CN111886395A - Rainwater inflow prevention panel for door and window - Google Patents

Abstract

The invention provides a door and window rainwater inflow prevention panel, and particularly relates to a door and window rainwater inflow prevention panel which is installed on an insect prevention net to prevent rainwater from entering a room under the condition that a window is opened. The invention relates to a door and window rainwater inflow prevention panel, comprising: a frame formed in a rectangular hollow shape by combining a pair of horizontal members and a pair of vertical members; a pair of sliders movably inserted along an inside of the vertical member; and a plurality of blades horizontally arranged and having both ends thereof slantingly mounted on a pair of the sliders; an insertion hole into which the slider is inserted is formed in the vertical member in a vertical direction, the insertion hole is formed to be open in a direction in which the vertical members face each other, and the slider is formed into a rod shape to be inserted into the insertion hole, a plurality of transparent blades are detachably mounted on the slider, and the blades mounted on the slider are mounted inside the frame through the insertion hole.

Description

Rainwater inflow prevention panel for door and window

Technical Field

The present invention relates to a door and window rainwater inflow prevention panel, and more particularly, to a door and window rainwater inflow prevention panel installed on an insect net to prevent rainwater from entering a room when a window is opened.

Background

Generally, an insect net is a net for preventing mosquitoes, flies and other harmful insects from entering a room, and the net is woven together with fine threads made of fine threads or synthetic resin, and generally, an insect net is used for preventing harmful insects such as mosquitoes and flies from flying into a room in summer, and is installed on a window of the room or a window of a living room, and the window of the window or the living room is made of glass and is fixedly installed at the rear of the window (outside the room).

The insect net is not used because the window is closed in cold winter, but in spring and autumn, especially in hot summer, because the weather is hot, the window is kept open to communicate fresh air outside with hot air inside the room, and at this time, outdoor vermin such as mosquitoes, flies, etc. are introduced into the room, and the insect net is an indispensable facility in summer in order to prevent inflow of the vermin.

However, in spring and autumn, particularly summer, it is often rained, the weather is hot, and if it rains, and the window is opened, rainwater falls through the insect-proof mesh, and the entered rainwater flows into the room, and therefore, the window is closed without ventilation in spite of the hot weather, particularly in the apartment today, the space for the balcony is lost due to the enlargement of the living room, and the above-mentioned rainwater intrusion becomes more problematic.

In addition, when raining under the condition of windowing, rainwater enters the insect-proof mesh, water is accumulated in a living room or a room, and therefore the wood floor needs to be discarded frequently.

In order to solve this problem, there is disclosed a device installed at the rear side of an insect net to prevent rainwater from flowing into a room.

In the existing rainwater inflow prevention panel as described above, a plurality of inclined blades (inclined plates) are installed, which may be damaged by long-term use, and transparent blades may be discolored and thus must be replaced.

However, in the existing rainwater inflow prevention panel, it is difficult for a user to replace the blade, and the structure is complicated or it is difficult to assemble the rainwater inflow prevention panel.

Disclosure of Invention

Technical problem to be solved

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a rainwater inflow prevention panel for a window and door, which is easily assembled and can be replaced with a damaged and discolored blade.

Technical scheme

In order to achieve the above object, a door/window rainwater inflow prevention panel according to the present invention is a door/window rainwater inflow prevention panel installed on a window to prevent external rainwater from flowing into the interior of the window, the door/window rainwater inflow prevention panel including: a frame formed in a rectangular hollow shape by combining a pair of horizontal members and a pair of vertical members; a pair of sliders movably inserted along an inside of the vertical member; and a plurality of blades horizontally arranged and having both ends thereof slantingly mounted on a pair of the sliders; an insertion hole into which the slider is inserted is formed in the vertical member in a vertical direction, the insertion hole is formed to be open in a direction in which the vertical members face each other, and the slider is formed into a rod shape to be inserted into the insertion hole, a plurality of transparent blades are detachably mounted on the slider, and the blades mounted on the slider are mounted inside the frame through the insertion hole.

An inclined groove is formed in the slider, and the vane is obliquely inserted and mounted in the inclined groove, one end of which is opened outward, so that the vane is inserted into the inclined groove through the opened one end of the inclined groove.

