CN218292306U - Inside drainage structures of foam concrete wall body - Google Patents

Abstract

The application discloses inside drainage structures of foam concrete wall relates to the technical field of foam concrete wall, has improved the inside moisture of foam concrete wall and has been difficult to the exhaust problem, and it sets up inside the wall, including a plurality of infiltration pipes, a plurality of inlet openings have been seted up on infiltration pipe surface, the upper end of infiltration pipe is connected with water vapor exhaust's blast pipe, the lower extreme of infiltration pipe is connected with water supply bead exhaust's drain pipe, the one end that infiltration pipe was kept away from to the blast pipe and the one end that infiltration pipe was kept away from to the drain pipe all are located the wall body outside, the infiltration pipe of infiltration pipe communicates with each other with the exhaust pipe of blast pipe and the drain line of drain pipe respectively, just exhaust pipe and drain line all communicate with each other with the wall body is external, be provided with refrigerating assembly on the blast pipe. This application can make things convenient for inside vapor and the drop of water of foam concrete wall body to discharge.

Description

Inside drainage structures of foam concrete wall body

Technical Field

The application relates to the technical field of foam concrete walls, in particular to an internal drainage structure of a foam concrete wall.

Background

The foam concrete is a lightweight, heat-preservation, heat-insulation, fire-resistant, sound-insulation and frost-resistant concrete material, slurry can automatically level and self-compact, construction workability is good, pumping and leveling are convenient, the foam concrete almost has good compatibility with other building materials, and strength can be adjusted, so the foam concrete is widely applied to the field of buildings.

Chinese patent No. CN205444506U discloses an internal drainage structure of a foam concrete wall, which comprises a drainage pipe arranged in the wall and a filler positioned between the drainage pipe and the wall, wherein the drainage pipe is provided with a plurality of water seepage holes, the drainage pipe is provided with a drainage pipe communicated with the outside of the wall, and the drainage pipe is bent towards one side. The water vapor generated by hydration heat in the foam concrete enters the discharge pipe through the water seepage holes and is discharged through the discharge pipe.

In practical application, water vapor is easy to stay in the drain pipe after entering the drain pipe, and the water vapor stays in the drain pipe and is easy to condense on the inner wall of the drain pipe to form water drops, so that the water in the foam concrete wall is difficult to discharge through the discharge pipe.

SUMMERY OF THE UTILITY MODEL

In order to improve the inside moisture of foam concrete wall body and be difficult to the exhaust problem, this application provides a inside drainage structures of foam concrete wall body.

The application provides an inside drainage structures of foam concrete wall body adopts following technical scheme:

the utility model provides an inside drainage structures of foam concrete wall body, sets up inside the wall body, including a plurality of infiltration pipes, a plurality of inlet openings have been seted up on infiltration pipe surface, the upper end of infiltration pipe is connected with the exhaust pipe that supplies water vapor exhaust, the lower extreme of infiltration pipe is connected with the exhaust pipe of supply pearl, the one end that infiltration pipe was kept away from to the blast pipe and the one end that infiltration pipe was kept away from to the drain pipe all are located outside the wall body, the infiltration pipeline of infiltration pipe communicates with each other with the exhaust pipe of blast pipe and the drain line of drain pipe respectively, just exhaust pipe and drain line all communicate with each other with the wall body is external, be provided with refrigeration component on the blast pipe.

Through adopting above-mentioned technical scheme, the inside vapor of foam concrete wall body can follow the inlet opening and enter into the infiltration pipeline and finally discharge through exhaust pipe, and the vapor will be discharged from water discharge pipe with the landing after the drop of water condenses into in infiltration pipe inner wall, and refrigeration assembly can make and form the temperature difference between exhaust pipe and the infiltration pipeline, promotes the vapor and removes towards the exhaust pipe direction to make the inside vapor of foam concrete wall body discharge more easily.

Optionally, the exhaust pipe is provided with a plurality of water drainage holes for draining water droplets, and the exhaust pipe is provided with a water collecting piece for collecting water droplets.

By adopting the technical scheme, water drops are easily formed on the inner wall of the exhaust pipe by water vapor, the water discharge hole can facilitate the discharge of the water drops, the water collecting part collects the discharged water drops, and the influence caused by splashing when the water drops are discharged is effectively avoided.

Optionally, one end of the exhaust pipe located outside the wall body is provided with a plurality of exhaust holes for exhausting water vapor.

Through adopting above-mentioned technical scheme, can make things convenient for vapor to discharge, reduce the time that vapor stayed in exhaust pipe to reduce the probability that vapor condenses into the drop of water, reduce the phenomenon of drop of water backward flow.

