KR20130024601A - Mavable air-tight insulation door - Google Patents

Abstract

PURPOSE: A movable insulating outer door having high airtightness is provided to secure the airtightness and heat insulation between the outer door and a wall and between the outer doors. CONSTITUTION: A movable insulating outer door having high airtightness comprises multiple shutter units(110), a connection sealing unit, and upper/lower end sealing units(160). The multiple shutter units are configured to move in one direction, and continuously connected with each other. The connection sealing unit airtightly seals the both sides of the multiple shutter units. The upper/lower end sealing unit airtightly seals the gap between the shutter unit and the upper end or the lower end of the open portion of a building wall.

Description

Movable AIR-TIGHT INSULATION DOOR}

The present invention relates to a movable high-heat insulation heat insulating door, and more particularly, to a movable insulation heat insulating door installed in a window of a building to block solar radiation during the summer and to block heat loss during the winter season.

The windows installed in the building have the ability to view natural light, solar radiation, and the outside during the day, but are the building members that generate heat loss due to low thermal performance. Therefore, in order to prevent heat loss through windows and to perform functions such as crime prevention, rainproof and windproof, doors, folding doors, two-way sliding doors, casement windows, face gratings, louvers, shutters, blinds, etc. are installed in the windows.

Among the structures installed in the windows and doors, the movable thermal insulation doors provide convenience for installation and use, prevent heat loss in buildings, and reduce cooling loads, and thus demand for them is increasing.

1 shows a heat insulating door according to the prior art. As shown, the heat insulating door is composed of a plurality of doors (1), the door unit 1 is opened and closed while moving along the moving rail (3) connected to the upper and lower ends.

Since the conventional moving rail 3 is configured to be moved and overlapped on any one wall surface and is loaded in the wall, a moving unit for rotating the shutter unit 1 in the door unit 1 moving along the moving rail 3 is rotated. Rollers (not shown) are provided.

However, the above-described thermal insulation shutters according to the prior art have the following problems.

Since the conventional thermal insulation shutter is configured to be loaded in the wall by rotating by the moving roller, a gap is formed between the upper end of the moving rail 3 and the shutter unit 1. Therefore, air is introduced through the gap formed between the shutter unit 1 and the moving rail 3, thereby preventing airtightness and thermal insulation.

In addition, the plurality of shutter doors (1) are in contact with each other when shielding the shutters, there is a problem that a certain gap is generated between the shuttering units (1) to ensure airtightness and heat insulation even between the shuttering units (1).

The present invention is to solve such a conventional problem, it is an object of the present invention to provide a shutter that can ensure the airtightness and heat insulation between the shutter and the wall.

It is to provide a shutter that can ensure the airtightness and insulation between the shutter and the shutter of the present invention.

According to the first aspect of the present invention for achieving the above object, the movable high-temperature insulation heat insulating door of the present invention is a movable heat insulating door installed in the building opening, the plurality of door door units constituting the insulating door is the opening It is preferred to include an airtight portion configured to be movable along the top or bottom, and to hermetically connect the sides of the plurality of the shingles units of the insulation padding to hermetically shield or connect between the top or bottom of the opening and the insulation padding.

The airtight portion of the present invention preferably includes a terminal airtight portion provided between the top or bottom of the building opening and the thermal insulation shingles, and a joint airtight portion provided on the side surfaces of the plurality of shingles units.

Movable high-heat insulation heat shield of the present invention main body; A moving means connected to an upper end of the main body part and seated on a moving rail part installed at an upper end of the building opening part; and a moving part connected to a lower end of the main body part and seated on a base part installed at a lower end of the building opening part; It includes a block, the upper end of the hermetic seal portion is provided between the upper end of the main body portion and the moving rail portion, the lower end hermetic portion is preferably provided between the lower end of the main body portion and the base portion.

The joint hermetic part of the present invention includes a connection block provided at both sides of the main body, and having a connection chamber formed on one surface thereof, and a connection protrusion inserted into a connection chamber of another connection block provided in the connection chamber of the connection block. It is desirable to.

It is preferable that the end airtight portion of the present invention is formed of a plate which is connected to the lower end of the moving rail part and the upper end of the main body part and connected to the base part and the lower end of the main body part.

The terminal hermetic part of the present invention preferably includes a connection accommodating part to which the connecting part of the moving rail part is connected, and a moving slot to which the guide part of the upper end of the main body part or the lower part of the main body part is seated and slides.

The main body of the present invention preferably includes a moving block seated and moved to a lower end hermetic portion provided between the lower end of the main body and the base.

Moving means of the present invention is a fixed bracket fixed to the upper end of the main body; A support screw rotatably connected to the fixing bracket; and preferably comprises a roller portion screwed to the support screw.

