KR101331143B1 - Manufacturing method of the window door frame - Google Patents

Abstract

The present invention is to manufacture a different frame with a metal and a synthetic resin material by creating a free space in the fitting parts to be fitted to each other to prevent damage to the frame of the synthetic resin material even if the thermal expansion coefficient occurs in the size of the two frames due to the temperature difference The present invention relates to a method of manufacturing a window frame, and more particularly, to manufacture a window or door frame by combining a metal outdoor frame and a synthetic resin indoor frame. It is coupled by a fastening means, and the clearance between the outer and inner coupling ends and the inner coupling end where the outdoor frame and the indoor frame are coupled to each other by creating a gap that is caused by cracks or cracks due to the elongation and contraction of the inner and outer frames Manufactured to prevent; Even if a frame made of a metal material and a non-metal material has a different thermal expansion rate due to temperature change, there is an effect of preventing the frame of the non-metal material from being damaged by the margin of the coupling part.

Description

Manufacturing method of the window door frame

The present invention relates to a method of manufacturing a window frame, and in particular, by manufacturing a different frame made of metal and synthetic resin material to create a free space in the interfitting parts to be combined to the thermal expansion coefficient of the two frames due to the temperature difference The present invention relates to a method of manufacturing a window frame that does not break the frame of the synthetic resin material even if it occurs.

In general, various houses, apartments, officetels, shopping malls, offices, etc., are provided with a number of windows for the purpose of passage, ventilation, and skylight, and glass doors for distinguishing a veranda, a kitchen, and a multipurpose room. Is universal.

These windows or glass doors form an installation space of a certain height on the wall to construct a door frame frame having a rail on the inner wall of the installation space, and install a plurality of glass doors that are slid along the rail of the frame inside the door frame frame. Is the most common structure.

In particular, in recent years, it is common to fabricate such a frame with aluminum material. Due to the characteristics of the door frame frame extruded with aluminum, the indoor temperature is different from the room temperature to a high or low temperature, thereby causing heat loss. Since it occurs largely, it is common to fix the insulation panel made of foamed resin or the like on the surface of the interior frame, which is one side of the door frame frame.

The insulation panel is extruded and produced using resin such as wood and foamed resin such as MDF having excellent thermal insulation effect, and the extruded material is cut into a predetermined length as needed, and the insulation panel as described above. Not only doubles the insulation effect that suppresses condensation and heat loss due to the indoor and outdoor temperature differences of the door frame frame, but also forms various patterns and designs on the outer surface of the indoor chassis to make the design more beautiful, further enhancing the interior decoration effect. It is to improve the role.

By forming various types of patterns and designs on the outer surface of the indoor chassis to have a more beautiful design to play a role to further enhance the interior decoration effect.

Such a coupling structure between the frame and the insulation panel typically adopts a sliding fastening method or a jointing method using an adhesive. In the case of the sliding fastening method, an “T” shaped insertion protrusion is formed on the interior side of the frame and the heat insulating material panel is used. In the corresponding surface of the "T" shaped insertion groove is formed by sliding the fastening of the insulation panel from one end of the frame.

However, the frame as described above has a problem in that the frame width is widened by forming a structure in which a pair of metal frames are connected with a heat insulating material.

In addition, the frame is made of a metal material, the metal frame is located on the indoor side has a good aesthetics and has a need to attach a separate synthetic resin frame for insulation, after a long period of use has a problem that the frame and the synthetic resin frame is separated. .

In addition, the frame has a problem in that thermal expansion or thermal contraction occurs when heat or cold air acts on the metal frame, and deformation occurs in the synthetic resin frame having different thermal expansion or thermal contraction coefficients.

Therefore, by using a screw or the like to insert the synthetic resin frame to the metal frame that is located on the outdoor side without using a separate insulating material and to be placed on the indoor side to secure the aesthetics of the room while the strength is reinforced by the metal frame. There is an urgent need for a method of manufacturing a frame and a frame of a window or door frame that combines to improve integrity and improve airtightness and insulation.

1. Patent Registration No. 10-0704265 (Door frame for windows and doors with excellent insulation and assembly) 2. Patent Registration No. 10-0946306 (Insulation Composite Window) 3. Utility Model Registration No. 20-0355662 (Composite Window) 4. Patent registration No. 10-1077492 (project pull-down window chassis structure with improved insulation and assembly performance)

Therefore, the present invention has been devised in view of the problems of the prior art as described above, even if the thermal expansion coefficients of the metal and non-metal materials are different from each other due to temperature change. It is an object of the present invention to provide a method of manufacturing a window frame that does not break.

