KR101827770B1 - Azon bar structure of inlet type for insulation frame - Google Patents

Abstract

The present invention relates to a heat insulating frame, and more particularly, to a heat insulating frame for preventing a door frame or a window frame from being opened or closed against external heat and interior, further comprising an azon bar between the inner and outer frames, The manufacturing process includes forming an azon bar in a single integrated frame and then cutting the middle portion of the frame so as to provide a separate frame having an intermediate portion so as to connect the indoor outer frames to each other only as a heat insulating material. Method.
A feature of the present invention resides in a heat insulating frame (10) including an inner frame (20) positioned on the indoor side and an outer frame (30) positioned on the outdoor side and is formed by the inner frame (20) and the outer frame (40) located in a frame azon position space (12) which is a predetermined space and is made of a heat insulating material, the azodic section (40) being made of one of polyamide and polyurethane, and the frame azon position space The inner frame 20 and the outer frame 30 are formed with an azon injection port for injecting azon into the space between the inner frame 20 and the outer frame 30, And an outer frame cutting space (13) which is a space is formed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a heat insulating frame, and more particularly, to a heat insulating frame for preventing a door frame or a window frame from being opened or closed against external heat and interior, further comprising an azon bar between the inner and outer frames, And an injection hole for injecting azon into the frame is formed inside the frame so that the azon injection portion generated at the time of injection is not exposed, thereby providing a clean appearance of the shape.

Generally, doors and windows are open to the inside and outside of the building. The doors can be accessed by users, and in the case of windows, the windows are designed to vent or view the outside scenery.

As such, doors and windows are designed to be used for purposes other than those of a typical building wall.

Such doors and windows may have opaque and semi-transparent characteristics due to opaque metal plate, wood plate, or plastic such as resin. Most of the large area is made of transparent or semitransparent glass or plastic material, and in the case of being formed in a transparent state, it is possible to enjoy outside scenery in addition to ventilation and outflow.

On the other hand, in the case of such a door or a window, transparent glass is often used for the purpose of enjoying the scenery while enjoying the desired purpose.

In addition, when the outdoor heat is transferred to the room in the summer, it is exposed to a hot indoor environment.

Such high-temperature heat transfer or low-temperature heat transfer may be transmitted through glass, but may be transmitted through a door or a window frame. Especially, when such a frame is made of a metal material, do. Therefore, a structure for preventing heat transfer more effectively is strongly required.

Registered Patent No. 10-1595219 (published on February 18, 2016) Registered Patent No. 10-1219379 (published on Jan. 09, 2013)

In order to solve the above-mentioned problems, the present invention provides a door frame or window frame, wherein the heat insulating frame comprises an inner frame on the inner side and an outer frame on the outdoor side, It is an object of the present invention to provide a comfortable indoor environment by intercepting heat and shutting off heat by providing an azon bar.

Another object of the present invention is to form an azon injection port inside the frame for injecting azon to form an auxiliary portion between the inner frame and the outer frame.

In order to achieve the above object, the present invention provides a heat insulating frame (10) including an inner frame (20) positioned on an indoor side and an outer frame (30) positioned on an outdoor side, (40) which is located in a frame azon position space (12), which is a predetermined space formed by the insulating layer (30) and made of a heat insulating material, and the azole portion (40) is made of any one of polyamide and polyurethane An azon injection port for injecting azon inwardly between the inner frame 20 and the outer frame 30 is formed in the frame azon position space 12 and the inner frame 20 and the outer frame 30 are formed, And the outer frame cutting space (13), which is a space formed apart from the outer side of the outer frame cutting space (13), is formed.

In the present invention, the inner frame 20 includes an inner azon outer wall 21 which is in contact with the azimuth section 40 as a wall toward the outward side in the indoor direction in the frame azon position space 12; An inner ezone outer catching jaw 22 extending from the inner azon outer wall 21 toward the inward azimuth 40 and inserted into the azimuth section 40 and being inclined; And an inner azon inner wall 23 extending from the inner azon outer wall 21 to the inward side of the inner azon section 40 in the outdoors direction at the end of the inner azon thickness section 23 in contact with the indoor azimuth wall of the azon section 40, (24); An inner azone inner engaging jaw 25 extending from the inner inner side wall 24 toward the outward adjoining portion 40 and inserted into the azimuth portion 40 and formed to be inclined; And a screw fastening hole 50 which is formed in a semicircular shape in a direction opposite to the attaching portion 40 at the side wall 24 of the inner housing and which is a screwing screw for screwing together with an external screwing groove 36 of the outer frame 30 And an inner thread groove portion (26) formed in the inner side of the heat insulating frame.

