CN219281616U - Waterproof heat insulation structure of casement window - Google Patents

Abstract

The utility model relates to the technical field of casement windows, in particular to a waterproof heat insulation structure of a casement window, which comprises an outdoor center pillar and an outdoor bottom frame, wherein the front sides of the outdoor center pillar and the outdoor bottom frame are respectively provided with a reinforcing frame, a drainage cavity is arranged in the reinforcing frame, the bottom of the reinforcing frame is provided with a drainage outlet communicated with the drainage cavity, the rear side of the reinforcing frame is provided with a water storage tank, the rear side of the top of the water storage tank is provided with a baffle plate, the bottom of the water storage tank is provided with an opening communicated with the drainage cavity, the inside of the reinforcing frame is provided with the drainage cavity connected with the water storage tank through the arrangement of the reinforcing frame, the drainage outlet is arranged at the bottom of the reinforcing frame, rainwater can be effectively prevented from being influenced by strong wind and not being drained, and further, the arranged reinforcing frame can serve as a heat insulation cavity, and therefore the heat insulation performance is improved.

Description

Waterproof heat insulation structure of casement window

Technical Field

The utility model relates to the technical field of casement windows, in particular to a waterproof heat insulation structure of a casement window.

Background

The window is requisite building auxiliary structure, the inside sealing strip that all sets up of current flat-open window is in the gap between the section bar, carry out waterproof, effect such as give sound insulation through the sealing strip, block the rainwater in the drainage channel of section bar, the section bar front side is equipped with the outlet and discharges the rainwater of drainage channel, but the present flat-open window outlet all sets up in outdoor front side, meet weather such as strong wind and can make the rainwater unable normal drainage, thereby flow backward into indoor, still set up the face lid on the outlet, the face lid receives the strong wind influence and can keep off before the outlet, thereby prevent that the rainwater from receiving wind-force influence to flow backward, but the rainwater also can not obtain discharging, in case the rainwater is accumulated and is excessively full, flow backward to other places or indoor from the drainage channel easily, and present thermal-insulated all relies on indoor section bar frame and outdoor section bar frame cooperation bridge cut-off, such heat insulation effect is not ideal.

Disclosure of Invention

The utility model provides a waterproof heat-insulating structure of a casement window, which aims to ensure rainwater discharge, prevent backflow and improve heat-insulating performance.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a waterproof thermal-insulated structure of flat-open window, is including outdoor center pillar and outdoor underframe, outdoor center pillar and outdoor underframe front side all are provided with the reinforcing frame, be equipped with the drainage chamber in the reinforcing frame, the bottom is provided with the outlet that communicates in the drainage chamber, the reinforcing frame rear side is provided with the aqua storage tank, aqua storage tank top rear side is provided with the baffle, the opening in the drainage chamber has been seted up to the aqua storage tank bottom.

Further, indoor middle frames and indoor bottom frames are correspondingly arranged behind the outdoor middle columns and the outdoor bottom frames, a broken bridge is formed in the middle of the outdoor middle columns and the outdoor bottom frames, heat insulation strips with rectangular sections are arranged in the broken bridge, and X-shaped partition strips are arranged inside the heat insulation strips, so that a plurality of first heat insulation cavities are formed.

Further, a plurality of first heat insulation cavities are annularly arranged on the heat insulation strip.

Further, the heat insulation strip both sides are provided with the installation piece of evagination correspondingly, outdoor center pillar, outdoor underframe, indoor center and indoor underframe one side all are provided with the fixed block of centre gripping in the installation piece to be formed with the thermal-insulated chamber of second.

Further, the outdoor middle column, the outdoor bottom frame, the indoor middle frame and the indoor bottom frame are all provided with a third heat insulation cavity.

Compared with the prior art, the utility model has the beneficial effects that: through the setting of strengthening frame, the inside drainage chamber that is connected in the aqua storage tank that is equipped with of strengthening frame sets up the outlet in strengthening frame bottom, can effectively prevent that the rainwater from receiving the unable discharge of strong wind influence, and then prevent that the rainwater from flowing backward, the strengthening frame of setting moreover can act as thermal-insulated chamber to improve thermal-insulated performance.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is an enlarged view at a of fig. 1.

