KR20140114604A - Wind-break subsidiary materials for windows - Google Patents

Abstract

The present invention relates to a windbreaking apparatus for sash windows which is installed at window and window sill frames to block outside air from being introduced indoor through the sash windows so as to improve indoor warming effect. According to the present invention, in the windbreaking apparatus for sash windows including a vertical frame installed at both edges of a sash window installing hole at a wall body of a building to be vertically extended; a window sill frame including a horizontal frame connecting an upper end and a lower end of the vertical frame; a sliding frame slidably coupled to the horizontal frame; and a window frame including a coupling frame vertically connecting both ends of the sliding frame, the vertical frame includes a base portion; and a first windbreaking member protruded from the base portion in a forward direction, having a vertically extended protruded portion, and coupled to the protruded portion, and the coupling frame includes an insertion portion in which an inserting groove is formed to enable the protruded portion to be inserted and inserted to surround the coupling frame to make the first windbreaking member to be inserted; and a second windbreaking member including a fastening portion extended from the insertion portion to be fastened to the coupling frame.

Description

{Wind-break subsidiary materials for windows}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a windshield device for a window, and more particularly, to a windshield device for a window that is installed in a window and a window frame frame to prevent outdoor air from entering the room through a window .

Generally, the windshield member functions to seal the gap by attaching to a groove of a window frame frame in which a window is put in and out, a side surface of a window frame, or a frame of an insect screen to prevent intrusion of insects.

The windshield member used for the purpose of performing such functions is mainly composed of synthetic resin such as monofilament yarn and nonwoven fabric in the grooves formed in the flat portion of the base band and is excellent in resilience and resilience comparable to those of durable and corrosion- And the airtight member is fixed using ultrasonic waves, a strong adhesive, or the like.

In the case of the conventional windshield member having such a configuration, the airtightness of the airtightness member is worn out over time, and the airtightness of the airtightness member is spaced apart from the window frame or the frame of the window.

Recently, there has been an increase in the use of wind-resistant paper that is formed of a material having elasticity, one side thereof is attached to a window, and the other side is kept in contact with the window frame frame to block the wind. Therefore, there has been a problem that the windshield effect is deteriorated due to heat deformation or deformation due to ultraviolet rays as time passes.

Registration Practical Utility Model No. 20-0372399: Windproof member for windows Japanese Patent Laid-Open No. 10-2005-0020256: A wind-resistant member provided with an antibacterial function

It is an object of the present invention to provide a windshield device for a window that can be easily mounted on a window or a window frame.

In order to accomplish the above object, a wind guard for a window according to the present invention includes a vertical frame extending vertically on both side edges of a window mounting hole of a building wall, and a horizontal frame connecting upper and lower ends of the vertical frame A window including a window frame frame, a sliding frame slidably coupled to the horizontal frame, and a window frame including upper and lower ends of the slidable frame, the vertical frame including a base portion, A first windshield member protruding forward from the base portion and extending upward and downward, a first windshield member coupled to the protrusion, and an engagement groove formed in the engagement frame so that the protrusion can be inserted, And an insertion portion to which the first windshield member is inserted, Extending a second windbreak member including a fastening which is able to be fastened to the coupling frame.

The insertion portion is formed to be inserted into the insertion groove and to be inserted into the first windshield member installed at the projection portion. The coupling portion is formed from the end portion of the insertion portion along the front surface of the coupling frame, A second fastening portion extending rearward from the first fastening portion along a side surface of the coupling frame, and a second fastening portion extending from the end of the second fastening portion toward a third window provided on the coupling frame, And the second windshield member is tightly attached to the side surface of the coupling frame by an elastic force, and the third coupling portion is engaged with the rear end of the coupling frame.

A first extending portion extending from both ends of the contact portion along a side surface of the protrusion toward the base portion; and a second extending portion extending from an end of the first extending portion A second extension extending toward the base and a third extension extending from the end of the second extension to contact the front surface of the base, wherein the first extension has a width between the rear ends, Wherein the second extending portion is extended at a predetermined angle in a direction away from the protruding portion as the second extending portion is extended rearward from the first extending portion, Extends further from the end of the extension portion toward the base portion in a direction away from the projection portion And the first windshield member is formed of a synthetic resin capable of being elastically deformed.

Wherein a wing groove is formed at an outer side surface of the first extending portion, the wing groove extending inwardly from a front side of the wing groove and a wider groove extending from the end of the through groove to a wider width than the through groove, Wherein one end is inserted into the through groove and the extended groove to be fixed to the first extending portion and the other side is formed so as to be separated from the lead groove and to be opened outwardly through an insert injection, And a blocking blade formed on the inner circumferential surface of the inserting portion of the second windshield member and having a closing window when the coupling frame is engaged with the vertical frame, And a magnet portion that widens to the outside and makes contact with the inner circumferential surface of the inserting portion.