In the present invention, the outer frame 30 includes an outer azon outer wall 31 which is in contact with the azimuth portion 40 as a wall toward the outward side in the outdoor direction in the frame azon position space 12; An outer azon outer catching jaw 32 extending from the outer azon outer wall 31 toward the inner zone 40 and inserted into the outer zone 40 and formed obliquely; The inner wall of the outer azon wall 40 is extended from the outer azon outer wall 31 toward the inward side of the outer azon wall 40 in the inward direction from the end of the outer azon thick wall 33, (34); An outer azone inner engaging jaw 35 extending from the outer sub inner wall 34 toward the outward azimuth 40 and inserted into the azimuth 40 to be inclined; And a screw fastening hole (50) formed in a semicircular shape in the direction opposite to the arm portion (40) in the outer sub inner wall (34) to form a thread fastening hole (50) for screw fastening together with the internal thread groove (26) And an outer threaded groove portion (36) formed on the inner wall of the heat insulating frame.

In the present invention, the inner frame 20 is provided with an inner thread groove portion 26 projecting toward the room side in a semicircular shape inward with respect to the frame azon position space 12, An outer thread groove portion 36 protruding outwardly in a semicircular shape inwardly with respect to the frame azon position space 12 is provided and the inner frame 20 is interposed between the inner thread groove portion 26 and the outer thread groove portion 36, And the outer frame (30) are spaced apart to form a threaded azon inlet (60) for injecting azon.

In the present invention, the inner frame 20 and the outer frame 30 each have an inner thread groove portion 26 and an outer thread groove portion 26 projecting inwardly and outwardly in a semicircular shape inward with respect to the frame azon position space 12, The threaded portion 36 is formed as an inner threaded portion 26 and an outer threaded portion 36 to form a threaded hole 50. Any one or more of the inner frame 20 and the outer frame 30 , And a side azon injection port (70) for injecting azon into the frame azon position space (12) is formed at a position spaced apart from the screw fastening hole (50). do.

The method of manufacturing a heat insulating frame (10) including an inner frame (20) positioned on the indoor side and an outer frame (30) positioned on the outdoor side in the present invention is characterized in that the inner frame (20) (S10) having a single integrated frame (11) formed with a frame azon position space (12), which is a space for integrating and not cutting off each other and forming an auxiliary part (40) on one side; A step S20 of injecting a frame azod material into the azodic zone 12 into which the azodic zone is placed to form the azodic zone 40; The inner frame 20 for the indoor side and the indoor side frame 20 for the outdoor side are cut out in the integrated frame 11 in a state where the auxiliary frame 40 is provided in the frame azimuth space 11 of the integrated frame 11, And an outer frame cutting step (S30) for forming an outer frame cutting space (13) divided by an outer frame (30), wherein the inner frame (20) and the outer frame (30) An inner thread groove portion 26 and an outer thread groove portion 36 protruding from the inner side in the inner direction toward the indoor side and the outdoor side are formed so as to form an inner thread groove portion 26 and an outer thread groove portion 36, The azon injection port into which the auxiliary material is injected in the frame azo material injecting step S20 is formed between the internal frame 20 and the external thread groove portion 36 through the internal thread groove portion 26 and the external thread groove portion 36. [ A screw azon inlet 60 as a spaced space between the frames 30; And a side azon inlet (70) spaced apart from any one of the inner frame (20) and the outer frame (30) spaced apart from the screw fastening hole (50). Wherein the injection port is formed of any one of the azon injection ports.

According to the present invention configured as described above, the heat insulating frame is a frame of a door or a window, and comprises an inner frame on the indoor side and an outer frame on the outdoor side, and an azon bar as a separate heat insulating material between the inner frame and the outer frames So that it is possible to block the heat and block the heat and to provide a pleasant indoor environment.

Another effect of the present invention is that an azon injection port for injecting azon is formed inside the frame to form an auxiliary portion between the inner frame and the outer frame.

Further, another effect of the present invention is to inject azon into the inner side of the frame such as the inner frame and the outer frame, so that even when the azon protrudes during injection, it is not exposed to the outside of the heat insulating frame,

