CN213597832U - Door and window entrance to a cave waterproof node structure - Google Patents

Abstract

The utility model relates to a door and window entrance to a cave waterproof node structure, it is including installing the window frame in the window opening that the wall body was seted up, be provided with waterproof between window frame and the window opening wall, the window frame all is provided with water-blocking piece along the both sides of window opening direction, water-blocking piece includes polylith water-blocking plate, polylith water-blocking plate sets up along the frame limit circumference of window frame, water-blocking plate slope sets up, just water-blocking plate width direction's one end sets up in the window frame, water-blocking plate width direction's the other end sets up in the window opening wall of wall body. This application has the effect of improving the not good problem of effect of preventing infiltration in water between window frame and the window opening wall.

Description

Door and window entrance to a cave waterproof node structure

Technical Field

The application relates to door and window installation technical field, especially relate to a door and window entrance to a cave waterproof node structure.

Background

Doors and windows are important components of building envelope systems. Generally, the window is installed by directly installing the window and the door in a flat window opening, foaming sealant between the window frame and the wall of the flat window opening, and then sealing silica gel is applied to the inner side and the outer side of the window to complete the sealed installation.

The utility model discloses a novel aluminum alloy door and window waterproofing device that application number is CN 201922226204.8's chinese utility model patent discloses, including the outer wall, the inside of outer wall is equipped with the fixed plate, the inside of fixed plate is equipped with bottom waterproof sealing strip, the both sides fixedly connected with fixed slot of bottom waterproof sealing strip, just the inside at the outer wall is inlayed to the fixed slot, the top of bottom waterproof sealing strip is equipped with the waterproof glue, the inboard fixedly connected with frame of waterproof glue, the inside of frame is equipped with door and window.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in the long-term use process, the waterproof sealing strip and the waterproof glue age gradually, the sealing performance declines gradually, and the water seepage prevention effect is poor.

SUMMERY OF THE UTILITY MODEL

In order to improve and prevent that water oozes the not good problem of effect from between window frame and the window opening wall in, this application provides a door and window entrance to a cave waterproof node structure.

The application provides a pair of door and window entrance to a cave waterproof node structure adopts following technical scheme:

the utility model provides a door and window entrance to a cave waterproof node structure, is including installing the window frame in the window opening that the wall body was seted up, be provided with waterproof between window frame and the window opening wall, the window frame all is provided with the piece that blocks water along the both sides of window opening direction, the piece that blocks water includes the polylith board that blocks water, the polylith the board that blocks water sets up along the frame limit circumference of window frame, the board slope that blocks water sets up, just the one end of the board width direction that blocks water sets up in the window frame, the other end of the board width direction that blocks water sets up in the window opening wall of wall body.

Through adopting above-mentioned technical scheme, along the opening direction of window opening, set up the water-blocking board in the both sides of waterproof, the water-blocking board blocks water relatively to with the waterproof cladding, reduce the probability that waterproof is corroded by water, thereby improve and prevent that water from oozing the not good problem of effect from between window frame and the window opening wall.

Optionally, the waterproof part includes foaming sealing glue film and sealing silica gel layer, foaming sealing glue film sets up between window frame and window hole wall, the sealing silica gel layer sets up to two-layer and lies in the both sides of foaming sealing glue film respectively along window hole opening direction, the sealing silica gel layer deviates from a foaming sealing glue film side along the horizontal direction and is the inclined plane and the incline direction of slope and the board that blocks water the same.

Through adopting above-mentioned technical scheme, set up foaming sealant layer between window frame and window opening wall to with the gap filling between the two, and set up the sealing silica gel layer in the both sides of foaming sealant layer, with the cladding of foaming sealant layer, simultaneously, seal the space that forms between window frame and the window opening wall, thereby prevent water infiltration.

Optionally, both sides of the window frame along the opening direction of the window opening can be provided with mounting grooves; one end of the water blocking plate in the width direction extends into the mounting groove, one end of the water blocking plate extending into the mounting groove is provided with a plurality of connecting rods, one end of each connecting rod is fixed to the water blocking plate, and the other end of each connecting rod is fixed with a rotating ball which is rotatably connected to the wall of the mounting groove.