The vertical member includes: a first cover portion and a second cover portion that are provided apart from each other in a front-rear direction; and a connecting cover portion for connecting the first cover portion and the second cover portion; the vertical member is formed with the insertion holes opened in the opposite direction of the connection cover portion inside by the connection of the first cover portion, the second cover portion and the connection cover portion, and the slider includes: a first support plate opposite to the first cover part; a second support plate opposite to the second cover part; a connection support plate for connecting the first support plate and the second support plate, the inclined groove being formed on the first support plate and the connection support plate, and one end of the inclined groove being outwardly opened through the first support plate, the outwardly opened end of the inclined groove being covered and hidden by the first support plate when the slider is inserted into the insertion hole.

The connection cover part and the connection support plate are spaced apart from each other, and the blade formed in a flat plate shape includes: a main body portion disposed between the sliders; an insertion portion protruding from the main body portion to both sides and inserted into the inclined groove; and a locking part further protruding from the insertion part and disposed between the connection cover part and the connection support plate, a locking groove caught on the connection support plate being formed between the main body part and the locking part, and a width of the main body part being greater than a width of the locking part.

The second cover portion has a first guide protrusion formed long in a vertical direction, and the second support plate has a first guide groove inserted into the first guide protrusion, the first guide groove moving along the first guide protrusion when the slider is inserted into the insertion hole.

The first and second cover portions are formed with coupling holes, and the horizontal member is connected to the coupling holes in a direction opposite to the insertion holes with respect to the connection cover portion, the horizontal member including: a horizontal rod portion; and coupling protrusions protruding from both ends of the horizontal bar part to be detachably inserted and mounted in the coupling holes.

The first and second cover parts have second guide protrusions formed long in a vertical direction in the coupling hole, and second guide grooves into which the second guide protrusions are inserted are formed in the coupling protrusions.

The coupling protrusion has an elastic pressing part protruding in a direction of the connection cover part, and the second guide groove is formed between the coupling protrusion and the elastic pressing part, and the elastic pressing part is in close contact while being elastically pressed by the connection cover part when the coupling protrusion is inserted into the coupling groove.

The blade is made of polycarbonate and is formed as a flat plate penetrating between a pair of rollers.

The vertical member is formed by being divided into a plurality, and the divided vertical members are connected to each other in a straight line by a connection member.

The frame is mounted on a rail of an insect net or a window frame.

Advantageous effects

The door and window of the present invention as described above has the following effects in preventing rainwater from flowing into the panel.

With the rainwater inflow prevention panel of the present invention, rainwater can be prevented from entering a room even if a window is opened in a rainy day, so that ventilation of the room and the outside can be well performed, and a visual field can be secured by the transparent blade.

In particular, since the blade of the present invention is mounted on the slider and inserted into the vertical member, the entire assembly is easily installed, and the damaged and discolored blade can be easily replaced by separating the slider from the vertical member.

Drawings

Fig. 1 is a perspective view of a door/window rainwater inflow prevention panel according to an embodiment of the present invention.

Fig. 2 is an exploded perspective view of a door/window rain-proof inflow panel according to an embodiment of the present invention.

Fig. 3 is a perspective view of a vertical member of a horizontal member according to an embodiment of the present invention.

Fig. 4 is a perspective view of a slider and a blade of a window and door flashing inflow panel according to an embodiment of the present invention.

Fig. 5 is a side cross-sectional view of the structure taken along line a-a of fig. 1.

Fig. 6 is a cross-sectional view taken along line B-B of fig. 1.

Fig. 7 is a side view of a state where the door and window rainwater inflow prevention panel is installed on the insect net according to the embodiment of the present invention.

Fig. 8 is a partially exploded perspective view of a rainwater inflow prevention panel for a window and door according to another embodiment of the present invention.

Fig. 9 is a side view illustrating a state where a door/window rain inflow preventing panel according to another embodiment of the present invention is mounted on a window frame.

Detailed Description

The window and door of the present invention is installed on a window to prevent inflow of external rainwater into a room, and includes a frame 100, a slider 200, and a blade 300.

The frame 100 forms the entire outer frame of the panel and includes horizontal members 110 and vertical members 120.

The frame 100 is installed in the frame of the anti-insect net 400.

The horizontal member 110 is formed of a pair and spaced apart from each other in the vertical direction.

The vertical members 120 are formed of a pair and spaced apart from each other in the left-right direction.

A pair of the horizontal members 110 and a pair of the vertical members 120 are connected to each other such that the frame 100 forms a hollow square.

The vertical member 120 includes a first cover part 121, a second cover part 122, and a connection cover part 123.

The first cover 121 and the second cover 122 are spaced apart from each other in the front-rear direction and are arranged in parallel.

