CN219711390U - Inner side drainage type inner window outer frame section bar - Google Patents

Abstract

The utility model discloses an inner side drainage inner window outer frame section bar, which comprises: the sealing strip comprises an upper extending edge, a lower extending edge, a sealing strip clamping groove, a middle extending edge, a water outlet, an L-shaped fixing clamping plate, a mounting clamping groove, an upper flat edge, a water retaining strip clamping groove, a lower inclined edge, an inner cavity, a screw hole and an inner extending edge; the upper flat edge is horizontally arranged, one end of the upper flat edge is fixedly connected with the upper extension edge, and the other end of the upper flat edge is fixedly connected with the inner extension edge; the sealing strip clamping groove is arranged at the upper part of the upper extension edge; a mounting clamping groove and a water bar clamping groove are sequentially arranged on the upper flat edge at one end of the inner extension edge; a drain hole is formed in the upper flat edge of the mounting clamping groove; the lower bevel edge is obliquely arranged below the upper flat edge, one end of the lower bevel edge is fixed on the inner extension edge, and the other end of the lower bevel edge is fixedly connected with the lower extension edge; one side of the middle extension edge is an inner cavity, and the other side is a water outlet; the screw hole is arranged on the lower end face of the lower bevel edge; the lower parts of the lower extending edge and the inner extending edge are symmetrically provided with L-shaped fixing clamping plates. The utility model has simple structure and can effectively prevent rainwater from entering the room.

Description

Inner side drainage type inner window outer frame section bar

Technical Field

The utility model belongs to the field of door and window profile structures, and particularly relates to an inner-side-drainable inner-opening window outer frame profile.

Background

The water tightness is one of important reference indexes for high-performance doors and windows. In general, under the same specification, the water tightness of the plastic door and window is better than that of the aluminum alloy door and window, the casement window is better than that of the sliding window, the water tightness is reflected in two aspects of water prevention and drainage of the door and window, namely, the high-water tightness door and window has excellent rainwater penetration prevention capability and good drainage capability, and only if the two doors and windows are positioned, the excellent water tightness can be really achieved. The inward opening window occupies part of indoor space, the screen window is inconvenient to use, rain seeps, and the water tightness is poorer than that of the outward opening window.

When the larger and tighter water retaining adhesive tape under the rain water is, the sealing of the water retaining adhesive tape is not in place, the window is opened smaller or the window is not closed tightly, the rainwater can enter the water retaining adhesive tape clamping groove and the inside of the installation clamping groove, and particularly, the rainwater can enter a room when the water accumulation in the installation clamping groove is excessive.

In the prior inner-opening aluminum alloy door and window outer frame section bar on the market, the drainage position is only provided with a drainage hole at the bottom of the connection between the upper extending edge and the upper outer flat edge, the drainage principle is that rainwater is blocked into the groove at the upper flat edge of the outer side by a water retaining adhesive tape on a water retaining strip clamping groove, and then the rainwater is drained through the drainage hole provided at the bottom of the connection between the upper extending edge and the upper flat edge of the outer side. Aiming at the problem of accumulated water in the installation clamping groove, the lower bevel edge is added at the lower part of the outer frame material of the inner door and window to form an inner cavity of the inner drainage channel, so that the effect of smoothly draining the accumulated water on the installation clamping groove is achieved.

Disclosure of Invention

The utility model aims to provide an inner-side-drainable inner-opening window outer frame section bar, which solves the problem that rainwater enters a room in the prior art.

In order to achieve the aim, the utility model provides the following technical scheme that the inner side drainage inner window outer frame section bar comprises the following components: the sealing strip comprises an upper extending edge, a lower extending edge, a sealing strip clamping groove, a middle extending edge, a water outlet, an L-shaped fixing clamping plate, a mounting clamping groove, an upper flat edge, a water retaining strip clamping groove, a lower inclined edge, an inner cavity, a screw hole and an inner extending edge;

the upper flat edge is horizontally arranged, one end of the upper flat edge is fixedly connected with the upper extension edge, and the other end of the upper flat edge is fixedly connected with the inner extension edge; the sealing strip clamping groove is arranged at the upper part of the upper extension edge; a mounting clamping groove and a water bar clamping groove are sequentially arranged on the upper flat edge at one end of the inner extension edge; a drain hole is formed in the upper flat edge of the mounting clamping groove;

the lower bevel edge is obliquely arranged below the upper flat edge, one end of the lower bevel edge is fixed on the inner extension edge, and the other end of the lower bevel edge is fixedly connected with the lower extension edge; the lower bevel edge is fixedly connected with the upper flat edge through a middle extending edge, the middle extending edge is arranged at one end of the lower bevel edge, which is close to the lower extending edge, and the bottom of the lower bevel edge is provided with a drain hole; one side of the middle extension edge is an inner cavity, and the other side is a water outlet; the screw hole is arranged on the lower end face of the lower bevel edge; the lower parts of the lower extending edge and the inner extending edge are symmetrically provided with L-shaped fixing clamping plates.

