JP3634760B2 - Door frame - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a door frame that prevents condensation that occurs inside the room when it is cold.
[0002]
[Prior art]
The door frame may condense inside the room when it is cold. This is because the indoor side of the door frame is cooled on the outdoor side and becomes cold. The cold door frame cools the air that comes into contact with it. When the air is cooled, the amount of water that can be contained decreases, and supersaturated water vapor forms water droplets and condenses. This problem can be solved by setting the outdoor temperature of the door frame close to room temperature. This state can be realized by a structure in which the indoor side is not cooled by the cold air outside the cold room, in other words, the indoor side and the outdoor side are insulated.
[0003]
As a door frame for realizing this, a cross section shown in FIG. 1 has been developed. The door frame in this figure separates the indoor side and the outdoor side into a first frame 1 and a second frame 2. The first frame 1 and the second frame 2 are connected by a hard plastic molding material 3. In order to connect with the plastic molding material 3, the 1st frame 1 and the 2nd frame 2 are provided with the undercut groove | channel 4 which narrows the width | variety of an opening part. The plastic molding material 3 is formed by molding a ridge that can be fitted into the undercut groove 4. This door frame is assembled by inserting convex strips of the plastic molding material 3 into the undercut grooves 4 of the first frame 1 and the second frame 2. The plastic molding material 3 has a smaller thermal conductivity than metal. For this reason, it can connect in the state which heat-insulated the 1st frame 1 and the 2nd frame 2 compared with the door frame manufactured entirely with the metal.
[0004]
[Problems to be solved by the invention]
The first frame and the second frame having a cross-sectional shape shown in FIG. 1 are manufactured by drawing aluminum. However, the door frame of this structure cannot be manufactured as an iron door frame manufactured by bending an iron plate. For this reason, it is specified to the aluminum door frame of this structure. Furthermore, since the door frame shown in the figure connects the first frame and the second frame with a plastic molding material, it is difficult to firmly connect both the frame materials. This is because the strength and hardness of plastic are lower than metals such as aluminum and iron. Furthermore, since the plastic molding material which connects the first frame and the second frame is required to have a strong structure, a foam or the like having excellent heat insulation characteristics cannot be used. This is because the foam has excellent heat insulating properties, but cannot have a firm and strong structure. Therefore, the door frame shown in the drawing has a drawback that the first frame and the second frame are sufficiently insulated from each other while the first frame and the second frame are sufficiently insulated.
[0005]
Furthermore, aluminum door frames cannot be class A fireproof. The door frame of class A fireproof structure must be made of iron. Therefore, a door frame that has a class A fireproof structure and can effectively prevent dew condensation in the room has not been developed at present.
[0006]
The present invention is an iron door frame that solves the above disadvantages of the conventional door frame and that can realize a class A fireproof structure, and has been developed for the purpose of effectively preventing dew condensation in the room. An important object of the invention is to provide a door frame that is made of iron and can effectively prevent dew condensation while realizing excellent heat insulation properties and firm strength.
[0007]
[Means for Solving the Problems]
The door frame of the present invention is made of iron, and the vertical frames 5 on both sides are connected by the upper frame 6. Furthermore, the door frame of the present invention has the following unique configuration.
(A) The vertical frame 5 and the upper frame 6 include a first frame 1 and a second frame 2.
(B) The first frame 1 and the second frame 2 are located on the indoor side and the outdoor side, respectively.
(C) The first frame 1 is formed by bending an iron plate so that the entire cross-sectional shape is a U-shape, and bending the iron plate into a shape with a guide groove 7.
(D) The guide groove 7 of the first frame 1 is a groove type having an opening on the side facing the second frame 2.
(E) The first frame 1 is provided with a door support portion 10 so as to close a part of the opening of the guide groove 7, and the wrap portion 15 is disposed along the side edge of the door support portion 10. Provided .
(F) the second frame 2, the both sides of the iron plate by bending process to the outer in a U-shape, the folded portion 8 is provided on both sides, can be placed in the first frame 1 of the guide groove 7 thickness The iron plate is bent into a shape having the folded portion 8.
( G ) The folded portion 8 has a facing surface that faces the bottom surface of the guide groove 7.
( H ) The folded portion 8 of the second frame 2 is inserted into the guide groove 7 of the first frame 1, and the heat insulating material 9 is sandwiched between the bottom surface of the guide groove 7 of the first frame 1 and the opposing surface of the folded portion 8. The first frame 1 and the second frame 2 are fixed.
