KR101933301B1 - Frame for door - Google Patents

Abstract

The present invention relates to a door frame, comprising a bottom profile forming a bottom frame of a door, wherein the bottom profile is disposed on a bottom side where the door is installed; The door being formed by stacking on the first heat insulator so as to form a step with the first heat insulator and having an engaging surface which is relatively protruded by the step so as to limit the opening and closing range of the door, 2 insulation; And a metal plate connected at one side to the first heat insulator and at the other side to the second heat insulator to reinforce the strength of the first heat insulator and the second heat insulator.

Description

Frame for door {Frame for door}

The present invention relates to a door frame, and more particularly, to a door frame having an improved structure for improving heat insulation performance and improving durability of a door.

A door is required to move inside or outside the building, or to communicate or block the inside and the outside with each other. The door is formed in various forms such as a window, a door, and a glass door, and is combined with a door frame installed on the building wall. The door frame comprises a pair of vertical profiles and a horizontal profile connecting the vertical profiles. The door frame forms the door arrangement space by the combination of the vertical profile and the horizontal profile.

Most common door frames consist of a single material such as aluminum or synthetic resin. Such a door frame is installed on the wall to engage with the door, and cuts the heat conduction path between the inside and outside of the room through the door, thereby reducing heat loss to the outside. However, the general door frame has a problem that it is difficult to block the cold air transmitted from the floor of the building, thereby deteriorating the insulation performance. In addition, the general door frame has a problem that the coupling force between profiles is low, durability is weak, and it is difficult to stably support the door.

Korean Patent No. 10-1682124 entitled " Door Frame "

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a door frame structure capable of effectively blocking cold air transmitted from a floor of a building, And it is intended to provide a door frame which can improve the strength and durability and stably support the door.

The objects of the present invention are not limited to those mentioned above, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a door frame comprising a bottom profile for forming a bottom frame of a door, the bottom profile including: a first heat insulator disposed on a bottom side where the door is installed; The door being formed by stacking on the first heat insulator so as to form a step with the first heat insulator and having an engaging surface which is relatively protruded by the step so as to limit the opening and closing range of the door, 2 insulation; And a metal plate connected at one side to the first heat insulator and at the other side to the second heat insulator to reinforce the strength of the first heat insulator and the second heat insulator.

The present invention further comprises a pair of vertical profiles formed in a bar shape having a length in the longitudinal direction and forming a vertical space therein along the length and coupled to the bottom plate, And an insertion groove formed along the lateral direction on the outer surface in contact with the metal plate, and an insertion groove formed along the transverse direction.

The second heat insulating material may include a lead-in groove formed in the engaging surface along the transverse direction. The metal plate may further include: an insertion rib inserted into the fitting groove; a position fixing rib inserted into the insertion groove to increase a position fixing force with the first heat insulating material; And a sealing groove formed at a position corresponding to the lead-in groove so that the sealing member can be fitted.

The second heat insulating material may form a plurality of binding grooves on a lower contact surface in contact with the first heat insulating material. It is preferable that the metal plate has a binding rib fitted in the binding groove so as to increase a binding force with the second heat insulating material.

The present invention further includes a horizontal profile, wherein both sides are coupled to the upper side of the vertical profile and form a horizontal space therein so as to form an interval between the vertical profiles, wherein the vertical profile and the horizontal profile A bracket coupled to the vertical profile and the horizontal profile to surround the edge formed by the abutment of the vertical profile and the horizontal profile, And a reinforcing member inserted in the vertical space and the horizontal space and coupled to the bracket so as to increase a coupling force between the vertical profile and the horizontal profile.

The vertical profile and the horizontal profile may include a vertical rib and a stop rib protruding inwardly in the horizontal space. Preferably, the reinforcing member defines a positioning slit having a length in a direction in which the reinforcing member is inserted and into which the stopping rib is inserted so as to define an insertion range when inserting into the vertical space and the horizontal space side Do.

In the door frame according to the present invention having the above-described construction, both ends of the horizontal profile are respectively coupled to the upper side of the vertical profile, the bottom profile is provided on the bottom side, and both ends of the bottom profile are arranged on the lower side And the bottom profile of the door is formed by stacking a second heat insulator on the upper side of the first heat insulator and the metal plate surrounds the first heat insulator and the second heat insulator, It is possible to effectively block the cold air transmitted from the floor, improve the heat insulation performance, and enhance the strength of the door frame bottom frame.