The terminal hermetic seal of the present invention is preferably formed to correspond to the length of the top or bottom of the building opening.

According to the first aspect of the present invention, the movable high-temperature insulation heat insulating door is a movable heat insulating door installed in a building opening, and a plurality of door door units constituting the heat insulating door are seated on a moving rail part installed at an upper end of the building opening. A joint airtight portion which is configured to be movable by a moving means, which is provided on the side of the plurality of the doors, and which is airtightly shielded between the doors, and between the top or bottom of the opening and the doors between the doors. A terminal hermetic shield for hermetically shielding the terminal hermetic seal, the terminal hermetic seal being formed to correspond to the length of the upper end or the lower end of the opening so that rotation is interrupted by the terminal hermetic portion when the moving means moves along the opening. When loaded out of the opening and into the wall along the moving rail portion, The rotation of the intermittent moving means off is preferably configured such that the shutter unit accommodated in the wall.

The shutter unit of the present invention is seated in the movement slot is provided in the upper end or the lower end of the shutter unit is provided in the distal end portion, the guide portion is separated from the movement slot of the distal end portion of the guide It is preferably configured to release the rotational interruption of the moving means.

The terminal hermetic portion of the present invention preferably includes a groove-shaped connection receiving portion to which the projection-shaped connection portion of the moving rail portion is connected, and the connection portion and the connection receiving portion are preferably coupled in an interference fit manner.

The joint airtight portion of the present invention is provided on both sides of the shuttering unit, the connection block is formed on one side of the connection chamber and the connection protrusions are inserted into the connection chamber of the other connection block is provided in the connection chamber of the connection block to be connected It is preferable to include.

According to such a movable high airtight heat insulating door according to the present invention, the terminal airtight part is installed between the top door and the bottom of the shutter door and the opening wall to be hermetically shielded, and the joint airtight part is installed between the doors of the doors. Since the gap of the airtight shield is closed, when the heat insulation cover is closed, the airtightness and heat insulation can be secured to prevent wind, sound insulation and heat loss.

1 is a front view showing a heat insulating door according to the prior art.
Figure 2 is a front view showing a system window installed movable high-heat insulation heat shield according to the present invention.
3 is a rear view of FIG. 2;
4 is a cross-sectional view taken along line AB of FIG. 2.
5 is a cross-sectional view taken along the line C′-D ′ of FIG. 2.
6 is a sectional view taken along the CD line of FIG.
Figure 7 is a partial cross-sectional view showing only the movable high-heat insulation heat insulating door according to the present invention in FIG.
Figure 8 is a partial cross-sectional view taken only the movable high-temperature insulation heat insulating door according to the present invention in FIG.
Figure 9 is an exploded cross-sectional view of the upper side of the movable high-heat insulation heat shield according to the present invention.
10 is an exploded cross-sectional view of the lower side of the movable high-heat insulation heat shield according to the present invention.
11 is a front view showing a moving means of the movable high-heat insulation heat shield according to the present invention.
12 and 13 is a cross-sectional view showing an operating state when opening and shielding the movable high-heat insulation heat shield according to the present invention.

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

2 to 13 show a preferred embodiment of the movable high-heat insulation heat shield according to the present invention.

As shown in Figures 2 to 4, the movable high-mild insulation door 100 according to the present invention may be installed in the front or rear of the existing window and door system 10. The window system 10 may include an outer window 20 facing the outside air and an opening / closing door 30 positioned at the rear of the outer window 20, but is not limited thereto.

As shown in FIG. 3, the movable high-mil insulation thermal door 100 of the present invention includes a plurality of door door units 110. The shroud unit 110 is configured to be movable in one direction, and is installed to be shielded by connecting a plurality of.

Movable airtight heat insulating shutter door of the present invention is a joint airtight portion for hermetically shielding between the door unit unit 110 which is connected to a plurality and the terminal airtight portion for hermetically shielding between the top or bottom of the door unit unit 110 and the building opening. It includes an airtight portion that includes.

As shown in FIG. 7, the shutter unit 110 includes a main body 120, and an upper block 121 and a lower block 123 are connected to upper and lower ends of the main body 120, respectively. .

And, as shown in Figure 8, both side ends of the main body portion 120 is provided with a connecting airtight portion 130 for connecting both sides of the plurality of the shutter unit 110 so as to each airtight.

The joint hermetic part 130 includes a connection block 131 provided at both side ends of the main body part 120. In addition, a connection chamber 133 recessed therein is formed at both sides of the connection block 131 facing each other, and the connection chamber is formed at a connection chamber 133 at any one of both side ends of the main body 120. A connection protrusion 135 is formed to protrude outward so as to correspond to 133.

