KR100632435B1 - Aluminum chassis frame of insulation structure - Google Patents

Abstract

The present invention relates to an insulating structure of an aluminum chassis shape member.

The present invention constitutes grooves 14c and 15c at positions facing each other of the indoor and outdoor aluminum frames 14 and 15 so that the heat insulating material 11 is inserted into the indoor and outdoor aluminum frames 14 and 15 so as not to be opposed to each other. After both sides of the plate-shaped piece material 16 of the hard synthetic resin is pressed into the grooves (14c, 15c) by pressing from the end of the interior and exterior aluminum frame (14, 15), the interior and exterior aluminum frame ( In order to prevent the 14,15 from falling out of the heat insulating material 11, the degree of integral synthesis is increased, and the indoor and outdoor aluminum frames 14 and 15 are connected to only the synthetic resin material having a low heat permeability, so that the heat insulating performance is deteriorated. .

Insulation, frame, guide groove, groove, plate piece

Description

Aluminum chassis frame of insulation structure             

1 to 3 is a schematic view showing a conventional aluminum chassis configuration

4 is a cross-sectional view showing a resin insulating material pressed into the aluminum chassis of FIG.

5 is a perspective view showing the aluminum chassis configuration of the present invention

Figure 6 is a perspective view showing a resin insulating material according to the present invention

<Description of the symbols for the main parts of the drawings>

(11): insulation 12: groove

(14): Interior frame (14a, 15a): Guide groove

(14b, 15b): Protrusions 14c, 15c, 18a, 19a: Grooves

(15): outdoor frame (16, 20): plate-shaped piece

(17): sliding doors (18,19): inside and outside vent bar

The present invention relates to a heat insulating structure of an aluminum chassis shape, and more particularly, to form a groove at a position facing each other of the indoor and outdoor aluminum materials, and put a heat insulating material into the indoor and outdoor aluminum materials to synthesize them integrally and then plate-like piece material to the grooves The present invention relates to a heat insulating structure of an aluminum chassis shape member which can improve the degree of synthesis by preventing the interior and exterior aluminum materials from being pulled out from the heat insulating material, and can be connected to only the synthetic resin material having low heat permeability.

In general, the thermal insulation chassis is made of aluminum material with high heat transfer rate separately from the indoor side and the outdoor side, and the three parts are integrally synthesized by inserting a synthetic resin insulation such as polyamide azone at the middle part, and according to the temperature difference between the indoor unit and the outdoor unit. It is designed to block the heat flow from the aluminum member.

As a heat insulating structure of a conventional aluminum material, various construction methods have been proposed and implemented. As shown in FIG. 1 attached to the first embodiment, the indoor aluminum frame 1 and the outdoor aluminum frame 2 are integrally extruded. Manufactured from a mold, the guide grooves 1a, 2a of the C-shaped cross section with projections 8 attached to the middle part are symmetrically formed, one side of which is opened, and the other side of which is continuous to the wall surface 3 to the wall surface. The resin insulating material 4 of the synthetic resin of the viscous fluid is filled into the guide grooves 1a and 2a with the bottom surface of the viscous fluid, and the wall surface 3 is cut out to cut the wall surface 3 and It divides into the interior aluminum frame 1, and shows the heat insulation frame in which the outdoor side aluminum frame 2 and the indoor side aluminum frame 1 were continuous by the said hardened resin insulating material 4 in one.

In addition, referring to FIG. 2 attached as a second embodiment, the aluminum frames 5 and 6 have different shape of the protruding protrusions 8 of the outdoor frame 6 and the indoor frame 5, respectively. Guide grooves 5a and 6a of the C-shaped cross section, each of which has protrusions 8 attached thereto, with the guide grooves 5a and 6a facing each other. 6a) inserts a release insulating material (7) having different shapes such as polyamide and the like into a cross-section of the inner diameter and both sides, and connects the indoor and outdoor frames (5, 6) to the insulating material (7), and the guide grooves (5a, 6a) It is a heat insulation frame which has a structure which raises the synthetic strength of the heat insulating material 7 and the guide grooves 5a and 6a by pressing the protrusion 8 to contact.