Optionally, one end of the exhaust pipe, which is far away from the water seepage pipe, is provided with a suction assembly for guiding water vapor to be discharged.

By adopting the technical scheme, the exhaust speed of the water vapor can be accelerated, so that the stay time of the water vapor in the exhaust pipeline is further reduced.

Optionally, a plurality of drainage grooves for guiding water drops to flow out of the drain pipe are formed in the inner wall of the water seepage pipe.

By adopting the technical scheme, after water vapor is condensed into water drops on the inner wall of the water seepage pipe, the water drops can be conveniently discharged from the water drainage pipe in a sliding mode, and the probability of the water drops remaining in the foam concrete wall is reduced.

Optionally, a plurality of connecting pipes are connected between adjacent water seepage pipes, and connecting pipelines of the plurality of connecting pipes are communicated with water seepage pipelines of adjacent water seepage pipes.

Through adopting above-mentioned technical scheme, can improve the mobility of vapor in the inside of foam concrete wall body, reduce the part and block up and lead to the unable exhaust probability of vapor, can strengthen the joint strength between a plurality of infiltration pipes simultaneously to strengthen the inside structural strength of foam concrete wall body.

Optionally, the surface of the connecting pipe is also provided with a plurality of water inlets.

Through adopting above-mentioned technical scheme, can further strengthen the mobility of the inside vapor of foam concrete wall body, improve drainage structures's drainage effect.

Optionally, the infiltration pipe and the connecting pipe are provided with a filter screen for filtering impurities at the position of the water inlet hole.

Through adopting above-mentioned technical scheme, can reduce infiltration pipe inside or the probability that the inlet opening position appears blockking up, improve drainage structures's reliability.

In summary, the present application includes at least one of the following advantages:

1. the water vapor in the foam concrete wall can be promoted to be discharged, the water vapor discharging speed is increased, and the probability that the water vapor is condensed into water drops is reduced;

2. the water drops condensed by the water vapor can be promoted to be discharged, the residual moisture in the foam concrete wall is reduced, and the quality of the foam concrete wall is improved.

Drawings

FIG. 1 is a schematic structural view of a drainage structure embedded in a wall in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a drainage structure inside a wall body in the embodiment of the application;

FIG. 3 is a cross-sectional view of a foam concrete wall in an embodiment of the present application;

fig. 4 is an enlarged view at a in fig. 3.

Description of reference numerals: 1. a wall body; 2. a filler; 3. a water-resistant material; 4. a water seepage pipe; 41. a water seepage pipeline; 42. a drainage groove; 5. an exhaust pipe; 51. an exhaust line; 52. an exhaust hole; 53. a drain hole; 6. a drain pipe; 61. a drain line; 7. a refrigeration assembly; 8. a getter assembly; 9. a water collection member; 10. a connecting pipe; 101. connecting a pipeline; 102. a water inlet hole; 103. and (4) a filter screen.

Detailed Description

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

The embodiment of the application discloses inside drainage structures of foam concrete wall body.

Referring to fig. 1, the drainage structure inside the foam concrete wall 1 is embedded inside the wall 1, and includes a plurality of water seepage pipes 4 for discharging water inside the wall 1. Wherein, wall body 1 is formed by foam concrete pouring, and infiltration pipe 4 is vertical to be set up, and it has filler 2 to fill between infiltration pipe 4 and the wall body 1, and filler 2 is the grit in this embodiment, and the top of pouring in-process wall body 1 need cover one deck waterproof material 3, prevents that external moisture from getting into inside wall body 1, and the inside moisture of wall body 1 will be discharged through infiltration pipe 4.

Referring to fig. 1 and 2, the plurality of water seepage pipes 4 are parallel to each other, the plurality of water seepage pipes 4 are distributed at equal intervals, the plurality of water seepage pipes 4 are located in the same plane, and the plane where the plurality of water seepage pipes 4 are located is parallel to the wall body 1. The water seepage pipe 4 is a hollow tubular structure, the water seepage pipe 4 is internally provided with a water seepage pipeline 41, the surface of the water seepage pipe 4 is provided with a plurality of water inlet holes 102 for water vapor and moisture in the wall body 1 to enter the water seepage pipeline 41, the water inlet holes 102 are circumferentially arrayed along the axis direction in the horizontal direction, and the water inlet holes 102 are equidistantly distributed in the vertical direction. In this embodiment, four water inlet holes 102 are formed on the same horizontal plane of the water seepage pipe 4.

