CN217380251U - Anti-overflow sliding window - Google Patents

Abstract

The utility model discloses an anti-overflow water austral window, sliding sash, including window frame, interior casement and outer casement, the rectangular frame is pieced together by four window frame about from top to bottom, interior casement and outer casement parallel and inside and outside install with misplacing in the middle of the window frame, interior casement is the moving part, can control the flat push install in on the window frame, interior casement slides when closing the window frame one side, outer casement mounting, fixed set up in the window frame opposite side, the upper surface of the window frame of window frame downside is equipped with the manger plate step at the intermediate position, the upper surface of the window frame of window frame downside is in the inboard height that highly is greater than the outside of manger plate step, interior casement is located the inboard of manger plate step, outer casement is located the outside of manger plate step. The upper surface of the window frame at the lower side of the window frame is provided with the water retaining step with the inner height higher than the outer height, outdoor rainwater cannot pass through the window frame, rainwater can be effectively prevented from entering the indoor space, and the water tightness and the air tightness are improved.

Description

Anti-overflow sliding window

Technical Field

The utility model relates to an austral window, sliding sash especially relates to an anti-overflow water austral window, sliding sash.

Background

Aluminum alloy windows are of various types, and can be divided into a sliding window and a casement window in the opening mode, the casement window can open a window sash outwards or even inwards, and the sliding window opens the window sash in a left-right horizontal pushing mode.

Sliding window in use on the market meets a problem at present, when raining and rising strong wind, rainwater can flow backward into from the sliding window bottom very easily and get into indoors, especially often all can take place when south side typhoon is day, someone can also fall the air and pour into indoors through the mode of closing the door when being at home, but still can't avoid the rainwater to flow backward completely, and the condition is just very bad when nobody is at home, and indoor ponding can leak downstairs even.

SUMMERY OF THE UTILITY MODEL

The utility model provides an anti-overflow water austral window, sliding sash, it has overcome the not enough that the background art exists. The utility model provides a technical scheme that its technical problem adopted is:

an anti-overflow sliding window comprises a window frame, an inner window sash and an outer window sash, wherein the window frame is a rectangular frame formed by splicing an upper window frame, a lower window frame, a left window frame, a right window frame and an outer window frame, the inner window sash and the outer window sash are arranged in the window frame in a parallel and staggered mode, the inner window sash is a movable piece and can be horizontally pushed and arranged on the window frame, the inner window sash slides to one side of the window frame when the window is closed, the outer window sash fixing piece is fixedly arranged on the other side of the window frame, a water retaining step is arranged at the middle position of the upper surface of the window frame on the lower side of the window frame, the height of the inner side of the water retaining step is larger than that of the outer side of the water retaining step, the inner window sash is positioned on the inner side of the water retaining step, and the outer window sash is positioned on the outer side of the water retaining step.

In a preferred embodiment: the sash frame of the inner sash and the sash frame of the outer sash are both provided with hooked rabbet seals, and when the window is closed, the hooked rabbet seals on the inner sash and the hooked rabbet seals on the outer sash are matched and buckled together.

In a preferred embodiment: the window frame is a bridge cut-off structure and comprises an inner window frame, an outer window frame and a bridge cut-off connected between the inner window frame and the outer window frame.

In a preferred embodiment: the bridge cut-off is flush with the outer window sash.

In a preferred embodiment: the frame of the inner sash and the frame of the outer sash both adopt a bridge cut-off structure.

In a preferred embodiment: the sash frame of the inner sash is a rectangular frame formed by splicing four inner sash side frames, namely an upper inner sash frame, a lower inner sash frame, a left inner sash frame and a right inner sash frame, and the hollow glass of the inner sash is fixed.

In a preferred embodiment: the sash frame of the outer window sash is a concave frame formed by splicing a lower outer sash frame, a left outer sash frame and a right outer sash frame, the hollow glass of the outer window sash is fixed, the sash frame of the outer window sash and the window frame are locked together through bolts, and the upper side edge of the hollow glass of the outer window sash and the window frame on the upper side of the window frame are bonded together through glass glue.

In a preferred embodiment: the periphery of the inner side face of the hollow glass of the outer window sash is connected with the edge pressing, and the edge pressing is connected with the window frame or the window frame of the outer window sash.

Compared with the background technology, the technical scheme has the following advantages:

1. the upper surface of the window frame at the lower side of the window frame is provided with the water retaining step with the inner part higher than the outer part lower than the inner part, and outdoor rainwater cannot pass through the window frame, so that the rainwater can be effectively prevented from entering the indoor space, and the water tightness and the air tightness are improved. Meanwhile, the water retaining step can also be used for conveniently positioning the outer window sash, so that the outer window sash is convenient to assemble.

2. When the window is closed, the hooked rabbet seal on the inner window sash is matched and buckled with the hooked rabbet seal on the outer window sash together, so that the inner window sash and the outer window sash are matched more tightly, and the water tightness and the air tightness are further improved.

3. The window frame is of a bridge cut-off structure and can effectively insulate heat, particularly, the bridge cut-off of the window frame is flush with the outer window sash, direct heat transfer is separated outside the window frame to the greatest extent, and a better heat insulation effect is achieved.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 shows the schematic view of the anti-overflow sliding window of the present invention.

Fig. 2 is a schematic vertical sectional view of the water flood prevention sliding window shown in fig. 1 at the position of an inner sash.

Fig. 3 is a schematic vertical sectional view of the water flood prevention sliding window shown in fig. 1 in an outer sash position.

Fig. 4 is a cross-sectional view of the water flood prevention sliding window shown in fig. 1 in a transverse direction.