In addition, another object of the present invention is to directly connect the frame of the metal material and the non-metal material without using a separate heat insulating material to reduce the weight and manufacturing cost.

In addition, another object of the present invention is to provide a metal frame to increase the structural strength, and to provide a non-metal frame to reduce the weight and improve aesthetics.

In addition, another object of the present invention is to form a fastening method according to the conditions using a variety of fitting forms to improve the ease and productivity of manufacturing.

In order to achieve the above object, the present invention provides a window frame manufacturing method, the inner surface of the metal frame is manufactured by extrusion molding so as to form an outer coupling end of the first projection and the first projection groove is formed continuously, The outer surface of the synthetic resin indoor frame is manufactured by extrusion molding so that the second projection and the second projection groove constitute the inner coupling end to be fitted to the outer coupling end, and any one of the outer coupling end and the inner coupling end is small. When the first projection and the second projection groove, the first projection groove and the second projection is fitted so that the clearance gap is created, and the outer coupling end and the inner coupling end of the outdoor frame and the indoor frame to have the same length so as to combine. It provides a window or door frame frame and a manufacturing method of the frame, characterized in that by cutting.

As described above, the present invention has an effect of preventing the frame of the non-metallic material from being damaged by the margin of the coupling part even if different thermal expansion coefficients occur due to temperature changes in the frames made of the metal and the nonmetallic materials, respectively.

In addition, by directly connecting the frame of the metal and the non-metal material without using a separate heat insulating material, the weight is reduced and the manufacturing cost is reduced.

In addition, there is an effect to increase the structural strength by providing a metal frame and to improve the weight reduction and aesthetics by providing a non-metal frame.

In addition, there is an effect to improve the ease of manufacture and productivity by forming a different fastening method according to the conditions using a variety of fitting forms.

1 is a combined cross-sectional view of the window or door frame according to the present invention,
2 is a cross-sectional view of a synthetic resin indoor frame according to the present invention;
3 is a cross-sectional view of a metal outdoor frame according to the present invention;
4 is a cross-sectional view of a window or door frame frame to which an outer and inner coupling ends are applied according to another embodiment;
5 is a cross-sectional view of a window or door frame frame to which an outer and inner coupling ends are applied according to another embodiment;
Figure 6a is a manufacturing flowchart of the window or door frame according to the invention,
Figure 6b is a conceptual diagram for cutting the outdoor, inner frame using a cutting blade window or door frame according to the invention,
7 is a conceptual diagram showing a state in which the indoor frame and the outdoor frame is coupled with a screw,
8 is a conceptual diagram showing a state in which the indoor frame and the outdoor frame is combined with a screw and a reinforcement plate
9 is a conceptual diagram showing a state in which the indoor frame and the outdoor frame is coupled to the screw and the corner connecting material,
10 is an exemplary view produced by cutting the end of the window or door frame frame according to the invention at 45 ° or another angle,
11 is an exemplary view produced by horizontally cutting the end of the window or door frame frame according to the present invention,
12 to 14 are cross-sectional views of the window or door frame frame to which the outer and inner coupling ends are applied according to different embodiments, respectively.
15 is a cross-sectional view of the window or door frame frame in which the protrusion packing is inserted between the outer and inner coupling ends;
16 is an exploded perspective view of a window or door frame in which a packing is inserted between the outer and inner coupling ends.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in Figures 1 to 3, 6a and 6b, the window or door frame of the present invention is used as the window or door frame, combining the metal outdoor frame 10 and the synthetic resin indoor frame 20 Cut to form a window or door frame, and the clearance between the outer coupling end 13 and the inner coupling end 23 is coupled to the outdoor frame 10 and the indoor frame 20 in a fitted manner. Frame 100 is configured to prevent the occurrence of cracks or cracks due to the elongation and contraction of the yarn, the inner and outer frame 10, 20 by creating a gap (30).

First, the inner surface of the metal outdoor frame 10 is manufactured by an extrusion molding method so as to form an outer coupling end 13 in which the first protrusion 11 and the first protrusion groove 12 are continuously formed.