The heat insulating structure of the aluminum material according to the first and second embodiments described above has a drawback that the manufacturing process time is too long and the price increases, and in the second embodiment, the heat insulating material 7 and the guide grooves 5a and 6a are sufficiently made. If it is not press-fitted, rainwater may invade from the gap and cause a leak.

In addition, in the second embodiment, if the gap between the inner and outer frames 5 and 6 is firmly fixed with the fixing jig, and the heat insulating material 7 is not inserted and fixed, an error is likely to occur in the outer diameter dimension after the composite frame is integrated. There is a drawback in that the fixtures such as the fixing jig device of the inner and outer frames 5 and 6, the guide grooves 5a and 6a, and the press indenter of the projection 8 are expensive, which is expensive.

In order to make up for the disadvantages according to the second embodiment of the present invention, a heat insulation method is known as in FIG. 3 and FIG. 4 attached to the third embodiment, which is an outdoor aluminum frame 10 and an indoor aluminum frame 9. ) Is configured in a different shape, and each of the inner and outer aluminum frames (9, 10) to form guide grooves (9a, 10a) of the C-shaped cross-section, protruding pieces (each formed in each of the guide grooves (9a, 10a) 9b and 10b are press-fitted into the long grooves 12 of the resin insulating material 11 of the crank-shaped cross section, while the protruding pieces 9b and 10b are configured to mutually embrace each other, thereby making the interior and exterior aluminum frames 9 and 10 ) Is a thermally insulating frame method in which a single piece is synthesized.

Accordingly, the heat insulating material 11 of the third embodiment is made of a soft hard synthetic resin and is in close contact with the wall surfaces of the guide grooves 9a and 10a, so that the watertight performance is improved, as well as the both protruding pieces 9b and 10b are heat insulating materials. (11) by inserting and hugging each other, the unitary strength is improved, and in addition, the installation cost is lower than in the second embodiment without requiring the special jig of the indoor and outdoor frame (9, 10) when the composite assembly. Since this can be shortened, there is an advantage that the price can be reduced, and also, compared with the first and second embodiments, there is an advantage in equipment price, manufacturing time, watertightness, integral strength, and the like.

In the insulation frame of the third embodiment, the protrusions 9b and 10b of the guide grooves 9a and 10a may be pulled out from the heat insulator 11 during transportation or secular variation to the construction site and external pressure. Since this may be inferior, the method of preventing the indoor / outdoor frames 9 and 10 from shifting | deviating is common by sealing the indoor / outdoor frames 9 and 10 with the suitable pitch 450-500 mm with the screw 13.

However, when the interior and exterior frames 9 and 10 are sealed with the screw 13, heat flow between the metals is generated, which results in a poor thermal insulation performance.

That is, in a cold region, the heat loss amount is large and the dew condensation is maximized in the vicinity of the indoor aluminum frame 9 immediately adjacent to the screw 13, and the heat insulating material 11 is provided in the indoor and outdoor frames 9 and 10. ), If the projections 9b and 10b are not press-fitted to the deepest depths of the long grooves 12 of the heat insulating material 11, the stepped to the outdoor frame 10 and the indoor frame 9 There is a drawback that i) is generated and an integral section of the correct specification cannot be obtained.

Accordingly, the present invention has been made to solve the above drawbacks.

The present invention constitutes grooves at positions facing each other of the indoor and outdoor aluminum frames to put the heat insulator into the indoor and outdoor aluminum frames and synthesize them integrally so as not to put each other together, and then press both sides of the plate-shaped piece of hard synthetic resin into the grooves. The inner and outer aluminum frame prevents the inner and outer aluminum frames from falling off from the insulation by increasing pressure, and thus improves the integrated composition. It is to provide a thermal insulation structure of aluminum chassis shape that can be made.

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

In the present invention, the indoor and outdoor frames 14 and 15 are formed in different shapes, respectively, and the heat insulating material 11 made of synthetic resin such as vinyl chloride is put in and pressed into a shape to be sandwiched.