(I) The first frame 1 is bent in a direction in which the inner width of the guide groove 7 is wider than the thickness of the folded portion 8 of the second frame 2 and a part of the opening of the guide groove 7 is closed. The door support 10 is provided.
(J) The thickness (t) of the folded portion 8 of the second frame 2 is substantially equal to the opening width of the guide groove 7, and the folded portion 8 of the second frame 2 is placed in the guide groove 7 of the first frame 1, The first frame 1 and the second frame 2 are connected without play.
(K) The bottom surface of the guide groove 7 of the first frame 1 and the folded portion 8 of the second frame 2 are connected and fixed.
[0008]
In the above door frame, the first frame 1 can be the indoor side and the second frame 2 can be the outdoor side, or the first frame 1 can be the outdoor side and the second frame 2 can be the indoor side . Bottom surface and the second frame 2 of the folded portion 8 of the first frame 1 of the guide grooves 7 may be fixedly connected with screws 11. An elastic material that can be elastically deformed can be used as the heat insulating material 9. The heat insulating material 9 can be a synthetic resin foam.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. However, the embodiment described below exemplifies a door frame for embodying the technical idea of the present invention, and the present invention does not specify the door frame as follows.
[0010]
Further, in this specification, in order to facilitate understanding of the scope of claims, the numbers corresponding to the members shown in the embodiments are referred to as “claims” and “means for solving the problems”. It is added to the member shown by. However, the members shown in the claims are not limited to the members in the embodiments.
[0011]
FIG. 2 shows a horizontal section of the door frame, and FIG. 3 shows a vertical section of the door frame. The door frame shown in these figures has a vertical frame 5, an upper frame 6, and a lower frame 12 on both sides. The upper frame 6 connects the upper ends of the vertical frames 5 on both sides. The lower frame 12 connects the lower ends of the vertical frames 5 on both sides. This door frame connects the vertical frame 5, the upper frame 6, and the lower frame 12 on both sides in a rectangular shape. This structure can be transported to the construction site by connecting the door frame to a rectangle at the manufacturing plant. However, the door frame of the present invention does not necessarily require a lower frame. This is because the vertical frame and the upper frame are connected to a building frame such as concrete or a wall, and the lower end of the vertical frame can be formed between the floor and the soil.
[0012]
The door frame in the figure is made of iron. The vertical frame 5 and the upper frame 6 on both sides are composed of a first frame 1 and a second frame 2. As shown in the cross-sectional view of FIG. 3, the lower frame 12 is manufactured by connecting two bent iron plates by a method such as welding. In the door frames shown in these drawings, the first frame 1 is arranged on the indoor side, and the second frame 2 is arranged on the outdoor side. However, although the door frame of the present invention is not illustrated, the second frame can be arranged on the indoor side with the first frame as the outdoor side.
[0013]
The first frame 1 is manufactured by bending an iron plate cut to a predetermined width. The first frame 1 is bent into a groove shape having a guide groove 7. The guide groove 7 has an opening on the side facing the second frame 2 so that a part of the second frame 2 can be inserted. 2, the second frame 2 is arranged on the upper side and the first frame 1 is arranged on the lower side, so that the guide groove 7 of the first frame 1 is opened upward. 3, the first frame 1 is arranged on the right side and the second frame 2 is arranged on the left side in the drawing, so that the guide groove 7 is open on the left side.
[0014]
Further, in the first frame 1 shown in FIGS. 2 and 3, the inner width of the guide groove 7 is made wider than the thickness of the folded portion 8 of the second frame 2. In the first frame 1 in the figure, the inner width of the guide groove 7 is about twice the thickness of the folded portion 8 of the second frame 2. Furthermore, this 1st frame 1 has provided the door support part 10 along the edge part used as the inner side of a door frame. The door support 10 is a portion bent in a direction to close a part of the opening of the guide groove 7. The door support 10 is provided to fix the air tight packing 13 in place. The door support 10 has partition walls 14 on both sides so that the air tight packing 13 is not displaced. A partition 14 on one side of the door support 10 is the second frame 2. The other one-side partition wall 14 is provided by an intermediate wrap portion 15 of the first frame 1. The wrap portion 15 is formed by folding the iron plate so that the iron plate protrudes inward from the door support 10. This door frame has the feature that the air tight packing 13 can be easily fixed in place so as not to be displaced.