Preferably, a drain hole is also formed in the upper flat edge adjacent to one end of the upper extension edge, and the drain hole is directly communicated with the drain hole.

Preferably, the cross section of the inner cavity is right trapezoid.

Preferably, the intermediate extension bisects the lower beveled edge with a slope at the drain opening greater than a slope at the interior cavity.

Preferably, at least two screw holes are formed in the lower end face of the lower bevel edge.

According to the utility model, the drainage hole is formed in the upper flat edge of the installation clamping groove, the lower inclined edge with inclination is arranged at the lower part of the outer frame material of the inner door and window, and the drainage hole is formed at the bottom of the middle extension edge, so that a drainage channel is formed in the outer frame section bar, and the effect of smoothly draining accumulated water on the installation clamping groove is achieved. The utility model has simple structure and can effectively prevent rainwater from entering the room.

Drawings

FIG. 1 is a schematic illustration of the present utility model;

FIG. 2 is a schematic view of the installation of the present utility model;

in the figure: 1-upper extending edge, 2-lower extending edge, 3-sealing strip clamping groove, 4-middle extending edge, 5-water outlet, 6-L type fixing clamping plate, 7-installation clamping groove, 8-upper flat edge, 9-water retaining strip clamping groove, 10-lower oblique edge, 11-inner cavity, 12-screw hole, 13-inner extending edge, A-glass, B-window sash, C-window frame, D-decoration layer, E-wall structure, F-filling foaming agent, G-fixing sheet and H-sealing glue.

Description of the embodiments

Embodiments of the present utility model will now be described with reference to the accompanying drawings, and it will be understood by those skilled in the art that the following examples are for illustration only and should not be construed as limiting the scope of the utility model. The specific techniques, connections, or conditions are not identified in the examples and are set forth in accordance with the techniques, connections, conditions, or in accordance with the product specifications described in the literature in this field. The materials, instruments or equipment used are conventional products available from commercial sources, not identified to the manufacturer.

In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "provided" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model is understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 and 2, the inner side drainable inner window outer frame section bar provided by the present utility model includes: the sealing strip comprises an upper extending edge 1, a lower extending edge 2, a sealing strip clamping groove 3, a middle extending edge 4, a water outlet 5, an L-shaped fixing clamping plate 6, a mounting clamping groove 7, an upper flat edge 8, a water retaining strip clamping groove 9, a lower inclined edge 10, an inner cavity 11, a screw hole 12 and an inner extending edge 13;

the upper flat edge 8 is horizontally arranged, one end of the upper flat edge 8 is fixedly connected with the upper extension edge 1, the other end of the upper flat edge is fixedly connected with the inner extension edge 13, the included angle between the upper flat edge 8 and the upper extension edge 1 is 90 degrees, the included angle between the upper flat edge 8 and the inner extension edge 13 is also 90 degrees, and the upper flat edge 8, the inner extension edge 13 and the upper flat edge are integrally formed into an inverted Z-shaped structure; the sealing strip clamping groove 3 is arranged at the upper part of the upper extension edge 1, and a sealing adhesive tape is arranged in the clamping groove to play a role in sealing and water retaining; a mounting clamping groove 7 and a water bar clamping groove 9 are sequentially arranged on an upper flat edge 8 at one end of the inner extension edge 13 (from left to right); a drain hole is formed in the upper flat edge 8 of the mounting clamping groove 7; the mounting clamping groove 7 is used for fixing hardware when the glass fan is mounted; a water retaining adhesive tape is arranged in the water retaining bar clamping groove 9 to play a role in sealing and water retaining; the upper extension edge 1 is arranged on the outer side surface of the window frame and is connected with the upper flat edge 8 to play a role of blocking rainwater on the outer side;

the lower bevel edge 10 is obliquely arranged below the upper flat edge 8, one end of the lower bevel edge is fixed on the inner extension edge 13, and the other end of the lower bevel edge is fixedly connected with the lower extension edge 2 (one end of the inner extension edge 13 is high, and one end of the lower extension edge 2 is low); the lower inclined edge 10 is fixedly connected with the upper flat edge 8 through the middle extending edge 4, the middle extending edge 4 is arranged at one end of the lower inclined edge 10 close to the lower extending edge 2 and plays a role in up-down connection, and a drain hole is formed in the bottom of the lower inclined edge and is used for draining rainwater flowing out of the drain hole of the upper flat edge 8 at the installation clamping groove 7; one side of the middle extension edge 4 is an inner cavity 11 (surrounded by a lower bevel edge 10, an upper flat edge 8, an inner extension edge 13 and the middle extension edge 4), the other side is a water outlet 5 (the water outlet 5 is positioned between the upper extension edge 1 and the lower extension edge 2), and the cross section of the inner cavity 11 is a right trapezoid; two screw holes 12 are arranged on the lower end face of the lower inclined edge 10 and are used for being connected with a vertical outer frame; the lower parts of the lower extension edge 2 and the inner extension edge 13 are symmetrically provided with L-shaped fixed clamping plates 6, and when in installation, the fixing plates are clamped by the two L-shaped fixed clamping plates 6; the lower extending edge 2, the middle extending edge 4 and the lower bevel edge 10 are connected to form a window frame lower structure; the inner extension 13 is located on the inside of the structure of the present utility model.