Further, according to the present invention, a reinforcing member is inserted into a vertical space and a horizontal space of a vertical profile and a horizontal profile, and a bracket surrounds a corner portion where the vertical profile and the horizontal profile contact each other. The coupling force between the respective profiles forming the door frame can be increased, the door can be stably supported, and the durability can be improved.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a perspective view illustrating a door frame according to an embodiment of the present invention;
FIG. 2 is a perspective view illustrating a state in which the respective components of the bottom profile employed in the embodiment of the present invention are separated; FIG.
3 is a perspective view illustrating a state in which the respective components of the bottom profile employed in the embodiment of the present invention are combined.
4 is a cross-sectional view of a bottom profile employed in an embodiment of the present invention.
5 is a perspective view for explaining a vertical profile and a horizontal profile and a reinforcing member employed in an embodiment of the present invention;
6 is a cross-sectional view illustrating a combination of a vertical profile and a horizontal profile employed in an embodiment of the present invention;
FIG. 7 is a perspective view for explaining a positioning rib of a positioning slit, a vertical profile, and a horizontal profile of a reinforcing member employed in a door frame according to another embodiment of the present invention; FIG.
8 is a sectional view taken along line VIII-VIII of FIG.
9 is a sectional view for explaining a second heat insulator and a metal plate employed in a door frame according to another embodiment of the present invention.

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

FIG. 1 is a perspective view for explaining a door frame according to an embodiment of the present invention, FIG. 2 is a perspective view illustrating a state in which the respective components of the bottom profile employed in the embodiment of the present invention are separated, FIG. 4 is a cross-sectional view of a bottom profile employed in an embodiment of the present invention. FIG.

As shown in these drawings, the door frame according to an embodiment of the present invention includes a vertical profile 100, a horizontal profile 200, and a bottom profile A.

The vertical profile 100 has a bar shape having a length along the vertical direction. The vertical profile 100 forms a pair of vertical spaces 101 (see FIG. 5) along the longitudinal direction inside. The pair of vertical profiles 100 are spaced apart from each other so as to form an interval therebetween. The vertical profile 100 forms the height of the frame for the door and forms additional divided spaces therein to form the shape.

Both ends of the horizontal profile 200 are coupled to the upper side of the vertical profile 100. The horizontal profile 200 is combined with the vertical profile 100 to form a space between the pair of vertical profiles 100. The horizontal profile 200 forms a horizontal space 201 (see FIG. 5) in the interior along the space therebetween. The horizontal profile 200 forms the width of the frame for the door and forms additional divided spaces therein to form the shape.

The vertical profile 100 and the horizontal profile 200 are preferably made of synthetic resin. The vertical profile 100 and the horizontal profile 200 may include a sealing member 600 made of an elastic material so as to increase airtightness with the door D. [ The vertical profile 100 and the horizontal profile 200 may form a sealing member inlet groove (not shown) so as to include the sealing member 600.

It is preferable that the vertical profile 100 has a structure in which ends of the vertical profile 100 are bent along the stepped structure of the horizontal profile 200 when the vertical profile 100 and the horizontal profile 200 are combined. That is, one end of the vertical profile 100 corresponds to the stepped structure of the horizontal profile 200, and the other end of the vertical profile 100 corresponds to the stepped structure of the bottom profile A Or the like.

The bottom profile A is coupled to the lower side of the vertical profile 100 so that the space between the vertical profiles 100 is maintained and the space for arranging the door D is ensured. The bottom profile A comprises a first heat insulator 300, a second heat insulator 400 and a metal plate 500. The bottom profile A is disposed on the bottom side and is formed by joining the first heat insulator 300, the second heat insulator 400 and the metal plate 500.

The first insulation (300) of the bottom profile (A) is disposed at the bottom and forms a length along the spacing between the vertical profiles (100). Preferably, the first heat insulating material 300 is made of a material having heat insulating performance. For example, the first heat insulating material 300 may be made of a synthetic resin and has a function of blocking cold air transmitted from the bottom. It is preferable that the first thermal insulation material 300 has a concavo-convex structure on the contact surface with the bottom surface so as to increase the fixing force with respect to the bottom surface.