By adopting the technical scheme, the water blocking plate is rotationally connected to the window frame through the rotating ball which is rotationally connected to the window frame, so that the water blocking plate can be rotated when the window frame is installed on the window hole, and the smooth installation of the window frame is further ensured; simultaneously, the one end of water-blocking board stretches into in the mounting groove, and the water-blocking board that the slope set up can prevent relatively that water from entering into the mounting groove to reach water-proof effects relatively.

Optionally, a baffle is arranged at the notch of the mounting groove, the length direction of the baffle is arranged along the groove length direction of the mounting groove, the width direction of the baffle extends along the vertical direction, one end of the baffle in the width direction is fixed on the window frame, and the other end of the baffle abuts against the water blocking plate.

Through adopting above-mentioned technical scheme, the baffle will block the opening part of water board top and mounting groove and seal relatively, can make waterproof effect that enters into in the mounting groove better.

Optionally, the baffle includes lagging and slide, the lagging is fixed in the window frame, the spout has been seted up to the other end of lagging, the one end sliding connection of slide is in the spout, the other end butt of slide in the water-blocking board.

Through adopting above-mentioned technical scheme, when rotating the water-blocking plate, the relative lagging of slide slides, can guarantee the smooth rotation of water-blocking plate.

Optionally, the water blocking plate is provided with a water blocking groove, and the sliding plate abuts against the bottom of the water blocking groove.

Through adopting above-mentioned technical scheme, when outside water oozes in the butt face of water-blocking plate from the slide butt, can be blockked relatively by the step that the basin formed that hinders, and then the effect that waterproof infiltration enters into in the mounting groove is better.

Optionally, the water-blocking plate is arranged at one end of the wall body window hole wall and is formed with a lap joint plate which is lapped on the window hole wall, and one side of the lap joint plate, which is close to the window hole wall, is provided with a plurality of cement nails which are nailed into the wall body.

By adopting the technical scheme, when the water-blocking plate is installed, the lap joint plate is lapped on the wall of the window hole, then the cement nails are nailed into the wall body, so that the lap joint plate is fixed on the wall body, and the water-blocking plate is further fixed, and the window frame can be more stable through the support of a plurality of water-blocking components; meanwhile, through the fixation of the cement nails, the probability of direct permeation of water from the lap joint plate and the wall of the window opening is relatively low in the long-term use process.

Optionally, one side of the lap joint plate, which is provided with the cement nails, is provided with two sealing layers, the two sealing layers are arranged along the opening direction of the window opening, and a first water absorption layer is arranged between the two sealing layers.

By adopting the technical scheme, the sealing effect between the lap joint plate and the wall of the window opening is enhanced by arranging two sealing layers so as to enhance the sealing effect; simultaneously, the water of infiltration is absorbed relatively through the water absorption effect on first layer that absorbs water for waterproof infiltration's effect is better.

Optionally, one side of the water blocking plate close to the sealing silica gel layer is filled with a second water absorbing layer, and the second water absorbing layer extends and is filled in the mounting groove.

Through adopting above-mentioned technical scheme, in long-term use, when water enters into the one side that the board deviates from the external world that blocks water through the gap between mounting groove or overlap joint board and the window hole wall, contact the second and absorb water the layer, the second absorbs water the layer with water absorption and inflation, with the gap packing for prevent that water further from permeating the degree of difficulty that enters into waterproof, thereby waterproof infiltration's effect is better.

In summary, the present application includes at least one of the following beneficial technical effects:

the gap between the window frame and the wall of the window hole is filled by arranging the foaming sealing glue layer and the sealing silica gel layer, the water blocking plates are arranged on the two sides of the window frame along the opening direction of the window hole so as to block the water seeped inwards, and the waterproof piece is relatively protected by the two water blocking plates so as to reduce the probability of the water seeping inwards to the waterproof piece, so that the waterproof effect of the waterproof piece is better for a long time, and the problem of poor seepage effect of the water between the window frame and the wall of the window hole is solved; further, through setting up the probability that the baffle enters into the mounting groove with reduction water to through setting up first water absorption layer and sealing layer with the probability that reduces water and ooze from lapping plate and window opening wall in, simultaneously, absorb water the layer through the second and fill in the gap that the water blocking plate is close to waterproof one side, through the characteristic of absorbing water, make water-proof effects better relatively.

Drawings

FIG. 1 is a schematic overall structure of the present application;

FIG. 2 is a schematic view of the present application in partial cross-section, primarily showing the installation configuration of the flashing and water barrier;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

fig. 4 is an enlarged schematic view of a portion B in fig. 2.

