CN211448339U - Sliding window with windproof and drainage functions - Google Patents

Abstract

The utility model discloses a austral window, sliding sash with prevent wind drainage function, including window frame, a plurality of casement and a plurality of drain valve, the lower extreme of window frame is equipped with the first step and the second step that the height set up, distributes inside and outside first step and the second step, and the lateral surface of the lower extreme of window frame, drain valve and the terminal surface intercommunication of second step are located to a plurality of drain valves. The utility model provides a austral window, sliding sash has efficient drainage structures, and there are first step and the second step of level difference in this austral window, sliding sash's window frame, and the window frame can utilize the difference in height to the second step department of lower one side with ponding drainage, then empties ponding through the drain valve to prevent that the rainwater from indoor from outdoor infiltration. Accumulated water is directly drained out of the window frame from the drain valve under the action of self gravity, so that rainwater is effectively prevented from permeating; under rainy day weather, when external pressure is greater than indoor pressure, the wind-proof plate upwards turns, reduces the wind pressure and can shelter from for the hole that catchments, prevents that the rainwater backward flow from flowing backward.

Description

Sliding window with windproof and drainage functions

Technical Field

The utility model relates to a door and window technical field, in particular to austral window, sliding sash with prevent wind drainage function.

Background

With the introduction of modern economic concepts and social economic developments, energy conservation and environmental protection become very important subjects in the building field. The heat insulation layer on the outer wall of the building, the door and window frame structure adopt the measures of heat insulation broken bridge structural section bars and the like, and the purpose is to reduce the indoor and outdoor temperature difference transmission of the building. At present, the energy consumption and waste in China are increasingly serious, and especially in northern alpine regions, winter heating and southern summer air conditioning and refrigeration consume a large amount of energy, so that the technology for promoting energy conservation and environmental protection of house buildings is greatly promoted. Therefore, it is important to select a heat-insulating energy-saving window with good quality in the building construction.

The existing door and window products adopt a drainage structure, only simple drainage holes are arranged, rainwater is drained by utilizing the cavity of the sectional material, the structure cannot ensure rainwater circulation, the rainwater is drained smoothly and effectively, accumulated water is easy to cause, the drainage effect is further influenced, and the corrosion of the sectional material is accelerated for a long time, so that the door and window are damaged; in low-temperature weather, accumulated water cannot be discharged in time and can be frozen, so that the window sash is difficult to open; in addition, in coastal areas with large wind pressure, sometimes the instantaneous flow is large, the rainwater blocks the drain hole to cause internal and external pressure difference, so that the rainwater cannot be discharged, and the rainwater can flow backwards frequently.

SUMMERY OF THE UTILITY MODEL

According to the utility model discloses an aspect provides austral window, sliding sash with prevent wind drainage function, including the window frame, a plurality of casement and a plurality of drain valve, locate on the window frame a plurality of casement all slidable, the lower extreme of window frame is equipped with the first step and the second step of height setting, distribute inside and outside first step and the second step, the lateral surface of the lower extreme of window frame is located to a plurality of drain valves, the drain valve communicates with the terminal surface of second step, the drain valve includes the valve body, prevent wind the board, be equipped with the drainage chamber in the valve body, the side of drainage chamber is equipped with a plurality of wash ports, the up end in drainage chamber is equipped with a plurality of water collecting hole, prevent wind the board and.

The utility model provides a sliding window has efficient drainage structures, the window frame of this sliding window has first step and the second step of level difference, the window frame can utilize the difference in height to lead ponding to lower one side namely the second step, then empties ponding through the drain valve to prevent rainwater from permeating into indoor from the open air; moreover, accumulated water is directly and quickly drained out of the window frame from the drain valve under the action of self gravity, so that rainwater is effectively prevented from permeating; and moreover, under rainy weather, when external pressure is greater than indoor pressure, the windproof plate turns upwards, reduces the wind pressure and can shelter from for the water collecting hole, prevents that the rainwater from flowing backward in the effect backward of wind pressure.

In some embodiments, the sliding window with wind-proof and water-draining functions further comprises a transition cover, the transition cover is arranged at the lower end of the window frame, and the transition cover is positioned at the joint of the first step and the second step.