Here, the metal outdoor frame 10 will be described as an example consisting of aluminum.

In addition, the second protrusion 21 and the second protrusion groove 22 constitute the inner coupling end 23 so as to be fitted to the outer coupling end 13 on the outer surface of the synthetic resin indoor frame 20. It is manufactured and configured in a manner.

Here, the synthetic resin indoor frame 20 will be described as an example consisting of polyvinyl chloride (polyvinyl chloride).

One of the outer coupling end 13 and the inner coupling end 23 is configured to have a small size such that the first protrusion 11, the second protrusion groove 22, the first protrusion groove 12, and the first protrusion 11 are formed. When the two protrusions 21 are fitted, the clearance gap 30 is generated.

Here, when projecting the first projection 11 and the second projection groove 22, the first projection groove 12 and the second projection 21 in the cross section, the first projection 11 in a '┫' shape. ) And the second projection 21 are formed, respectively, the first projection groove 12 and the second projection groove 22 is configured to be fitted into the first projection 11 and the second projection 21, respectively. will be.

In addition, a fitting protrusion or a fitting groove is formed at both ends of one of the outer coupling end 13 and the inner coupling end 23. In the present invention, the fitting protrusion 13a is formed at the outer coupling end 13 and the inner side thereof. The fitting end 23 is formed with a fitting groove 23a so that the fitting protrusion 13a is fitted into the fitting groove 23a when the outer coupling end 13 and the inner coupling end 23 are coupled to each other.

That is, the first frame 11 and the second projection groove 22, the first projection groove 12 and the second projection 21 are fitted to each other by sliding the outdoor frame 10 to the indoor frame 20. It is configured to be.

At this time, the clearance gap 30 is configured in the range of 0.3 ~ 0.6mm, the reason for limiting the numerical value of the clearance gap 30 is the outer coupling end 13 when extending and contracting the outdoor frame 10 by hot or cold air In order to prevent the inner coupling end 23 from being damaged due to the change in position, the outer coupling end 13 is configured as a function of a free space that can be moved finely.

In addition, the outer coupling end 13 and the inner coupling end 23 of the outdoor frame 10 and the indoor frame 20 are combined to cut to have the same length.

Thus, the outdoor frame 10 and the indoor frame 20 is configured to be cut using the cutting blade 40 in a combined state.

And, look at another embodiment of the outer coupling end 13 and the inner coupling end 23 as follows.

1. As shown in FIG. 4, the outer coupling end 13 and the inner side at both ends of any one of the outer coupling end 13 of the outdoor frame 10 and the inner coupling end 23 of the indoor frame 20. An extension end 10b is formed to overlap one of the coupling ends 23 with both ends.

When the outer coupling end 13 and the inner coupling end 23 are coupled to each other, the outer coupling end 13 and the inner coupling end 23 are configured to penetrate through the extension end 10b with the screw 60. .

2. As shown in Figure 5, the outer coupling end is formed on the inner surface of the outdoor frame 10, the third projection 14 in the form of a rod and the third projection groove 15 of the form in which the rod is inserted continuously. It is produced by extrusion molding to constitute (13).

And, the outer surface of the synthetic resin indoor frame 20, the fourth projection 24 of the rod shape and the fourth projection groove 25 of the rod is inserted into the outer coupling end 13 is fitted to the inner coupling end ( 23).

At this time, the third projection 14 is inserted into the fourth projection groove 25, the fourth projection 24 is coupled to the third projection groove 15 by using a screw 60 to the outdoor, indoor frame ( 20) 20 may be configured by fastening at both ends.

3. As shown in FIG. 12, the inner surface of the outdoor frame 10 is manufactured by an extrusion molding method to form an outer coupling end 13 in which a plurality of fitting grooves 16 are continuously formed.

In addition, the outer surface of the synthetic resin indoor frame 20 is manufactured by an extrusion molding method so as to configure the inner coupling end 23 which is formed in a plurality of fitting protrusions 26 to be fitted in the fitting groove 16 continuously.

In other words, the fitting packing (26a) is fitted to the fitting groove (16) in the fitted state in the fitting projections 26 to combine.

4. As shown in Figure 13, the inner surface of the outdoor frame 10 in the extrusion molding method to form an outer engaging end 13 is formed in succession a plurality of engaging projections 17 in the form of a memory Manufacture.