Description of reference numerals: 1. a wall body; 2. a window frame; 21. mounting grooves; 3. a waterproof member; 31. foaming the sealing adhesive layer; 32. sealing the silica gel layer; 4. a water blocking member; 41. a water-blocking plate; 411. a water blocking tank; 42. a connecting rod; 421. rotating the ball; 43. a lap plate; 431. a cement nail; 44. a sealing layer; 45. a first water absorption layer; 5. a baffle plate; 51. sheathing; 52. a slide plate; 6. a second water-absorbing layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses door and window entrance to a cave waterproof node structure. Referring to fig. 1 and 2, the waterproof node structure for the door and window openings comprises a window frame 2 installed in a window opening formed in a wall body 1, wherein the window frame 2 is of a rectangular structure, and after the window frame 2 is installed in the window opening, a window sash is installed on the window frame 2.

When the window frame is installed, a gap is formed between the window frame 2 and the wall of the window hole, the waterproof piece 3 is filled in the gap, the waterproof piece 3 comprises a foaming sealing adhesive layer 31 and a sealing silica gel layer 32, and the foaming sealing adhesive layer 31 is sprayed between the window frame 2 and the wall of the window hole and is sprayed along the circumferential direction of the frame edge of the window frame 2; along the opening direction of the window opening, the sealing silica gel layers 32 are arranged into two layers and are respectively arranged on two sides of the foaming sealing adhesive layer 31 to coat the foaming sealing adhesive layer 31; the gap between the window frame 2 and the wall of the window hole is filled through the foaming sealant layer 31 and the sealing silica gel layer 32, so that the sealing and water seepage preventing effects are achieved.

The one side that sealing silica gel layer 32 deviates from foaming sealing glue layer 31 is the inclined plane of slope for water falls back on sealing silica gel layer 32, can flow down fast relatively, prevents ponding.

When the window frame 2 is installed on the window opening, the window frame 2 can be cushioned through the plurality of wood cushion blocks, then the foamed sealing adhesive layer 31 is sprayed between the window frame 2 and the wall of the window opening, and then the sealing silica gel layers 32 are respectively brushed on the indoor side and the outdoor side.

Referring to fig. 3, along the opening direction of the window opening, the two sides of the window frame 2 are both provided with mounting grooves 21, and the mounting grooves 21 are circumferentially provided along the frame edge of the window frame 2. The two sides of the window frame 2 are both provided with water blocking pieces 4, each water blocking piece 4 comprises a plurality of water blocking plates 41, and the number of the water blocking plates 41 is 4; the length of the water blocking plate 41 is the same as that of the frame edge, and the width direction of the water blocking plate 41 forms an angle with the vertical direction, that is, the width direction of the water blocking plate 41 extends along the inclined direction, and the extending direction is the same as the inclined direction of the inclined side of the sealing silica gel layer 32, so that water can quickly flow away after falling on the water blocking plate 41, and water accumulation is prevented; through setting up two water-stop boards 41 with the relative cladding of waterproof part 3, in long-term use, reduce waterproof part 3 and aeolian, the probability of touching water, and then improve and prevent that water from oozing the not good problem of effect in the window frame and the window opening wall.

One end of the water-blocking plate 41 in the width direction extends into the mounting groove 21, so that the probability that water enters the mounting groove 21 and further enters the space between the water-blocking plate 41 and the sealing silica gel layer 32 is reduced through the water-blocking plate 41; and a plurality of connecting rods 42 are integrally formed at the end, the plurality of connecting rods 42 extending along the length direction of the water blocking plate 41; one end of the connecting rod 42 is formed on the water-blocking plate 41, the other end of the connecting rod 42 is fixed with a rotating ball 421, the rotating ball 421 is rotatably connected to the groove wall of the mounting groove 21, and in the vertical direction, the rotating point is located on the groove wall of the mounting groove 21 close to the center of the window hole. The water-blocking plate 41 is rotatably connected to the window frame 2 through the rotating balls 421, that is, in a ball-hinged manner, so that the water-blocking plate 41 rotates around a straight line formed by the plurality of rotating balls 421, thereby facilitating the installation of the window frame 2 in a window opening, that is, when the window frame 2 is installed, the water-blocking plate 41 is rotated, and the installation of the water-blocking plate 41 is prevented from being influenced.