From this, add the setting of transition lid, strengthen the difference in height structure of first step and second step for the effect of the difference in height drainage of this austral window, sliding sash is more obvious.

In some embodiments, the end surface of the second step is an inclined surface.

Therefore, the drainage efficiency of accumulated water on the second step is improved.

In some embodiments, the window frame includes a first frame body, a second frame body, a waterproof cover, and a plurality of first heat insulating strips, the first frame body and the second frame body are connected by the plurality of first heat insulating strips, the first frame body and the second frame body are distributed in height to form a first step and a second step, the waterproof cover is disposed at a lower end of the window frame, and the waterproof cover is disposed between the first frame body and the second frame body and above the first heat insulating strips.

Thus, the first frame body is located on the indoor side, and the second frame body is located on the outdoor side. The first frame body and the second frame body are connected through the first heat insulation strip group to ensure the internal and external heat insulation performance of the sliding window, namely the heat insulation performance of the sliding window; first framework utilizes the difference in height reason to drain ponding to the second framework on, then the water drainage tank in the second framework dredges arranging ponding to reach high-efficient drainage function.

In some embodiments, the window sash includes a first sash body, a second sash body, insulating glass, and a plurality of second insulating strips, the first sash body and the second sash body being joined by the plurality of second insulating strips, the insulating glass being mounted between the first sash body and the second sash body by a crimping assembly.

Thus, the first fan body is positioned at the indoor side, and the second fan body is positioned at the outdoor side. The first sash body and the second sash body are connected through the second heat insulation strip group to ensure the inner and outer heat insulation performance of the sliding window, namely the heat insulation performance of the sliding window.

In some embodiments, the upper end surfaces of the first step and the second step are both provided with a sliding rail, the plurality of sashes are arranged on the sliding rail through the pulley assembly, and the sliding rail positioned on the second step is provided with a transition hole.

Therefore, accumulated water on the inner side of the sliding rail of the second step can be discharged to the upper part of the drain valve through the transition hole, and is discharged to the outside through the drain valve.

In some embodiments, the upper end of the window frame is also provided with a drain valve.

Therefore, the upper end of the window frame can also be provided with a drain valve, and the drain valve at the upper end is used for draining accumulated water in the skylight at the upper end of the window frame.

In some embodiments, the windproof plate is arranged to be inclined inwards, and the windproof plate is provided with a plurality of water drainage grooves which are distributed in a staggered manner with the plurality of water drainage holes, and the plurality of water drainage grooves are distributed in a staggered manner with the water collection holes.

Therefore, when external wind pressure acts on the windproof plate, the windproof plate swings inwards and upwards, the external wind pressure acts on the windproof plate through the drain hole, and the windproof plate shields the water collecting hole; in daily state, the water in the water collecting hole can be discharged from the water discharging groove.

In some embodiments, the two inner sides of the drainage cavity are provided with clamping grooves, the two sides of the windproof plate are provided with clamping rods, and the clamping rods are detachably matched with the clamping grooves.

From this, the windproof plate is installed in the drainage intracavity through kelly and draw-in groove complex mode.

In some embodiments, the upper end surface of the valve body is detachably provided with a cover plate on which a plurality of water collection holes are arrayed.

From this, the apron can be dismantled and set up, makes things convenient for the production equipment of this drain valve.

The utility model has the advantages that: the system window provided by the utility model realizes an efficient drainage function by arranging the height difference drainage structure and the hidden drainage structure; moreover, the drain valve has the windproof function, and can prevent rainwater from flowing backwards and flowing backwards in rainy days; moreover, the utility model has the advantages that the inside and the outside of the system window are obviously divided by arranging a plurality of heat insulation structures, so that the heat insulation function of the system window is increased; finally, the utility model discloses be equipped with waterproof cover, can protect first heat insulating strip to avoid ponding to soak, strengthen the difference in height drainage effect of window form.

Drawings

Fig. 1 is a schematic plan view of a sliding window with wind-proof and water-draining functions according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a drain valve in the sliding window with wind-proof and water-draining functions shown in fig. 1.

Fig. 3 is a perspective exploded view of the water discharge valve shown in fig. 2.