The connection cover 123 connects the first cover 121 and the second cover 122 spaced apart from each other.

By combining the first cover part 121, the second cover part 122 and the connection cover part 123, an insertion hole 124 opened in a direction opposite to the connection cover part 123 is formed in the vertical direction inside the vertical member 120.

The insertion hole 124 is formed to be opened in a direction in which the vertical member 120 faces.

As described later, the slider 200 is inserted into the insertion hole 124.

The slider 200 has a long rod shape and is inserted to be movable along the inside of the vertical member 120.

The slider 200 may be divided into several and installed inside the vertical member 120 in series in the vertical direction.

The slider 200 is slidably inserted into the insertion hole 124.

The slider 200 includes a first support plate 210, a second support plate 220, and a connection support plate 230.

The first and second support plates 210 and 220 are spaced apart from each other in parallel.

The first support plate 210 faces the first support plate 210 of the vertical member 120, and the second support plate 220 faces the second support plate 220 of the vertical member 120.

The connection support plate 230 interconnects the first support plate 210 and the second support plate 220.

Due to this configuration, the cross section of the slider 200 has an approximation

Or

The shape of (2).

The connection cover part 123 of the vertical member 120 and the connection support plate 230 of the slider 200 are spaced apart from each other, and the connection cover part 123 and the connection support plate 230 are spaced apart from each other, as described later, a portion of both ends of the blade 300 is inserted.

In addition, a first guide protrusion 125 is formed in the second cover part 122 in a vertical direction, and

the first guide protrusion 125 is inserted into the second support plate 220. The guide groove 250 is formed long. The second support plate 220 has a first guide groove 250 for inserting the first guide protrusion 125.

Therefore, when the slider 200 is inserted into the insertion hole 124, the first guide groove 250 can be easily moved and inserted along the first guide protrusion 125, and the slider 20 is prevented from being separated from the open side direction of the insertion hole 124.

A coupling hole 126 to be coupled with the horizontal member 110 is formed in the first cover part 121 and/or the second cover part 122 in a direction opposite to the insertion hole 124 with respect to the connection cover part 123.

The horizontal member 110 includes a horizontal bar part 111, coupling protrusions 112 protruding from both ends of the horizontal bar part 111 to be detachably inserted and mounted in the coupling holes 126.

In the coupling hole 126, the first and second cover parts 121 and 122 have a second guide protrusion 127 formed long in the vertical direction, and the coupling protrusion 112 has a second guide groove 113 for inserting the second guide protrusion 127.

The horizontal member 110 can be easily connected to the vertical member 120 at a precise position while increasing the rigidity of the vertical member 120 itself by the first and second guide protrusions 125 and 127.

In addition, the coupling protrusion 112 may have an elastic pressing part 114 protruding in the direction of the connection cover part 123.

When the coupling protrusion 112 is inserted into the coupling groove, the elastic pressing part 114 is in close contact with the connection cover part 123 while being elastically pressed.

Accordingly, the horizontal member 110 can be prevented from being arbitrarily separated after being inserted into the vertical member 120.

At this time, the second guide groove 113 is formed in a gap formed between the coupling protrusion 112 and the elastic pressing part 114.

Of course, the second guide groove 113 may be formed in the coupling protrusion 112 without the elastic pressing part 114.

A plurality of the blades 300 are arranged in a horizontal direction, and both ends are installed to be inclined with respect to a pair of the sliders 200.

The blade 300 has a flat plate shape and is made of a transparent material, and a plurality of blades 300 are detachably mounted on the slider 200.

Therefore, when the blade 300 is damaged, the blade 300 can be easily replaced and mounted on the slider 200.

The blade 300 may be manufactured by various materials and various methods, but preferably, the blade 300 is made of polycarbonate and formed as a flat plate penetrating between a pair of rollers.

Therefore, the transmittance of the transparent blade 300 may be further improved.

In addition, it is preferable that the surface of the blade 300 is made of a UV coating or the like.

The blade 300 mounted on the slider 200 is disposed inside the frame 100 through the insertion hole 124.

In order to mount the blade 300 on the slider 200, the slider 200 has an inclined groove 240, and the blade 300 is inserted and mounted in the inclined groove 240 with inclination.

Since one end of the inclined groove 240 is opened outward, the vane 300 is inserted into the inclined groove 240 through the opened one end of the inclined groove 240.