Referring to fig. 3 and 4, the water inlet hole 102 is communicated with the water seepage line 41, and in order to reduce the probability of blockage caused by the filler 2 or other impurities entering the water seepage line 41 from the water inlet hole 102, the water seepage line 4 is provided with a filter screen 103 for filtering the impurities at the position of the water inlet hole 102.

Referring to fig. 2 and 4, two adjacent water seepage pipes 4 are connected through a plurality of connecting pipes 10, the plurality of connecting pipes 10 are horizontally installed, and the plurality of connecting pipes 10 are parallel to each other. Both ends of the connecting pipe 10 are respectively communicated with the water inlet holes 102 of the two adjacent water seepage pipes 4 at the same level, and the connecting pipe 10 is internally provided with a connecting pipeline 101 for communicating the water seepage pipelines 41 of the two adjacent water seepage pipes 4. The plurality of connecting pipes 10 are distributed at equal intervals in the vertical direction similarly to the water inlet holes 102, the plurality of water inlet holes 102 are also formed in the surface of the connecting pipe 10, the forming rule of the water inlet holes 102 in the connecting pipe 10 is the same as that of the water inlet holes 102 in the water seepage pipeline 41, and the filter screen 103 is also installed at the position of the water inlet hole 102 in the connecting pipe 10.

Referring to fig. 2, the plurality of water seepage pipes 4 and the plurality of connecting pipes 10 cooperate to form a grid structure, so that the structural strength inside the foam concrete wall 1 is enhanced, and the fluidity of water vapor inside the foam concrete wall 1 is improved.

Referring to fig. 2 and 3, an exhaust pipe 5 for discharging water vapor is connected to an end of the water seepage pipe 4 away from the ground, an exhaust pipe 51 is provided inside the exhaust pipe 5, the exhaust pipe 51 is communicated with the water seepage pipe 41, and an end of the exhaust pipe 51 away from the water seepage pipe 41 is communicated with the outside of the wall 1.

The exhaust pipe 5 is a U-shaped arc pipe, and half of the exhaust pipe 5 is embedded in the wall body 1. The exhaust pipe 5 is provided with a plurality of exhaust holes 52 for discharging water vapor at a position close to the wall 1 on the part outside the wall 1, the exhaust holes 52 are communicated with the exhaust pipeline 51, and the exhaust holes 52 are distributed at one end of the exhaust pipe 5 far away from the ground. The refrigeration component 7 is installed to the one end that blast pipe 5 kept away from infiltration pipe 4, and refrigeration component 7 can reduce the temperature of blast pipe 5 to make and form the temperature difference between blast pipe 5 and infiltration pipe 4, the higher position of temperature will form the air current towards the lower position of temperature, thereby promote the interior vapor of infiltration pipeline 41 to flow towards exhaust pipe 51 direction, finally make vapor discharge from exhaust hole 52.

In order to further increase the water vapor discharging rate and reduce the retention time of the water vapor in the exhaust pipe 51, the end of the exhaust pipe 5 away from the water seepage pipe 4 is further provided with an air suction assembly 8 for accelerating the water vapor flow, and the water vapor is rapidly discharged through the water seepage pipe 41, the exhaust pipe 51 and the exhaust hole 52 in sequence under the driving of the air suction assembly 8.

In the present embodiment, the refrigeration assembly 7 and the suction assembly 8 are conventional devices, and will not be described herein too much.

Referring to fig. 3, due to the low temperature of the exhaust pipe 5, the water vapor is easy to condense into water drops on the inner wall of the water vapor after entering the exhaust pipe 51, a part of the water drops will flow back towards the water seepage pipe 4, and a part of the water drops will slide down towards the direction close to the air suction assembly 8.

The water drops sliding down towards the direction close to the air suction assembly 8 stay in an exhaust pipe 51 of the exhaust pipe 5 outside the wall 1, a plurality of water drainage holes 53 for discharging the water drops are formed in the surface of the exhaust pipe 5, the water drainage holes 53 are communicated with the exhaust pipe 51, and the water drainage holes 53 are distributed at one end of the exhaust pipe 5 close to the ground.

In order to avoid splashing of water drops after the water drops are discharged from the water discharge hole 53, the water collecting part 9 for collecting the water drops is further installed at the positions of the exhaust pipe 5 and the water discharge hole 53, the water collecting part 9 is detachably connected with the exhaust pipe 5, and when the water drops collected in the water collecting part 9 are close to saturation, a worker can easily take down the water collecting part 9 to pour the water drops out and then return the water drops to be used continuously. The detachable connection mode of the two is not limited too much in this embodiment.