Referring to fig. 3, in order to reduce the probability of water entering the installation groove 21, a baffle 5 is arranged at the notch of the installation groove 21, the length direction of the baffle 5 extends along the groove length direction of the installation groove 21, and the width direction of the baffle extends along the vertical direction; one end of the baffle 5 in the width direction is welded on the window frame 2, and the other end abuts on the water blocking plate 41, so that a gap formed between the water blocking plate 41 and the installation groove 21 in the vertical direction is relatively closed, and water entering the installation groove 21 is reduced.

The baffle 5 comprises a sleeve plate 51 and a sliding plate 52, the sleeve plate 51 is welded on the window frame 2, and a sliding groove is formed in one side of the sleeve plate 51, which is far away from the window frame 2 in the vertical direction, and is a T-shaped groove; one end of the sliding plate 52 is in a T shape and is connected in the sliding chute in a sliding way, and the other end of the sliding plate 52 is abutted against the water-blocking plate 41, so that the baffle plate 5 can be stretched in the width direction to change the length; that is, when the water blocking plate 41 rotates, the sliding plate 52 slides, and the sliding plate 52 is always in contact with the water blocking plate 41, so that smooth rotation of the water blocking plate 41 is not affected.

In order to further reduce the probability that water enters the mounting groove 21 from the abutting surface of the sliding plate 52 abutting against the water blocking plate 41, a water blocking groove 411 is formed on one side of the water blocking plate 41, which is far away from the sealing silica gel layer 32, and the sliding plate 52 slides downwards and abuts against the bottom of the water blocking groove 411 to form a step, so that the difficulty of water permeating and entering the mounting groove 21 is increased.

Referring to fig. 2 and 4, the other end of the water blocking plate 41 in the width direction is formed with a bridging plate 43 that bridges the wall of the window hole, and the length direction of the bridging plate 43 is arranged along the length direction of the water blocking plate 41; a plurality of cement nails 431 are arranged on one side of the lapping plate 43 close to the ground, and the heads of the cement nails 431 are fixed on the lapping plate 43; after the water-blocking plate 41 is rotated downwards, the lapping plate 43 is lapped on the wall of the window hole, and at the moment, the cement nail 431 is nailed into the wall of the window hole to fix the lapping plate 43, so that the effect of preventing water seepage through the water-blocking plate 41 is relatively better; meanwhile, the plurality of lap plates 43 and the plurality of water blocking plates 41 support the window frame 2, so that the stability of the window frame 2 can be better.

There is sealing layer 44 bonding in the one side that lapping plate 43 was provided with cement nail 431, and sealing layer 44 sets up to two-layerly, and two-layer sealing layer 44 arranges along the horizontal direction, and sealing layer 44 can adopt the sealing cotton to make to strengthen the sealed effect between lapping plate 43 and the wall of the window opening, thereby strengthen water-proof effects.

A first water absorption layer 45 is arranged between the two sealing layers 44, the first water absorption layer 45 is formed by mixing a high-molecular inorganic water absorption expansion material and rubber, and has a water absorption expansion effect, so that when water permeates the sealing layers 44 and is infiltrated into the sealing layers, the first water absorption layer 45 absorbs water to expand, gaps between the lapping plates 43 and the wall of the window hole can be filled more fully, and the water seepage prevention effect is better; and the two sealing layers 44 protect the first water absorption layer 45, so that the service life of the first water absorption layer 45 can be relatively prolonged.

Referring to fig. 2, the side of the water-blocking plate 41 close to the sealing silica gel layer 32 is filled with the second water-absorbing layer 6, the second water-absorbing layer 6 is also formed by mixing a polymer inorganic water-absorbing expansion material and rubber, and has a water-absorbing expansion effect, and the second water-absorbing layer 6 extends upwards and is filled in the mounting groove 21. After making water enter into the one side that water-blocking plate 41 deviates from the external world, meet the second and absorb water layer 6 for the second absorbs water layer 6 inflation, fills the space, thereby waterproof water enters one and oozes to waterproof piece 3, and then guarantees the long-term preferred of water-proof effects.