The windshield device for a window according to the present invention is advantageous in windshielding effect, long service life, easy installation and excellent workability.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially cutaway perspective view of a window provided with a wind guard for a window according to the present invention;
FIG. 2 is an exploded perspective view showing the window frame, the window frame, and the window windshield of FIG. 1;
FIGS. 3 and 4 are a plan view of a window provided with the window windshield device of FIG. 1,
5 is a perspective view showing another embodiment of a wind guard for a window,
6 is a sectional view showing a closed state of the window provided with the windshield device for a window shown in Fig.

Hereinafter, a windshield device for a window according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show a first embodiment of a wind guard 100 for a window according to the present invention.

The windshield device 100 for a window includes a first windshield member 110 installed on a window frame 10 and a second windshield member 130 installed on a window frame 20.

First of all, when looking at the window frame 10 and the window frame 20 constituting the window, the window frame 10 is installed at the edge of the window mounting hole formed in the wall, and two vertical frames And a horizontal frame 14 extending in the horizontal direction so as to connect the upper and lower ends of the two side vertical frames 11, respectively. And a protrusion 13 protruding forward from the front surface of the base portion 12. The protrusion 13 protrudes forward from the front surface of the base portion 12 in the case of the vertical frame 11,

The window frame 20 is also slidable along the window frame 10 in the horizontal direction so that the window frame 20 is supported by the horizontal frame 14 and is supported by the horizontal frame 14 And a coupling frame 22 connected to the vertical frame 11 by vertically connecting the left and right ends of the sliding frame 21 to each other. The joining frame 22 is formed with a lead-in groove 23 so that the projecting portion 13 of the vertical frame 11 can be drawn when the window is closed.

The first windshield member 110 constituting the windshield device 100 for a window is attached to the protruding portion 13 of the vertical frame 11 to extend vertically and the second windshield member 130 is fixed to the coupling frame 22 And is coupled to or separated from the first windshield member 110.

The first windshield member 110 includes a contact portion 111 which contacts the tip end of the projection 13 and a contact portion 111 which contacts the base portion along the side surface of the projection portion 13 at both ends of the contact portion 111. [ A first extension 112 extending toward the base 12 at an end of the first extension 112 and extending obliquely in a direction away from the side of the projection 13, And a third extension portion 114 extending to contact the entire surface of the base portion 12 at the end of the second extension portion 113. [

The first wind deflector 110 is formed by extruding synthetic resin and is made of a material having an elastic force. In particular, the distance between the rear end portions of the first extension portion 112 and the rear end portions is relatively And the rear end of the first extending portion 112 is extended while being engaged with the protruding portion 13. The first extending portion 112 is fastened by the elastic force of the first extending portion 112, Tightly while pressing both side surfaces of the projecting portion 13. A double-sided tape 115 is attached to the inside of the contact portion 111 so that the contact portions 111 and the tips of the projections 13 are bonded to each other.

The second wind deflector 130 is installed in the window frame 20 as described above and includes an insertion portion 131 inserted into the insertion groove 23 of the coupling frame 22, And a coupling part 133 extending along the front and side surfaces of the coupling frame 22 at the front side.

The insertion portion 131 extends inwardly of the coupling frame 22 along both inner circumferential surfaces of the insertion groove 23 and when the first windshield member 110 installed in the protrusion 13 and the projection 13 enters The first extension portion 112 and the second extension portion 113 are fitted to each other while being in contact with the inner peripheral surface of the insertion portion 131.

The fastening part 133 includes a first fastening part 134 extending along the front surface of the fastening frame 22 at an end of the insertion part 131 and a second fastening part 134 extending from the end of the fastening part 134 And a third fastening portion 136 extending toward the windshield 24 along the rear surface of the fastening frame 22 at the end of the second fastening portion 135 do.

The first coupling part 134 is engaged with the front surface of the coupling frame 22 and contacts the third extension part 114 which is in contact with the base part 12 or the base part 12. The third fastening part 136 extends a predetermined length toward the windshield 24 along the rear surface of the coupling frame 22 at the end of the second fastening part 135.

The second wind deflector 130 is also formed by extruding and molding a synthetic resin having an elastic force so that the insertion portion 131 is inserted into the inlet groove 23 in a state in which the third coupling portion 136 and the second coupling portion 135 are open The second fastening part 135 is in tight contact with the side surface of the fastening frame 22 and the fastened state is maintained. In particular, when the second fastening part 135 and the third fastening part 136 are disposed, Can be prevented from being separated from the coupling frame 22 in the process of separating the coupling frame 22 from the vertical frame 11 by extending the coupling frame 22 in a bent state toward the windshield 24 .

The window wind guard 100 of the present embodiment is configured such that when the window is closed the first wind guard member 110 is coupled to the second wind guard member 130 and the outside air is blown between the window frame 10 and the window frame 20 It is possible to increase the effect of shielding the outside air by completely blocking the space to block the inflow into the room through the space. The second windshield member 130 mounted on the window frame 20 is hooked on the rear surface of the coupling frame 22 by the third fastening member 136 included in the second windshield member 130 without a separate adhesive means Since it keeps the fastened state, it is very easy to attach and detach, which is convenient for installation.

5 and 6 show a second embodiment of windshield device 100 for a window.

The windshield device 100 for a window according to the present embodiment is characterized in that the first windshield member 110 is formed with a blade groove 121 on the outer peripheral surface side of the first extension portion 112, 124 are formed through insert injection.

