular bar type Molding process,
A drying process of drying the molded block for 25 minutes at a temperature of 80 to 450 ° C. while passing through the drying furnace;
Firing process for drying the dried block in a kiln at 900 ~ 1300 ° C. for 35 minutes and
An insulating block obtained by performing a cooling process of nitrogen-cooling the calcined block for 10 minutes, wherein the insulating block (216, 226, 236) is provided with the at least one reinforcing plate (217, 227, 237) in the central portion of the insulating block Window frame with improved insulation, characterized in that applied. The method of claim 1,
The upper and lower thermal insulation block 215, the central insulation block 220, the side insulation block 235 in the material preparation process, 50% by weight of the bottom ash is configured by evenly mixing the particle size of 0.3 ~ 5mm,
10 wt% of 4.75-5mm, 40 wt% of 4.75-2.36mm, 30 wt% of 2.36-1.18mm, 10 wt% of 1.18-0.6mm, 10 wt% of 0.6-0.3 mm or less with respect to 100 wt% of bottom ash Window frame with improved insulation, characterized in that the composition of the mixed%. The method of claim 1,
The reinforcing plates 217, 227, and 237 provided at the center of the upper and lower heat insulating blocks 215, the central heat insulating blocks 220, and the side heat insulating blocks 216, 226, and 236 are zigzag-shaped. On the other hand, a window frame with improved thermal insulation, characterized in that provided in the perforated plate type formed with a plurality of through-holes (217a, 227a, 237a) having different sizes with a predetermined interval. The method of claim 1,
The upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is in the molding process,
Non-slip agent 3 to 5 parts by weight compared to 100 parts by weight of the heat insulating material is included on the surface contacting the heat insulating material of both sides of the reinforcing plate (217, 227, 237),
The non-slip agent is selected from one or a mixture of ceramic powders, aluminum oxide powders, iron oxide powders, non-metal powders, and the size of the glass window frame, characterized in that the particle size is 300 mesh or less. The method of claim 1,
The upper and lower insulating blocks 215, the central insulating block 220, the side insulating block 235 is 100 weight of the insulating material on the surface in contact with the insulating material of both sides of the reinforcing plate (217, 227, 237) in the molding process. 3 to 5 parts by weight of the non-slip agent is included, and the non-slip agent is selected from one or a mixture of ceramic powders, aluminum oxide powders, iron oxide powders, and nonmetal powders.
The window frame with improved insulation function, characterized in that the size of the '+' shaped bar having different sizes are irregularly applied to the contact surface of the heat insulating material of both sides of the reinforcing plate (217, 227, 237). The method of claim 1,
The upper and lower insulation blocks 215, the central insulation block 220, the side insulation block 235 is provided with at least one reinforcing plate (217, 227, 237) in the central portion of the heat insulating material (216, 226, 236) Applied as a block,
The upper and lower insulating blocks 215 and the central insulating block 220 is applied as an insulating block provided with one reinforcing plate 217, 227, 237 in the central portion of the heat insulating material (216, 226, 236),
The side insulation block 235 is applied to the insulating block provided with two reinforcing plates 217, 227, 237 to be spaced apart at regular intervals on both sides of the central portion of the heat insulating material (216, 226, 236) based on the center. Window frame with improved insulation.

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