KR101455572B1 - Insulation for fittings frame members - Google Patents

Abstract

Disclosed is an insulation member for a window frame. According to an embodiment of the present invention, the insulation member for a window frame includes: an insertion portion inserted into a glass-connected window frame and has a first space portion formed therein; and insulating portions arranged symmetrically from the insertion portion, have a second space portion and a third space portion formed separately therein, and are inserted into and coupled with the window frame in a line contact state.

Description

[0001] Insulation for fitting frame members [0002]

The present invention relates to a heat insulating member installed in a window frame having a heat insulating function, and more particularly, to a heat insulating member installed in a window frame made of stainless steel or nonmetal and capable of minimizing the amount of heat transferred from the outside to the outside, To a heat insulating member for a frame.

Generally, a window is a window or door to be installed in an opening such as a window or an entrance to block the inside of the building from the outside. In recent years, a window having a single glass has poor heat insulation and soundproofing performance. Therefore, a double glass such as a pair glass is mostly used for windows installed in public offices, schools, hospitals, shopping malls, and houses where a certain range of insulation and soundproofing is required .

The window frame used for fixing the double glass is typically formed of a rectangular frame when a door, a window, an inner partition of the room, or the like is installed, and the double glass is installed in the inside of the square body, A door for the door is installed.

In the conventional frame for a window frame, a stainless steel frame is manufactured by cutting and bending a stainless steel frame, and a stainless steel frame is cut or bent in the stainless steel frame so as to make the outer frame more rigid. Install a reinforcement frame.

However, in the conventional frame for a window, both the front and rear sides are in contact with the inside and outside of the double glass, respectively, with the double glass being installed on one side. The frame for window is made of an integral metal plate, There is a problem that the heat resistance is lowered due to a lot of heat loss, condensation due to temperature difference between indoor and outdoor is generated, and the steel reinforcing frame easily rusts and rusts down due to such condensation phenomenon.

Korean Patent No. 10-0707388 (Registered on April 6, 2007)

Embodiments of the present invention provide a heat insulating member for a window frame that is installed in a window frame connected to a glass and minimizes the transfer of outdoor or outdoor heat from the room to the outside.

According to an aspect of the present invention, there is provided an electronic device comprising: a fitting portion inserted into a window frame connected to a glass and having a first space portion formed therein; And a heat insulating portion disposed symmetrically with respect to the fitting portion and independently formed with a second space portion and a third space portion and being fitted in a state of being in line contact with the window frame.

Wherein the fitting portion includes: a first contact portion that is in close contact with an inner surface of the window frame; And a first round section rounded inward at each corner of the window frame with respect to the longitudinal direction of the fitting section.

And the first round part is symmetrical.

The second and third spaces may be relatively larger than the first space.

The heat insulating portion includes a second rounded portion rounded inward toward a neighboring edge after having been in line contact with an inner corner position of the window frame.

The heat insulating portion includes a third round portion each rounded toward the center of the fitting portion at a position facing the first round portion.

And the heat insulating member for the window frame is made of a polymer compound.

According to another aspect of the present invention, there is provided a heat insulating member for a window frame, the heat insulating member comprising: a fitting portion inserted into a window frame connected to a glass and having a divided space portion divided into a plurality of spaces; And a heat insulating portion disposed symmetrically with respect to the fitting portion and independently formed with a second space portion and a third space portion and being fitted in a state of being in line contact with the window frame.

The divided space portions are each formed of the same space.

The heat insulating portion includes an inclined portion which is in line contact with the inner side of the window frame in a triangular shape.

The embodiments of the present invention minimize the amount of external heat and / or high-temperature heat transferred through the heat-insulating member installed in the window frame to indoor and outdoor environments, thereby improving the heat insulation performance, The load can be saved.

In the embodiments of the present invention, friction between the heat insulating member and the window frame is reduced because the window frame and the heat insulating member are in line contact with each other, and the shape of the heat insulating member is changed into a rounded curved shape, It can be stably supported within a certain range with respect to an external force generated by the horizontal bar, and the weight of the glass is stably supported by the horizontal bar, thereby further improving safety.

The embodiments of the present invention are arranged in such a manner that the horizontal bar and the vertical bar are wrapped inside the heat insulating member, thereby preventing the heat from being separated from the heat insulating member and minimizing the possibility of breakage.

The embodiments of the present invention minimize the contact surface between the outer metal frame and the heat insulating member and form a space therebetween to diffuse the thermal energy passing through the heat insulating member into a plurality of spaces, , It is easy to install easily in the window frame, and the workability of the operator is improved.

