KR20140070507A - heat insulated structure of moving frame and fixing frame provided with window - Google Patents

Abstract

While excluding a polyamide insulation material from a moving frame, a resin insulation material having multiple cavities inside are movably inserted in the length direction between an inner moving frame and an outer moving frame to make an outer surface be entirely in contact with the inner surface of the inner moving frame and the inner surface of the outer moving frame. At the same time, both ends on the lateral and longitudinal sides of the inner and outer moving frames, made of a material having a completely different thermal expansion coefficient from the resin insulation material, are faced together while having an inclined hypotenuse. The inner and outer moving frames are thereby coupled to the resin insulation material to be able to withstand lengthwise thermo-metamorphisms of the lateral and longitudinal sides.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulated structure of a movable frame and a fixing frame provided with a window,

The present invention relates to a heat insulating structure of a movable frame and a fixed frame provided in a window.

The window comprises a fixed frame fixedly inserted in an opening provided on a wall surface, and a movable frame mounted on the fixed frame and sliding or swiveling.

In the window, the movable frame can freely be opened and closed to ventilate the room.

The conventional heat insulating structure of a window is made of a PVC-made fixed frame and a PVC movable frame which is movably mounted on the fixed frame. The PVC material is excellent in heat insulation and is widely applied to sliding windows. However, since colors that can be expressed are limited to, for example, white color, aluminum materials that can be expressed in various colors are widely applied to windows .

However, there is a problem that the sliding window made of aluminum is inferior in heat insulation effect because of excellent heat transfer.

A movable frame for solving such a problem is disclosed in Korean Patent Registration No. 10-1153212.

In the above-described movable mold, a polyamide which is a heat insulating material is interposed between the outer movable frame and the inner movable frame so that the heat insulating material intercepts heat transfer from the inside to the outside and thermal cutting from the outside to the inside, The heat insulating material cooperates with each other to form a closed space between the movable frame and the fixing frame so that the air charged in the space prevents heat transfer from the inside to the outside and thermal cutting from the outside to the inside.

The heat insulating material is injection or extruded through a material of high strength polyurethane or polyamide. As a preferable heat insulating material, Azon insulating bar of Korea Azon Co., Ltd. is most ideal, and the heat insulating material of the above- And it is widely used in the field of windows where insulation is important.

Particularly, the thermal expansion coefficient of the polyamide insulation material is similar to the thermal expansion coefficient of aluminum, so that the heat insulation material is fixedly interposed between the outer and inner peripheral walls so that the thermal insulation material can not move in the longitudinal direction.

However, the polyamide insulation material is expensive and has a small cross section so that the inner side and the outer side are locally abutted against each other, and the gasket and the heat insulating material cooperate with each other to form a seal The larger the empty space.

 Since the air exists in the empty space, a heat insulating effect can be expected by the air. However, since the air layer directly contacts the inner side of the movable body and the outer side of the movable body, the heat insulating effect by the air layer is not so good.

In order to solve such a problem, it may be considered that interposed between the inner movable frame and the outer movable frame as a heat insulating material in a state in which the resin having a lower thermal cutting rate and occupying lower space than the air layer occupies the space. However, There arises a problem that the movable frame is bent due to the difference between the thermal expansion coefficient and the thermal expansion coefficient of the movable frame and the outer movable frame.

The present invention has a problem in solving the above-mentioned problems.

The present invention is characterized in that, in a state in which the polyamide thermal insulating material is excluded from the movable mold, the inner surface of the inner movable mold and the inner surface of the outer movable mold are entirely in contact with each other, Wherein the inner movable frame is made of a material different from the thermal expansion coefficient of the resin thermal insulator, and both sides of the lateral sides of the outer movable frame and both sides of the longitudinal side are inclined And engaging the inner movable mold and the outer movable mold with the common heat insulator so as to fix the movable mold to the movable mold capable of accommodating the longitudinal direction thermal deformation of the side and longitudinal sides.

The present invention solves the above problems by adopting a low-priced resin as a heat insulating material in place of expensive polyamide as a heat insulating material to be embedded in a movable frame, thereby reducing manufacturing cost for a movable frame of a window, A heat insulating layer of resin, air, and resin is provided between the frame and the inner movable frame in the outward direction of the room.

1 is a front view showing a window of an embodiment according to the present invention;
FIG. 2 is a side sectional view of the movable frame and the fixed frame of FIG. 1,
Fig. 3 is a side sectional view of the lower movable frame and the fixed frame of Fig. 1,
4 is a side cross-sectional view of the upper movable frame and the fixed frame of Fig. 1, and Fig.
5 is a plan sectional view of the movable frame and the fixed frame on the left side of FIG.