In addition, an inner coupling end 23 having a plurality of coupling grooves 27 continuously formed in the shape of a memory member that is engaged with the coupling protrusion 17 is pivoted and inserted into the outer surface of the indoor frame 20 of the synthetic resin material. Configure.

At this time, in order to fit the coupling protrusion 17 into the coupling groove 27, the coupling protrusion 17 is placed in the coupling groove 17 in a state where the outdoor frame 10 and the indoor frame 20 are formed at a predetermined angle. The inner frame 10 and the indoor frame 20 are pushed into each other to pivot.

5. As shown in FIG. 14, the inner surface of the outdoor frame 10 is formed by extrusion molding so as to form a plurality of concave-convex and concave and convex portions 18 formed in a square shape to form an outer coupling end 13 continuously formed at equal intervals. Manufacturing method,

In addition, the outer surface of the synthetic resin indoor frame 20 to form an inner coupling end 23 that is formed continuously in equal intervals a plurality of concave-convex grooves 28 having a square shape in which the concave-convex 18 is fitted.

That is, when the concavities and convexities 18 are fitted into the concave-convex grooves 28, one side of both sides of the concave-convex grooves 18 is in close contact with one side of the concave-convex grooves 28, and the concave and convexities 18 and the concavities and convexities that are not in close contact with each other. Between the other side of the groove 28 is configured to generate a fine clearance gap (30).

As shown in FIG. 15, the packing end is formed to surround the first protrusion 11 and is inserted into the first protrusion groove 12, and to surround the second protrusion 21 and to be inserted into the second protrusion groove 22. 91 is manufactured by changing the form that can be coupled between the outer coupling end 13 and the inner coupling end 23 of the various forms implemented in the present invention by consisting of a projection packing 90 formed in a zigzag arrangement continuously Could be used.

That is, the protrusion packing 90 is made of a thin and soft rubber material is sandwiched between the outer coupling end 13 and the inner coupling end 23 is coupled to the outer coupling end 13 and the inner coupling end The clearance gap (30) generated when the 23 is coupled to prevent the indoor or outdoor air from flowing or transmitting noise.

At this time, when heat shrinkage and heat expansion occur in the outdoor frame 10 and the indoor frame 20 due to the hot or cold air, the protrusion packing 90 is pressurized and flows together to smoothly move the heat shrinkage and thermal expansion. To construct.

Next, when the window or door frame is manufactured in a square shape, after cutting both ends of the frame 100 inclinedly, a coupling example for combining the indoor frame 20 and the outdoor frame 10 will be described.

7 and 10, the ends of the outdoor frame 10 and the indoor frame 20 combined to produce a window or door frame using the outdoor frame 10 and the indoor frame 20. After cutting obliquely, and arranged in a square shape in a horizontal direction and a vertical direction to face each other pair.

Then, the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles are fastened to the outdoor frame 10 in the vertical direction by penetrating the outdoor frame 10 in the horizontal direction using the screw 60 or in the vertical direction. It is configured to pass through the outdoor frame 10 of the coupling to the outdoor frame 10 in the horizontal direction.

At this time, the screw (60) is fitted in the screw groove (10a) formed integrally with the outdoor frame (10), when the screw (60) is fastened to the outdoor frame (10) located in the horizontal direction in the vertical direction It is fastened to the screw groove (10a) of the outdoor frame 10 is located in the horizontal direction through the outside of the positioned outdoor frame 10, the screw 60 is fastened to the outdoor frame (10) located in the longitudinal direction If so, it is fastened to the screw groove (10a) of the outdoor frame 10 located in the vertical direction through the outside of the outdoor frame (10) located in the horizontal direction.

2, 8 and 10, by combining the outdoor frame 10 and the indoor frame 20 to cut each end inclined.

In addition, after the reinforcement plate 70 is padded on the ends of the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles, the outdoor frame 10 and the reinforcement plate 70 in the horizontal direction using the screw 60 are provided. It is configured to be fastened to the outdoor frame 10 in the longitudinal direction through or through and coupled to the outdoor frame 10 in the horizontal direction through the outdoor frame 10 and the reinforcement plate 70 in the vertical direction.

3. As shown in Figure 9 and 10, by combining the outdoor frame 10 and the indoor frame 20 to cut each end inclined.

Then, both ends of the corner reinforcing material 80 are inserted into each of the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles.