The second thermal insulation material 400 of the bottom profile A is stacked on the first thermal insulation material 300 to form a step with the first thermal insulation material 300, 401). The second heat insulating material 400 is formed by the engagement surface 401 so that the door D is engaged with the engagement surface 401 when the door D is closed, . The second heat insulating material 400 is made of the same material as the first heat insulating material 300 to block cold air from the floor, thereby enhancing the heat insulating effect of the room. Meanwhile, the second heat insulating material 400 may be made of a heat insulating material different from the first heat insulating material 300.

One side of the metal plate 500 of the bottom profile A is connected to the first heat insulating material 300 and the other side thereof is connected to the second heat insulating material 400, And has a structure to enclose the engagement surface (401) by the second insulation (400). The metal plate 500 is preferably made of a metal material such as aluminum. The metal plate 500 joins the first heat insulator 300 and the second heat insulator 400 to each other to obtain an effect of reinforcing the strength of the bottom profile A. [

In the door frame according to an embodiment of the present invention having the above-described structure, both ends of the horizontal profile 200 are coupled to the upper side of the vertical profile 100, the bottom profile A is installed on the bottom side Both ends of the bottom profile A are joined to the lower side of the vertical profile 100 to form an arrangement space for the door W. The bottom profile A is formed on the upper side of the first heat insulating material 300, The metal plate 500 covers the first heat insulating material 300 and the second heat insulating material 400 so that the cold air transmitted from the bottom of the building can be effectively blocked, Thereby improving the performance, increasing the strength of the floor profile A, which is the floor frame of the door, and enhancing the durability of the door frame.

Referring to FIG. 2, the bottom profile A has a structure in which the second heat insulating material 400 is laminated on one upper side of the first heat insulating material 300. The first heat insulator 300 has a fitting groove 301 formed along a transverse direction across the vertical profiles 100. In addition, the first heat insulating material 300 has an insertion groove 302 along the transverse direction on the upper outer surface contacting with the metal plate 500.

The fitting rib 501 of the metal plate 500 is fitted into the fitting groove 301 of the first heat insulating material 300. In addition, a position fixing rib 502 of the metal plate 500 is inserted into the insertion groove 302 of the first heat insulating member 300. The present embodiment is characterized in that the fitting rib 501 is fitted into the fitting groove 301 of the first heat insulating material 300 and the position fixing rib 502 is inserted into the fitting groove 302, 500 can be stably installed on the outside of the first heat insulating material 300 and the strength of the bottom profile A can be increased.

The metal plate 500 is in a state of being engaged with the first heat insulating material 300 without being moved in the first heat insulating material 300 even if the metal plate 500 is in contact with the door D during the opening and closing operation of the door D .

The second heat insulating material 400 is disposed on the first heat insulating material 300 to form a latching surface 401 by a step difference and forms a latching groove 402 on a side surface of the latching surface. The metal plate 500 forms a sealing groove 503 at a position corresponding to the inlet groove 402. The inlet groove 402 of the second heat insulating material 400 is a space in which the sealing groove 503 can be formed. A sealing member 600 is provided in the sealing groove 503 of the metal plate 500 formed by the inlet groove 402 of the second heat insulating material 400.

The second insulation member 400 forms the inlet groove 402 and the sealing groove 503 of the metal plate 500 is formed at a position corresponding to the inlet groove 402 and the sealing member 600 The gap between the door D and the engagement surface 401 can be removed during the closing operation of the door D so as to block the cold air transmitted through the gap, Loss can be prevented.

Furthermore, the second heat insulating material 400 has a plurality of binding grooves 403 formed along the longitudinal direction of the inlet grooves 402 on the lower contact surface contacting the first heat insulating material 300. The coupling ribs 504 of the metal plate 500 are fitted into the coupling groove 403 so that the metal plate 500 and the second thermal insulation material 400 are coupled to each other. The binding ribs 504 of the metal plate 500 are formed in a bent structure that can be inserted into the binding groove 400 and fit into a contact surface where the first heat insulating material 300 and the second heat insulating material 400 are in contact with each other .

The second heat insulating material 400 has a binding groove 403 formed on a lower contact surface that contacts the first heat insulating material 300 and the binding rib 504 of the metal plate 500 is inserted into the binding groove 403 The binding force between the second heat insulating material 400 and the metal plate 500 is increased.