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a cross-sectional view of an integrated frame in a state in which an inner frame and an outer frame are not cut in a threaded azo injection molding embodiment in which an azon injection hole is formed in a screw fastening hole in the heat insulating frame according to the present invention.
FIG. 2 is a cross-sectional view illustrating a state in which the azon is injected into the frame azon position space of the integrated frame through the screw azon injection hole in the threaded azon injection molding example in which the azon injection hole is formed in the screw fastening hole according to the present invention. .
FIG. 3 is a cross-sectional view of a heat insulating frame according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of a heat insulating frame according to an embodiment of the present invention, in which screw holes are formed in a threaded fastener, Fig.
4 is a cross-sectional view of a heat insulating frame according to an embodiment of the present invention. In the heat insulating frame according to the present invention, in the threaded azon injection molding process in which the screw hole is formed in the screw hole, And Fig.
FIG. 5 is a cross-sectional view of a heat insulating frame according to an embodiment of the present invention. In the heat insulating frame according to the present invention, in the threaded azon injection molding process in which the screw hole is formed in the threaded fastening hole, And Fig.
6 is a cross-sectional view of a heat insulating frame according to an embodiment of the present invention. In the heat insulating frame according to the present invention, an screw portion is formed in a screw hole, Fig. 3 is a cross-sectional view showing a state in which the insulating portion and the adiabatic frame are separated from each other.
7 is a cross-sectional view of an integrated frame in which the inner frame and the outer frame are not cut off in the embodiment of the side azon injection molding in which the azon injection holes are formed apart from the screw tightening holes in the heat insulating frame according to the present invention.
8 is a cross-sectional view of a state in which azon is injected into the frame azon position space of the integrated frame through the side azon injection port in the side azon injection molding embodiment in which the azon injection hole is formed apart from the screw tightening hole in the heat insulating frame according to the present invention. Fig.
9 is a cross-sectional view of a heat insulating frame according to an embodiment of the present invention, in which an azon is formed by injecting azon into a frame azon position space through a side azon injection port in a side azon injection molding process in which an azon injection hole is formed apart from a screw- Fig.
10 is a side view of the heat insulating frame according to the present invention, in which the azimuth portion is formed in the frame azimuth space of the integrated frame through the side azon injection opening in the embodiment of the side azon injection molding in which the azon injection holes are formed apart from the screw fastening holes, Fig. 3 is a cross-sectional view illustrating a state in which the substrate is cut.
11 is a side view of the heat insulating frame according to the present invention. In the heat insulating frame according to the present invention, in the embodiment of the side azon injection molding in which the azon injection holes are formed apart from the screw fastening holes, an azimuth portion is formed in the frame azimuth space of the unified frame through the side azon injection holes, And Fig.
12 is a side view of the heat insulating frame according to the present invention. In the heat insulating frame according to the present invention, in the side azon injection molding process in which the azon injection holes are formed apart from the screw fastening holes, Sectional view showing a state in which the insulating portion and the adiabatic frame are separated from each other in the cut state.
13 is a flowchart of a manufacturing method for manufacturing the heat insulating frame according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

That is, the heat insulating frame structure according to the present invention is directed to a frame installed as a door or a window, as shown in FIGS. 1 to 13 attached hereto.

In other words, such a frame is mainly provided as a doorway so that the user can enter and leave the room from the outside air or the room. Or when it is used as a window, it can be opened or closed, or it can be used as a tub window, thereby blocking the entrance of the outside air or cold air and keeping it warm.

Most window frame frames are made of metal material to form a rigid frame, while the excellent heat transfer characteristics of the metal material allow the outside cold and cold parts to flow into the room as it is, which is heating costs for winter heating. On the other hand, since hot outside heat is transmitted to the inside of the room during hot summer, it can be difficult to live because of heat in the room.

Accordingly, as in the present invention, the frame is divided into the indoor frame and the outdoor frame, thereby alleviating the heat transfer characteristic to some extent. In addition, since the azon bar for blocking heat transfer is provided between the inner frame 20 on the indoor side and the outer frame 30, the heat transfer can be effectively blocked.

That is, according to the detailed construction of the present invention, there is provided a frame according to the present invention including an inner frame 20 located on the indoor side and an outer frame 30 located on the outdoor side.

In addition, it includes an auxiliary part located in a predetermined space formed by the inner frame 20 and the outer frame 30 and made of a heat insulating material.

Such an azole moiety is preferably composed of any one of polyamide and polyurethane, and various materials for blocking heat may be used as the azo moiety. As is generally the case in the accompanying drawings, the inner frame 20 and the outer frame 30 are formed to have a long length as a frame, and the outer frame 30 is formed in a predetermined space between the frames, Since the zone is formed in the long space, the zone may be formed of AZON BAR which is generally narrow and has a long bar shape. Generally, the formation of the adhesion zone is performed by injecting a gel type polyamide or polyurethane as a space for forming an adhesion zone between the inner frame 20 and the outer frame 30, and then hardening the adhesion zone to form an azon bar The inner frame 20 and the outer frame 30 can be separated from each other by a certain degree. The characteristic of the polyamide and the polyurethane is that they are not deformed under a certain degree of hardness We want to use general characteristics.

Accordingly, the inner frame 20, the outer frame 30, and the like, to which the azon bars are coupled, can be maintained in a firmly coupled state.

The azimuth portion 40 is located in the frame azimuth space 11 between the inner frame 20 and the outer frame 30.