In a further optimized scheme, the upper flat edge 8 near one end of the upper extension edge 1 is also provided with a drain hole, and the drain hole is directly communicated with the drain opening 5 and is used for directly draining rainwater outside the upper flat edge 8 to the drain opening 5.

Specifically, the middle extension 4 bisects the lower sloping edge 10, which slopes at the drain opening 5 more than at the cavity 11; the lower inclined edge 10 is provided with a slope inclined surface, which is beneficial to outward outflow of accumulated water.

When the installation clamping groove 7 is provided with rainwater, the rainwater can flow into the inner cavity 11 through the water discharge hole formed in the upper flat edge 8 at the position and then flows to the middle extension edge 4 along the lower inclined edge 10; the rainwater can reach the drainage hole 5 after passing through the middle extension edge 4, so as to drain to the outer side of the window.

When the aluminum alloy door and window is installed, the buckle of the fixing piece G is clamped on the L-shaped fixing clamping plate 6 of the window frame of the aluminum alloy door and window C according to the national standard required interval, the outer frame is moved to the window opening in the correct inner and outer directions, the position of the window frame is adjusted according to the door and window positioning lines, the horizontal, vertical and diagonal lengths of the window frame are adjusted to meet the quality standard, and then the window frame C is fixed around the window frame by using wooden wedges; and (3) penetrating the holes on the fixing sheets G to drive the shooting nails into the wall body structure E, filling the foaming agent F in gaps between the window frame C and the wall body structure E after the window frame C is completely fixed at the window opening, and repairing redundant outer spraying parts by a paper cutter after the foaming agent F is completely filled. After finishing layer D is made by the leveling finishing workers, sealing glue H is sprayed on the joint of the outer side of window frame C and finishing layer D, and the external waterproof function of window frame C is made. When the inner sash of the aluminum alloy door and window is installed, the window sash B with the glass A and hardware is fixed on the window frame C through the hardware connecting piece by using the connecting screw at a proper position, and after the installation, the opening flexibility of the window sash B is adjusted to meet the use requirement.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (5)

1. An inner side drainable inner opening window outer frame section bar, characterized by comprising: the sealing device comprises an upper extending edge (1), a lower extending edge (2), a sealing strip clamping groove (3), a middle extending edge (4), a water outlet (5), an L-shaped fixing clamping plate (6), a mounting clamping groove (7), an upper flat edge (8), a water retaining strip clamping groove (9), a lower bevel edge (10), an inner cavity (11), a screw hole (12) and an inner extending edge (13);

the upper flat edge (8) is horizontally arranged, one end of the upper flat edge is fixedly connected with the upper extension edge (1), and the other end is fixedly connected with the inner extension edge (13); the sealing strip clamping groove (3) is arranged at the upper part of the upper extension edge (1); a mounting clamping groove (7) and a water bar clamping groove (9) are sequentially arranged on an upper flat edge (8) at one end of the inner extension edge (13); a drain hole is arranged on the upper flat edge (8) at the installation clamping groove (7);

the lower bevel edge (10) is obliquely arranged below the upper flat edge (8), one end of the lower bevel edge is fixed on the inner extension edge (13), and the other end of the lower bevel edge is fixedly connected with the lower extension edge (2); the lower bevel edge (10) is fixedly connected with the upper flat edge (8) through the middle extension edge (4), the middle extension edge (4) is arranged at one end of the lower bevel edge (10) close to the lower extension edge (2), and a drain hole is formed in the bottom of the lower bevel edge; one side of the middle extension edge (4) is an inner cavity (11), and the other side is a water outlet (5); the screw hole (12) is arranged on the lower end face of the lower bevel edge (10); the lower parts of the lower extension edge (2) and the inner extension edge (13) are symmetrically provided with L-shaped fixing clamping plates (6).

2. An inner drainable inner window frame profile according to claim 1, characterized in that the upper flat edge (8) near one end of the upper extension edge (1) is also provided with drain holes which are in direct connection with the drain opening (5).

3. An inner drainable inner opening window outer frame profile according to claim 1, characterized in that the cross section of the inner cavity (11) is right trapezoid.

4. An inner drainable inner opening window outer frame profile according to claim 1, characterized in that the middle extension edge (4) bisects the lower sloping edge (10) which is located at the drain opening (5) with a slope greater than the slope at the inner cavity (11).

5. An inner drainable inner opening window outer frame profile according to claim 1, characterized in that at least two screw holes (12) are provided at the lower end face of the lower sloping side (10).