At this time, through the horizontal frame 10 and the corner reinforcement 80 in the horizontal direction using the screw 60 is fastened to the outdoor frame 10 in the vertical direction or vertical frame 10 and the corner reinforcement in the vertical direction ( Through 80 is configured to couple to the outdoor frame 10 in the horizontal direction.

4, by combining the outdoor frame 10 and the indoor frame 20 to cut each end inclined.

Then, the ends of the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles are clamped so that the outdoor frame 10 and the outdoor frame 10 in the horizontal direction are fastened or transverse to the outdoor frame 10 in the vertical direction. It is configured to couple the outdoor frame 10 in the direction.

5. As shown in Figure 10 and 16, by combining the outdoor frame 10 and the indoor frame 20 to cut each end inclined.

A thin rubber plate-shaped packing 92 is positioned between the outdoor frame 10 and the end section of the indoor frame 20.

In this way, the packing 92 is fastened to the outdoor frame 10 in the vertical direction through the outdoor frame 10 and the packing 92 in the horizontal direction using the screw 60 in the state where the packing (92) or vertical outdoor Through the frame 10 and the packing 92 is configured to couple to the outdoor frame 10 in the horizontal direction.

In addition, the outdoor frame 10 and the indoor frame 20 may be in close contact with the outer corner connecting member 93 of the memory form in close contact with the orthogonal surface by using a screw (60).

On the other hand, when manufacturing the window or door frame in the form of a square look at the case of horizontal cutting without cutting both ends of the frame 100 inclined as follows.

As shown in Figure 11, by using the outdoor frame 10 and the indoor frame 20 to cut the ends of the combined outdoor frame 10 and the indoor frame 20 to produce a window or door frame horizontally. Afterwards, each pair is arranged to form a square shape in the horizontal and vertical directions to face each other.

In addition, the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles are fastened to the outdoor frame 10 in the vertical direction by penetrating the outdoor frame 10 in the horizontal direction using the screw 60 or in the vertical direction. It is configured to pass through the outdoor frame 10 of the coupling to the outdoor frame 10 in the horizontal direction.

Referring to the manufacturing method and operation and effects of the frame 100 of the present invention configured as described above are as follows.

First, as shown in Figures 1 to 3 will be described up to the process of fastening to manufacture in the form of a rectangular frame to manufacture a window or door frame after the frame 10 is manufactured.

First, the inner surface of the metal outdoor frame 10 made of aluminum is manufactured by an extrusion molding method so as to form an outer coupling end 13 in which the first protrusion 11 and the first protrusion groove 12 are continuously formed.

Subsequently, the second protrusion 21 and the second protrusion groove 22 are coupled to the outer side of the inner frame 20 of the synthetic resin material indoor frame 20 made of polyvinyl chloride, and the inner coupling end 23. It is prepared by extrusion molding to constitute.

At this time, any one of the outer coupling end 13 and the inner coupling end 23 is configured so that the size is small, the first projection 11, the second projection groove 22, the first projection groove 12 and the first When the two protrusions 21 are fitted, the clearance gap 30 is produced.

That is, the clearance gap 30 is preferably configured in the range of 0.3 ~ 0.6mm and if the heat or cold air is applied to the frame 100 due to the clearance gap 30, in particular, in the case of summer heat outdoor frame due to hot heat 10 is expanded by thermal expansion, and in the case of winter, the outdoor frame 10 is thermally contracted due to subzero cold.

In this case, when the clearance gap 30 is not present, the outer coupling end 13 formed in the outdoor frame 10 that is thermally expanded or contracted is moved finely, thereby causing the interior frame 20 to be damaged, but in the present invention, the clearance clearance 30 is present. Even if the outer coupling end 13 is extended and contracted by the extra space, the inner coupling end 23 of the indoor frame 20 is not broken or broken.

Next, the outer coupling end 13 and the inner coupling end 23 of the outdoor frame 10 and the indoor frame 20 are combined.

At this time, the outdoor frame 10 and the indoor frame 20 are coupled to each other by sliding each other in the state in which the outer coupling end 13 and the inner coupling end 23 are fitted to complete the frame 100.