Since the inner frame 20 and the outer frame 30 are not in direct contact with each other and are connected to the auxiliary section 40 in the frame azimuth position space 11, But it does not come in direct contact, so thermal conduction is blocked, which can block cold or heat.

Hereinafter, a detailed structure of the inner frame 20 will be described.

In the heat insulating frame 10 according to the present invention, glass (not shown) used for a door or a window is coupled, and a glass seating space 15 on which the glass (not shown) is seated is formed . The glass or other flat member may be applied to the inner part where the glass can be placed instead of the glass or the plate member or the metal member without applying any other glass. It will be determined and applied according to the circumstances. In the following embodiments of the heat insulating frame 10 according to the present invention, the glass is seated and other glass plates or members may be applied and applied based on the applied examples of such glass.

First of all, in the heat insulating frame 10 according to the present invention, the inner frame 20 is located on the indoor side and the outer frame 30 is located on the opposite outdoor side. Between them, an azo bar 40 such as polyurethane, polyamide or the like may be provided as the frame azon position space 11.

An azon injection port for injecting azon is formed between the inner frame 20 and the outer frame 30 with respect to the frame azon position space 12. The inner frame 20 and the outer frame 30, The outer frame cutting space 13, which is a space formed apart from the outer side of the outer frame cutting space 13, is formed. Thus, the heat insulating frame 10 made up of the inner frame 20 and the outer frame 30 is separated from the inner side by the azon injection port and spaced apart from the outer frame cutting space 13 As a result, they are cut off from each other between the room and the outside to have an insulated state.

In detail, the inner frame 20 has an inner azon outer wall 21 which is in contact with the azimuth section 40 as a wall toward the outward side in the indoor direction in the frame azon position space 12, And an inner ezone outer hooking jaw 22 extending from the outer wall 21 toward the inward portion 40 and inserted into the auxiliary portion 40 and formed to be inclined.

In other words, the inner azon outer wall 21 is wrapped by the inner surface of the inner azon outer wall 21 in contact with the outer side of the inner wall portion 40, The azon outer hooking jaw 22 is formed. The inner azone outer catching jaw 22 is formed to be inclined in the direction of the room so as to prevent the escape portion 40 from escaping outdoors. The inner azone outer wall 21 is separated from the outer frame 30 to provide an insulated state to the inside and outside of the room.

The auxiliary part 40 is then injected into the frame azimuth space 11 as a gel type and then hardened to form a solid state. The outer frame 30 is not separated and has a rigid coupling state. In order to have such a state of engagement of the two frames, the inner azimuthal outer jaw 22 is inserted into the inner zone 40, and the inner jaw outer jaw 22, in particular, It is preferable to have a protruded shape. Thus, when the inner frame 20 is forced to expand in the direction of the indoor side with respect to the auxiliary portion 40, since the inner azin outer side engaging jaw 22 has the hook shape in the room side direction, Thereby preventing the inner frame 20 from being separated.

The inside azimuthal side wall 24 extending from the inner azon outer wall 21 to the inward side of the azimuthal portion extending outward from the end of the inner azimuthal thickness portion 23 in contact with the indoor side surface of the azimuthal portion 40 ).

And an inner azone inner hooking jaw 25 extending from the inner inner side wall 24 toward the outward azimuth portion 40 and inserted into the azimuth portion 40 and being inclined. The inner azimuthal inner hooking jaw 25 also protrudes in the lateral direction of the room as in the explanation of the inner azimuthal securing jaw 22 to effectively prevent the inner frame 20 from being detached from the azimuth section 40. [

A screw hole 50 is formed in a semicircular shape in the opposite direction of the auxiliary portion 40 on the side wall 24 so as to be screwed together with the external screw groove 36 of the outer frame 30 And an inner screw groove portion 26 for screwing the inner screw groove portion. And a cover frame (not shown) separately provided by the internal thread groove portion 26 and the external thread groove portion 36 can be coupled with a frame fastening screw (not shown) or the like.

Next, the detailed configuration of the outer frame 30 corresponding to the inner frame 20 will be described.

That is, the outer frame 30 is provided with an outer azon outer wall 31 which is in contact with the azimuth section 40 as a wall toward the outward side in the outdoor direction in the frame azon position space 12. [

And an outer azon outer catching jaw 32 extending from the outer azon outer wall 31 toward the inner zone 40 and inserted into the outer zone 40 and formed obliquely.

As a result, contrary to the inner frame 20, the outer ezone outer hooking jaw 32 protrudes toward the outdoor side so that when the force to move outdoors to the outer frame 30 acts, The outer frame 30 is prevented from being separated by being hooked to the outer portion 40 by the outer Azon outer hooking jaw 32 formed thereon.