Hereinafter, embodiments according to the present invention will be described in detail with reference to FIGS. 1 to 5. FIG.

In Fig. 1, a window is indicated by reference numeral 100.

The window 100 includes a rectangular fixed frame 10 fixedly inserted into an opening provided on a wall surface and a rectangular movable frame 20 mounted on the fixed frame 10 and slidably surrounding the glass window 30, (20).

As shown in Figs. 2 to 5, each of the four sides of the rectangular movable frame 20 includes a movable frame 21 having an inner side of the aluminum material, an aluminum frame 21 disposed apart from the inner side frame 21 in the indoor / outdoor direction, A resin insulating member 25 detachably disposed between the inner movable frame 21 and the outer movable frame 22 and extending across the entire length in the longitudinal direction of the inner movable frame 21 .

The resin insulating member 25 is installed in the glass window 30 in a direction toward the inside and outside of the room, with the accommodating portion 26 having the size and shape accommodated therein by mounting the roller 26a, Side heat insulating space portion 27 and the outdoor heat insulating space portion 28 and an indoor outside heat insulating space portion 29 disposed between the receiving portion 26 and the windshield 30. As shown in FIG.

The resin insulating member 25 is provided with a protruding portion 24 that faces or abuts against the upper surface of the glass window 30 between the indoor outside heat insulating space portion 29 and the glass window 30. The protruding portion 24, And an intermediate heat insulating space portion 24a in which the inside of the door is open is formed.

An end portion of the inner vertical portion 25a of the resin insulating member 25 parallel to the window 30 facing the fixed frame 10 at both ends is provided with an inner groove 41 extending over the longitudinal length of the inner vertical portion 25a And an inner stepping cam-shaped protruding portion 42 inclined toward the protruding portion 24 is formed on an outer surface of the inner horizontal portion 25b of the resin insulating member 25 perpendicular to the glass window 30, 25b extending in the longitudinal direction.

An end portion of the outer vertical portion 25c of the resin insulating member 25 which is parallel to the window 30 facing the fixed frame 10 at both ends is provided with an outer groove And an outer stepping cam-shaped protruding portion 44 inclined toward the protruding portion 24 is formed on the outer surface of the outer horizontal portion 25d of the resin insulating member 25 perpendicular to the window 30, And extends over the entire length in the longitudinal direction of the first arm portion 25d.

The inner movable frame 21 is provided with an inner vertical portion 21a parallel to the glass window 30 and a glass window 30c parallel to the glass window 30 so as to be detachably mounted on the inner vertical portion 25a and the inner horizontal portion 25b of the resin insulating member 25. [ And a pair of inner horizontal portions 21b and 21c perpendicular to the horizontal direction.

The length of the inner horizontal portion 21c facing the fixed frame 10 is shorter than the length of the inner horizontal portion 21b facing the windshield 30 among the pair of inner horizontal portions 21b and 21c.

An inner point protrusion 45 inserted into the inner groove 41 with a clearance in a direction perpendicular to the window 30 extends toward the windshield 30 at the tip of the inner horizontal portion 21c, An inner side arm portion 46 is formed on the inner surface of the inner horizontal portion 21b so as to be fitted to the inner side locking cam type projection portion 42. A tip end of the inner side horizontal portion 21b is connected to an inner rising surface Respectively.

The outer movable frame 22 has an outer vertical portion 22a parallel to the window 30 to be detachably mounted on the outer vertical portion 25c and the outer horizontal portion 25d of the resin insulating member 25, And a pair of outer horizontal portions 22b and 22c perpendicular to the glass window.

The length of the outer horizontal portion 22c facing the fixed frame 10 is shorter than the length of the outer horizontal portion 22b facing the window 30 among the pair of outer horizontal portions 22b and 22c.

An outer point projection 47 inserted into the outer groove 43 with a space in a direction perpendicular to the windshield 30 extends toward the windshield 30 at the tip of the outer horizontal portion 22c, The inner side surface of the outer horizontal portion 22b is formed with an outer female-like portion 48 fitted to the outer-side female-cam-type projection portion 44. The tip of the outer horizontal portion 22b is connected to the outer rising- Respectively.

