KR101997098B1 - Insulation frame corresponding top pivot of floor hinge - Google Patents

Abstract

The upper pivot of the floor hinge can be mounted, and the first frame core, the second frame core corresponding to the first frame core, and the at least one heat insulating member interposed between the first frame core and the second frame core The frame includes a heat insulating fixing bracket interposed between the first frame core and the second frame core in parallel with the heat insulating member to fix the upper pivot, and the end surface of the heat insulating fixing bracket corresponds to the screw hole of the upper pivot And may include a first screw fixing part that is bent in a U-shape.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an insulating frame structure corresponding to an upper pivot of a floor hinge,

The present invention relates to a heat insulating frame structure capable of simply installing an upper pivot of a floor hinge.

In forming the wall structure using tempered glass, a window frame is used, and a window frame can fix a single or double glass. If one glass is used, insulation and soundproofing performance deteriorates compared to the case of using a double glass. Therefore, a double glass such as a pair glass is mostly used in a window installed in an entrance such as a government office, a school, a hospital, .

However, even if a double glass is used, the conventional window frames directly contact outdoor and indoor air, so that it directly transmits outdoor temperature. Since a conventional window frame uses a stainless steel frame cover for an aluminum core, It can cause condensation due to temperature difference between inside and outside due to high temperature, and it can be a cause of heat loss.

Further, a tempered glass door is mainly installed in a window frame, and a floor hinge is mainly used for fixing the tempered glass door. The floor hinge includes a lower hinge body that operates by hydraulic pressure, a lower pivot plate that connects the lower hinge body and the lower portion of the door, an upper hinge bracket mounted on the upper portion of the door corresponding to the lower hinge, As shown in FIG.

Generally, floor hinges are sold in a set of lower hinge body, lower pivot plate, upper hinge bracket, and upper pivot, and can be manufactured in a unique way according to the manufacturer.

Korean Patent No. 10-1460599 relates to a "heat insulating frame to which an upper pivot of a floor hinge is applied", which integrally connects a reinforcing frame using azon, and an upper pivot .

In the Korean patent, the c-shaped reinforcing frames 10 and 10a are integrally formed without being separated. In order to prevent heat conduction from being formed in the central heat insulating portion, And when the heat insulating material of the azine component is completely cured, the reinforcing frames 10 and 10a can be separated from each other by cutting the connecting portion formed by aluminum extrusion, for example, the lower portion of the heat insulating forming portion.

However, since the heat-insulating frame of the Korean registered patent is connected to the middle only azon, a space for injecting the liquid azon is required, and therefore, the upper part is entirely opened, and the heat-insulating frame is fixed by the azon, It can be considered that the support structure of the frame is very weak in correspondence with the upper pivot in which a relatively large load is concentrated.

The present invention provides a solid support structure and provides a heat insulating frame structure that is compatible with various top pivots of a ready-made article.

The present invention provides a heat insulating frame structure which is easy to mount an upper pivot.

There is provided a heat insulating frame structure which firmly holds the entire structure of the heat insulating frame.

According to an exemplary embodiment of the present invention, an upper pivot of a floor hinge can be mounted, and a first frame core, a second frame core corresponding to the first frame core, The heat insulating frame including at least one heat insulating member interposed between the one frame core and the second frame core is provided between the first frame core and the second frame core in parallel with the heat insulating member, And a cross section of the heat insulating fixing bracket may include a first screw fixing portion bent in an inverted U-shape corresponding to a screw hole of the upper pivot.

In this embodiment, the heat insulating fixing bracket may be a resin molding formed by extrusion molding, and is preferably formed of a heat insulating material because it is interposed between the first frame core and the second frame core together with the heat insulating member, Can be coupled to the first frame core and the second frame core with a screw or the like to further strengthen the bond between the first frame core and the second frame core.

The heat insulating fixing brackets may be pulled out so as to have the same cross section in the longitudinal direction, so that rigidity against bending can be lacked. The first screw fixing portion is bent in an inverted U-shape so that the rigidity of the heat insulating fixing bracket in the bending direction can be improved. Further, the first screw fixing portion is formed so as to correspond to the screw hole of the upper pivot, The screw structure of the pivot fixing screw may be formed to have a width smaller than the maximum diameter of the pivot fixing screw passing through the screw hole of the upper pivot so that the screw structure of the pivot fixing screw is bound to the inner surface of the first screw fixing portion. As a result, the fixed pivot fixing screw can be fixed to the heat insulating fixing bracket without shaking.