Fig. 4 is a schematic cross-sectional view of some embodiments of the drain valve shown in fig. 2.

Fig. 5 is a schematic cross-sectional view of some embodiments of the drain valve shown in fig. 2.

Fig. 6 is a schematic plan view of a sliding window with wind-proof and water-draining functions according to another embodiment of the present invention.

Reference numbers in the figures: the window comprises a window frame 1, a first step 1a, a second step 1b, a transition cover 11, a first frame 12, a second frame 13, a waterproof cover 14, a first heat insulation strip 15, a sliding rail 16, a transition hole 161, a window sash 2, a first fan 21, a second fan 22, heat insulation glass 23, a second heat insulation strip 24, a line pressing component 25, a pulley component 26, a drop-preventing component 27, a drain valve 3, a valve body 31, a drain cavity 311, a drain cavity 312, a neck 32, a windproof plate 321, a clamping rod 322, a drain groove 33, a cover plate 331, a water collecting hole 34, a limiting panel 34 and a drain hole 341.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, in which the present disclosure defines the inside and outside directions indoors and outdoors, and the side near indoors is the inside and the side near outdoors is the outside.

Example 1

Fig. 1 to 3 schematically show a sliding window with windproof and drainage functions according to an embodiment of the present invention, which includes a window frame 1, a plurality of sashes 2, and a plurality of drainage valves 3. The window sashes 2 are slidably arranged on the window frame 1, the lower end of the window frame 1 is provided with a first step 1a and a second step 1b which are arranged in a high-low mode, and the first step 1a and the second step 1b are distributed inside and outside. The plurality of drain valves 3 are arranged on the outer side surface of the lower end of the window frame 1, the number of the drain valves 3 at the lower end is two, but not limited to two, the number of the drain valves 3 is determined according to the size of the window body, and the drain valves 3 are communicated with the end surface of the second step 1 b. The drain valve 3 comprises a valve body 31 and a windproof plate 32, a drain cavity 311 is arranged in the valve body 31, a plurality of drain holes 341 are arranged on the side surface of the drain cavity 311, a plurality of water collecting holes 331 are arranged on the upper end surface of the drain cavity 311, and the windproof plate 32 is arranged in the drain cavity 311 in a swinging manner; the installation method is that holes with the size of the drain valve 3 are formed in the end face and the side face of the window frame 1, and the drain valve 3 is fixed in a bolt mode.

The utility model provides a sliding window has efficient drainage structures, the window frame 1 of this sliding window has the first step 1a and the second step 1b of level difference, the window frame 1 can utilize the difference in height to lead ponding to lower one side namely second step 1b, then empties ponding through drain valve 3 to prevent rainwater from permeating into indoor from the open air; moreover, accumulated water is directly and quickly drained out of the window frame 1 from the drain valve 3 under the action of self gravity, so that rainwater is effectively prevented from permeating; and, under rainy day weather, when external pressure is greater than indoor pressure, prevent that wind vane 32 upwards turns, reduce the wind pressure and can shelter from for water collection hole 331, prevent that the rainwater from flowing backward in the effect backward of wind pressure.

With reference to fig. 1, the sliding window with wind-proof and water-draining functions further includes a transition cover 11, the transition cover 11 is disposed at the lower end of the window frame 1, and the transition cover 11 is located at the joint of the first step 1a and the second step 1 b. The arrangement of the transition cover 11 is added, so that the height difference structure of the first step 1a and the second step 1b is enhanced, and the height difference drainage effect of the sliding window is more obvious.

Referring to fig. 1, the end surface of the second step 1b is an inclined surface. The discharge efficiency of the accumulated water at the second step 1b is improved.

Referring to fig. 1, the upper end surfaces of the first step 1a and the second step 1b are both provided with a slide rail 16, the plurality of sashes 2 are arranged on the slide rail 16 through the pulley assembly 26, and the slide rail 16 positioned on the second step 1b is provided with a transition hole 161. The accumulated water inside the slide rail 16 of the second step 1b can be discharged to the upper side of the drain valve 3 through the transition hole 161, thereby being discharged to the outdoor through the drain valve 3.