Fig. 3 is an enlarged view at B of fig. 1.

Fig. 4 is a schematic structural view of a conventional casement window.

In the figure: the outdoor center 1, the outdoor bottom frame 2, the reinforcing frame 3, the drainage cavity 4, the water storage tank 5, the heat insulation strips 6, the indoor center 11, the indoor bottom frame 22, the drainage outlet 40, the opening 50, the baffle 55, the first heat insulation cavity 60, the partition strips 61, the mounting block 62, the fixing block 101, the second heat insulation cavity 102 and the third heat insulation cavity 103.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in the attached drawings, the waterproof heat insulation structure of the casement window comprises an outdoor center column 1 and an outdoor bottom frame 2, wherein the front sides of the outdoor center column 1 and the outdoor bottom frame 2 are respectively provided with a reinforcing frame 3, a water draining cavity 4 is arranged in the reinforcing frame 3, a water draining outlet 40 communicated with the water draining cavity 4 is arranged at the bottom, a water storage tank 5 is arranged at the rear side of the reinforcing frame 3, a baffle 55 is arranged at the rear side of the top of the water storage tank 5, an opening 50 communicated with the water draining cavity 4 is arranged at the bottom of the water storage tank 5, the waterproof heat insulation structure further comprises an outdoor top frame, the front sides of the outdoor top frame are respectively provided with a reinforcing frame 3, the front sides of the outdoor center column 1 and the outdoor bottom frame 2 in the existing window profile are outside the profile, the reinforcing frame 3 is not arranged, the outlet 40 is directly arranged on the outer edge of the profile, directly drains water from the front surface of the outdoor, the reinforcing frame 3 is additionally arranged, the overall strength of the window is improved, meanwhile, the drainage cavity 4 connected with the water storage tank 5 is arranged in the reinforcing frame, the cavity of the drainage cavity 4 can improve the heat insulation performance of the window, the drainage cavity 4 is used for temporarily storing rainwater and draining the rainwater at the bottom, the water storage tank 5 and the drainage cavity 4 can collect the rainwater, the more the rainwater is collected, the greater the pressure of the rainwater in the water storage tank or the drainage cavity 4 is, the higher the drainage speed is, the cross beam arranged between the top frame and the bottom frame of the window can be called a middle column, and the middle column can be provided with a plurality of water storage tanks which are 3 as shown in the figure, and the water storage tank is particularly determined according to the window.

According to the waterproof heat-insulating structure of the casement window, through the arrangement of the reinforcing frame 3, the drainage cavity 4 connected with the water storage tank 5 is arranged in the reinforcing frame 3, and the drainage outlet 40 is arranged at the bottom of the reinforcing frame 3, so that rainwater can be effectively prevented from being influenced by strong wind and not being discharged, further, the rainwater is prevented from flowing backwards, and the arranged reinforcing frame 3 can serve as a heat-insulating cavity, so that the heat-insulating performance is improved.

The window body top section bar is called the top frame, the bottom section bar is called the underframe, as the picture, current middle column 1 in the middle of the room, outdoor underframe 2, indoor middle frame 11 and indoor underframe 22 all are equipped with the cavity, and the effect of thermal-insulated heat preservation is realized to cooperation bridge cut-off insulating strip 6, and current insulating strip 6 is mostly split type structures such as I type, C type, indoor outer both sides section bar forms the heat insulating chamber with upper and lower insulating strip 6, consequently, indoor outer both sides section bar is in same heat insulating intracavity, heat insulating properties is not enough, and the outlet 40 is seted up to direct outside middle column 1 and outdoor underframe 2 front side, draw forth the rainwater of inside aqua storage tank 5, the front is influenced by wind force easily, even if the installation face lid also can not normally drain under the windy weather, only can not make the face lid push away thereby drain under the windy weather less, and be impractical, this structure increases the setting of reinforcing frame 3, improve the bulk strength of flat-open window, moreover, drainage cavity 4 in the bottom 40 has 40 from the front drainage, prevent that outlet 40 from being influenced by the wind, moreover, on the front side is seen on the face, and more can also drain down in the bad weather condition under the water storage tank 4, can drain down normally because of the rainwater more than the rainwater is more than the pressure of the water storage tank 4.