That is, the guide grooves 14a and 15a of the C-shaped cross section are formed in the indoor and outdoor frames 14 and 15, respectively, and the grooves 12 long in the protruding pieces 14b and 15b formed in the guide grooves 14a and 15a, respectively. The crank-shaped cross section of the heat insulating material 11 is inserted into both of the guide grooves 14a and 15a so as to block heat flow between the indoor and outdoor frames 14 and 15 over the entire longitudinal direction.

In addition, grooves 14c and 15c are formed at opposing positions in the indoor frame 14 and the outdoor frame 15, respectively, and the plate-shaped piece material 16 made of hard synthetic resin is formed in the grooves 14c and 15c. Both sides of the edge is composed of a press-fit.

Accordingly, the indoor and exterior frames 14 and 15 are prevented from lateral shifting, and when the interior and exterior frames 14 and 15 are not press-fitted deep enough and there is a small step difference, the plate-shaped piece material 16 is subjected to the indoor and outdoor frames. Due to the pressure feeding from the ends of the parts (14, 15), the indoor and outdoor frames (14, 15) are press-fitted to the deepest parts of the heat insulating material (11) to obtain a cross-sectional precision of accurate size without step difference. It is.

In addition, the plate-shaped piece 16 is preferably inserted at intervals of 450 ~ 600mm.

In addition, the vent bars 18 and 19 of the sliding door 17 mounted with the glass G may have the same shape as the interior and exterior frames 14 and 15, but the inner vent bars 18 and the outer vent bars 19 may have different shapes. Are formed in different shapes, and the heat insulating material 11 is inserted into the guide grooves 18b and 19b formed in the inner and outer vent bars 18 and 19, thereby being synthesized integrally.

In addition, the inner and outer vent bars 18 and 19 have grooves 18a and 19a formed at both inner and outer vent bars 18 and 19 at both sides of the plate-like piece of hard resin 20 to prevent misalignment in the left and right directions. Press-fitted).

Thus, the indoor and outdoor frames 14 and 15 and the inner and outer vent bars 18 and 19 are integrally formed by hugging the other party while the heat insulator 11 is inserted into each of the guide grooves 14a, 15a, 18b and 19b. It is synthesized by the plate-shaped piece material 16, 20 can increase the unity of the interior and exterior frame 14, 15 and the inner and outer vent bars (18, 19), and according to the screw fixing as in the prior art It is possible to prevent the loss of insulation efficiency.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention is to form grooves in the inner and outer frame and the inner and outer vent bars to press the plate-shaped piece material into the grooves to improve the cross-sectional precision and insulation performance, and also to reduce the cost and increase the degree of integration. There is.

Claims (1)

The aluminum frame constituting the sliding frame made of aluminum compression frame or the opening and closing type of the sliding chassis and the fixed window is composed of different shapes on the indoor side and the outdoor side, respectively, and is inserted into the aluminum chassis insulation structure by inserting a synthetic resin insulating material as a whole frame. In Guide grooves 14a and 15a having a C-shaped cross section are formed in the indoor and outdoor aluminum frames 14 and 15, and the grooves 12 are long so that the protrusion pieces 14b and 15b formed in the guide grooves 14a and 15a are inserted. The insulating material 11 made of synthetic resin of the upper surface of the crank is inserted into the guide grooves 14a and 15a of the indoor and outdoor aluminum frames 14 and 15 to guide the grooves 14a and 15a of the indoor and outdoor aluminum frames 14 and 15. Slit-shaped grooves 14c and 15c configured to be integrally synthesized by embracing the indoor and outdoor aluminum frames 14 and 15 together with the heat insulating material 11 and opposed to the indoor and outdoor aluminum frames 14 and 15. Insulation structure of the aluminum chassis shape, characterized in that it is configured to insert a plurality of edges of both sides of the plate-like piece material 16 made of hard synthetic resin from the ends of the indoor and outdoor aluminum frames (14, 15).

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