1 to 5, the coupling method of the outer coupling end 13 and the inner coupling end 23 is the first projection 11, the second projection groove 22, the first projection groove 12 ) And the second protrusion 21 are fitted or coupled, or after the outer coupling end 13 and the inner coupling end 23 are coupled, the outer coupling end 13 passes through the extension end 10b with the screw 60. ) And the inner coupling end 23, or the third protrusion 14 is fitted into the fourth protrusion groove 25 and the fourth protrusion 24 is fitted into the third protrusion groove 15. Depending on the shape and structure of the outer coupling end 13 and the inner coupling end 23 can be implemented differently.

In this, the frame 100 in the outdoor frame 100 performs a reinforcement function for the resistance and support for horizontal force, vertical force or torsional external force, the indoor frame 20 is made of polyvinyl chloride to enable various coloring Excellent aesthetics, there is a feature that performs the function of insulating material to prevent the cold air or heat transmitted from the outdoor frame 10 to be delivered to the room.

As shown in Figure 6a to 6b, in this way, the assembled frame 100 is cut and configured to have the same length.

That is, the inner cutting end 23 of the outdoor frame 10 and the indoor frame 20 is cut by the first cutting blade 40, and the first cutting blade 40 by the second cutting blade 50. The indoor frame 20 is cut by

Thus, the cut frame 100 is inclined to cut or horizontally cut both ends in the form of a square frame to produce a window or door frame, the frame 100 is positioned in a horizontal direction in a pair, longitudinal direction The frame 100 to be positioned is prepared in pairs.

Subsequently, in a state in which the pair of horizontal and vertical frames 100 are arranged in a square shape, the indoor frame 20 contacts the indoor frame 20, and the outdoor frame 10 is connected to the outdoor frame 10, respectively. Combine the ends of each other to abut.

Next, in order to combine the outdoor frame 10 is combined in the following example combination method.

1. As shown in Figure 7 and 10, the indoor frame 20 and the outdoor frame 10 to be in contact with each other at a right angle to each other through the horizontal frame 10 in the horizontal direction using the screw 60 in the vertical direction Fastening to the outdoor frame 10 or penetrates to the outdoor frame 10 in the horizontal direction through the outdoor frame 10 in the vertical direction.

2. As shown in Figure 8 and 10, after the reinforcing plate 70 to the ends of the indoor frame 20 and the outdoor frame 10 abutting each other at a right angle, using a screw 60 in the horizontal direction The outdoor frame 10 and the reinforcing plate 70 of the fastening to the vertical outdoor frame 10 or the horizontal frame 10 and the horizontal outdoor frame 10 through the reinforcing plate 70 in the longitudinal direction )

3. As shown in FIGS. 9 and 10, both ends of the corner reinforcement material 80 are respectively inserted into the interior frame 20 and the outdoor frame 10 which are in contact with each other at right angles.

Subsequently, the outdoor frame 10 and the corner reinforcement 80 in the horizontal direction using the screw 60 is fastened to the outdoor frame 10 in the vertical direction or the outdoor frame 10 and the corner reinforcement in the vertical direction ( Through 80 is coupled to the outdoor frame 10 in the horizontal direction.

4. Clamping the ends of the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles to each other, the outdoor frame 10 and the outdoor frame 10 in the horizontal direction is fastened or transverse with the outdoor frame 10 in the vertical direction Outdoor frame 10 in the direction is coupled.

As shown in FIG. 11, in order to produce a window or door frame after cutting the end of the frame 100 horizontally, the frame 100 is disposed to form a square shape in a horizontal direction and a vertical direction facing the frame 100.

Thereafter, the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles are fastened to the outdoor frame 10 in the vertical direction by penetrating the outdoor frame 10 in the horizontal direction using the screw 60 or in the vertical direction. Through the outdoor frame 10 of the coupled to the outdoor frame 10 in the horizontal direction.

As a result, the frame 100 may be coupled to the outdoor frame 10 using various coupling methods to be used in windows or door frames, and the indoor frame 20 may be in close contact with each other in a state composed of a synthetic resin material. It is excellent in airtightness and heat insulation.

In addition, the frame 100 is the width of the frame is increased by a structure that is connected to a separate heat insulating material for the insulation of the metal frame located on the outdoor, indoor side, while the weight is heavy by the metal frame, the present invention is outdoors By combining the frame 10 and the indoor frame 20, the width of the frame 100 is reduced and at the same time lightweight.