In addition, in the present specification, in addition to the curved shape, it is also possible to include a shape bent at right angles, such as the Ц- or П- shape, and the whole of the heat-insulating fixing bracket may be bent in a straight line or a curved shape Or may be provided in a plate shape.

A second screw fixing portion may be formed on the end surface of the heat insulating fixing bracket like the first screw fixing portion. The second screw fixing portion may be bent in an inverted U-shape at both ends of the end face of the heat insulating fixing bracket. The bracket fixing screw passing through the second screw fixing portion can fix the heat insulating fixing bracket to the first frame core or the second frame core.

To this end, each of the first frame core and the second frame core may include a bracket receiving portion formed by being meshed with an inner surface facing to the second screw holding portion, and the second frame fixing portion may be fixed to the bracket receiving portion And a screw head receiving portion formed so as to be penetrated from the bottom surface so that the bracket fixing screw can enter.

The first frame core and the second frame core may include a cover fixing portion extending from the facing inner surface between the heat insulating binding portion and the bracket receiving portion bounded by the heat insulating member and being bent in an a- The heat insulating frame may further include a cover for covering an area opened in a bottom surface of the first frame core and the second frame core, that is, an area where the heat insulating fixing bracket is not inserted.

The ends of the cover for closing can be bound to the ends of the corresponding cover fixing portions, for example, latches facing each other can be formed at the ends of the cover for closing and the ends of the cover fixing portion. Of course, it is preferable that the finish cover is also formed of PVC or ABS which is heat-insulating.

And finally a frame cover covering the outer surfaces of the first frame core and the second frame core may be further included, and the screw head receiving portion and the like may be blocked from the outside by using a frame cover or the like.

The heat insulating frame of the present invention can form a solid structure by using the heat insulating fixing bracket in addition to the heat insulating member. The heat insulating fixing bracket facilitates the mounting of the upper pivot, and also the pivot fixing screw for engaging the upper pivot, Can be formed.

In addition, the heat insulating frame of the present invention can be compatible with various upper pivots of the ready-made article, and at the same time, it is possible to maintain low cost and maintenance cost in adjusting the position and dimension of the screw fixing part to the same heat- .

Also, when replacing the floor hinge, it is also possible to replace only the heat insulating fixing bracket, which is advantageous in that the replacement cost is very low.

The heat insulating frame of the present invention is easy to mount the upper pivot, can firmly maintain the entire structure of the heat insulating frame, and can easily mount the finish cover, thereby shortening the whole installation process quickly and easily.

1 is a view for explaining a cross section of a heat insulating frame according to an embodiment of the present invention.
FIG. 2 is a view for explaining a process of mounting an upper pivot on the heat insulating frame of FIG. 1;
Fig. 3 is a view for explaining a coupling relation of the heat insulating frame of Fig. 1. Fig.
4 is a view for explaining a cross-section of a portion where the upper pivot is coupled in the heat insulating frame according to the embodiment of the present invention.
5 is a view for explaining a cross section of a portion to which a cover for closing is joined in a heat insulating frame according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments. For reference, the same numbers in this description refer to substantially the same elements, and the contents described in the other drawings under the above-mentioned rules can be explained by quoting, and the contents which are judged to be obvious to the person skilled in the art or repeated can be omitted.

FIG. 1 is a view for explaining a cross section of a heat insulating frame according to an embodiment of the present invention, FIG. 2 is a view for explaining a process of mounting an upper pivot on the heat insulating frame of FIG. 1, Fig. 8 is a view for explaining the coupling relationship of the heat insulating frames. Fig.

1 to 3, the heat insulating frame 100 according to the present embodiment includes a first frame core 110, a second frame core 120, a heat insulating member 130, a heat insulating fixing bracket 140, A cover 150 may be included.

In this embodiment, the first frame core 110 and the second frame core 120 have the same cross-section, and they can be mixed with each other. However, in some cases, the structures formed on the facing surfaces of the first frame core 110 and the second frame core 120, for example, the heat insulating binding portions 112 and 122, the cover fixing portions 118 and 128, Although the bracket receiving portions 114 and 124 are formed in the same shape, the other structures may be formed in completely different shapes or dimensions. The first frame core 110 and the second frame core 120 may be formed through an aluminum extrusion process.

