KR19990064814A - Composition of Aluminum and Synthetic Resin as Composite Window Materials - Google Patents

Abstract

(1) The technical field of the invention

After forming the mutually jammed jaw, epoxy is distributed around the jammed jaw to solidify the whole.

(2) Purpose of the invention

Advanced sound insulation, insulation, watertightness and airtightness required by windows and doors by utilizing the superiority and characteristics of different materials such as durability of aluminum and insulation of synthetic resin. It aims to produce a new concept of window material that can satisfy economic feasibility.

(3) Composition of invention

After forming and extruding the sliding latches according to the composition requirements, aluminum and synthetic resins are used to produce aluminum or synthetic resins that are intended to produce an epoxy compound mixed with a hardener and a material with good permeability, adhesion and strength. A certain amount is put into the mold and the elasticity of the synthetic resin is used to make the perfect combination by passing the lead roller and the rotary roller. The composition concept pursued is that the already-injected epoxy is evenly distributed around the locking jaws of the aluminum and the synthetic resin, and the solidification of the aluminum, the synthetic resin, and the epoxy is solidified in one form while the hardening, which is the characteristic of the epoxy, is solidified.

(4) effects of the invention

It can reduce heat loss due to windows, solve condensation problems, which is a challenge for aluminum windows, and dualize color as a component requirement.

Description

Composition of Aluminum and Synthetic Resin as Composite Window Materials

It is an object of the present invention to harm the human body by the form of mold caused by cracks and condensation of the wall due to condensation that can never be accidentally passed over as a disadvantage of aluminum windows, as well as damage of the wallpaper and synthetic resin windows. Excludes weakness, discoloration, scratches, heat resistance, weakness of aluminum, durability and beauty of materials, and insulation and sound insulation, which are advantages of synthetic resins. It does not burden the national economy and aims to contribute to the innovative progress of the materials that make up the composite window for insulation by producing high quality window materials.

The aluminum windows and doors that are widely spread and popular all over the world are suffering from condensation in winter due to the defect of insulation, and in reality, everyone is still having difficulties. Also, in summer, the indoor air is connected with hot air from the outside by the air conditioner. As a solution, you can see the aluminum insulation bar produced by Dongyang, Namseon, Hyosung, etc., which are the leaders in the aluminum industry. This is done again after the first and second processes after extrusion. In the process of milling, the production cost increased by 2-3 times that of ordinary aluminum, which made it difficult to use economically, and it was difficult to use publicly. Synthetic resin) windows can be recognized for its insulation and sound insulation However, the warp and scratches on the large windows, the color discoloration and weak heat resistance, and also new problems, the solution is a problem, and in recent years, the windows and windows combined with aluminum and wood has already been developed and distributed, but this too expensive in terms of price This is why you can only use in certain places. There are also windows that combine aluminum with only one side of synthetic resin, but this is also difficult due to economic problems due to the difficulty of composition. In recent years, the concept of the present invention is completely different from the concept of the present invention due to the diversification of the color. However, in the process of forming, the Korean Utility Model Publication No. 590 Publication No. 93-5006 has already been published. It can be seen as a fashion window that can be replaced arbitrarily, but it can be seen that it is completely different from the concept of the present invention, and also closely approached the unevenness of the credit model registration application No. 553 (approach) ) Or the sliding fit between the bending pieces also became a technology that has no practical value due to the weakness of the configuration, such as bending, strength, such that different materials are not bonded, the present invention is a method of complementing the above problems with aluminum After forming a mutually wedge-shaped locking step method on the synthetic resin, the main material and the curing agent, such as epoxy mixed around, are introduced, and the aluminum and synthetic resins are bonded to each other to solve the watertightness, which is the life of windows and doors. It is an invention based on the construction method that can be used as a perfect composite window material by satisfying durability and robustness such as bending strength required as window material as aluminum and synthetic resin become one year by high strength solidification of epoxy.

The object of the present invention stated above is that there is a wedge-shaped locking jaw formed in the aluminum bar and an aluminum jaw that can store the liquid epoxy before solidification, which can be formed vice versa and slides in the working process. When inserting the opposite shapes, the capacity should be calculated and a certain amount of epoxy should be added.In addition, due to the characteristics of epoxy, the curing process proceeds from the mixing of the main agent and the curing agent, and the capillary vessel is continuously operated such as the left and right flipping after insertion. In consideration of the cohesive strength of the epoxy resin, the purpose of this can be achieved by scientifically and legally manufacturing the viscosity control of the epoxy and the mixing ratio of the main agent and the curing agent.

