KR-20260064651-A - Panel frame for an insulation pane, insulated hangar door and factory hanger door system including the same

Abstract

The present invention relates to a panel frame for an insulating panel coupled to surround the edge of an insulating panel comprising a first metal plate and a second metal plate facing each other, and an insulating material interposed between the first metal plate and the second metal plate, wherein the panel frame is closely coupled to the ends of the insulating panel in a 'U' shape, and provides a panel frame comprising a side frame coupled to the side of the insulating panel and a lower frame coupled to the lower end of the insulating panel.

Inventors

• 김노병

Assignees

• (주)혜원스틸

Dates

Publication Date

20260507

Application Date

20251222

Priority Date

20241030

Claims (8)

1. The invention relates to a panel frame for an insulating panel coupled to surround the edge of an insulating panel comprising a first metal plate and a second metal plate facing each other, and an insulating material interposed between the first metal plate and the second metal plate. The above panel frame is closely coupled to the ends of the insulation panel in a 'U' shape and includes a side frame coupled to the side of the insulation panel and a lower frame coupled to the lower end of the insulation panel. The above side frame includes a first left-right frame and a second left-right frame, and each of the first left-right frame and the second left-right frame is: A side first subframe comprising a side coupling portion formed to contact the left or right outer surface of the first metal plate, and a side cover portion formed to contact one side of the insulating material exposed between the first and second metal plates by being bent and extended from one end of the side coupling portion, wherein a side first coupling groove having an opening with a locking projection is formed at the end of the side cover portion; A side second subframe formed to contact the left or right outer surface of the second metal plate and having a side second coupling groove formed at one end thereof having an opening with a locking projection formed therein; and It includes a side heat insulation material that connects the side first subframe and the side second subframe by inserting and coupling both ends in a manner engaged with the side first coupling groove and the side second coupling groove. The first left and right frames further include a side indentation groove formed by a portion of the corresponding side cover portion being indented inward, and a first side windproof insertion groove having an opening connected to the side indentation groove is provided on the inner side of the side indentation groove, wherein the first side windproof insertion groove is formed to allow a first side windproof member, comprising first side windproof pieces that protrude into the side indentation groove through the opening of the first side windproof insertion groove, to be inserted and coupled thereto. The above-mentioned second left and right frames further include a side protrusion formed by a part of the corresponding side cover portion protruding outward, and The above lower frame is: A lower first subframe comprising a lower coupling portion formed to contact the lower outer surface of the first metal plate and a lower cover portion formed to contact the lower surface of the insulating material exposed between the first and second metal plates by being bent and extended from one end of the lower coupling portion, wherein a lower first coupling groove having an opening with a locking projection is formed at the end of the lower cover portion; A lower second subframe formed to contact the lower outer surface of the second metal plate and having a lower second coupling groove formed at one end thereof having an opening with locking projections formed therein; and A lower heat blocking material comprising two ends inserted and coupled in a manner engaged with the lower first coupling groove and the lower second coupling groove to connect the lower first subframe and the lower second subframe, wherein The lower cover portion is provided with a guide rod insertion groove formed by a portion thereof being indented upward, and a lower windproof insertion groove having an opening facing downward, wherein A panel frame characterized in that the lower windproof insertion groove is formed to allow a lower windproof member, including lower windproof pieces that protrude downward through the opening of the lower windproof insertion groove, to be inserted and coupled.
2. In Article 1, A portion of the first side subframe forming the first side windproof insertion groove of the first left and right frames is formed to be in contact with one side of the insulation material, and A panel frame characterized in that a portion of the first side subframe forming the first side coupling groove of the second left and right frames is formed to be in contact with one side of the insulation material.
3. In Article 2, A panel frame characterized in that a lower receiving groove is formed in the lower portion of the insulation material to accommodate the guide rod insertion groove, wherein a portion of the lower first subframe forming the guide rod insertion groove is inserted into the lower receiving groove and formed to contact the outer surface of the lower receiving groove.
4. In Paragraph 3, The above side frame further includes a third left and right frame comprising the above side first sub-frame, the above side second sub-frame, and the above side thermal insulation material, wherein A second side windproof insert is formed on the outer surface of the second sub-frame on the side of the third left and right frames, and The panel frame is characterized in that the second side windproof insert portion comprises a second side windproof insertion groove having an opening that is open toward the front of the outer surface of the second sub-frame of the third left and right frame, wherein the second side windproof insertion groove is formed to allow a second side windproof member, comprising second side windproof pieces that protrude through the opening of the second side windproof insertion groove, to be inserted and coupled.
5. In Article 1, The above panel frame further includes an upper frame that is closely coupled to the upper part of the insulation panel in a 'U' shape, wherein The upper frame above is: An upper first subframe comprising an upper coupling portion formed to contact the upper outer surface of the first metal plate and an upper cover portion formed to contact the upper surface of the insulating material exposed between the first and second metal plates by being bent and extended from one end of the upper coupling portion, wherein an upper first coupling groove having an opening with a locking projection is formed at the end of the upper cover portion; An upper second subframe formed to contact the upper outer surface of the second metal plate and having an upper second coupling groove formed at one end thereof having an opening with locking projections; and It includes an upper heat blocking material that connects the upper first subframe and the upper second subframe by inserting and coupling both ends in a manner engaged with the upper first coupling groove and the upper second coupling groove. An upper windproof insert is formed on the outer surface of the upper second subframe, wherein the upper windproof insert includes a second upper windproof insert groove having an opening that is open toward the front of the outer surface of the upper second subframe. A panel frame characterized in that the upper windproof insertion groove is formed to allow an upper windproof member, including upper windproof pieces that protrude through the opening of the upper windproof insertion groove, to be inserted and coupled thereto.
6. An insulated hanger door comprising a panel frame according to any one of claims 1 to 5.
7. In Article 6, The above-mentioned insulated hanger door includes a double-door type hanger door comprising a first insulated hanger door and a second insulated hanger door, and One of the mutually facing side frames of the first insulating hanger door and the second insulating door hanger is the first left and right frame, and the other is the second left and right frame, and the first side windproof member is inserted and coupled into the first side windproof insertion groove, In the closed state of the first insulating hanger door and the second insulating hanger door, the side protrusions are inserted into the side indentation grooves and interlock with each other, and the first side windproof pieces are in close contact with the outer surface of the side protrusions.
8. A factory hanger door system comprising an insulated hanger door according to Article 6 or Article 7.