More specifically, the inclined groove 240 is formed on the first support plate 210 and the connection support plate 230, and one end of the inclined groove 240 is opened to the outside through the first support plate 210.

When the slider 200 is inserted into the insertion hole 124, an end of the inclined groove 240 opened to the outside is covered by the first support plate 210 and hidden from being exposed to the outside.

The vane 300 is divided into a main body part 310, an insertion part 320 and a locking part 330.

The body portion 310 is a portion disposed between a pair of the sliders 200 spaced apart from each other.

The insertion portion 320 protrudes from the body portion 310 to both sides and is inserted into the inclined groove 240.

The locking part 330 further protrudes from the insertion part 320 and is disposed in a blank space formed between the connection cover part 123 and the connection support plate 230.

A locking groove 340 is formed between the body portion 310 and the locking portion 330 to be caught on the connection support plate 230.

In addition, the locking part 330 is disposed in a vacant space formed between the connection cover part 123 and the connection support plate 230 between the first support plate 210 and the second support plate 220.

The width of the body part 310, that is, the length formed in the direction orthogonal to the horizontal length direction of the body part 310 is greater than the width of the locking part 330.

Accordingly, in a state where the blade 300 is slantly mounted on the slider, the main body portion 310 is substantially the same as the entire thickness of the slider, the locking portion 330 is formed to be smaller than the main body portion 310, and can be stably inserted and disposed between the first and second support plates 210 and 220.

Meanwhile, as shown in fig. 8, the vertical member 120 may be divided into a plurality of pieces.

At this time, the divided vertical members 120 are connected to each other in a straight line by the connection member 129.

Accordingly, by separating the vertical members 120 during storage and transportation, the vertical members 120 may be reduced in size to facilitate storage and transportation.

In the present embodiment, the connection member 129 is screwed to two of the vertical members 120 to connect the vertical members 120 to each other, but may be connected by various methods other than screw threads.

In addition, in the present embodiment, the connection member 129 is formed in the same shape as the horizontal member 110 112 and is inserted into the coupling hole 126.

Hereinafter, the assembling process and the mounting process of the present invention composed of the above-described configuration will be described.

The pair of horizontal members 110 are not connected to the vertical members 120 but are connected to only one of the upper or lower portions, so that the upper or lower portions of the vertical members 120 are open.

Hereinafter, it will be described that the blade 300 and the slider 200 are coupled to the vertical member 120, assuming that the upper portion of the vertical member 120 is open.

The vane 300 is obliquely inserted and mounted in the inclined groove 240 of a pair of the sliders 200 spaced apart from each other.

After the plurality of blades 300 are mounted to the slider 200, the slider 200 is inserted into the insertion hole 124 formed in the vertical member 120.

At this time, the slider 200 is firmly inserted into the insertion hole 124 through the first guide groove 250 formed in the slider 200 and the first guide protrusion 125 formed in the vertical member 120.

Also, the inclined groove 240 formed as one end to be inserted into the blade 300 is inserted into the insertion hole 124 and hidden from being exposed to the outside by the vertical member 120, and the blade 300 inserted into the inclined groove 240 is not separated from the inclined groove 240.

After the pair of the sliders 200 are all inserted into the vertical member 120, the horizontal member 110 is coupled to the upper portion of the vertical member 120.

At this time, the coupling protrusion 112 of the horizontal member 110 is inserted and coupled into the coupling groove of the vertical member 120, and the elastic pressing part 114 is pressed into close contact with the connection cover part 123, and the horizontal member 110 is not arbitrarily separated from the vertical member 120.

When the assembly of the frame 100, the slider 200 and the blade 300 is completely completed, the rainwater inflow prevention apparatus of the present invention is fixedly installed on the frame of the anti-insect net 400 as shown in fig. 7. .

At this time, the rainwater inflow prevention panel of the present invention is fixedly installed on the frame of the insect net 400 from the indoor direction than the insect net 400.

According to the rainwater inflow prevention panel of the present invention, rainwater can be prevented from entering a room even if a window is opened in a rainy day, so that ventilation of the room can be well performed, and a sight line can be secured by the transparent blade 300.

On the other hand, as shown in fig. 9, the rainwater inflow prevention panel for windows and doors of the present invention may be installed on a rail of a window frame instead of the insect net.

At this time, the frame 100 is installed to be fixed or movable to the rail of the window frame.

When the frame 100 is installed on the guide rail of the window frame except the insect net 400, it cannot be installed on the frame 100 because of the thin thickness of the insect net 400.