Referring to fig. 1, the upper end of the window frame 1 is provided with an anti-drop groove, the upper end of the window sash 2 is provided with an anti-drop assembly 27, and the anti-drop assembly 27 is matched with the anti-drop groove.

Referring to fig. 1, a drain valve 3 is also disposed at the upper end of the window frame 1. The upper end of the window frame 1 can also be provided with a drain valve 3, and the drain valve 3 at the upper end is used for draining accumulated water in the skylight at the upper end of the window frame 1.

Referring to fig. 3-5, the windproof plate 32 is arranged to swing inward, a plurality of drainage grooves 322 are formed in the windproof plate 32, the drainage grooves 322 are distributed in a staggered manner with a plurality of drainage holes 341, and the drainage grooves 322 are distributed in a staggered manner with a plurality of water collection holes 331. When external wind pressure acts on the wind-proof plate 32, the wind-proof plate 32 swings inwards and upwards, the external wind pressure acts on the wind-proof plate 32 through the water discharge holes 341, and the wind-proof plate 32 shields the water collection holes 331; in a daily state, the water in the water collecting hole 331 can be discharged from the drain groove 322.

Referring to fig. 4-5, two inner sides of the drainage cavity 311 are provided with a locking groove 312, two sides of the wind-proof plate 32 are provided with a locking rod 321, and the locking rod 321 is detachably matched with the locking groove 312. The windshield 32 is mounted in the drain chamber 311 by means of the catch 321 engaging the catch 312.

Referring to fig. 2 to 4, the upper end surface of the valve body 31 is detachably provided with a cover plate 33, and a plurality of water collecting holes 331 are arrayed on the cover plate 33. The cover plate 33 can be detachably arranged, so that the production and assembly of the drain valve 3 are facilitated. The side of the valve body 31 is provided with a limit panel 34, and a plurality of drain holes 341 are arrayed on the limit panel 34. The limit panel 34 is used for installation limit, and the drain valve 3 can be correctly installed.

With reference to fig. 4-5, in some embodiments, the cross-section of the drain cavity 311 may be a fan shape or a trapezoid shape. The bottom surface of the drainage cavity 311 is an inclined surface, so that the drainage of water liquid can be accelerated, and the drainage effect is optimized.

Example two

The second embodiment is substantially the same as embodiment 1, and differs in the structure of the window frame 1 and the window sash 2.

The method specifically comprises the following steps:

referring to fig. 6, the window frame 1 includes a first frame 12, a second frame 13, a waterproof cover 14, and a plurality of first heat insulating strips 15, the first frame 12 and the second frame 13 are connected by the plurality of first heat insulating strips 15, the first frame 12 and the second frame 13 are distributed in height to form a first step 1a and a second step 1b, the waterproof cover 14 is disposed at a lower end of the window frame 1, and the waterproof cover 14 is located between the first frame 12 and the second frame 13 and above the first heat insulating strips 15.

The first frame body 12 is located on the indoor side and the second frame body 13 is located on the outdoor side. The first frame body 12 and the second frame body 13 are connected by a first heat insulation strip 15 group so as to ensure the internal and external heat insulation performance of the sliding window, namely the heat insulation performance of the sliding window; the first frame body 12 drains the accumulated water to the second frame body 13 due to the height difference, and the drainage grooves 322 on the second frame body 13 drain the accumulated water, so as to achieve the efficient drainage function.

Referring to fig. 6, the window sash 2 includes a first sash 21, a second sash 22, a heat insulating glass 23, and a plurality of second heat insulating strips 24, the first sash 21 and the second sash 22 are connected by the plurality of second heat insulating strips 24, and the heat insulating glass 23 is installed between the first sash 21 and the second sash 22 by a pressing line assembly 25.

The first fan 21 is located at a side close to indoor and the second fan 22 is located at a side close to outdoor. The first sash body 21 and the second sash body 22 are connected by the second heat insulation strip 24 group to ensure the inner and outer heat insulation performance of the sliding window, namely the heat insulation performance of the sliding window.