In addition, in the outer azon outer wall 31, an outer azon portion 40 extending inward from the end of the outer azon thickness portion 33 in contact with the outward surface of the azon portion 40, A side wall 34 is provided.

And an outer azone inner hooking jaw 35 extending from the inner side wall 34 toward the outward azimuth 40 and inserted into the azimuth 40 and formed obliquely is provided.

The outer azone inner catching jaw 35 also protrudes in the outward direction so as to have a hook shape in the outward direction to prevent the outer frame 30 from being detached from the azimuth section 40.

A screw hole 50 is formed in a semicircular shape in the opposite direction of the auxiliary portion 40 in the outer sub inner wall 34 so as to be screwed together with the inner screw groove portion 26 of the inner frame 20 (Not shown).

Whereby the cover frame (not shown) is fastened to the inner frame 20 and the outer frame 30 by fastening screws (not shown) by the external thread groove portion 36 and the internal thread groove portion 26 will be.

In the inner surface of the inner frame 20 of the inner frame 20, there is formed an inner outer frame 23 having grooves in the direction from the center to the inner side The insertion groove 41 is formed. In the inner frame jaw insertion groove 41, an inner azone outer jaw 22 protruding from the end of the inner ezone outer wall 21 in the interior direction of the inner frame 20 is positioned. Thus, the inner Azon outer hooking jaw 22 is shaped like a hook so as to be located in the inner outer frame jaw insertion groove 41 to prevent separation between the inner frame 20 and the auxiliary section 40.

The auxiliary part 40 is provided with grooves in the direction of the interior side in the direction from the center to the interior side in the plane of the auxiliary part 40 in which the side wall 24 of the inner azimuth is located opposite to the inner azon outer side wall 21 The inner frame jaw insertion groove 42 is formed. This inner inner frame jut insertion groove 42 also prevents separation between the inner frame 20 and the auxiliary portion 40 as in the inner outer frame jut insertion groove 41 described above.

In addition, the auxiliary part 40 has an outer outer frame jaw insertion hole (not shown) formed with a groove in the outward direction in the direction from the center to the outer side in the surface on which the outer azon outer side wall 31 forming the large- Grooves 43 are formed. The outer outer frame jaw insertion groove 43 is formed with an outer jaw outer jaw 32 protruding outward from the outer end of the outer jaw outer wall 31 in the outer frame 30. Thus, the outer Azon outer hooking jaw 32 is shaped like a hook so as to be located in the outer outer frame jaw insertion groove 43 to prevent separation between the outer frame 30 and the auxiliary portion 40. [

The auxiliary part 40 is provided with grooves in the outward direction in the direction from the center to the outdoors in the surface of the auxiliary part 40 where the side wall 34 in the outer azimuth zone opposite to the outer azimuth side wall 31 is located And an outer inner frame jut insertion groove 44 is formed. This outer inner frame jut insertion groove 44 also prevents separation between the outer frame 30 and the auxiliary portion 40 as in the outer outer frame jut insertion groove 43 described above.

The adjoining portion 40 connecting between the inner frame 20 and the outer frame 30 has the inner frame jaw insertion groove 41 and the inner inner frame jaw insertion groove 41, The outer inner frame jaw insertion grooves 22 and inner inner jaw insertion jaws 25 of the inner frame 20 are positioned in the outer frame jaw insertion grooves 43 The outer azimuthal outer jaws 32 and the outer azon inner jaws 35 of the outer frame 30 are positioned in the outer frame 30 and the outer frame inner jaw insertion groove 44, The outer frame 30 and the like are prevented from being separated from each other, and the heat insulating effect is achieved.

In the heat insulating frame 10 including the inner frame 20 and the outer frame 30 forming the basic frame described above as the heat insulating frame 10 according to the present invention, the inner frame 20 and the outer frame 30, There is an outer frame cutting space 13 in which the inner frame 20 and the outer frame 30 are separated from the frame azon position space 12 where the auxiliary portion 40 is located, The inner frame 20 and the outer frame 30 are separated from each other.

In particular, it is provided as an azon injection port for injecting azon into a portion separated into the frame azon position space 12. Therefore, the azon is not injected outside the heat insulating frame 10 but is injected from the inside of the heat insulating frame 10.

In contrast, when the azon is injected outside the heat insulating frame 10, some azon may escape to the outside during the injection, so that there is a possibility that the shape of the heat insulating frame formed with the adjoining portion becomes poor.

On the other hand, since the heat insulating frame 10 of the present invention injects the azon from the inside of the heat insulating frame 10, even when the azon is pushed out at the time of injection, it is not exposed to the outside even after being installed in a door or a window, do.