The inner movable frame 21 and the resin thermal insulating member 25 have the above-described structure so that the inner side projection 45 of the inner movable frame 21 is inserted into the inner groove 41, The distal end of the inner horizontal portion 21b of the inner movable frame 21 is pushed toward the outer rising surface of the protruding portion 24 of the resin insulating member 25 with the pointed projection 45 as a point, Like protruding portion 42 is inserted into the inner female-like portion 46 while the inner male-like female-like portion 42 is inserted into the resin insulating member 25 .

When the inner movable frame 21 mounted on the resin insulating member 25 is detached from the resin insulating member 25 while the inner movable frame 21 is pulled in the direction of the window 30, Of the inner side protrusion 45 is turned to the side away from the inner standing surface of the protruding portion 24 of the resin insulating member 25 as the point serves as the point where the inner horizontal portion 21b of the inner movable frame 21 is opened The inner female mold portion 46 is disengaged from the inner stepping cam-shaped protruding portion 42 while the inner male mold 21 is easily separated from the resin thermal insulating member 25.

The outer movable frame 22 and the resin insulating member 25 have the same configuration as described above so that the outer point projection 47 of the outer movable frame 22 is inserted into the outer groove 43, The distal end of the outer horizontal portion 22b of the outer movable frame 22 is pushed toward the inner rising surface of the protruding portion 24 of the resin insulating member 25 with the outer point projection 47 as a point, The outer stepped cam protrusion 44 is inserted into the outer female threaded portion 48 while being pulled toward the window 30 while being pressed by the protruding portion 44 so that the outer male threaded portion 22 is easily inserted into the resin heat insulating member 25 Respectively.

When the outer movable frame 22 mounted on the resin insulating member 25 is detached from the resin insulating member 25, the outer movable frame 22 is pulled in the direction of the window 30 and the outer movable frame 22 The outer lateral projection 22 of the outer movable frame 22 is pulled out by turning the outer lateral projection 47 to a position away from the outer standing surface of the protruding portion 24 of the resin insulating member 25, The outer female mold portion 48 is pulled out of the outer stepping cam-like protrusion portion 44 and the outer male mold portion 22 is easily separated from the resin thermal insulating member 25.

The inner side movable frame 21 is inserted into the inner side groove 41 and the inner side projection 45 of the inner movable frame 21 is inserted into the inner side arm portion 46 in the state of being mounted with the resin insulating member 25, Shaped protruding portion 42 is inserted and is movable in the longitudinal direction of the resin insulating member 25. [

The outer movable frame 22 is inserted into the outer groove 43 and the outer flank 47 of the outer movable frame 22 is inserted into the outer arm portion 48 when the resin thermal insulating member 25 is mounted. Shaped protrusion 44 is inserted into the resin insulator 25 so as to be movable in the longitudinal direction of the resin insulator 25.

Therefore, the inner movable frame 21 and the outer movable frame 21 are variable in the longitudinal direction according to the external heat.

The resin insulating members 25 inserted into the four sides (two transverse sides and two longitudinal sides) of the rectangular movable frame 20 are chamfered in the direction in which the end portions of the transverse side and the longitudinal side are opposite to each other, And the inner movable frame 21 detachably mounted on the two side surfaces and the two side surfaces of the resin insulating member 25 is also chamfered in the direction in which the side portions where the side surface and the longitudinal side meet face each other, And the outer movable frame 22, which is detachably mounted on two transverse sides and two longitudinal sides of the resin insulating member 25, is also chamfered in the direction in which the ends where the transverse side and the longitudinal side meet are opposed to each other So that the inner movable frame 21 is simultaneously contracted and elongated in the longitudinal direction and the lateral direction, and the outer movable frame 22 is also vertically and horizontally At the same time it is contracted or and kidneys.

Therefore, even if the coefficient of thermal expansion between the resin insulating member 25 and the inner / outer movable molds 21, 22 is different, the inner and outer movable molds 21, ) Of the movable frame 20 can be moved in the longitudinal direction of the means heat insulating member 25, and warping of the movable frame 20 due to thermal expansion can be prevented.

The outer vertical portion 22a of the outer movable frame 22 integrally includes an outer cover portion 32 protruding toward the glass window 30 so as to cover the inner side surface of one side portion of the window 30, The inner cover 21 is provided with a male part 31a which is inserted into and detachably inserted into the female part 21bb formed on the outer surface of the inner horizontal part 21b, (31).

A pair of slot recessed portions 51 are arranged to face each other at the ends of the two wall portions extending in parallel to the glass window 30 and facing each other among the wall portions defining the accommodating portion 26 The base ends of the pair of the mohaires 50 extending in the direction in which the front ends thereof face each other are inserted and mounted in the pair of slotted concave portions 51.