Figure 1 is a diagram of the longitudinal (vertical) cross-sectional view that makes up the window.

2 is an enlarged cross-sectional view illustrating the construction method of the upper and lower parts of the windows.

3 is an enlarged view illustrating the process of inserting a 2-1 wedge-shaped extruded structure having a locking jaw and a piece hole into the body by the elastic movement of the synthetic resin of 1-1. Section.

4 is an enlarged cross-sectional view of the parts of the window and the handle portion is made in the same manner as described above, and the configuration process.

5 is a combination of the horizontal (horizontal) cross-sections that constitute the windows in a representative way.

6 is an enlarged cross-sectional view showing the construction method of the hook portion of the window constituting part.

If the following describes a standard example of the dynamic configuration of the present invention contained in the accompanying drawings

1 The material is a synthetic resin, which is a door frame part of windows and doors aimed at insulation, soundproofing, and watertightness. It is formed in a bridge shape, so deformation does not easily occur even if a force is applied at any part.

2 It is attached to the outside for convenience and is a component of aluminum door frame that is also used as an insect screen nail. It is composed of angle type to maximize the bending strength with the value of A.

3 It is attached to the inside for convenience and relatively supports and maintains the 2nd function attached to the outside.

4 In order to prevent the wear of synthetic resin by horizontal movement of Laura on the part of the hartle, it is installed to be easily replaced with aluminum material which has high durability. The secondary guide thumbnail in the format (Utility model application pending)

5 Roller cover for insulation made of synthetic resin

6 Synthetic resin for insulation holding aluminum inside and outside the roller bar and top bar

6-1 The decomposition of Nos. 6 and 7 illustrates how the 6th resin is transformed from ℓ to ℓ 'by the change in elasticity, and the combination of aluminum surface on the 7th surface and 6th synthetic resin is performed.

7 6 symmetrical aluminum shapes to maximize vertical strength with synthetic resin

7-1 Magnification of Aluminum Form No. 7

7-2 Aluminum Hanging Jaws for Epoxy

7-3 Liquid epoxy before hardening

7-4 Epoxy Hanging Jaws Dynamically Holding Solidified Epoxy During Curing

8-layer glass

9 adiabatic roller

10 handle synthetic resin

11 Aluminum shapes in which handle knobs are composed dynamically of synthetic resin and aluminum shapes

Synthetic Resin Composing 12 Rings

13 Aluminum morphology, which consists of synthetic resin and aluminum morphology dynamically

14 Fiber to block the wind

2-1 Wedge-shaped Aluminum Extruders with Hanging Jaws

2-2 piece hole

2-3 The amount of epoxy pushed out when the wedge of 2-1 is inserted into the body of 1-1

1-1 Enlarged view of the coupling part of body 1

In the following partial description of the accompanying drawings, the overall cause will be apparent. As shown in FIG. 7, the range of elastic motion varies depending on the thickness and length of the elastic body, the mixing data of the material, and the temperature change. The essential requirement at the time of setting is the invention of the structure which is solidified by putting epoxys etc. in order to maintain the deformation of the permanent force after constructing it to discharge the legal force by referring to the function of the window agent.

As shown in the above description, the insulation and condensation problems were solved due to the characteristics of synthetic resins, which helped to save oil during the winter and summer, and contributed to the national economy, and indirectly helped the national sentiment with excellent sound insulation. As it protects the weakness of the synthetic resin, the short life of the synthetic resin is semi-permanently extended, and as illustrated in the second and third figures, the surface treatment of aluminum shapes is performed before the bonding is performed. Without this requirement, the color not seen in aluminum windows can be dualized to contribute greatly to the space art inside and outside the building. Especially, since it is produced without any part requiring a separate increase in production cost, In response, anyone can easily touch Composite windows and doors as the new concept has an effect that can also be a huge dollar savings.

Claims (1)

In producing composite window materials combined mainly with the shape of synthetic resin and the shape of aluminum, it is manufactured in other two-component or one-component form such as epoxy or urethane as shown in FIGS. 7-3 and 3-4. A manufacturing method that allows different materials to be formed into one shape by distributing it evenly in the aluminum shape and the synthetic resin shape combined with high strength liquid.