1 is a sectional view showing a heat insulating member for a window frame according to an embodiment of the present invention;
2 is a sectional view showing a heat insulating member for a window frame according to another embodiment of the present invention.
3 is a cross-sectional view illustrating a heat insulating member for a window frame according to another embodiment of the present invention.
4 is a view showing a state of use of a heat insulating member for a window frame according to an embodiment of the present invention.
FIG. 5 is a use state of a heat insulating member for a window frame according to another embodiment of the present invention. FIG.
6 is a front view showing a window frame provided with a heat insulating member according to an embodiment of the present invention;

The construction of a heat insulating member for a window frame according to an embodiment of the present invention will be described with reference to the drawings.

Referring to FIG. 1, the heat insulating member 1 for a window frame comprises: a fitting portion 100 inserted into a window frame 2 connected to a glass 3 and having a first space portion 102 formed therein; And a second space part 210 and a third space part 220 which are arranged symmetrically with respect to the fitting part 100 and are independently engaged with each other in a state of being in line contact with the window frame 2, (200).

6, the vertical bar 2b is fitted to the horizontal bar 2a and the vertical bar 2b of the window frame 2 shown in Fig. 6, in which an external force is applied to the heat insulating member 1 It is possible to prevent the separation phenomenon by stably holding the inner side of the heat insulating member 1 and prevent damage due to breakage, to improve the supporting performance, to improve the workability of the worker, Is minimized and durability is improved.

Further, the glass (3) is maintained in a state where the double heat insulating glass is used and the window frame (2) is stably bonded to the window frame (2) by silicon.

Particularly, in this embodiment, the contact surface between the window frame 2 and the heat insulating member 1 is minimized and the heat insulating function is maximized, and the heat insulating member 1 is installed so as to surround the window frame 2, The separation and breakage of the window frame 1 and the window frame 2 are prevented and the safety is maximized.

The heat insulating member 1 for a window frame according to the present embodiment is made of a polymer compound and is made of any one of plastic or rubber but can be treated with another material and other materials which maintain the heat insulating performance can be used Leave.

It is noted that the first space portion 102 is formed in a hollow state and is not limited to the shape and thickness shown in the drawings, but can be changed to other shapes and thicknesses.

The fitting portion 100 includes a first tightening portion 110 extending in a predetermined length in the lateral direction with respect to the drawing and closely contacting with the window frame 3 in the longitudinal direction toward the window frame 2, And includes a first round portion 120 rounded inward at each corner of the window frame 2 with respect to the longitudinal direction of the portion 100.

The first round portion 120 is symmetrical to the left and right in accordance with the drawing reference, and the degree of rounding and the radius are not necessarily limited to the shapes shown in the drawings.

For example, in the first round part 120, as the rounding radius increases, the space in the hollow state is increased to improve the adiabatic effect. However, since the first round part 120 may be structurally weakened or deformed, It is preferable that a round is achieved with a radius not exceeding 1/5 or more or 1/6 or less.

The heat insulating portion 200 is formed symmetrically in the upward and downward directions with respect to the fitting portion 100. The second space portion 210 and the third space portion 220 have the same space, The size of the portion 102 is relatively large. This is because the second space 210 can be directly transferred with the thermal energy contained in the outside air via the window frame 2 and can be moved to the fitting 100 so that the area of the second space 210 is reduced 1 space is relatively larger than the area of the space 102, the heat insulating effect is increased and the heat loss can be minimized.

In addition, in order to minimize the heat transfer to the room by delaying the time for the thermal energy transferred to the second space part 210 to diffuse toward the first space part 102, as much as possible.

The third space 220 is formed of the second space 210 and the cavity space, and the second space 210 is transmitted to the room while being diffused by the cool heat energy externally transmitted through the fitting part 100 Thereby minimizing the transfer of cold or hot heat energy, thereby minimizing heating or cooling costs and improving thermal efficiency.

The heat insulating portion 200 according to the present embodiment is fitted to the window frame 2 in a state in which the window frame 2 is in line contact with the edge position. 1) can be inserted, so that the workability of the operator is improved and the construction becomes more convenient.

The heat insulating portion 200 includes a second round portion 202 rounded inward toward a corner adjacent to the edge of the window frame 2 after being linearly contacted with the inner edge of the window frame 2, And a space required for heat insulation is formed on the left side, the right side and the upper side, respectively, and the external force generated when the heat insulating member 1 is inserted into the window frame is stably supported and reinforced.