In the example of the cross section cut in the lateral direction of the heat insulating frame 10 according to the present invention, the inner frame 20 and the outer frame 30 are disposed in the indoor and outdoor directions The inner frame 20 and the outer frame 30 are formed on the outer side of the inner frame 20 and the outer frame 30 while the inner frame 20 and the outer frame 30 are formed on the inner side. Of course, the 'inside' and the 'outside' are intended to easily describe the directions in which the components are provided in the present invention, and may be described and implemented as shapes or terms applied to the constitution or direction of the present invention will be.

As described above, an azon injection port for injecting azon inwardly between the inner frame 20 and the outer frame 30 is formed in the frame azon position space 12 of the heat insulating frame 10 according to the present invention .

The outer frame cutting space 13, which is a space formed apart from the inner frame 20 and the outer frame 30, is formed. As described above, in the state where the auxiliary zone 40 is formed in the frame azon position space 12, there is a separated space of the outer frame cutting space 13 outwardly of the auxiliary zone 40, So that the inner frame 20 and the outer frame 30 are separated from each other and are in a state of being insulated from each other.

As shown in FIGS. 1 to 6, an embodiment of the screw injection injection molding in which the screw hole 50 is provided with an azon injection port is provided in the heat insulating frame 10.

That is, the inner frame 20 is provided with an internal thread groove portion 26 protruding inwardly in a semicircular shape inward with respect to the frame azon position space 12, The outer frame 30 is provided with an external thread groove 36 protruding outward in a semicircular shape inward with respect to the frame azimuth space 12.

The inner frame 20 and the outer frame 30 are spaced apart from each other by an interval between the inner thread groove portion 26 and the outer thread groove portion 36 to form a screw azon inlet 60 for injecting the azon. Thus, azine is injected into the screw azon injection port 60 to form the auxiliary portion 40.

1 is a cross-sectional view of an integrated frame (not shown) in which an inner frame 20 and an outer frame 30 are not cut in an embodiment of screw thread injection molding in which an injection hole for an azon is formed in a screw fixing hole 50 11) according to the present invention.

2 is a cross-sectional view illustrating a state in which azon is injected into the frame azon position space 12 of the integrated frame 11 through the screw azon injection port 60. FIG.

3 is a cross-sectional view illustrating a state in which the azon portion 40 is formed by injecting azon into the frame azon position space 12 of the integrated frame 11 through the screw azon injection port 60. FIG.

4 shows a state in which the auxiliary portion 40 is formed in the frame azimuth space 12 of the unified frame 11 through the threaded azon injection port 60 and then the outside of the frame is cut to form the outer frame cutting space 13 Fig.

5 shows a state in which the auxiliary portion 40 is formed in the frame azimuth space 12 of the unified frame 11 through the threaded azon injection port 60 and the outside of the frame is cut, Sectional view illustrating a state in which the inner frame 20 and the outer frame 30 are separated from each other by the outer frame cutting space 13 and the nacreous injection port 60, respectively.

6 is a cross-sectional view of a heat insulating frame 10 according to the present invention in which a screw thread injection hole 60 is formed in the screw thread hole 50, In a state where the auxiliary section 40 and the adiabatic frame 10 are separated from each other in a state where the auxiliary section 40 is formed in the azon position space 12 and the outside frame is cut to form the outside frame cutting space 13, Fig.

Next, as another embodiment in which an azon injection port is formed inward in the heat insulating frame 10 according to the present invention, a side azon injection port 70, which is an azon injection port, is formed so as to be spaced apart from the screw coupling hole 50 as shown in FIGS. A side azin injection molding embodiment is provided.

That is, the inner frame 20 and the outer frame 30, which are configured for the side azon injection port 70, have a semi-circular shape protruding from the frame azimuth space 12 in the inward direction toward the indoor side and the outdoor side, The screw groove portion 26 and the external screw groove portion 36 are formed to form the screw fastening hole 50 as the internal screw groove portion 26 and the external screw groove portion 36. [

At least one of the inner frame 20 and the outer frame 30 is cut off at a position spaced apart from the threaded fastening hole 50 and inserted into the frame azon position space 12 through a side azon inlet port 70 are formed.

7 is a cross-sectional view of a heat insulating frame 10 according to an embodiment of the present invention, in which the inner frame 20 and the inner frame 20 are formed in a side azon injection molding process in which an azon injection port is formed apart from the screw- Sectional view of the integrated frame 11 in a state where the outer frame 30 is not cut.

8 is a cross-sectional view illustrating a state in which azon is injected into the frame azon position space 12 of the integrated frame 11 through the side azon injection port 70. FIG.

9 is a cross-sectional view illustrating a state in which the azine portion 40 is formed by injecting azon into the frame azon position space 12 of the integrated frame 11 through the side azon injection port 70. FIG.

10 is a cross-sectional view illustrating a state in which the outer zone 40 is formed in the frame azimuth space 12 of the unified frame 11 through the side azon injection port 70 and then the outer side of the frame is cut off.