An inner slot recess 53 is formed on the outer surface of the inner horizontal portion 21c facing the fixed frame 10 of the pair of inner horizontal portions 21b and 21c over the entire length of the receiving portion 26 And the base end of the inner mohair 54 extending in contact with the fixed frame 10 whose tip faces is inserted into the inner slot recess 53.

An outer slot recess 55 is formed on the outer surface of the outer horizontal portion 22c of the pair of outer horizontal portions 22b and 22c facing the fixed frame 10 over the entire length of the receiving portion 26 And the base end of the outer mohair 56 extending in contact with the fixed frame 10 whose tip faces is inserted into the outer slot recess 55.

The fixed frame 10 includes a top side 60, a bottom side 70, a left side 80 and a right side 90. Each of the sides includes an inner fixed frame 11, an outer fixed frame 12, And a fixed and heat insulating member 13 made of polyamide interposed between the outer fixing frame 12 and the outer fixing frame 12 and detachably mounted on the outer fixing frame 12.

3, an inner rail 71 and an outer rail 72 are provided on the inner and outer fixing frames 11 and 12 of the lower side 70, respectively, on the side facing the receiving portion 26, And the inner side wall portion 73 and the outer side wall portion 74 of the inner rail 71 and the outer rail 72 are opposed to each other at positions spaced apart from the fixed heat insulating member 13, An inner jaw portion 75 and an outer jaw portion 76 extending in a direction in which the fixed thermal insulating member 13 and the inner jaw portion 75 and the outer jaw portion 76 are formed, An intermediate fixed thermal insulating member 78 of a polyamide material and an intermediate sponge 77 which are in contact with the outer mohair 56 of the frame 20 and the inner mohair 54 of the other movable frame 20 are inserted and mounted .

4, the pair of the mohaires 51 and 51 are provided on the inner and outer fixing frames 11 and 12 of the upper side 60, respectively, on a surface facing the receiving portion 26, An inner slot arm portion 68 and an outer slot arm portion 69 for mounting the inner clearance film 61 and the outer clearance film 62 of the polyamide material in contact with the inner slot arm portion 68 and the inner side wall portion 63 and the outer side wall portion 64 of the outer side slot female portion 69 face each other and are provided with an inner side chin portion 65 extending in the direction facing each other at a position spaced apart from the fixed heat insulating member 13, And the outer moire 56 of one movable frame 20 is formed in the space formed by the fixed heat insulating member 13, the inner jaw portion 65 and the outer jaw portion 66, ) And an intermediate fixed thermal insulating member 68 in contact with the inner mohair 54 of the other movable frame 20 and an intermediate sponge 67 inserted therein There.

 As shown in Fig. 5, the pair of the mohaires 51 and 51 are provided on the inner and outer fixing frames 11 and 12 of the left side 80 on the side facing the receiving portion 26, An inner slot arm portion 88 and an outer slot arm portion 89 for mounting the inner clearance film 81 and the outer clearance film 82 of the polyamide material in contact with each other are protruded and the inner slot arm portion 88 The inner side wall portion 83 and the outer side wall portion 84 of the outer side slot arm portion 89 and the outer side slot arm portion 89 are provided with an inner jaw 85 extending in a direction opposite to the fixed thermal insulating member 13, And the outer mohair 56 of one movable frame 20 is formed in a space defined by the fixed heat insulating member 13, the inner jaw portion 85 and the outer jaw portion 86. [ Or an intermediate fixed heat insulating member 89 which is in contact with the inner mohair 54 of the other movable frame 20 is inserted.

The right side 90 has the same configuration as the left side 80.

In addition, according to the movable frame of the present embodiment, a low cost resin is used as a heat insulating material instead of expensive polyamide as a heat insulating member to reduce the manufacturing cost of the movable frame of the window, And a heat insulating layer of resin, air, and resin is provided in the outward direction to provide a window in which the heat insulating efficiency is increased as compared with the conventional one.