For example, when the operator inserting the heat insulating member 1 in a hand-held state, each corner point of the second round portion 202 is inserted in a state of being in line contact with the inner edge of the window frame 2 The frictional energy between the window frame 2 and the heat insulating member 1 is minimized so that the rounded portion of the second round portion 202 is directed toward the second space portion 210 or the third space portion 220 A certain portion of the flow is generated and can be inserted into the window frame 2 more easily. Therefore, the operator can easily insert the heat insulating member (2) into the window frame (2) even with a small force.

The heat insulating portion 200 includes a third round portion 204 each rounded toward the center of the fitting portion 100 at a position facing the first round portion 120. The third round portion 204 is formed on the upper and lower portions with respect to the fitting portion 100 so that when the heat insulating portion 200 is fitted to the window frame 0, elastic restoring force is applied to the upper and lower portions in the left- So that the operator can insert the heat insulating member 1 into the window frame 2 more conveniently.

The construction of a heat insulating member for a window frame according to another embodiment of the present invention will be described with reference to the drawings.

Referring to FIG. 2, the heat insulating member 1a for a window frame is inserted into a window frame 2 connected to the glass 3, and has a plurality of divided divided spaces 130 formed therein, 100); And a second space part 210 and a third space part 220 which are arranged symmetrically with respect to the fitting part 100 and are independently engaged with each other in a state of being in line contact with the window frame 2, (200).

The heat insulating member 1a for a window frame according to the present embodiment is made of a polymer compound. For example, the heat insulating member 1a may be made of plastic but may be made of other materials and other materials that maintain the heat insulating performance may be used.

Each of the divided space portions 130 is formed of the same space, and is divided by the partition 104 to form a hollow state therein. The divided space part 130 minimizes the transfer of cold heat energy or hot heat energy transferred from the outside air to the room through a plurality of divided spaces, thereby minimizing waste of energy due to heat loss.

The divided space part 130 is divided into at least four or more spaces. It is preferable that the space is formed symmetrically to the left or right or up and down to retard the thermal diffusion even when the thermal energy is concentrated in one direction.

The heat insulating portion 200 includes an inclined portion 201 that is in line contact with the inside of the window frame 2 in a triangular shape and the inclined portion 201 is in line contact with the inner center of the window frame 2, And is in a state of being in line contact with the inner side of the window frame. Therefore, the space required for easy insertion and thermal diffusion of the heat insulating member 1a is sufficiently formed, so that the amount of heat loss can be minimized.

The construction of a heat insulating member for a window frame according to another embodiment of the present invention will be described with reference to the drawings.

Referring to FIG. 3, the heat insulating member 1b for a window frame includes a fitting portion 100 inserted into a window frame 2 connected to a glass 3 and having a first space portion 102 formed therein; And a second space part 210 and a third space part 220 which are arranged symmetrically with respect to the fitting part 100 and are independently engaged with each other in a state of being in line contact with the window frame 2, (200). 6, the vertical bar 2b is fitted to the horizontal bar 2a and the vertical bar 2b of the window frame 2 shown in Fig. 6, in which an external force is applied to the heat insulating member 1 It is possible to prevent the separation phenomenon by stably holding the inner side of the heat insulating member 1 and prevent damage due to breakage and to improve the supporting performance and to improve the workability of the operator and the durability .

The heat insulating member 1 for a window frame according to the present embodiment is made of a polymer compound and is made of any one of plastic or rubber but can be treated with other materials and other materials that maintain the heat insulating performance can be used Leave.

It is noted that the first space portion 102 is formed in a hollow state and is not limited to the shape and thickness shown in the drawings, but can be changed to other shapes and thicknesses.

The fitting portion 100 includes a first tightening portion 110 extending in a predetermined length in the lateral direction with respect to the drawing and closely contacting with the window frame 3 in the longitudinal direction toward the window frame 2, And includes a first round portion 120 rounded inward at each corner of the window frame 2 with respect to the longitudinal direction of the portion 100.

The first round portion 120 is symmetrical to the left and right in accordance with the drawing reference, and the degree of rounding and the radius are not necessarily limited to the shapes shown in the drawings.

For example, in the first round part 120, as the rounding radius increases, the space in the hollow state is increased to improve the adiabatic effect. However, since the first round part 120 may be structurally weakened or deformed, It is preferable that a round is achieved with a radius not exceeding 1/5 or more or 1/6 or less.