Therefore, the gap between the plurality of shutter units 110 is hermetically sealed by being inserted into the connection chamber 133 which is not provided with the connection protrusion 135 of the connection block 131 on one side to which the connection protrusion 135 is connected. Can be shielded.

The moving means 140 is connected to the upper block 121 of the main body 120. The moving unit 140 serves to move along the moving rail unit 150 to be described below. As shown in FIG. 11, the moving unit 140 includes a fixing bracket 141 fixed to the upper block 121, a support screw 143 rotatably connected to the fixing bracket 141, and It includes a roller portion 145 is screwed to the support screw 143. Therefore, since the moving means 140 rotates while moving along the moving rail unit 150, the shutter unit 110 may be moved and loaded in the wall.

The upper end of the shutter unit 110 is shown in exploded sectional view in FIG. 9. As shown, the movement means 140 is connected to the upper block 121 of the main body 120. And, both side surfaces of the upper block 121 may be provided with a guide portion 125, such as a projection.

The moving means 140 connected to the upper block 121 is seated on the moving rail 150 and moved. As shown in FIG. 3, the movable rail unit 150 is fixedly installed on the opening wall of the upper portion of the shutter unit 110. That is, the movable rail unit 150 is a component such as an upper door frame that is fixed to a wall before installing the shutter unit 110.

The moving rail unit 150 has a moving space 151 formed therein, and the moving means 140 is seated in the moving space 151 to move. In addition, the lower surface of the moving rail unit 150 is provided with a connecting portion 153 for connecting with the upper end airtight portion 160 provided on both sides of the moving means 140. The connection part 153 may have a structure such as a protrusion extending downward from the lower surface of the moving rail part 150.

In addition, the upper end airtight portion 160 is connected to the moving rail part 150 and the upper block 121 to be installed at both sides of the moving means 140, and the moving rail part 150 and the upper end. It serves to shield the gap between the blocks (121).

A connection accommodating part 161 having a groove formed therein is provided at an upper end of the upper end hermetic part 160. Therefore, the upper block 121 and the moving rail part 150 are connected to each other by inserting the connecting part 153 of the moving rail part 151 such as the protrusion into the groove of the connection accommodating part 161. .

In addition, a lower end of the upper end hermetic part 160 is provided with a moving slot 163 that opens in an inward direction. The guide slot 125 of the upper block 121 described above is seated and moved in the movable slot 163. Therefore, the upper end airtight portion 160 and the upper block 121 are connected to each other by the guide portion 125 and the moving slot 163.

The lower end of the shutter unit 110 is shown in exploded sectional view in FIG. 10. As shown, the movement block 127 is connected to the lower surface of the lower block 123 connected to the lower end of the main body 120 of the shutter unit 110. In addition, guide parts 125 are provided on both side surfaces of the lower block 123.

Under the lower block 123, the base portion 170, which serves as the lower door frame of the opening, is fixed to the bottom surface, and the lower end airtight portion 160 is connected to the upper side of the base portion 170. . The lower end airtight portion 160 serves to shield a gap between the base portion 170 and the lower block 123.

The lower end hermetic portion 160 is also provided with a connection receiving portion 161 and a moving slot 163, the base portion 170 is provided with a connection portion 153. Therefore, the connecting portion 153 of the base portion 170 is inserted into the connection receiving portion 161 of the lower end hermetic portion 160, the guide portion 125 of the lower block 123 is the lower end hermetic Seated in the movement slot 163 of the unit 160 is connected to each other. In addition, the moving block 127 of the lower block 123 moves along the inner space of the lower end hermetic portion 160.

The upper or lower end airtight portion 160 described above is installed to correspond to the top and bottom lengths of the openings in which the thermal insulation pad 100 is installed, as shown in FIG. 3. That is, the terminal hermetic seal 160 does not extend to the inside of the wall on which the heat insulating pad 100 is mounted, such as the moving rail 150 or the base 170.

Accordingly, as shown in FIGS. 12 and 13, the guide unit 125 of the upper block 121 is moved when the shutter unit 110 moves along the moving rail unit 150 or the base unit 170 installed in the opening. Is seated in the movable slot 163 of the upper end hermetic part 160 (the guide portion 125 of the lower block 123 is seated in the movable slot 163 of the lower end hermetic part 160 and moves). The guide portion 125 of the upper block 121 is moved when the guide is guided by the terminal hermetic portion 160 and does not rotate, and is loaded into the wall along the moving rail portion 150 outside the opening. Since it is separated from the movement slot 163 of the terminal hermetic portion 160, the rotational interruption of the movement means 140 is released so that the shutter door unit 110 may be rotated and accommodated in the wall.