The first frame core 110 and the second frame core 120 may include the heat insulating binding portions 112 and 122 protruding from the upper portion and the bracket receiving portions 114 and 124 formed at the lower portion of the inner surface facing each other . An inverted triangular inserting groove is formed in the upper heat insulating binding portions 112 and 122. An insertion groove into which the heat insulating or double glass window can be inserted may be formed on the upper portion of the heat insulating binding portions 112 and 122, An open space can be provided at the bottom.

In this embodiment, the end of the heat insulating member 130 formed in a triangular shape corresponding to the insertion groove can be inserted, and the two heat insulating members 130 can be inserted into the first frame core 110 and the second frame core 110 in the longitudinal direction. (Not shown). After the heat insulating member 130 is inserted between the first frame core 110 and the second frame core 120, a separate pressing member approaches the upper and lower portions of the heat insulating binding portions 112 and 122 in the open space The solid coupling between the heat insulating binding portions 112 and 122 and the heat insulating member 130 can be formed.

After the first frame core 110 and the second frame core 120 are bound by the heat insulating member 130, the heat insulating fixing bracket 140 is inserted and fixed in the longitudinal direction through the bracket receiving portions 114 and 124 . The heat insulating fixing bracket 140 can be fixed to the first frame core 110 and the second frame core 120 by using the bracket fixing screws 50 at predetermined positions.

Since the heat insulating fixing bracket 140 may be a resin molding formed by extrusion molding and interposed between the first frame core 110 and the second frame core 120 in parallel with the heat insulating member 130, As shown in Fig.

In this embodiment, the heat-insulating fixing bracket 140 may include a first screw fixing portion 142 that is drawn out to have the same cross section in the longitudinal direction and is bent so as to protrude downward in an inverted U-shape. The heat fixing bracket 140 can have a high rigidity with respect to the bending direction by the first screw fixing portion 142 so that the position of the first screw fixing portion 142 corresponds to the screw hole of the upper pivot 30 And can be fixed with a high coupling force with the upper pivot 30.

Further, the inner width of the first screw fixing portion 142 may be smaller than the dimension of the pivot fixing screw 40 passing through the screw hole of the upper pivot 30. For example, the width of the first screw securing portion 142 may be smaller than the maximum diameter of the pivot securing screw 40 including the screw, and the pivot securing screw 40 may be fixed to the first screw securing portion 142, So that it can be fastened to the inner surface by screw coupling.

A second screw fixing portion 144 may be formed on an end surface of the heat insulating fixing bracket 140 in the same manner as the first screw fixing portion 142. The second screw fixing portion 144 can be bent in an inverted U-shape or a U-shape at both ends of the heat insulating fixing bracket 140, and the vertical height thereof can correspond to the height of the bracket accommodating portions 114 and 124 . The bracket fixing screw 50 passing through the second screw fixing portion 144 can pass through the bottom surface of the second screw fixing portion 144 and can be inserted into the first frame core 110 or the second frame core 120 The heat insulating fixing bracket 140 can be fixed.

The bracket receiving portions 114 and 124 are formed at the lower portion of the inner surfaces of the first frame core 110 and the second frame core 120. The first frame core 110 and the second frame core 120, The screw head receiving portions 116 and 126 are formed in the bottom surface of the bracket receiving portions 114 and 124 so that the bracket fixing screws 50 for fixing the second screw fixing portions 144 accommodated in the bracket accommodating portions 114 and 124 enter. The screw head receiving portions 116 and 126 and the bracket receiving portions 114 and 124 may be formed over the entire length of the first frame core 110 and the second frame core 120, And 126 may be exposed to the outside and therefore may be covered by the frame cover 150. [

Referring to FIG. 2, a hole through which the upper structure of the upper pivot 30 can enter may be formed in the heat insulating fixing bracket 140. The heat insulating fixing bracket 140 is inserted into the bracket receiving portions 114 and 124 after the first frame core 110 and the second frame core 120 are coupled by the heat insulating member 130, The heat insulating fixing bracket 140 is fixed by the bracket fixing screw 50 and then the pivot fixing screw 40 is inserted through the screw hole of the upper pivot 30 to be fixed to the first screw fixing portion 142 So that the upper pivot 30 can be fixed.