[0015]
The first frame 1 shown in the figure is bent so that the entire cross-sectional shape is a U-shape. And the door support part 10 is provided so that a part of opening part of the guide groove 7 may be obstruct | occluded. A wrap portion 15 is provided along the side edge of the door support 10.
[0016]
The second frame 2 is formed by bending an iron plate so that the entire shape has a cross-sectional shape close to that of C-shaped steel. The 2nd frame 2 of a figure is bending the both sides of an iron plate outside in a U shape, and has the folding | returning part 8 on both sides. The second frame 2 bent in the same way on both sides does not need to specify the direction in which the second frame 2 is connected to the first frame 1. The folded portion 8 has a facing surface that faces the bottom surface of the guide groove 7. The facing surface is parallel to the bottom surface of the guide groove 7 in a state in which the folded portion 8 is placed in the guide groove 7. The opposing surface of the folded portion 8 and the bottom surface of the guide groove 7 which are parallel to each other sandwich and fix the heat insulating material 9 disposed therebetween. The entire width (W) of the second frame 2 is larger than the depth (d) of the guide groove 7. As shown in the figure, the second frame 2 is for arranging the door inside the protruding portion protruding from the first frame 1.
[0017]
The thickness of the folded portion 8 of the second frame 2 is substantially equal to the opening width of the guide groove 7. In the door frame having this structure, the folded portion 8 of the second frame 2 is inserted into the guide groove 7 of the first frame 1 so that the first frame 1 and the second frame 2 can be connected to an accurate position without play.
[0018]
The heat insulating material 9 is put in the bottom of the guide groove 7 of the first frame 1. The heat insulating material 9 is sandwiched and fixed between the bottom surface of the guide groove 7 and the opposing surface of the folded portion 8 in a state where the second frame 2 is connected to the first frame 1. The first frame 1 and the second frame 2 are processed into a shape in which a gap is formed between the bottom surface of the guide groove 7 and the opposed surface of the folded portion 8. This is because the heat insulating material 9 is sandwiched in the gap. The heat insulating material 9 is an elastic material that can be elastically deformed, for example, a soft synthetic resin foam. The heat insulating material 9 has a width substantially equal to the inner width of the guide groove 7 and has a thickness larger than the gap between the bottom surface of the guide groove 7 and the opposed surface of the folded portion 8 that are connected to each other. When the heat insulating material 9 is sandwiched between the bottom surface of the guide groove 7 and the opposing surface of the folded portion 8, the heat insulating material 9 is slightly crushed. For this reason, it adheres and fixes to the bottom face of the guide groove 7 and the opposing surface of the folding | returning part 8 without gap. This structure connects the first frame 1 and the second frame 2 in an airtight state. Therefore, the draft air does not pass through the door frame.
[0019]
In the illustrated door frame, the first frame 1 and the second frame 2 are connected and fixed by a set screw 11. The set screw 11 passes through the bottom surface of the guide groove 7 and is screwed into the opposing surface of the second frame 2 to fix the first frame 1 and the second frame 2. In this structure, the gap between the opposing surface and the bottom of the guide groove 7 can be adjusted to an optimum value by the screwing amount of the set screw 11.
[0020]
The door frame having the above structure is assembled in the following steps.
(1) add heat insulating material 9 on the first frame 1 of the guide grooves 7.
(2) Insert the folded portion 8 of the second frame 2 into the guide groove 7 of the first frame 1.
(3) From the outside of the first frame 1, pass through the bottom surface of the guide groove 7 and screw the set screw 11 toward the heat insulating material 9 of the folded portion 8 to connect the first frame 1 and the second frame 2. Fix it. In this state, the heat insulating material 9 is sandwiched between the bottom surface of the guide groove 7 and the opposed surface of the folded portion 8 in a state where it is somewhat crushed.
[0021]
The door frame can be assembled by connecting the vertical frame 5 and the upper frame 6 connecting the first frame 1 and the second frame 2. However, as shown in FIG. 4, the first frame 1 of the vertical frame 5 and the upper frame 6 are connected at a right angle, and the vertical frame and the upper frame are connected to the guide groove 7 of the first frame 1 at a right angle. The second frame can be inserted and connected.