The embodiment of the application relates to a door and window entrance to a cave waterproof node structure's installation step is: cleaning the wall of the window hole, and determining the position for installing the window frame 2; then the window frame 2 is arranged in the window opening, when in installation, the water-blocking plate 41 is rotated upwards to prevent the water-blocking plate 41 from influencing the installation, and meanwhile, the window frame 2 can be cushioned by utilizing the wood cushion block; after the installation, firstly spraying a foaming sealing glue layer 31 to a gap between the window frame 2 and the wall of the window hole, and then brushing a sealing silica gel layer 32; then, the water blocking plate 41 is rotated upwards, the second water absorbing layer 6 is bonded on one side, close to the sealing silica gel layer 32, of the water blocking plate 41, and the second water absorbing layer 6 enters the mounting groove 21; then, the sealing layer 44 and the first water absorption layer 45 are arranged on the lapping plate 43, and the cement nails 431 are nailed into the wall body 1, so that the window sash can be installed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a door and window entrance to a cave waterproof node structure, is including installing window frame (2) in the window opening that wall body (1) was seted up, be provided with between window frame (2) and the window opening wall waterproof (3), its characterized in that: the window frame (2) all is provided with water-blocking piece (4) along the both sides of window opening direction, water-blocking piece (4) include polylith water-blocking plate (41), polylith water-blocking plate (41) set up along the frame limit circumference of window frame (2), water-blocking plate (41) slope sets up, just water-blocking plate (41) width direction's one end sets up in window frame (2), water-blocking plate (41) width direction's the other end sets up in the window opening wall of wall body (1).

2. The door and window opening waterproof node structure of claim 1, characterized in that: waterproof part (3) are including foaming sealant layer (31) and sealing silica gel layer (32), foaming sealant layer (31) sets up between window frame (2) and window hole wall, sealing silica gel layer (32) set up to two-layer and lie in the both sides of foaming sealant layer (31) respectively along window hole opening direction, sealing silica gel layer (32) deviate from the inclined plane and the incline direction of foaming sealant layer (31) side for the slope and are the same with water blocking plate (41) along the horizontal direction.

3. The door and window opening waterproof node structure of claim 2, characterized in that: both sides of the window frame (2) along the opening direction of the window opening can be provided with mounting grooves (21); the one end of water-blocking plate (41) width direction stretches into in mounting groove (21), the one end that water-blocking plate (41) stretched into in mounting groove (21) is provided with a plurality of connecting rods (42), the one end of connecting rod (42) is fixed in water-blocking plate (41), the other end of connecting rod (42) is fixed with rolling ball (421), rolling ball (421) rotate to be connected in the cell wall of mounting groove (21).

4. The door and window opening waterproof node structure of claim 3, characterized in that: the utility model discloses a window frame, including mounting groove (21), the notch department of mounting groove (21) is provided with baffle (5), the length direction of baffle (5) sets up along the groove length direction of mounting groove (21), the width direction of baffle (5) extends along vertical direction, the one end of baffle (5) width direction is fixed in window frame (2), the other end butt of baffle (5) is in water-blocking plate (41).

5. The door and window opening waterproof node structure of claim 4, characterized in that: the baffle (5) comprises a sleeve plate (51) and a sliding plate (52), the sleeve plate (51) is fixed on the window frame (2), the other end of the sleeve plate (51) is provided with a sliding groove, one end of the sliding plate (52) is connected in the sliding groove in a sliding mode, and the other end of the sliding plate (52) abuts against the water blocking plate (41).

6. The door and window opening waterproof node structure of claim 5, characterized in that: the water blocking plate (41) is provided with a water blocking groove (411), and the sliding plate (52) is abutted to the bottom of the water blocking groove (411).

7. The door and window opening waterproof node structure of claim 6, characterized in that: the water-blocking plate (41) is arranged at one end of the window hole wall of the wall body (1) and is formed into an overlapping plate (43) which is overlapped on the window hole wall, and one side, close to the window hole wall, of the overlapping plate (43) is provided with a plurality of cement nails (431) which are nailed into the wall body (1).

8. The door and window opening waterproof node structure of claim 7, characterized in that: one side of the lap joint plate (43) provided with the cement nails (431) is provided with two layers of sealing layers (44), the two layers of sealing layers (44) are arranged along the opening direction of the window opening, and a first water absorption layer (45) is arranged between the two layers of sealing layers (44).

9. The door and window opening waterproof node structure of claim 3, characterized in that: one side of the water blocking plate (41) close to the sealing silica gel layer (32) is filled with a second water absorbing layer (6), and the second water absorbing layer (6) extends and is filled in the mounting groove (21).

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