The upper hinge bracket 20 can be mounted on the upper portion corresponding to the hinge axis of the door 10 and the projecting shaft of the upper pivot 30 can be fixed to the upper hinge bracket 20. [

In mounting the upper pivot 30, it can be completed with a simple screw connection, and the process of cutting the aluminum plate can be omitted, and the work can be completed very quickly.

FIG. 4 is a view for explaining a cross section of a portion where the upper pivot is coupled in the heat insulating frame according to the embodiment of the present invention, and FIG. 5 is a sectional view of the heat insulating frame according to the embodiment of the present invention, Fig.

4, the pivot securing screw 40 may pass through the screw hole of the upper pivot 30 and the first screw securing portion 142. The pivot fixing screw 40 can be firmly fixed to the first screw fixing portion 142 while being fixed to the left and right inner walls.

5, the closing cover 160 is formed to have a substantially C-shaped cross-section, and the open region can be inserted and fixed so as to face the inside of the heat insulating frame 100. As shown in FIG. The first frame core 110 and the second frame core 120 are provided with the heat insulating binding portions 112 and 122 and the bracket receiving portions 114 and 124 The cover fixing portions 118 and 128 can be provided. The cover fixing parts 118 and 128 can be bent in a downward direction, that is, toward the bracket receiving part, and a latch can be formed at the end thereof.

The closing cover 160 can be inserted into an area where the heat insulating fixing bracket 140 is not provided and the end of the closing cover 160 is engaged with the cover fixing parts 118 and 128 .

The cover fixing portions 118 and 128 can perform other functions besides the use of binding with the closing cover 160 and the function of adjusting the vertical position of the closing cover 160. [ For example, as shown in FIG. 1, the cover fixing portions 118 and 128 can prevent the heat insulating fixing bracket 140 from being partially bent or pressed while blocking the upper surface of the heat insulating fixing bracket 140.

The outer surface of the first frame core 110 and the outer surface of the second frame core 120 may be covered by the frame cover 150. And the frame cover 150. The screw head receiving portions 116 and 126 can be blocked from the outside by using the frame cover 150 or the like.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

30: upper pivot 40: pivot set screw
50: bracket fixing screw 110: heat insulating frame
110: first frame core 120: second frame core
130: heat insulating member 140: heat insulating fixing bracket
142: first screw fixing portion 150: frame cover
160: Cover for finishing

Claims (7)

A first frame core that is coupled to one end of the heat insulating member and a second frame core that is coupled to the other end of the heat insulating member on the opposite side corresponding to the first frame core, In an adiabatic frame including two frame cores,
And an insulating fixing bracket interposed between the first frame core and the second frame core in parallel with the heat insulating member to fix the upper pivot,
Wherein the end face of the heat insulating fixing bracket has a first U-shaped bent portion protruding downward in an inverted U-shape so that a center portion thereof is positioned in the screw hole corresponding to a screw hole formed in the upper pivot for fixing the upper pivot to the heat insulating frame And a screw fixing portion. The method according to claim 1,
Wherein the heat insulating fixing bracket is a resin molding formed by extrusion molding. The method according to claim 1,
Wherein an inner width of the first screw fixing portion is formed to be smaller than a maximum diameter of a pivot fixing screw that passes through a screw hole of the upper pivot so that the fixed pivot fixing screw is fixed without shaking. The method according to claim 1,
Wherein the cross section of the heat insulating fixing bracket includes a second screw fixing portion bent in an inverted U-shape at both ends, and a bracket fixing screw is fixed to the first frame core or the second frame core through the second screw fixing portion And the heat insulating fixing bracket is fixed. 5. The method of claim 4,
Wherein the first frame core and the second frame core each have a bracket accommodating portion formed by being meshed with an inner surface facing each other for accommodating the second screw fixing portion and a bracket accommodating portion formed at the bracket accommodating portion, And a screw head receiving portion formed by being indented from the bottom surface to allow the fixing screw to enter. 6. The method of claim 5,
Wherein the first frame core and the second frame core include a cover fixing part formed between the heat insulating binding part bound to the heat insulating member and the bracket receiving part and bent in an a-shape toward the bracket receiving part,
And a finish cover formed in a U-shape and covering an area where the heat insulating fixing bracket is not inserted,
And an end portion of the finishing cover is engaged with an end of the corresponding cover fixing portion. The method according to claim 1,
Further comprising a frame cover covering an outer surface of the first frame core and the second frame core.

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