In addition, the third protrusion 14 is inserted into the fourth protrusion groove 25, and the fourth protrusion 24 connects the outdoor frame 10 and the indoor frame 20 coupled to the third protrusion groove 15. In order to make a window or door by using the outdoor frame 10 to form a square shape, and the indoor frame 20 also combined to form a rectangular shape facing the outdoor frame 10 and the indoor frame 20 separately. In the disposed state, the third protrusion 14 is inserted into the fourth protrusion groove 25, and the fourth protrusion 24 is coupled to the third protrusion groove 15, thereby allowing an easy assembly.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

10: outdoor frame 10a: screw groove
10b: extended end 11: first projection
12: first projection groove 13: outer coupling end
14: third projection 15: third projection groove
16: fitting groove 17: coupling protrusion
18: irregularities
20: indoor frame 21: second projection
22: second projection groove 23: the inner coupling end
24: fourth projection 25: fourth projection groove
26: fitting protrusion 27: coupling groove
28: uneven groove
30: clearance clearance 40: first cutting blade
50: second cutting blade 60: screw
70: reinforcement plate 80: corner reinforcement
90: protrusion packing 91: packing end
92 packing 93 outer corner connecting material
100: frame

Claims (14)

In the manufacturing method of the window frame,
The inner surface of the metal outdoor frame 10 is manufactured by an extrusion molding method so as to form an outer coupling end 13 in which the first protrusion 11 and the first protrusion groove 12 are continuously formed,
The outer surface of the synthetic resin indoor frame 20 is manufactured by an extrusion molding method so that the second projection 21 and the second projection groove 22 constitute the inner coupling end 23 to be fitted to the outer coupling end 13. But
One of the outer coupling end 13 and the inner coupling end 23 is configured so that the size is small, the first projection 11 and the second projection groove 22, the first projection groove 12 and the second projection When the fitting 21 is manufactured to produce a clearance gap (30),
Method of manufacturing a window frame, characterized in that the outer frame (10) and the outer coupling end (13) and the inner coupling end (23) of the indoor frame (20) by combining to cut to have the same length. The method of claim 1, wherein the clearance gap (30) is configured in the range of 0.3 ~ 0.6mm. According to claim 1, Outer coupling end 13 and the inner coupling end 23 at both ends of any one of the outer coupling end 13 of the outdoor frame 10 and the inner coupling end 23 of the indoor frame 20. Extends 10b so as to overlap any one of both ends,
When combining the outer coupling end 13 and the inner coupling end 23 is configured to couple the outer coupling end 13 and the inner coupling end 23 through the extension end (10b) with a screw (60). The manufacturing method of the window frame made into it. According to claim 1, The outer coupling end 13 of the outdoor frame 10 is a third projection 14 in the form of a rod-shaped third projection 14 and the rod is inserted into the inner surface of the outdoor frame 10 (15). ) Is produced by extrusion molding to form continuously,
The inner coupling end 23 of the synthetic resin indoor frame 20 has a rod-shaped fourth protrusion 24 and a rod inserted into the outer coupling end 13 on the outer surface of the indoor frame 20. 4, a method of manufacturing a window frame, characterized in that forming a groove (25). According to claim 1, After cutting the ends of the combined outdoor frame 10 and the indoor frame 20 to make a window or door frame using the outdoor frame 10 and the indoor frame 20 inclined, Place them in a square shape in the horizontal and vertical directions to face each other in pairs,
The indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles are fastened to the outdoor frame 10 in the vertical direction by penetrating the outdoor frame 10 in the horizontal direction using the screw 60 or the outdoor in the vertical direction. Method of manufacturing a window frame, characterized in that configured to penetrate through the frame (10) to the outdoor frame (10) in the horizontal direction. The method according to claim 1 or 5, wherein the outdoor frame 10 and the indoor frame 20 is combined to cut each end obliquely,
After the reinforcing plate 70 is padded on the ends of the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles, the horizontal outdoor frame 10 and the reinforcing plate 70 in the horizontal direction using the screw 60 are attached. Window frame, characterized in that configured to penetrate to the outdoor frame 10 in the longitudinal direction or coupled to the outdoor frame 10 in the horizontal direction through the outdoor frame 10 and the reinforcement plate 70 in the vertical direction. Manufacturing method. The method according to claim 1 or 5, wherein the outdoor frame 10 and the indoor frame 20 is combined to cut each end obliquely,