Although the movable frame 20 is described as being slidable relative to the fixed frame 10 in the above embodiment, the present invention is not limited thereto, and the movable frame 20 may be pivotable on the fixed frame 10. [

10; Fixed-frame, 20; A movable frame, 30; sash

Claims (8)

A window including a rectangular fixed frame (10) fixedly inscribed in an opening provided on a wall surface, and a rectangular movable frame (20) mounted on the fixed frame (10) to slide and surround the glass window (30)
The fixed frame 10 includes a top side 60, a bottom side 70, a left side 80 and a right side 90. Each of the sides includes an inner fixed frame 11, an outer fixed frame 12, And a fixed heat insulating member (13) interposed between the outer fixed frame (11) and the outer fixed frame (12) and detachably mounted on the outer fixed frame (12)
Each of the four sides of the rectangular movable frame 20 is constituted by a movable frame 21 having an inner side of an aluminum material and an outer movable frame 22 of an aluminum material spaced apart from the inner side movable frame 21 in the indoor / outdoor direction, (25) interposed between the outer movable frame (21) and the outer movable frame (22) so as to extend over the entire length in the longitudinal direction of the inner movable frame (21)
The resin insulating member 25 includes a receiving portion 26 having a size and shape that can be received by mounting the roller 26a on the glass window 30 in a direction opposite to the back, (24) facing or coming into contact with the inner movable frame (21) and the outer rising frame (22) abutting against the outer standing plane,
The inner movable frame 21 and the outer movable frame 22 are movable in the longitudinal direction of the resin thermal insulating member 25 along the resin thermal insulating member 25,
Among the four resin insulating members 25 provided on the four sides of the rectangular movable mold 20, the end portions of the resin insulating members on the side of the road and the resin insulating members on the longitudinal side are chamfered in the direction in which they face each other, And,
Among the four inner moving legs 21 detachably mounted on the four resin insulating members 25, the inner side of the lateral side of the transverse side and the inner side of the longitudinal side of the transverse side are chamfered in the direction in which they face each other, And
The outer side of the lateral side of the lateral side of the four outer side movable legs 22 detachably mounted on the four resin insulating members 25 is chamfered in a direction in which the outer side of the transverse side and the outer side of the longitudinal side are facing each other, And a movable frame provided on the window and a heat insulating structure of the fixed frame. The method according to claim 1,
The resin insulating member 25 includes an indoor heat insulating space 27 and an outdoor heat insulating space 28 disposed in the indoor / outdoor direction with the accommodation part 26 therebetween, And an indoor outside heat insulating space portion 29 disposed between the glass windows 30,
Wherein the protruding portion (24) is formed with an intermediate heat insulating space portion (24a) having a hollow interior. 3. The method according to claim 1 or 2,
An end portion of the inner vertical portion 25a of the resin insulating member 25 which is parallel to the window 30 faces an end of the inner vertical portion 25a extending in the longitudinal direction of the fixed vertical wall 25a, 41 are formed,
An inner stepping cam-shaped protruding portion 42 inclined toward the protruding portion 24 is formed on the outer surface of the inner horizontal portion 25b of the resin insulating member 25 perpendicular to the glass window 30 in the longitudinal direction of the inner horizontal portion 25b And is formed so as to extend over the entire length,
The inner movable frame 21 is provided with an inner vertical portion 21a parallel to the glass window 30 and a glass window 30c parallel to the glass window 30 so as to be detachably mounted on the inner vertical portion 25a and the inner horizontal portion 25b of the resin insulating member 25. [ And a pair of inner horizontal portions 21b and 21c perpendicular to the horizontal direction,
The length of the inner horizontal portion 21c facing the fixed frame 10 is shorter than the length of the inner horizontal portion 21b facing the windshield 30 of the pair of inner horizontal portions 21b and 21c,
An inner point projection 45 which is inserted into the inner groove 41 with a clearance in a direction perpendicular to the window 30 is extended to the windshield 30 at the tip of the inner horizontal portion 21c,
An inner female-like portion (46) is formed on the inner surface of the inner horizontal portion (21b) so as to be fitted to the inner-side female-cam-type projection portion (42)
Wherein a tip end of the inner horizontal portion (21b) is in contact with an inner standing surface of the protruding portion (24). The method of claim 3,
An outer groove 43 is formed at an end of the outer vertical portion 25c of the resin insulating member 25 which is parallel to the window 30 and faces the fixed frame 10 at both ends of the outer vertical portion 25c, Respectively,