The metal plate 500 is bent at the end to form the fitting rib 501. The fitting rib is inserted into the fitting groove 301 of the first heat insulating material 300 and the position fixing rib 502 Is inserted into the insertion groove 302 of the first heat insulating material 300 and the sealing groove 503 is disposed in the inlet groove 402 of the second heat insulating material 400 and the binding rib 504 is inserted into the second heat insulating material 400, The first heat insulating material 300 and the second heat insulating material 400 are fastened to each other and the first heat insulating material 300 and the second heat insulating material 400 are fastened together, It is possible to maximize the heat insulating performance and increase the strength of the bottom profile A by further blocking the cold air passing through the first and second heat insulating materials 300 and 400 .

The position fixing ribs 502 of the metal plate 500 have a planar structure that contacts the bottom surface of the insertion groove 302 to increase the strength against the load transmitted to the metal plate 500 . Meanwhile, the position fixing rib 502 is provided with a fastening portion (not shown) protruding outward in one section to reinforce the strength of the position fixing rib 502, It is also possible to make a connection.

FIG. 5 is a perspective view for explaining a vertical profile and a horizontal profile and a reinforcing member employed in an embodiment of the present invention, FIG. 6 is a sectional view for explaining a combination of a vertical profile and a horizontal profile employed in the embodiment of the present invention to be. As shown in these drawings, it is preferable that the present embodiment further comprises a bracket 700 and a reinforcing member 800. [

The bracket 700 surrounds an edge formed by joining the vertical profile 100 and the horizontal profile 200 and is coupled to the vertical profile 100 and the horizontal profile 200. The bracket 700 is formed in a shape of '┏', and the vertical profile 100 and the horizontal profile 200 are coupled to each other to couple the vertical profile 100 and the horizontal profile 200 .

The bracket 700 is made of a metal such as aluminum and is coupled to the vertical profile 100 and the horizontal profile 200 by a bolt coupling method. In addition, the bracket 700 may combine the vertical profile 100 and the bottom profile A. FIG. At this time, the bracket 700 surrounds the corner where the vertical profile 100 and the bottom profile A contact with each other and is fastened to the vertical profile 100 and the bottom profile A, And the bottom profile (A).

The reinforcing member 800 is preferably provided in the vertical space 101 of the vertical profile 100 and the horizontal space 201 of the horizontal profile 200, respectively. The reinforcing member 800 is fastened to the bracket 700 while being inserted into the vertical space 101 and the horizontal space 201 to increase the coupling force between the vertical profile 100 and the horizontal profile 200 . The reinforcing member 800 is preferably made of a material such as synthetic resin or wood.

The reinforcing member 800 has a length corresponding to the vertical space 101 and the horizontal space 201 and is inserted into the vertical space 101 and the horizontal space 201. The reinforcing member 800 may be provided on both sides of the vertical profile 100 and the horizontal profile 200.

The reinforcing member 800 is inserted into the vertical space 101 and the horizontal space 201 between the vertical profile 100 and the horizontal profile 200 and the vertical profile 100 and the horizontal profile 200, And the horizontal profile 200 is combined with the vertical profile 100 as the bracket 700 is fastened to the reinforcing member 800 so that the coupling force between the respective profiles forming the door frame can be increased The door can be stably supported and the durability can be enhanced.

The door frame according to the embodiment of the present invention has been described above. Hereinafter, a door frame according to another embodiment of the present invention will be described with reference to FIGS. 7 and 8. FIG.

FIG. 7 is a perspective view for explaining a stopping rib of a positioning slit, a vertical profile and a horizontal profile of a reinforcing member employed in a door frame according to another embodiment of the present invention, and FIG. 8 is a sectional view taken along line VIII- .

As shown in these drawings, the present embodiment is similar to the above-described embodiment in most of the configurations, but the vertical space 101 of the vertical profile 100 and the horizontal space 201 of the horizontal profile 200 ). ≪ / RTI >

The vertical profile 100 and the horizontal profile 200 have a vertical rib 101 and a stop rib S protruding inwardly in the horizontal space 201. The stop ribs S may be formed of one or a plurality of ribs.

In the present embodiment, the reinforcing member 800 is provided on both sides of the vertical space 101 and the horizontal space 201, respectively. The reinforcing member 800 forms a positioning slit H into which the stop rib S is fitted. The positioning slit H defines an insertion range when the reinforcing member 800 is inserted into the vertical space 101 or the horizontal space 201 and allows the reinforcing member 800 to be positioned do. The positioning slits H are formed on the outer surface of the reinforcing member 800 and have a length in a direction in which the reinforcing member 800 is inserted.