Detailed Description

Referring to fig. 1 to 4, the anti-overflow sliding window includes a window frame 10, an inner sash 20, and an outer sash 30, wherein the window frame 10 is a rectangular frame formed by splicing an upper, a lower, a left, and a right window frames 12, and the inner sash 20 and the outer sash 30 are installed in the window frame 10 in a parallel manner and in a staggered manner. The inner finger faces the indoor side and the outer finger faces the outdoor side. The inner window sash 20 is a movable member, and is installed on the window frame 10 in a manner of being capable of horizontally pushing left and right, and the inner window sash 20 slides to one side of the window frame 10 when the window is closed. The sliding fit structure between the window sash and the window frame in the city of xi' an refers to the existing structure. The outer sash 30 is fixed to the other side of the window frame 10. The upper surface of the window frame 12 at the lower side of the window frame 10 is provided with a water retaining step 14 at the middle position, the height of the upper surface of the window frame at the lower side of the window frame at the inner side of the water retaining step 14 is greater than that at the outer side, the inner sash 20 is positioned at the inner side of the water retaining step, and the outer sash 30 is positioned at the outer side of the water retaining step. In this embodiment, the outer sash 30 is shown on the water stop step 14. Because the bottom of the window frame 10 is provided with the water-blocking step, and the inner sash and the outer sash are respectively installed at the inner side and the outer side of the water-blocking step, rainwater can be effectively prevented from infiltrating into the room.

Preferably, the sash frame of the inner sash 20 is provided with a hooked rabbet seal 21, the sash frames of the outer sashes 30 are provided with hooked rabbet seals 31, and when the window is closed, the hooked rabbet seal 21 on the inner sash and the hooked rabbet seal 31 on the outer sash are matched and buckled together.

This embodiment is left-right plugging.

Preferably, the jamb 12 is a bridge cut-off structure comprising an inner jamb 121, an outer jamb 122, and a bridge cut-off 123 connected intermediate the inner and outer jambs. It is further preferred that the bridge 123 is flush with the outer sash 30, i.e. on the same vertical plane. It will also be appreciated that the water dam step 14 is provided on the inner reveal 121.

Preferably, the frame of inner window sash 20 and the frame of outer window sash 30 both adopt a bridge cut-off structure.

Preferably, the sash frame of the inner sash 20 is a rectangular frame formed by splicing four inner sash side frames 22, namely, an upper inner sash frame, a lower inner sash frame, a left inner sash frame and a right inner sash frame, and is used for fixing hollow glass 23 of the inner sash.

Preferably, the sash frame of the outer sash 30 is a concave frame formed by splicing three outer sash side frames 32, namely a lower left outer sash frame and a lower right outer sash frame, and is used for fixing hollow glass 33 of the outer sash, the sash frame of the outer sash 30 and the window frame 10 are locked together through bolts, so that the strength is improved, and the upper side edge of the hollow glass 33 of the outer sash and the window side frame 12 on the upper side of the window frame 10 are bonded together through glass glue.

Further preferably, the peripheries of the inner side surfaces of the hollow glasses of the outer sash 30 are connected with the pressing edges 34, the pressing edges 34 are connected with the sash frame of the outer sash 30 or the window frame 10, on one hand, the pressing edges more firmly limit the hollow glasses 33, and on the other hand, the pressing edges can also cover the bolts.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (8)

1. Anti-overflow water-proof sliding window, including window frame, interior casement and outer casement, the rectangular frame is pieced together by four window borders about from top to bottom, interior casement and outer casement parallel and install with inside and outside dislocation in the middle of the window frame, interior casement is the moving part, can control the flat push install in on the window frame, interior casement slides when closing the window frame one side, its characterized in that: the outer window sash fixing piece is fixedly arranged on the other side of the window frame, the water retaining step is arranged in the middle of the upper surface of the window frame on the lower side of the window frame, the height of the upper surface of the window frame on the lower side of the window frame on the inner side of the water retaining step is larger than that of the outer side of the water retaining step, the inner window sash is positioned on the inner side of the water retaining step, and the outer window sash is positioned on the outer side of the water retaining step.

2. An anti-overflow sliding window according to claim 1 wherein: the sash frame of the inner sash and the sash frame of the outer sash are both provided with hooked rabbet seals, and when the window is closed, the hooked rabbet seals on the inner sash and the hooked rabbet seals on the outer sash are matched and buckled together.

3. An anti-flooding sliding window according to claim 1 or 2, characterized in that: the window frame is a bridge cut-off structure and comprises an inner window frame, an outer window frame and a bridge cut-off connected between the inner window frame and the outer window frame.

4. An anti-overflow sliding window according to claim 3 wherein: the bridge cut-off is flush with the outer window sash.

5. An anti-overflow sliding window according to claim 1 wherein: the frame of the inner sash and the frame of the outer sash both adopt a bridge cut-off structure.

6. An anti-overflow sliding window according to claim 2 wherein: the sash frame of the inner sash is a rectangular frame formed by splicing four inner sash side frames, namely an upper inner sash frame, a lower inner sash frame, a left inner sash frame and a right inner sash frame, and the hollow glass of the inner sash is fixed.

7. An anti-overflow sliding window according to claim 2 wherein: the sash frame of the outer window sash is a concave frame formed by splicing a lower outer sash frame, a left outer sash frame and a right outer sash frame, the hollow glass of the outer window sash is fixed, the sash frame of the outer window sash and the window frame are locked together through bolts, and the upper side edge of the hollow glass of the outer window sash and the window frame on the upper side of the window frame are bonded together through glass glue.

8. An anti-spill sliding window according to claim 7 wherein: the periphery of the inner side face of the hollow glass of the outer window sash is connected with the edge pressing, and the edge pressing is connected with the window frame or the window frame of the outer window sash.

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