Referring to fig. 1 and 3, the water drops flowing back towards the water seepage pipe 4 slide down along the water seepage pipeline 41, one end of the water seepage pipe 4 close to the ground is connected with a drain pipe 6 for discharging the water drops, a drain pipeline 61 is arranged inside the drain pipe 6, the drain pipeline 61 is communicated with the water seepage pipeline 41, and one end of the drain pipe 6 far away from the water seepage pipe 4 is positioned outside the wall body 1.

For the convenience is handled the drop of water of drain pipe 6 exhaust, the direction that wall body 1 was worn out to drain pipe 6 is unanimous with the direction that wall body 1 was worn out to blast pipe 5, and drain pipe 6's axis direction slope makes things convenient for the drop of water to discharge.

Referring to fig. 3 and 4, in order to reduce the water drops attached to the inner wall of the water seepage pipe 4, a plurality of drainage grooves 42 are formed in the inner wall of the water seepage pipe 4 along the axial direction of the water seepage pipe, and two ends of each drainage groove 42 respectively lead to the exhaust pipeline 51 and the drainage pipeline 61. In this embodiment, each water seepage pipe 4 is provided with four drainage grooves 42, and the drainage grooves 42 are located between two adjacent water inlet holes 102 in the same plane.

The implementation principle of the internal drainage structure of the foam concrete wall body in the embodiment of the application is as follows:

firstly, the water vapor and moisture inside the wall 1 enter the water seepage pipeline 41 from the water inlet 102, meanwhile, the refrigeration assembly 7 causes a temperature difference between the exhaust pipe 5 and the water seepage pipe 4, then the water vapor moves towards the exhaust pipeline 51 under the action of the airflow formed by the temperature difference, and the water vapor is rapidly exhausted through the exhaust hole 52 under the driving of the air suction assembly 8, a part of water drops formed by condensation of the water vapor flows into the exhaust pipeline 51 and then enters the water collecting piece 9 from the water drainage hole 53 to be collected, and the other part of water drops firstly pass through the water seepage pipeline 41 and then pass through the water drainage pipeline 61 along the drainage groove 42 to be exhausted.

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 (8)

1. The utility model provides an inside drainage structures of foam concrete wall body, sets up inside wall body (1), including a plurality of infiltration pipes (4), a plurality of inlet openings (102) have been seted up on infiltration pipe (4) surface, its characterized in that, the upper end of infiltration pipe (4) is connected with supply water vapor exhaust blast pipe (5), the lower extreme of infiltration pipe (4) is connected with supply water pearl exhaust drain pipe (6), the one end of infiltration pipe (4) and drain pipe (6) are kept away from in blast pipe (5) all are located outside wall body (1), infiltration pipe (41) of infiltration pipe (4) communicate with each other with exhaust pipe (51) of blast pipe (5) and drain pipe (61) of drain pipe (6) respectively, just exhaust pipe (51) and drain pipe (61) all communicate with each other with wall body (1) external world, be provided with refrigeration subassembly (7) on blast pipe (5).

2. The drainage structure inside a foamed concrete wall body according to claim 1, wherein a plurality of drainage holes (53) for draining water drops are formed in the exhaust pipe (5), and a water collecting member (9) for collecting water drops is arranged on the exhaust pipe (5).

3. The drainage structure inside a foamed concrete wall body according to claim 1, wherein one end of the exhaust pipe (5) located outside the wall body (1) is provided with a plurality of exhaust holes (52) for exhausting water vapor.

4. The drainage structure inside a foamed concrete wall body according to claim 2, wherein one end of the exhaust pipe (5) away from the water seepage pipe (4) is provided with a suction assembly (8) for guiding water vapor to be discharged.

5. The drainage structure inside the foam concrete wall body according to claim 1, wherein the inner wall of the water seepage pipe (4) is provided with a plurality of drainage grooves (42) for guiding water drops to flow out of the drainage pipe (6).

6. The drainage structure inside a foam concrete wall body according to claim 1, characterized in that a plurality of connecting pipes (10) are connected between adjacent water seepage pipes (4), and connecting pipelines (101) of a plurality of connecting pipes (10) are communicated with water seepage pipelines (41) of adjacent water seepage pipes (4).

7. The drainage structure inside a foam concrete wall body according to claim 6, wherein the surface of the connecting pipe (10) is also provided with a plurality of water inlet holes (102).

8. The drainage structure inside a foam concrete wall body according to claim 7, characterized in that the water seepage pipe (4) and the connecting pipe (10) are provided with a filter screen (103) for filtering impurities at the position of the water inlet hole (102).

Images