The heat insulating portion 200 is formed symmetrically in the upward and downward directions with respect to the fitting portion 100. The second space portion 210 and the third space portion 220 have the same space, The size of the portion 102 is relatively large.

This is because the second space 210 can be directly transferred with the thermal energy contained in the outside air via the window frame 2 and can be moved to the fitting 100 so that the area of the second space 210 is reduced 1 space is relatively larger than the area of the space 102, the heat insulating effect is increased and the heat loss can be minimized.

In addition, in order to minimize the heat transfer to the room by delaying the time for the thermal energy transferred to the second space part 210 to diffuse toward the first space part 102, as much as possible.

The third space 220 has the same space as that of the second space 210 and is transmitted to the room while being diffused by the second space 210 and the external cool heat energy passing through the fitting part 100 Thereby minimizing the transfer of cold or hot heat energy, thereby minimizing heating or cooling costs and improving thermal efficiency.

The heat insulating portion 200 according to the present embodiment is fitted to the window frame 2 in a state in which the window frame 2 is in line contact with the edge position. 1b) can be inserted, so that the workability of the operator is improved and the construction becomes more convenient.

The heat insulating portion 200 includes a second round portion 202 rounded inward toward a corner adjacent to the edge of the window frame 2 after being linearly contacted with the inner edge of the window frame 2, And a space required for heat insulation is formed on the left side, the right side and the upper side, and the external force generated when inserting the heat insulating member 1b into the window frame 2 is stably supported and reinforced.

For example, when the operator inserting the heat insulating member 1b in a hand-held state, each corner point of the second round portion 202 is inserted in a state of being in line contact with the inner edge of the window frame 2 At this time, a certain portion of the flow is generated from the rounded portion of the second round portion 202 toward the second space portion 210 or the third space portion 220 and can be more easily inserted into the window frame 2 do. Therefore, the operator can easily insert the heat insulating member (2) into the window frame (2) even with a small force.

The heat insulating portion 200 includes a third round portion 204 each rounded toward the center of the fitting portion 100 at a position facing the first round portion 120. The third round portion 204 is formed on the upper and lower portions with respect to the fitting portion 100 so that when the heat insulating portion 200 is fitted to the window frame 0, elastic restoring force is applied to the upper and lower portions in the left- So that the operator can insert the heat insulating member 1b into the window frame 2 more conveniently.

The use state of the heat insulating member for a window frame according to an embodiment of the present invention will be described with reference to the drawings.

4, the heat insulating member 1 is formed such that low-temperature cold air formed outdoors in the state of being inserted into the window frame 2 is diffused firstly through the window frame 2 and the second space portion 210 As a result, the heat energy is partially reduced. In addition, since heat is diffused in the first space part 102 of the fitting part 100, the heat is diffused once again toward the left, right and center in the third space part 220 and then transferred to the room. The amount of heat loss lost through the window frame 2 is minimized since the heat is introduced into the room with minimized thermal energy.

In addition, the coldness felt by the room member who is re-occupied in the room is also reduced, so that the heating effect can be maintained for a long time only by the minimum heating.

Referring to FIG. 5, the heat insulating member 1a is formed so that low-temperature cold air, which is formed outdoors in the state where it is inserted into the window frame 2, is firstly diffused through the window frame 2 and the second space 210 As a result, the heat energy is partially reduced. In addition, since the diffusion and retardation are generated in the space of the divided space part 130 formed in the fitting part 100, the speed of moving to the room via the fitting part 100 is remarkably reduced.

Therefore, the heat energy to be transferred to the room is minimized, and the amount of heat loss lost through the window frame 2 is minimized.

In addition, the coldness felt by the room member who is re-occupied in the room is also reduced, so that the heating effect can be maintained for a long time only by the minimum heating.

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 of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

1, 1a, 1b:
2: window frame
100:
102:
110: first tightening portion
120: first round section
200:
202: second round section
204: Round 3
210:
220: third space part
103:
201:

Claims (10)

delete A fitting portion inserted into a window frame connected to the glass and having a first space portion formed therein; And
And a heat insulating portion disposed symmetrically with respect to the fitting portion and independently formed with a second space portion and a third space portion and being fitted in a state of being in line contact with the window frame,
In the fitting portion,
A first tight contact portion which is in close contact with an inner surface of the window frame;
And a first round portion rounded inward from each corner portion of the window frame with respect to the longitudinal direction of the fitting portion. 3. The method of claim 2,
Wherein the first round section includes:
Wherein the heat insulating member is symmetrical. delete delete delete delete delete delete delete

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