The positioning slit H is formed from the end of the reinforcing member 800 and has a predetermined length. At this time, the length corresponds to an insertion range in which the reinforcing member 800 can be inserted into the vertical space 101 and the horizontal space 201. The detent rib S is inserted into the positioning slit H when the reinforcing member 800 is inserted into the vertical space 101 and the horizontal space 201.

 The stop rib S guides the sliding movement of the reinforcing member 800 and stops the movement of the reinforcing member 800 so that the reinforcing member 800 can move in the vertical space 101 and the horizontal space 101. [ (100) and the horizontal profile (200) to be fixed in position on both sides of the horizontal profile (200).

9 is a cross-sectional view illustrating a second heat insulator and a metal plate employed in a door frame according to another embodiment of the present invention. As shown in FIG. 9, the present embodiment is similar in most aspects to the above-described embodiment, but differs in the structure of the second insulation member 400 and the metal plate 500.

In the present embodiment, the second heat insulating material 400 has a receiving groove 402 having a rounded shape on the holding surface 401. The metal plate 500 is disposed in the inlet groove 402 and has a sealing groove 503 in a rounded shape. The metal plate 500 has a predetermined And the sealing groove 503 can be inserted into the inlet groove 402 due to the elasticity of the metal.

The inlet groove 402 and the sealing groove 503 are wider than the inlet side so that when the sealing groove 503 is disposed in the inlet groove 402, And the second heat insulating material 400 is increased. In addition, since the structure of the sealing groove 503 corresponds to the structure of the inlet groove 402, the fastening force between the sealing member 600 and the sealing groove 503 increases to seal the sealing member 600 503 from being detached from each other.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but is capable of numerous modifications and variations, It is obvious.

100: Vertical profile 200: Horizontal profile
300: first insulation material 400: second insulation material
500: metal plate 600: sealing member
700: bracket 800: reinforcing member

Claims (5)

And a bottom profile forming a bottom frame of the door,
The bottom profile,
A first heat insulator disposed on a bottom side where the door is installed;
The door being formed by stacking on the first heat insulator so as to form a step with the first heat insulator and having an engaging surface which is relatively protruded by the step so as to limit the opening and closing range of the door, 2 insulation; And
And a metal plate connected to the first heat insulator at one side and connected to the second heat insulator to reinforce the strength of the first heat insulator and the second heat insulator,
Further comprising a pair of vertical profiles formed in a bar shape having a length in a longitudinal direction and forming a vertical space in the inside along the length and coupled to the bottom profile,
Wherein the first heat insulator includes an insertion groove formed along a lateral direction transverse to the vertical profiles and an insertion groove formed along the lateral direction on an outer surface contacting the metal plate,
Wherein the second heat insulating material has an inlet groove formed in the engaging surface along the transverse direction,
The metal plate may further include: an insertion rib inserted into the fitting groove; a position fixing rib inserted into the insertion groove to increase a position fixing force between the metal plate and the first heat insulating material; And a sealing groove formed at a position corresponding to the lead-in groove so that the sealing member can be fitted,
Wherein the second heat insulating material has a plurality of binding grooves formed on a lower contact surface in contact with the first heat insulating material,
Wherein the metal plate has a binding rib fitted in the binding groove so as to increase the binding force with the second heat insulating material,
The position fixing rib includes a contact portion having a planar structure contacting the bottom surface of the insertion groove so as to increase the strength with respect to the load transmitted to the metal plate and bolt tightening with the vertical profile, And a fastening portion.
delete delete The method according to claim 1,
And a horizontal profile coupled to the upper side of the vertical profile and forming a horizontal space therein so as to form an interval between the vertical profiles,
A bracket coupled to the vertical profile and the horizontal profile to surround edges formed by the contact of the vertical profile and the horizontal profile so that the vertical profile and the horizontal profile can be combined;
Further comprising a reinforcing member inserted into the vertical space and the horizontal space and coupled to the bracket so as to increase a coupling force between the vertical profile and the horizontal profile.
5. The method of claim 4,
Wherein the vertical profile and the horizontal profile have a vertical rib and a stop rib protruding inwardly in the horizontal space,
Wherein the reinforcing member defines a positioning slit having a length in a direction in which the reinforcing member is inserted and into which the stopping rib is fitted so that the inserting range is limited when the inserting unit is inserted into the vertical space and the horizontal space side A frame for a door.

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