CN221237283U - Downpipe support mounting structure - Google Patents

Abstract

The application aims to provide a downpipe support mounting structure which can reduce the possibility of pollution of rust water to a wall surface, and comprises an embedded support and a baffle plate, wherein the baffle plate is sleeved on the embedded support; a fixing piece is arranged between the partition board and the wall surface, and the partition board is fixedly connected to the wall surface through the fixing piece. The application has the effect of reducing the possibility of pollution of the rust water to the wall surface.

Description

Downpipe support mounting structure

Technical Field

The application relates to the technical field of building installation engineering, in particular to a downpipe bracket installation structure.

Background

In the current house construction, a plurality of embedded parts are reserved while casting the wall body, so that other components can be conveniently installed in the house decoration and construction process. In order to conveniently fix the downpipe outside the outer wall in the subsequent building process, a downpipe bracket is pre-buried in the outer wall.

Usually, the downpipe support comprises a steel frame, one end of the steel frame is embedded in the outer wall, the other end of the steel frame extends out of the outer wall, and the downpipe can be fixed on the steel frame through a pipe clamp, so that the fixation of the downpipe is completed.

The part of the steel frame exposed in the air is easy to rust, when the steel frame is rusted, in rainy weather, rainwater falls on the steel frame to form rust water, and at the moment, the rust water flows down along the wall to cause the trace of the rust water flowing on the wall to pollute the wall.

Disclosure of utility model

The application aims to provide a downpipe bracket mounting structure which can reduce the possibility of pollution of rust water to a wall surface.

The downpipe support mounting structure provided by the application adopts the following technical scheme:

The downpipe support mounting structure comprises an embedded support and a partition board, wherein the partition board is sleeved on the embedded support, a heightening piece is arranged on one surface of the partition board, which is close to a wall surface, and is respectively abutted to the partition board and the wall surface, and the heightening piece is arranged around the embedded support in a circle and wraps the embedded support;

a fixing piece is arranged between the partition board and the wall surface, and the partition board is fixedly connected to the wall surface through the fixing piece.

Through adopting above-mentioned technical scheme, through setting up the piece that steps up, make there is the clearance between baffle and the wall, and make the piece that steps up wrap up pre-buried support to reduce the possibility that the rainwater was touched to pre-buried support and wall contact's part, and then reduced the possibility that forms the rust water, and there is the clearance between baffle and the wall, thereby reduced the possibility that the rust water on the baffle flowed to the wall on, and then reduced the possibility that the rust water caused the pollution to the wall.

Optionally, the baffle bottom surface is provided with the flat water spare, the flat water spare is connected baffle lower extreme and top-down go up the direction slope setting that keeps away from the wall.

Through adopting above-mentioned technical scheme, at the in-process that rust water flows downwards along the baffle lateral wall, rust water flow on the plain water spare to flow to the direction of keeping away from the wall under the direction effect of plain water spare, reduced rust water along gluing the possibility of rivers on the wall under the wind-force effect, and then further guaranteed the clean degree of wall.

Optionally, the baffle top surface is connected with the direction sloping block, the direction sloping block top-down sets up to the direction slope that keeps away from the wall, the direction sloping block adopts rubber to make.

Through adopting above-mentioned technical scheme, the rainwater flows down along the wall, can flow to the place of filling up piece and wall contact, and the rainwater persists here for a long time, leads to the rainwater to permeate into the position of pre-buried support easily to lead to leaking, through setting up the guide sloping block, reduce the rainwater inflow and fill up the possibility of piece and wall contact position, and then reduce the possibility of leaking.

Optionally, the first sand grip of fixedly connected with on the direction sloping block, first recess has been seted up to the baffle top surface, first sand grip with first recess interference fit, first sand grip adopts rubber to make.

Through adopting above-mentioned technical scheme, through setting up first sand grip and first recess, make the direction sloping block and baffle detachable connection to can install the mounting earlier before the installation direction sloping block, make things convenient for the installation of mounting, install the direction sloping block on the baffle again after the mounting has been installed.