11 shows a state in which an auxiliary portion 40 is formed in the frame azimuth space 12 of the integrated frame 11 through the side azon injection port 70 and the outer frame cutting space 13 is formed by cutting the outer side of the frame Fig.

12 is a side view of a side azon injection molding in which a side azon injection opening 70 of an azon injection opening is formed so as to be spaced apart from a screw tightening hole 50 in the heat insulating frame 10 according to the present invention. The auxiliary section 40 is formed inside the frame azimuth space 12 of the integrated frame 11 and the outer frame cutting space 13 is formed by cutting the outer side of the integrated frame 11, And the heat insulating frame 10 are separated from each other.

The heat insulating frame 10 according to the present invention is provided with an inner frame 20, an outer frame 30, and an auxiliary portion 40 interposed between the inner frame 20 and the outer frame 30.

A process for manufacturing the heat insulating frame 10 according to the present invention will now be described as an embodiment in which the azon inlet for injecting the azon of the auxiliary part 40 is formed inside the heat insulating frame.

(10) including an inner frame (20) positioned on the indoor side and an outer frame (30) positioned on the outdoor side.

1 and 7, the frame 20 and the outer frame 30 are integrated with each other without being cut off, and the frame azon position space 12, which is a space for forming the auxiliary portion 40, (S10) including an integrated frame (11).

2 and 8, a frame azon material injection step for injecting an auxiliary material into the frame azon position space 12 in which the auxiliary part is located and molding the auxiliary part 40, (S20). Thus, as shown in FIGS. 3 and 9, the adjoining portion 40 is formed in the frame azon position space 12.

The inner frame 20 and the outer frame 30 are provided with an inner thread groove portion 26 and an outer thread groove portion 36 projecting from the frame azimuth space 12 in the inward- And an inner thread groove portion 26 and an outer thread groove portion 36 are formed to form a screw fastening hole 50. [

The azon injection port into which the auxiliary material is injected in the frame azo material injecting step S20 is disposed between the inner frame 20 and the outer frame 30 with the inner thread groove portion 26 and the outer thread groove portion 36 interposed therebetween. There is provided a threaded azon injection molding embodiment in which a screw azon injection port 60 is formed as a spaced space. Thus, the azine portion 40 is formed by injecting azon into the threaded joint injection hole 60 formed in the portion of the threaded fastening hole 50 formed by the internal threaded portion 26 and the external threaded portion 36.

Or the azon injection port into which the auxiliary material is injected in the frame azo material injecting step S20 is formed in a spaced space between any one of the inner frame 20 and the outer frame 30 spaced apart from the screw coupling hole 50. [ There is provided a side azine injection molding embodiment in which an inner side azon injection port 70 is formed.

Thus, the azon portion 40 is formed by injecting azon into the side azon inlet 70, which is a space separated from the screw hole 50 and spaced apart from the inner frame 20 or the outer frame 30.

Next, as shown in Figs. 4 and 10, in the state where the adjoining portion 40 is provided in the frame azimuth space 11 of the unified frame 11, the outer middle portion is cut off from the unified frame 11, (S30) for forming the outer frame cutting space (13) so as to be divided into the outer frame (20) and the outer frame (30) for outdoor use.

The outer side intermediate portion of the integrated frame 11 is cut by the frame cutting edge 82 which rotates about the rotary shaft 81 of the frame cutting device 80 of the frame cutting device 80, And the outer frame 30 for outdoor use to form the outer frame cutting space 13.

As a result, the outer frame cutting space 13 is formed outside the adiabatic frame 10, the threaded azon injection port 60 or the side azon injection port 70 is formed in the inner frame 20 as shown in FIGS. 5, 6, 11, The outer frame 30 and the outer frame 30 are separated from each other and connected to the auxiliary portion 40. The outer frame 30 is insulated by the auxiliary portion 40 made of a heat insulating material.

Thus preventing the outdoor warmth and hot air from being transmitted to the room. In addition, because the azon is injected in the inside of the heat insulating frame 10, even if the azon is formed irregularly during the injection, the azon is not exposed from the outside, and the beauty pipe is not damaged.

The heat insulating frame 10 is connected to the heat insulating material, which is the azon bar of the auxiliary part 40, as an intermediate connecting member, so that the effect of the heat shielding is achieved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The technical idea of the present invention should not be construed as being limited.