Hereinafter, according to the movable high-heat insulation heat shield according to the present invention having the configuration as described above, the gap between the shutter unit 110 is hermetically sealed by the joint hermetic unit 130, the shutter unit 110 and the moving rail unit Since the gap between 150 or the base 170 is hermetically sealed by the terminal hermetic 160, it is possible to improve the thermal insulation and hermeticity of the thermal insulation padding.

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, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be.

Description of the Related Art [0002]
110: shutter unit 120: main body
121: upper block 123: lower block
130: joint airtight 140: moving means
150: moving rail portion 160: terminal hermetic portion
170: base portion

Claims (13)

In the movable thermal insulation shutter installed in a building opening part,
A plurality of shutter units constituting the thermal barrier are configured to be movable along an upper or lower end of the opening,
A hermetic portion for hermetically connecting the sides of the plurality of shutter units of the insulation shutter to hermetically shield or connect between the top or bottom of the opening and the insulation shutter.
Movable high heat insulation thermal door.
The method of claim 1,
The hermetic part
A terminal hermetic portion provided between the top or bottom of the building opening and the thermal insulation shutter,
It includes a joint airtight portion provided on the side of the plurality of shutter units
Movable high heat insulation thermal door.
The method of claim 2,
A body portion;
A moving means connected to an upper end of the main body part and seated on a moving rail part installed at an upper end of a building opening part; and
It is connected to the lower end of the main body portion, and includes a moving block seated and moved to the base portion is installed at the lower end of the building opening,
An upper end hermetic part of the terminal hermetic part is provided between the upper end of the main body part and the moving rail part, and a lower end hermetic part is provided between the lower end of the main body part and the base part.
Movable high heat insulation thermal door.
The method of claim 3,
The joint airtight portion
A connection block provided at both side surfaces of the main body and having a connection chamber formed at one surface thereof;
A connection protrusion provided in a connection chamber of the connection block and inserted into a connection chamber of another connection block to be connected to the connection block;
Movable high heat insulation thermal door.
The method of claim 3,
The terminal hermetic section
Is formed of a plate connected to the lower end of the movable rail and the upper end of the main body portion, the base portion and the lower end of the main body portion
Movable high heat insulation thermal door.
The method of claim 5,
The terminal hermetic section
A connection housing part to which the connection part of the movable rail part is connected;
A guide part of the upper end of the main body portion or the lower end of the main body portion includes a movement slot for sliding
Movable high heat insulation thermal door.
The method of claim 3,
The main body portion
And a moving block seated and moved to a lower end hermetic portion installed between the lower end of the main body and the base.
Movable high heat insulation thermal door.
The method of claim 3,
The moving means
A fixing bracket fixed to an upper end of the main body;
A support screw rotatably connected to the fixing bracket; and
It comprises a roller portion screwed to the support screw
Movable high heat insulation thermal door.
The method according to claim 2, wherein
The terminal hermetic section
Is formed to correspond to the length of the top or bottom of the building opening
Movable high heat insulation thermal door.
In the movable thermal insulation shutter installed in a building opening part,
A plurality of shutter door units constituting the thermal insulation shutter is configured to be movable by moving means seated on the moving rail unit installed on the upper end of the building opening,
A conjoined airtight portion provided on the side of the plurality of shutter doors to hermetically shield between the shutter doors;
A terminal airtight part provided between an upper end or a lower end of the opening and the shroud unit to hermetically shield therebetween;
The end airtight portion is formed to correspond to the length of the upper end or the lower end of the opening so that when the moving means moves along the opening, the rotation is interrupted by the end hermetic part, and is loaded out of the opening along the moving rail part into the wall. When the rotational interruption of the moving means is released so that the shutter unit is accommodated in the wall
Movable high heat insulation thermal door.
The method of claim 10,
The shutter unit
The guide part provided at the top or the bottom of the shutter unit is seated in the moving slot provided in the terminal hermetic part, and when the guide part is out of the opening, the guide part is separated from the moving slot of the terminal hermetic part and intermittently rotated by the moving means. Configured to release
Movable high heat insulation thermal door.
The method of claim 11,
The terminal hermetic section
A groove-shaped connection receiving portion is connected to the projection-shaped connection portion of the moving rail, wherein the connection portion and the connection receiving portion is coupled in an interference fit manner
Movable high heat insulation thermal door.
The method of claim 10,
The joint airtight portion
A connecting block provided on both sides of the shutter door unit and having a connection chamber formed on one surface thereof;
A connection protrusion provided in a connection chamber of the connection block and inserted into a connection chamber of another connection block to be connected to the connection block;
Movable high heat insulation thermal door.

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