Optionally, the baffle is installed to the baffle lateral wall, the baffle is towards the direction slope setting of keeping away from the wall.

Through adopting above-mentioned technical scheme, when rainy weather in windy, the rust water that is in the baffle edge flows to the wall along glue under the drive of wind easily, through setting up the breakwater, makes the breakwater block rust water, reduces that the rust water flows down the condition emergence on the wall under wind-force drive.

Optionally, the second recess has been seted up to the baffle lateral wall, the breakwater inserts in the second recess and can be in the second recess slides, set up the third recess on the breakwater, the third recess with first recess position corresponds, the third recess with first sand grip interference fit, first sand grip can insert simultaneously first recess with in the third recess.

Through adopting above-mentioned technical scheme, through setting up the second recess, make the breakwater can dismantle with the baffle and be connected to when the breakwater took place to damage, conveniently change the breakwater, and the breakwater is fixed through first sand grip, need not to additionally set up other mechanisms again and go fixed breakwater, make support mounting structure simpler and more.

Optionally, two water baffles are provided, and the two water baffles are respectively arranged on the two side walls of the partition plate.

Through adopting above-mentioned technical scheme, through setting up two breakwaters, make two breakwaters block the rainwater simultaneously, further increased the protection to the wall.

Optionally, a fourth groove is formed in the bottom surface of the partition board, the water leveling piece can be inserted into the fourth groove and can slide in the fourth groove, a fifth groove is formed in two side walls of the water leveling piece, the fifth groove corresponds to the second groove on the same side in position, and the water baffle can be simultaneously inserted into the second groove and the fifth groove.

Through adopting above-mentioned technical scheme, through setting up the fourth recess, make baffle and flat water spare can dismantle the connection, make things convenient for the change of flat water spare, and through the setting of fifth recess, make the breakwater carry out spacingly to flat water spare to need not to set up other mechanisms again and go to fix flat water spare, make the support mounting structure simpler and more easy.

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

1. By arranging the heightening piece, a gap exists between the partition board and the wall surface, and the heightening piece wraps the embedded bracket, so that the possibility that the contact part of the embedded bracket and the wall surface is contacted with rainwater is reduced, the possibility of forming rust water is further reduced, and a gap exists between the partition board and the wall surface, so that the possibility that the rust water on the partition board flows onto the wall surface is reduced, and the possibility that the rust water pollutes the wall surface is further reduced;

2. In the process that the rust water flows downwards along the outer side wall of the partition plate, the rust water flows on the water leveling piece and flows in a direction away from the wall surface under the guiding action of the water leveling piece, so that the possibility that the rust water flows on the wall surface along the glue water under the action of wind force is reduced, and the cleanness of the wall surface is further ensured;

3. when in rainy weather with wind, the rust water at the edge of the partition plate is easy to flow onto the wall surface along the glue water under the drive of wind, and the water baffle is arranged to block the rust water, so that the condition that the rust water flows onto the wall surface under the drive of wind power is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a downpipe bracket mounting structure according to an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of a downpipe support mounting structure according to an embodiment of the present application.

Fig. 3 is an enlarged partial schematic view of the portion a in fig. 2.

Fig. 4 is a partially enlarged schematic view of the portion B in fig. 2.

Fig. 5 is a schematic view showing a partial structure of the hidden partition board according to the embodiment of the present application.

Fig. 6 is a schematic view of an explosion structure at the junction of a water deflector and a flat water member according to an embodiment of the present application.

In the figure, 1, embedding a bracket; 2. a partition plate; 21. perforating; 22. a first groove; 23. a second groove; 24. a fourth groove; 3. a lifting piece; 4. a fixing member; 5. a horizontal member; 51. a fifth groove; 52. a rubber protrusion; 6. a guide sloping block; 61. a first protruding strip; 7. a water baffle; 71. a third groove; 72. and a limiting hole.