In this embodiment, indoor middle frame 11 and indoor underframe 22 are provided with in the back of outdoor middle column 1 and outdoor underframe 2 respectively, and the centre is formed with the bridge cut-off, be provided with the heat insulating strip 6 that the cross-section is the rectangle in the bridge cut-off, the inside division bar 61 that is the X type that is provided with of heat insulating strip 6 to be formed with a plurality of first heat insulating chamber 60, as the figure, a plurality of first heat insulating chamber 60 annular sets up in heat insulating strip 6, and first heat insulating chamber 60 is equipped with 4 altogether, is two corresponding settings in pairs, heat insulating strip 6 both sides correspond and are provided with the installation piece 62 of evagination, outdoor middle column 1, outdoor underframe 2, indoor middle frame 11 and indoor underframe 22 one side all are provided with the fixed block 101 of centre gripping in installation piece 62 to be formed with second heat insulating chamber 102, second heat insulating chamber 102 is the cavity between section bar and the heat insulating strip 6, outdoor middle column 1, outdoor underframe 2, indoor middle frame 11 and indoor underframe 22 all are provided with third heat insulating chamber 103, and third heat insulating chamber 103 is the section bar inner chamber 103, first heat insulating chamber 60, second heat insulating chamber 102 and third heat insulating chamber can improve heat insulating chamber 102.

The above embodiments are preferred embodiments of the present utility model, and all similar structures and equivalent modifications are intended to fall within the scope of the present utility model.

Claims (5)

1. A waterproof heat insulation structure of flat-open window, its characterized in that: including outdoor center pillar (1) and outdoor underframe (2), outdoor center pillar (1) and outdoor underframe (2) front side all are provided with reinforcing frame (3), be equipped with drainage chamber (4) in reinforcing frame (3), the bottom is provided with outlet (40) that communicate in drainage chamber (4), reinforcing frame (3) rear side is provided with aqua storage tank (5), aqua storage tank (5) top rear side is provided with baffle (55), opening (50) that communicate in drainage chamber (4) have been seted up to aqua storage tank (5) bottom.

2. A waterproof and heat-insulating structure of a casement window according to claim 1, characterized in that: the outdoor center pillar (1) and the outdoor bottom frame (2) are correspondingly provided with an indoor center frame (11) and an indoor bottom frame (22), a broken bridge is formed in the middle of the outdoor center pillar, a heat insulation strip (6) with a rectangular section is arranged in the broken bridge, and an X-shaped division bar (61) is arranged inside the heat insulation strip (6), so that a plurality of first heat insulation cavities (60) are formed.

3. A waterproof and heat-insulating structure of a casement window according to claim 2, characterized in that: a plurality of first heat insulation cavities (60) are annularly arranged on the heat insulation strip (6).

4. A waterproof and heat-insulating structure of a casement window according to claim 2, characterized in that: the heat insulation strip is characterized in that two sides of the heat insulation strip (6) are correspondingly provided with outwards protruding mounting blocks (62), and fixing blocks (101) clamped on the mounting blocks (62) are arranged on one side of the outdoor center (1), one side of the outdoor bottom frame (2), one side of the indoor center (11) and one side of the indoor bottom frame (22), so that a second heat insulation cavity (102) is formed.

5. A waterproof and heat-insulating structure of a casement window according to claim 2, characterized in that: the outdoor middle column (1), the outdoor bottom frame (2), the indoor middle frame (11) and the indoor bottom frame (22) are all provided with a third heat insulation cavity (103).

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