The rainwater inflow prevention panel according to the present invention is not limited to the above-described embodiment, and may be implemented in various modifications within the scope of the technical idea of the present invention.

Industrial applicability of the invention

The present invention can be applied to a device installed on an insect net to prevent outdoor rainwater from flowing into a room, and thus has industrial applicability.

Claims (11)

1. The utility model provides a door and window rain-proof water inflow panel prevents that outside rainwater from flowing into indoor door and window rain-proof water inflow panel as installing on the window, its characterized in that includes:

a frame formed in a rectangular hollow shape by combining a pair of horizontal members and a pair of vertical members;

a pair of sliders movably inserted along an inside of the vertical member; and

a plurality of blades horizontally arranged and having both ends thereof slantingly mounted on a pair of the sliders;

an insertion hole into which the slider is inserted is formed in the vertical member in a vertical direction,

the insertion hole is formed to be open in a direction in which the vertical members face each other, and the slider is formed to be rod-shaped to be inserted into the insertion hole, a plurality of transparent blades are detachably mounted on the slider, and the blades mounted on the slider are mounted inside the frame through the insertion hole.

2. The door and window rainwater inflow prevention panel according to claim 1, wherein an inclined groove is formed in the slider, and the blade is obliquely inserted and installed in the inclined groove, and one end of the inclined groove is opened outward, so that the blade is inserted into the inclined groove through the opened one end of the inclined groove.

3. The door and window rain inflow panel of claim 2, wherein the vertical member comprises:

a first cover portion and a second cover portion that are provided apart from each other in a front-rear direction; and

a connecting cover portion for connecting the first cover portion and the second cover portion;

the connection of the vertical member through the first cover part, the second cover part and the connection cover part is internally formed with the insertion hole opened in the opposite direction of the connection cover part,

the slider includes:

a first support plate opposite to the first cover part;

a second support plate opposite to the second cover part;

a connecting support plate for connecting the first support plate and the second support plate,

the inclined groove is formed on the first support plate and the connection support plate, and one end of the inclined groove is opened outward through the first support plate,

when the slider is inserted into the insertion hole, an end of the inclined groove, which is open to the outside, is covered and hidden by the first support plate.

4. The door and window rainwater inflow prevention panel according to claim 2, wherein the connection cover part and the connection support plate are spaced apart, and the blade formed in a flat plate shape includes:

a main body portion disposed between the sliders;

an insertion portion protruding from the main body portion to both sides and inserted into the inclined groove;

a locking portion further protruding from the insertion portion, provided between the connection cover portion and the connection support plate,

a locking groove clamped on the connecting support plate is formed between the main body part and the locking part,

the width of the main body portion is greater than the width of the locking portion.

5. The door and window rainwater inflow prevention panel according to claim 3, wherein the second cover part has a first guide protrusion formed long in a vertical direction, and the second support plate has a first guide groove inserted into the first guide protrusion,

when the slider is inserted into the insertion hole, the first guide groove moves along the first guide protrusion.

6. The door and window rainwater inflow prevention panel according to claim 3, wherein the first cover portion and the second cover portion are formed with coupling holes, the horizontal member is connected to the coupling holes in a direction opposite to the insertion holes with respect to the connection cover portion,

the horizontal member includes:

a horizontal rod portion; and

and coupling protrusions protruding from both ends of the horizontal bar part to be detachably inserted and mounted in the coupling holes.

7. The door and window rainwater inflow prevention panel according to claim 6, wherein the first and second cover parts have a second guide protrusion formed long in a vertical direction in the coupling hole, and a second guide groove into which the second guide protrusion is inserted is formed in the coupling protrusion.

8. The door and window rainwater inflow prevention panel according to claim 7, wherein the coupling protrusion has an elastic pressing part protruding in a direction of the connection cover part, and the second guide groove is formed between the coupling protrusion and the elastic pressing part, and when the coupling protrusion is inserted into the coupling groove, the elastic pressing part is closely contacted while being elastically pressed by the connection cover part.

9. The window and door flashing panel of claim 1, wherein the vanes are made of polycarbonate and are formed as flat plates extending between a pair of rollers.

10. The door and window rainwater inflow prevention panel according to claim 1, wherein the vertical member is formed by being divided into a plurality, and the divided vertical members are connected to each other in a straight line by a connection member.

11. The window and door rain inflow prevention panel of claim 1, wherein the frame is installed on a rail of an insect net or a window frame.

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