Detailed Description

The present application will be described in further detail with reference to fig. 1 to 6.

Example 1:

The downpipe support mounting structure, refer to fig. 1 and 2, including pre-buried support 1, pre-buried support 1 one end is in the wall, and the other end is in the wall outside, and pre-buried support 1 and the contact of wall are put a round glue, reduce pre-buried support 1 and wall contact position and take place the possibility of leaking water.

A baffle plate 2 is sleeved on the embedded bracket 1, a through hole 21 matched with the embedded bracket 1 is arranged in the center of the baffle plate 2, the embedded bracket 1 passes through the through hole 21 so that the baffle plate 2 is sleeved on the embedded bracket 1,

One side that baffle 2 is close to the wall is provided with the piece that steps up 3, step up 3 respectively with baffle 2 and wall butt, baffle 2 separates each other with the wall through step up 3, and step up 3 adopts the double faced adhesive tape in this embodiment, pastes multilayer double faced adhesive tape on the wall, slides the baffle 2 of cover on pre-buried support 1 to the direction that is close to the wall again, makes baffle 2 and double faced adhesive tape gluing to carry out preliminary location to baffle 2. At this time, a circle of glue is sprayed to the contact part of the partition board 2 and the embedded bracket 1, namely, a circle of glue is sprayed to the opening of the perforation 21, so that the possibility of water leakage at the contact part of the partition board 2 and the embedded bracket 1 is reduced.

Be provided with mounting 4 between baffle 2 and the wall, baffle 2 is through fixed connection and wall fixed connection, and mounting 4 adopts glue in this embodiment, annotates glue in the space between baffle 2 and the wall to make baffle 2 fix on the wall.

When baffle 2 and pre-buried support 1 rust, the rainwater falls on baffle 2 and pre-buried support 1, forms the rust water, and the rust water can flow down along baffle 2 and pre-buried support 1 until the drip subaerial, and has reduced the possibility that the rust water flows down along the wall and leads to the wall to be polluted.

The bottom surface of the partition plate 2 is provided with a flat water piece 5, the flat water piece 5 is plate-shaped, the flat water piece 5 is obliquely arranged from top to bottom in a direction away from the wall surface, and the flat water piece 5 and the wall surface are arranged at intervals. In this embodiment, the flat water member 5 is made of iron material and is fixedly connected to the partition board 2 by welding, in other embodiments, the flat water member 5 may be made of rubber or other materials, and the flat water member 5 may also be fixed to the partition board 2 by glue.

In the process that the rust water flows downwards along the outer side wall of the partition plate 2, the rust water flows on the water leveling piece 5 and flows in the direction away from the wall surface under the guiding effect of the water leveling piece 5, so that the possibility that the rust water flows on the wall surface along the glue water flow under the wind force effect is reduced, and the cleanness of the wall surface is further ensured.

The implementation principle of the embodiment of the application is as follows: when the partition plate 2 rusts, rainwater falls on the partition plate 2 and the embedded support 1 to form rust water, the rust water flows onto the water leveling pieces 5 along the partition plate 2 and then flows onto the ground through the water leveling pieces 5, and therefore the possibility that the rust water flows onto the wall surface is reduced.

Example 2:

The present embodiment 2 has substantially the same structure as that of embodiment 1, except that a water deflector 7 and a guide inclined block 6 are added.

Referring to fig. 1 and 2, the top surface of the partition plate 2 is connected with a guiding oblique block 6, the cross section of the guiding oblique block 6 is in a right triangle shape, and the oblique side of the guiding oblique block 6 is obliquely arranged from top to bottom in a direction away from the wall surface, and in this embodiment, the guiding oblique block 6 is made of rubber. Two right-angle edges of the guide inclined block 6 are respectively abutted with the wall surface and the top surface of the partition plate 2. When the rainwater slides downwards from the wall surface, the rainwater flows onto the partition plate 2 along the guide inclined blocks 6 and flows onto the water leveling pieces 5 along the partition plate 2, and finally drops onto the ground from the water leveling pieces 5.