The utility model has the advantages that: the system window provided by the utility model realizes an efficient drainage function by arranging the height difference drainage structure and the hidden drainage structure; moreover, the drain valve has the windproof function, and can prevent rainwater from flowing backwards and flowing backwards in rainy days; moreover, the utility model has the advantages that the inside and the outside of the system window are obviously divided by arranging a plurality of heat insulation structures, so that the heat insulation function of the system window is increased; finally, the utility model discloses be equipped with waterproof cover, can protect first heat insulating strip to avoid ponding to soak, strengthen the difference in height drainage effect of window form.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. The sliding window with the wind-proof and water-draining functions is characterized by comprising a window frame (1), a plurality of window sashes (2) and a plurality of water draining valves (3), wherein the window sashes (2) are arranged on the window frame (1) in a sliding mode, the lower end of the window frame (1) is provided with a first step (1a) and a second step (1b) which are arranged in a high-low mode, the first step (1a) and the second step (1b) are distributed inside and outside, the water draining valves (3) are arranged on the outer side face of the lower end of the window frame (1), and the water draining valves (3) are communicated with the end face of the second step (1 b); the drain valve (3) comprises a valve body (31) and a windproof plate (32), a drainage cavity (311) is arranged in the valve body (31), a plurality of drainage holes (341) are formed in the side face of the drainage cavity (311), a plurality of water collecting holes (331) are formed in the upper end face of the drainage cavity (311), and the windproof plate (32) can be arranged in the drainage cavity (311) in a swinging mode.

2. The sliding window with wind-proof and water-draining functions as claimed in claim 1, further comprising a transition cover (11), wherein the transition cover (11) is arranged at the lower end of the window frame (1), and the transition cover (11) is positioned at the joint of the first step (1a) and the second step (1 b).

3. The sliding window with wind-proof and water-draining functions as claimed in claim 2, wherein the end surface of the second step (1b) is an inclined surface.

4. The sliding window with wind-proof and water-draining functions as claimed in claim 1, wherein the window frame (1) comprises a first frame body (12), a second frame body (13), a waterproof cover (14) and a plurality of first heat-insulating strips (15), the first frame body (12) and the second frame body (13) are connected through the plurality of first heat-insulating strips (15), the first frame body (12) and the second frame body (13) are distributed in height to form a first step (1a) and a second step (1b), the waterproof cover (14) is arranged at the lower end of the window frame (1), and the waterproof cover (14) is arranged between the first frame body (12) and the second frame body (13) and above the first heat-insulating strips (15).

5. The sliding window with wind and water preventing function according to claim 4, characterized in that the window sash (2) comprises a first sash body (21), a second sash body (22), a heat insulating glass (23) and a plurality of second heat insulating strips (24), the first sash body (21) and the second sash body (22) are connected through the plurality of second heat insulating strips (24), and the heat insulating glass (23) is installed between the first sash body (21) and the second sash body (22) through a line pressing assembly (25).

6. The sliding window with wind-proof and water-draining functions as claimed in claim 1, wherein the upper end surfaces of the first step (1a) and the second step (1b) are both provided with a sliding rail (16), a plurality of window sashes (2) are arranged on the sliding rail (16) through pulley assemblies (26), and the sliding rail (16) on the second step (1b) is provided with a transition hole (161).

7. The sliding window with wind-proof and water-draining functions as claimed in claim 1, wherein the upper end of the window frame (1) is also provided with a water-draining valve (3).

8. The sliding window with wind-proof and water-draining functions as claimed in any one of claims 1 to 7, wherein the wind-proof plate (32) is arranged to swing inwards, a plurality of water draining grooves (322) are arranged on the wind-proof plate (32), the plurality of water draining grooves (322) and the plurality of water draining holes (341) are distributed in a staggered manner, and the plurality of water draining grooves (322) and the water collecting holes (331) are distributed in a staggered manner.

9. The sliding window with wind-proof and water-draining functions as claimed in claim 8, wherein clamping grooves (312) are arranged on two inner sides of the water-draining cavity (311), clamping rods (321) are arranged on two sides of the wind-proof plate (32), and the clamping rods (321) are detachably matched with the clamping grooves (312).

10. The sliding window with wind-proof and water-draining functions as claimed in claim 9, wherein a cover plate (33) is detachably arranged on the upper end face of the valve body (31), and a plurality of water collecting holes (331) are arrayed on the cover plate (33).

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