Referring to FIG. 5, the wing groove 121 is extended inwardly from the outer circumferential surface of the first extension portion 112 to a predetermined depth. A through groove 122 extending inwardly from the wing groove 121 and an enlarged groove 123 extending in the front and rear direction at the end of the through groove 122 are formed on the front side of the wing groove 121 .

The first windshield member 110 is formed by extruding a synthetic resin through extrusion molding and then cutting into unit lengths. The blocking wings 124 are formed by injection molding into the first windshield member 110 through an insert injection. Since the molten resin is filled in the expansion grooves 123 and the through holes during the injection process, the blocking blades 124 are maintained in a coupled state without being separated from each other as they are physically engaged with the first windshield member 110 .

The synthetic resin for forming the blocking blade 124 is made of a synthetic resin not chemically bonded to the synthetic resin for forming the first windshield member 110 so that the blades 121 and the blocking blades 124 are not bonded to each other . The synthetic resin for molding the blocking blade 124 contains a magnet so that it can be magnetically coupled to the magnetic body.

In the case of the second windshield member 130, a magnet portion 132 is provided on the insertion portion 131 so as to extend along the longitudinal direction. The magnet portion 132 may be formed by attaching a magnet on a strip through a post-process after extrusion molding of the second windshield member 130, or may be formed by insert injection of a synthetic resin containing a magnet.

6, even when a space is formed between the first windshield member 110 and the second windshield member 130, the first windshield member 110 Is inserted into the insertion portion 131 of the second wind deflector 130, the blocking wing 124 is opened by the magnetic force of the magnet portion 132 to come into contact with the inner surface of the insertion portion 131, It is possible to block the inflow passage.

The windshield device 100 for a window according to the present invention described above is simple in construction and excellent in the effect of blocking outside air.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10; Window frame frame
11; Vertical frame 12; Base portion
13; A protrusion 14; Horizontal frame
20; Window frame
21; A sliding frame 22; Coupled frame
23; Inlet groove 24; sash
100; Windshield for windows
110; The first wind-
111; A contact portion 112; The first extension
113; A second extension 114; The third extension
115; Double-sided tape
121; A wing groove 122; Through groove
123; Expansion grooves 124; Blocking wing
130; The second wind-
131; An insertion portion 132; The magnet portion
133; Fastening portion 134; The first fastening portion
135; A second fastening portion 136; The third fastening portion

Claims (3)

A window frame frame including a vertical frame extending up and down on both side edges of a window mounting hole of a building wall and a horizontal frame connecting the upper and lower ends of the vertical frame and a sliding frame slidably coupled to the horizontal frame, And a window frame including a joining frame for vertically connecting both ends of the slidable frame,
The vertical frame includes a base portion and a first wind deflector protruding forward from the base portion and having protrusions extending upward and downward, the first wind guard member being coupled to the protrusions;
The coupling frame includes an insertion portion formed with an insertion groove for allowing the projection to be inserted therein, an insertion portion installed to surround the coupling frame and inserted with the first windshield member, and an insertion portion extending from the insertion portion, And a second wind deflector including a fastening portion adapted to be engaged with the first wind shield,
The insertion portion is formed to be inserted into the insertion groove and to be inserted into the first windshield member installed at the projection portion. The coupling portion is formed from the end portion of the insertion portion along the front surface of the coupling frame, A second fastening portion extending rearward from the first fastening portion along a side surface of the coupling frame, and a second fastening portion extending from the end of the second fastening portion toward a third window provided on the coupling frame, And a fastening portion,
Wherein the second windshield member is tightly attached to the side surface of the coupling frame by an elastic force and the third coupling portion is engaged with the rear end of the coupling frame. The method according to claim 1,
A first extending portion extending from both ends of the contact portion along a side surface of the protrusion toward the base portion; and a second extending portion extending from an end of the first extending portion A second extension extending toward the base and a third extension extending from the end of the second extension to contact the front surface of the base,
Wherein the first extending portion is formed to be relatively small in width between a rear end portion and a front end portion connected to the front end portion and the second extending portion is formed in a direction away from the protruding portion as it extends rearward from the first extending portion And the third extending portion extends more inclinedly in a direction away from the protruding portion as it extends from the end of the second extending portion toward the base portion,
Wherein the first windshield member is formed of a synthetic resin capable of being elastically deformed. 3. The method of claim 2,
Wherein a wing groove is formed at an outer side surface of the first extending portion, the wing groove extending inwardly from a front side of the wing groove and a wider groove extending from the end of the through groove to a wider width than the through groove, The extended grooves are formed,
One end of the magnet powder is inserted into the through groove and the extension groove through the insert injection and is fixed to the first extension portion and the other side is separated from the lead groove and can be opened outwardly, A shielding blade formed of a synthetic resin material including the shielding blade,
And a magnet portion formed on an inner circumferential surface of the insertion portion of the second windshield member and configured to contact the inner circumferential surface of the insertion portion when the window is closed so that the blocking wing extends outward when the joining frame is engaged with the vertical frame. Windshield device for windows.

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