Referring to fig. 2 and 3, the guide inclined block 6 is fixedly connected with a first raised line 61 near the bottom surface of the partition board 2, the first raised line 61 is made of rubber and is integrally formed with the guide inclined block 6, the top surface of the partition board 2 is provided with a first groove 22, and the first groove 22 is in interference fit with the first raised line 61. In this embodiment, the length of the guiding oblique block 6 is greater than the length of the partition board 2, that is, two side walls of the guiding oblique block 6 are spaced from two side walls of the partition board 2, so that when rainwater moves downwards along the wall surface, the possibility that the rainwater touches the glue on the partition board 2 is reduced, and the possibility of water leakage is further reduced.

Referring to fig. 2 and 5, the baffle plates 7 are installed on the side walls of the partition plates 2, the baffle plates 7 are inclined towards the direction away from the wall surface, in this embodiment, two baffle plates 7 are respectively connected to the two mutually symmetrical side walls of the partition plates 2, and the two baffle plates 7 are symmetrically arranged.

When in rainy weather with wind, the rust water at the edge of the baffle plate 2 easily flows onto the wall surface along the glue water under the drive of wind, and the two water baffles 7 are arranged, so that the water baffles 7 block the rust water, and the condition that the rust water flows onto the wall surface under the drive of wind power is reduced.

The two side walls of the partition plate 2 are provided with second grooves 23, the second grooves 23 are matched with the water baffle 7, in this embodiment, the second grooves 23 are obliquely arranged and have the same inclination angle with the water baffle 7, and the water baffle 7 can be inserted into the second grooves 23 and slide in the second grooves 23. In this embodiment, the inner wall of the second groove 23 is provided with a chute, the water baffle 7 is fixedly connected with a slide bar, and the water baffle 7 slides in the chute through the slide bar, so that the water baffle 7 slides in the second groove 23, and the movement of the water baffle 7 in the horizontal direction is limited, so that the water baffle 7 slides only in the vertical direction.

The third groove 71 is formed in the side wall of the water baffle 7, the third groove 71 is in interference fit with the first protruding strip 61, when the water baffle 7 is inserted into the second groove 23 and the side wall of the water baffle 7 is level with the top surface of the partition plate 2, the third groove 71 corresponds to the first groove 22 in position, at the moment, the first protruding strip 61 is inserted into the first groove 22, the first protruding strip 61 is simultaneously inserted into the third groove 71 and the first groove 22, and then the first protruding strip 61 and the water baffle 7 are mutually fixed, so that the sliding of the water baffle 7 is limited.

Referring to fig. 5 and 6, the bottom surface of the partition plate 2 is provided with a fourth groove 24, the water leveling member 5 can be inserted into the fourth groove 24 and can slide in the fourth groove 24, both side walls of the water leveling member 5 are provided with fifth grooves 51, when the water leveling member 5 is inserted into the fourth groove 24 and the side walls of the water leveling member 5 are parallel to the side walls of the partition plate 2, the fifth grooves 51 correspond to the second grooves 23 in position, and at the moment, the water baffle 7 can be simultaneously inserted into the second grooves 23 and the fifth grooves 51, so that the sliding of the water leveling member 5 is limited by the two partition plates 2.

In this embodiment, the sliding strips are fixedly connected to the side wall of the water leveling member 5, the side wall of the fourth groove 24 is provided with a plurality of sliding grooves, and the sliding strips slide in the sliding grooves, so that the water leveling member 5 slides in the fourth groove 24, and the sliding of the water leveling member 5 in the vertical direction is limited, so that the water leveling member 5 slides only in the horizontal direction.

The inner wall of the fifth groove 51 is fixedly connected with a rubber bulge 52, the baffle 7 is provided with a limiting hole 72, and when the baffle 7 is simultaneously inserted into the fifth groove 51 and the second groove 23, the rubber bulge 52 is inserted into the limiting hole 72, so that the baffle 7 is limited again.