Description

Panel frame for an insulation panel, insulated hangar door and factory hanger door system including the same The present invention relates to a panel frame for an insulating panel, an insulating hanger door, and a factory hanger door system including the same. More specifically, it relates to a panel frame for an insulating panel, an insulating hanger door, and a factory hanger door system including the same, in which the insulating and windproof functions are further enhanced compared to conventional hanger doors. Generally, factories are equipped with factory doors that open and close the interior, and these factory doors can be classified into shutters that open and close vertically and sliding doors that open and close horizontally. This type of sliding factory door consists of a hanger rail installed on the building wall above the entrance and a door that opens and closes the entrance by moving left and right along the hanger rail. Conventional factory doors have a low thermal transmittance, which causes warm air inside the factory to be released to the outside through the door or cold air from the outside to be conducted into the factory through the door, keeping the inside of the factory somewhat cold and reducing the energy efficiency of the building. In particular, conventional sliding factory doors have a problem in that cold air from the outside, which enters through the gap between the building wall and the door, easily penetrates into the factory through the entrance, lowering the temperature inside the factory. Furthermore, conventional factory doors lacked the ability to prevent the inflow of rainwater, leading to problems such as damage to floors and structures, deterioration of the working environment, electrical safety risks, or reduced building insulation and energy efficiency. Moreover, conventional sliding factory doors were implemented with a wide internal panel shape, making them easily deformed or damaged by strong winds such as typhoons. Accordingly, there is a need to develop a factory hanger door system that can increase the energy efficiency of buildings and enhance their value. The technology forming the background of the present invention is disclosed in Registered Patent No. 10-1610319. FIG. 1 is a front view illustrating a factory hanger door system according to one embodiment of the present invention. FIG. 2 is a plan view illustrating a factory hanger door system according to one embodiment of the present invention. FIG. 3 is a front view illustrating a factory hanger door according to another embodiment of the present invention. FIG. 4 is a plan view illustrating a factory hanger door system according to another embodiment of the present invention. FIG. 5 is a cross-sectional view illustrating a factory hanger door system according to embodiments of the present invention. FIGS. 6 and 7 are drawings for illustrating an insulating panel and an upper frame according to embodiments of the present invention. FIGS. 8 to 12 are drawings for explaining an insulating panel and a side frame according to embodiments of the present invention. FIG. 13 is a drawing for explaining an insulating panel and a lower frame according to embodiments of the present invention. FIG. 14 is a perspective view illustrating a hanger rail structure according to embodiments of the present invention. Figure 15 is an enlarged view of part A of Figure 5. Figure 16 is an enlarged view of part B of Figure 5. FIG. 17 is an exploded perspective view illustrating an automatic locking device according to embodiments of the present invention. FIG. 18 is a drawing showing the locked state of an automatic locking device according to embodiments of the present invention. FIG. 19 is a drawing for showing the unlocked state of an automatic locking device according to embodiments of the present invention. FIG. 20 is a perspective view illustrating a metal fixing guide of a door fixing guide structure according to embodiments of the present invention. FIG. 21 is a drawing for explaining door windproof means according to embodiments of the present invention, showing door windproof means provided along the perimeter of an entrance formed in a building wall. FIG. 22 is a plan view showing a door windproof means installed on a building wall, and is a drawing for explaining a door windproof means according to embodiments of the present invention. The advantages and features of the present invention and the methods for achieving them will become clear by referring to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various different forms. These embodiments are provided merely to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the scope of the invention, and the present invention is defined only by the scope of the claims. T