10: heat insulating frame 20: inner frame part
30: outer frame part 40:
50: Screw fixing hole 60: Screw azon injection hole
70: side azon inlet

Claims (6)

A heat insulating frame (10) including an inner frame (20) positioned on the indoor side and an outer frame (30) positioned on the outdoor side;
(40) which is located in a frame azon position space (12) which is a predetermined space formed by the inner frame (20) and the outer frame (30) and is made of a heat insulating material,
The azole portion 40 is made of any one of polyamide and polyurethane,
An azon injection port is formed for injecting azon inwardly between the inner frame 20 and the outer frame 30 with respect to the frame azon position space 12,
Wherein the outer frame cutting space (13), which is a space formed apart from the inner frame (20) and the outer frame (30), is formed,

The inner frame (20)
An inner azon outer side wall 21 which is in contact with the azimuth section 40 on the outward side in the indoor direction in the frame azon position space 12;
An inner ezone outer catching jaw 22 extending from the inner azon outer wall 21 toward the inward azimuth 40 and inserted into the azimuth section 40 and being inclined;
And an inner azon inner wall 23 extending from the inner azon outer wall 21 to the inward side of the inner azon section 40 in the outdoors direction at the end of the inner azon thickness section 23 in contact with the indoor azimuth wall of the azon section 40, (24);
An inner azone inner engaging jaw 25 extending from the inner inner side wall 24 toward the outward adjoining portion 40 and inserted into the azimuth portion 40 and formed to be inclined; And
A screw hole 50 is formed in a semicircular shape in a direction opposite to the attaching portion 40 in the side wall 24 so as to be screwed together with the external thread groove 36 of the outer frame 30 And an internal threaded groove (26).
delete The method according to claim 1,
The outer frame (30)
An outer azon outer wall 31 which forms a wall outwardly in the outdoors direction in the frame azon position space 12 and contacts the azimuth 40;
An outer azon outer catching jaw 32 extending from the outer azon outer wall 31 toward the inner zone 40 and inserted into the outer zone 40 and formed obliquely;
The inner wall of the outer azon wall 40 is extended from the outer azon outer wall 31 toward the inward side of the outer azon wall 40 in the inward direction from the end of the outer azon thick wall 33, (34);
An outer azone inner engaging jaw 35 extending from the outer sub inner wall 34 toward the outward azimuth 40 and inserted into the azimuth 40 to be inclined; And
A screw hole 50 is formed in a semicircular shape in the opposite direction of the auxiliary portion 40 in the outer sub inner wall 34 so as to be screwed together with the inner screw groove portion 26 of the inner frame 20 And an external threaded groove (36).
The method according to claim 1,
The inner frame 20 is provided with an inner thread groove portion 26 projecting toward the room side in a semicircular shape inward with respect to the frame azon position space 12,
The outer frame 30 is provided with an external thread groove 36 projecting outwardly in a semicircular shape inward with respect to the frame azimuth space 12,
Wherein a screw azide injection port (60) for injecting the azon is formed between the inner frame (20) and the outer frame (30) with an interval between the inner screw groove portion (26) and the outer screw groove portion (36) Frame Inside Injection Azone Bar Structure.
The method according to claim 1,
The inner frame 20 and the outer frame 30 are provided with an inner thread groove portion 26 and an outer thread groove portion 36 projecting from the frame azimuth space 12 in a semi- And constitutes a screw fastening hole 50 as an internal screw groove portion 26 and an external screw groove portion 36,
At least one of the inner frame 20 and the outer frame 30 is cut off at a position spaced apart from the threaded fastening hole 50 and inserted into a side azon inlet 70 for injecting azon into the frame azon position space 12. [ ). ≪ / RTI >
A manufacturing method for manufacturing a heat insulating frame (10) including an inner frame (20) positioned on an indoor side and an outer frame (30) positioned on an outdoor side,
A single integrated frame 11 having a frame azon position space 12 formed as a space for integrating the inner frame 20 and the outer frame 30 without being cut off from each other, (S10);
(S20) of injecting an azo material into the frame azon position space (12) in which the azo moiety is located, thereby molding the azo moiety (40); And
The inner intermediate portion is cut off from the unified frame 11 in the state where the azimuth portion 40 is provided in the frame azimuth space 11 of the unified frame 11 so that the inner frame 20 for the indoor use and the outer And an outer frame cutting step (S30) of forming an outer frame cutting space (13) divided by a frame (30)
The inner frame 20 and the outer frame 30 are provided with an inner thread groove portion 26 and an outer thread groove portion 36 projecting from the frame azimuth space 12 in a semi- And constitutes a screw fastening hole 50 as an internal screw groove portion 26 and an external screw groove portion 36,
The azon inlet for injecting the auxiliary material in the frame azon material injecting step (S20)
A screw azon inlet 60 which is a spaced space between the inner frame 20 and the outer frame 30 between the inner screw groove portion 26 and the outer screw groove portion 36; And
A side azon inlet 70 which is a spaced space between the screw hole 50 and the inner frame 20 and the outer frame 30;
Wherein the injection hole is made of one of the azon injection holes.

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