The implementation principle of this embodiment 2 is as follows: firstly, the water leveling piece 5 slides into the fourth groove 24 from one side of the fourth groove 24, the side wall of the water leveling piece 5 is level with the side wall of the partition board 2, then the water baffle 7 slides into the second groove 23 from the upper end of the second groove 23, the water baffle 7 slides into the fifth groove 51, the rubber bulge 52 is inserted into the limiting hole 72, and therefore the water baffle 7 is limited for the first time, and the water baffle 7 limits the sliding of the water leveling piece 5.

At this time, the first protruding strip 61 is inserted into the first groove 22, and the first protruding strip 61 is inserted into the two third grooves 71, so that the first protruding strip 61 limits the movement of the water baffle 7 by limiting the water baffle 7 for the second time, and when the first protruding strip 61 is inserted into the first groove 22, the guiding oblique block 6 is fixed by the cooperation of the first protruding strip 61 and the first groove 22. At this time, the installation of the guide inclined block 6, the water baffle 7 and the water level 5 is completed.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, wherein like reference numerals are used to refer to like elements throughout. Therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The downpipe support mounting structure is characterized by comprising an embedded support (1) and a partition board (2), wherein the partition board (2) is sleeved on the embedded support (1), a heightening piece (3) is arranged on one surface, close to a wall surface, of the partition board (2), the heightening piece (3) is respectively abutted to the partition board (2) and the wall surface, and the heightening piece (3) is arranged around the embedded support (1) in a circle and wraps the embedded support (1);

A fixing piece (4) is arranged between the partition board (2) and the wall surface, and the partition board (2) is fixedly connected to the wall surface through the fixing piece (4).

2. The downpipe support mounting structure according to claim 1, wherein a water leveling piece (5) is arranged on the bottom surface of the partition board (2), and the water leveling piece (5) is connected to the lower end of the partition board (2) and is obliquely arranged from top to bottom in a direction away from the wall surface.

3. The downpipe support mounting structure according to claim 2, wherein the top surface of the partition plate (2) is connected with a guide inclined block (6), the guide inclined block (6) is obliquely arranged from top to bottom in a direction away from a wall surface, and the guide inclined block (6) is made of rubber.

4. The downpipe support mounting structure according to claim 3, wherein a first protruding strip (61) is fixedly connected to the guide inclined block (6), a first groove (22) is formed in the top surface of the partition board (2), the first protruding strip (61) is in interference fit with the first groove (22), and the first protruding strip (61) is made of rubber.

5. The downpipe support mounting structure according to claim 4, wherein a water baffle (7) is mounted on the side wall of the partition plate (2), and the water baffle (7) is obliquely arranged in a direction away from the wall surface.

6. The downpipe support mounting structure according to claim 5, wherein a second groove (23) is formed in the side wall of the partition board (2), the water baffle (7) is inserted into the second groove (23) and can slide in the second groove (23), a third groove (71) is formed in the water baffle (7), the third groove (71) corresponds to the first groove (22) in position, the third groove (71) is in interference fit with the first protruding strip (61), and the first protruding strip (61) can be simultaneously inserted into the first groove (22) and the third groove (71).

7. The downpipe support mounting structure according to claim 6, wherein there are two water baffles (7), and two water baffles (7) are respectively provided on two side walls of the partition (2).

8. The downpipe support mounting structure according to claim 7, wherein a fourth groove (24) is formed in the bottom surface of the partition plate (2), the water leveling member (5) can be inserted into the fourth groove (24) and can slide in the fourth groove (24), fifth grooves (51) are formed in both side walls of the water leveling member (5), the fifth grooves (51) correspond to the second grooves (23) on the same side in position, and the water baffle (7) can be simultaneously inserted into the second grooves (23) and the fifth grooves (51).