An outer stepped cam-shaped protruding portion 44 inclined toward the protruding portion 24 is formed on the outer surface of the outer horizontal portion 25d of the resin insulating member 25 perpendicular to the glass window 30, Respectively,
The outer movable frame 22 is provided with an outer vertical portion 22a parallel to the window 30 to be detachably mounted on the inner vertical portion 25c and the inner horizontal portion 25d of the resin insulating member 25, And a pair of outer horizontal portions 22b and 22c perpendicular to the horizontal direction,
The length of the outer horizontal portion 22c facing the fixed frame 10 is shorter than the length of the outer horizontal portion 22b of the pair of outer horizontal portions 22b and 22c facing the windshield 30,
An outer point projection 47 inserted into the outer groove 43 with a space in a direction perpendicular to the windshield 30 extends toward the windshield 30 at the tip of the outer horizontal portion 22c,
The outer side arm portion 48 is formed on the inner surface of the outer side horizontal portion 22b so as to be fitted to the outer side locking type cam protrusion 44,
Wherein a tip end of the outer horizontal portion (22b) abuts an outer rising surface of the protruding portion (24). 5. The method of claim 4,
A pair of slot recessed portions 51 are disposed on the front ends of the two wall portions extending in parallel to the glass window 30 and facing each other among the wall portions defining the receiving portion 26 so as to face each other, Extending over the entire length in the longitudinal direction of the main body 26,
The base ends of the pair of the mohaires 50 extending in the direction in which the front ends face each other are inserted into the pair of slot recesses 51,
An inner slot recess 53 is formed on the outer surface of the inner horizontal portion 21c of the pair of inner horizontal portions 21b and 21c facing the fixed frame 10 so as to extend over the entire length of the receiving portion 26 And,
The proximal end of the inner mohair 54, which extends so as to contact the fixed frame 10 whose tip faces, is inserted into the inner slot recess 53,
An outer slot recess 55 is formed on the outer surface of the outer horizontal portion 22c of the pair of outer horizontal portions 22b and 22c facing the fixed frame 10 so as to extend over the entire longitudinal length of the receiving portion 26 And
Wherein a base end of an outer mohair (56) extending in contact with the fixed frame (10) having a front end is inserted and mounted in the outer slot recess (55). 6. The method of claim 5,
The inner rail 71 and the outer rail 72 are formed on the inner and outer fixing frames 11 and 12 of the lower side 70 so as to protrude from the side facing the receiving portion 26,
An inner side wall portion 73 and an outer side wall portion 74 of the inner rail 71 and the outer rail 72 facing each other are provided with an inner side step portion 73 extending in a direction facing each other at a position spaced apart from the fixed heat insulating member 13, (75) and an outer jaw (76) are formed,
The outer mohair 56 of one movable mold 20 and the other of the movable mold 20 of the other movable mold 20 are formed in the space formed by the fixed heat insulating member 13, the inner chin 75 and the outer chin 76, Characterized in that an intermediate fixed thermal insulating member (78) in contact with the inner mohair (54) and an intermediate sponge (77) are inserted and mounted. 6. The method of claim 5,
An inner gap film 61 which is in contact with the pair of mohaires 51 and 51 is formed on the inner and outer fixing frames 11 and 12 of the upper side 60, An inner slot-arm-shaped portion 68 and an outer slot-arm-shaped portion 69 for mounting the gap membrane 62 are formed so as to protrude therefrom,
The inner side wall portion 63 and the outer side wall portion 64 of the inner side slide arm portion 68 and the outer side side slide arm portion 69 face each other at a position spaced apart from the fixed heat insulating member 13 An inner jaw portion 65 and an outer jaw portion 66 are formed,
The outer mohair 56 of one movable mold 20 and the movable mold 20 of the other movable mold 20 are formed in a space defined by the fixed heat insulating member 13, the inner chin 65 and the outer chin 66, And a middle sponge (67) is inserted and mounted on the intermediate fixed thermal insulating member (68) in contact with the inner mohair (54). 6. The method of claim 5,
The left side 80 and the right side 90 of the inner fixing frame 11 and the outer fixing frame 12 are respectively provided with a pair of protrusions An inner slot arm portion 88 and an outer slot arm portion 89 for mounting the clearance film 81 and the outer gap film 82 are formed so as to protrude therefrom,
The inner side wall portion 83 and the outer side wall portion 84 of the inner side slide arm portion 88 and the outer side slide arm portion 89 face each other at a position spaced apart from the fixed heat insulating member 13 An inner jaw 85 and an outer jaw 86 are formed,
The space defined by the fixed heat insulating member 13, the inner jaw portion 85 and the outer jaw portion 86 is formed in the outer mohair 56 of one movable die 20 or the outer moire 56 of the other movable die 20 Wherein an intermediate fixed heat insulating member (89) that is in contact with the inner mohair (54) is inserted and mounted.

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