[0022]
【The invention's effect】
The door frame of the present invention has a feature that it can have a strong strength while realizing excellent heat insulation properties. This is because the first frame and the second frame made of iron plates are connected with a unique structure. The excellent heat insulation properties and two features that can be firmly connected are that the guide groove provided on the first frame is connected with the folded part of the second frame, and the first frame and the second frame are connected with a set screw or the like. In a connected state, a heat insulating material is sandwiched and fixed between the bottom surface of the guide groove of the first frame and the opposing surface of the folded portion. The heat insulating material sandwiched at this position is not required to have a strength for connecting the first frame and the second frame. Therefore, for example, a heat insulating material in which a synthetic resin foam or innumerable glass fibers are aggregated can be used as the heat insulating material, and the heat insulating characteristics can be remarkably improved. For this reason, the condensation which generate | occur | produces indoors as iron can be prevented effectively. Moreover, since the folding | returning part of a 2nd frame is put and fixed in the guide groove of a 1st frame, both can be connected firmly firmly.
[0023]
Furthermore, the door frame of the present invention does not need to be processed into a complicated sectional shape unlike the conventional door frame shown in FIG. For this reason, a 1st frame and a 2nd frame can be manufactured by processing an iron plate. The first frame and the second frame of the iron plate have heat resistance characteristics and strength that cannot be realized with an aluminum frame. For example, a door frame unit having a class A fireproof structure can be realized.
[Brief description of the drawings]
1 is a cross-sectional view of a conventional door frame. FIG. 2 is a horizontal cross-sectional view of a door frame according to an embodiment of the present invention. FIG. 3 is a vertical cross-sectional view of a door frame according to an embodiment of the present invention. A perspective view showing a state in which the first frame of the vertical frame and the upper frame are connected.
DESCRIPTION OF SYMBOLS 1 ... 1st frame 2 ... 2nd frame 3 ... Plastic molding material 4 ... Undercut groove 5 ... Vertical frame 6 ... Upper frame 7 ... Guide groove 8 ... Folding part 9 ... Heat insulation material 10 ... Door support part 11 ... Set screw 12 ... Lower frame 13 ... Air tight packing 14 ... Partition 15 ... Wrap

Claims (6)

A door frame, which is an iron door frame, in which vertical frames (5) on both sides are connected by an upper frame (6), has all the following configurations.
(A) The vertical frame (5) and the upper frame (6) include a first frame (1) and a second frame (2).
(B) The first frame (1) and the second frame (2) are located on the indoor side and the outdoor side, respectively.
(C) the first frame (1) is an iron plate, the overall shape of the cross section by bending process to the U-shape, and bending process into a shape having a guide groove (7).
(D) The guide groove (7) of the first frame (1) is a groove type having an opening on the side facing the second frame (2).
(E) The first frame (1) is provided with a door support portion (10) so as to close a part of the opening of the guide groove (7) , and this door support portion (10) side. A wrap portion (15) is provided along the edge .
( F ) The second frame (2) is formed by bending both sides of the iron plate outward in a U-shape and providing folded portions (8) on both sides. The iron plate is bent into a shape having a folded portion (8) with a thickness that can be placed in the bracket.
( G ) The folded portion (8) has a facing surface facing the bottom surface of the guide groove (7).
( H ) The folded portion (8) of the second frame (2) is inserted into the guide groove (7) of the first frame (1), and the bottom surface and the folded portion of the guide groove (7) of the first frame (1) ( The first frame (1) and the second frame (2) are fixed by sandwiching a heat insulating material (9) between the opposing surfaces of 8).
(I) the first frame (1), the internal width of the guide groove (7) made wider than the thickness of the folded portion of the second frame (2) (8), one opening portion of the guide groove (7) Toto support portion which is bent in a direction that closes the part having (10).
(J) the thickness of the folded portion of the second frame (2) (8) (t) is approximately equal to the opening width of the guiding groove (7), the folded portion of the second frame (2) to (8) first placed in the guide groove (7) of the frame (1), which first frame (1) is a second frame (2) is connected without play.
(K) are fixed to the bottom surface and the folded portion of the second frame (2) of the guide groove (7) of the first frame (1) and (8) are connected. The door frame according to claim 1, wherein the first frame (1) is on the indoor side and the second frame (2) is on the outdoor side. The door frame according to claim 1, wherein the first frame (1) is on the outdoor side and the second frame (2) is on the indoor side. The door according to claim 1, wherein the bottom surface of the guide groove (7) of the first frame (1) and the folded portion (8) of the second frame (2) are connected and fixed by a set screw (11). frame. The door frame according to claim 1, wherein the heat insulating material (9) is an elastic material that can be elastically deformed. The door frame according to claim 1, wherein the heat insulating material (9) is a synthetic resin foam.

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