Inserting both ends of the corner reinforcement material 80 into each of the indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles;
Fasten the outdoor frame 10 and the corner reinforcement 80 in the horizontal direction using the screw 60 to fasten to the outdoor frame 10 in the vertical direction or to the outdoor frame 10 and the corner reinforcement 80 in the vertical direction. Method of manufacturing a window frame, characterized in that configured to penetrate through the horizontal frame 10 in the horizontal direction. The method according to claim 1 or 5, wherein the outdoor frame 10 and the indoor frame 20 is combined to cut each end obliquely,
Clamping the ends of the indoor frame 20 and the outdoor frame 10 to be in contact with each other at a right angle to each other, the outdoor frame 10 and the outdoor frame 10 in the horizontal direction is fastened or the horizontal frame 10 and the horizontal direction of the vertical direction Method of manufacturing a window frame, characterized in that configured to be coupled to the outdoor frame (10). According to claim 1, After cutting the ends of the combined outdoor frame 10 and the indoor frame 20 to make a window or door frame using the outdoor frame 10 and the indoor frame 20, Place each pair to face each other to form a square shape in the horizontal and vertical directions,
The indoor frame 20 and the outdoor frame 10 which are in contact with each other at right angles to each other are fastened to the outdoor frame 10 in the vertical direction by penetrating the outdoor frame 10 in the horizontal direction using the screw 60 or the outdoor in the vertical direction. Method of manufacturing a window frame, characterized in that configured to penetrate through the frame (10) to the outdoor frame (10) in the horizontal direction. According to claim 1, The outer coupling end 13 of the outdoor frame 10 is manufactured by extrusion molding so that a plurality of fitting grooves 16 are continuously formed on the inner surface of the outdoor frame 10,
The inner coupling end 23 of the indoor frame 20 is manufactured by extrusion molding so that a plurality of fitting protrusions 26 inserted into the fitting grooves 16 on the outer surface of the indoor frame 20 are continuously formed,
Method of manufacturing a window frame, characterized in that consisting of the fitting packing (26a) that is fitted to surround the fitting protrusion (26). The method of claim 1, wherein the outer coupling end 13 of the outdoor frame 10 is an extrusion molding method so that a plurality of coupling protrusions 17 formed in a memory form on the inner surface of the outdoor frame 10 is formed continuously. Manufacturing,
The inner coupling end 23 of the indoor frame 20 has a plurality of coupling grooves 27 continuously formed in the shape of a memory that is engaged with the engaging projection 17 is inserted into the outer surface of the indoor frame 20 is inserted and caught. Method for producing a window frame, characterized in that the production by the extrusion molding method to form. According to claim 1, wherein the outer coupling end 13 of the outdoor frame 10 is formed by extrusion molding so that a plurality of irregularities 18 formed in a square shape on the inner surface of the outdoor frame 10 continuously in an equal interval arrangement. Manufacturing method,
The inner coupling end 23 of the indoor frame 20 is formed so that the plurality of concave-convex grooves 28 having a square shape in which the concave-convex 18 is fitted to the outer surface of the indoor frame 20 are continuously formed in equal intervals. Manufactured by extrusion molding,
When the concavities and convexities 18 are fitted into the concave-convex grooves 28, one side of both sides of the concave-convex grooves 18 is in close contact with one side of the concave-convex grooves 28, and the concave-convex grooves 18 and the concave-convex grooves ( Method of manufacturing a window frame, characterized in that configured to generate a fine clearance gap (30) between the other side of the 28. The packing end 91 of claim 1, wherein the packing end 91 surrounds the first protrusion 11 and is inserted into the first protrusion groove 12, and is wrapped around the second protrusion 21 and inserted into the second protrusion groove 22. A method of manufacturing a window frame comprising: a projection packing (90) formed in a continuous zigzag arrangement. The method according to claim 1 or 5, wherein the outdoor frame 10 and the indoor frame 20 is combined to cut each end obliquely,
The outdoor frame 10 and the packing 92 in the horizontal direction using the screw 60 in a state where a thin rubber plate-shaped packing 92 is positioned between the outdoor frame 10 and the end section of the indoor frame 20. Fastening through the outdoor frame 10 in the vertical direction through the through or through the outdoor frame 10 and the packing 92 in the vertical direction of the window frame, characterized in that configured to be coupled to the outdoor frame 10 in the horizontal direction Manufacturing method.

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