CN218766514U - Building wall infiltration detection device - Google Patents

Abstract

The utility model belongs to the technical field of the wallboard performance detects, concretely relates to building wall infiltration detection device, including detection case and wallboard sample, the fixed sample bearing table that is provided with in inside of detection case, the sample bearing table is rectangular frame, the wallboard sample is placed the oblique top surface of sample bearing table, the height both ends of sample bearing table all are provided with keeps off the platform, are located oblique below keep off the inside equidistance of platform and seted up the wash port, the infiltration volley has been seted up at the edge on sample bearing table oblique top surface, a side wall bottom of detection case is fixed and is provided with the observation window. The utility model discloses can perfectly simulate the use of wallboard under the rainy day to can derive the water that has infiltration in wallboard and the detection case gap, still can adjust the impact force degree of rivers to wallboard sample surface in addition, thereby detect the infiltration condition of wallboard under little rain, well rain and heavy rain environment respectively.

Description

Building wall infiltration detection device

Technical Field

The utility model belongs to the technical field of the wallboard performance detects, concretely relates to building wall infiltration detection device.

Background

The wall surface seepage situation may occur after the house decoration is completed, so that the living environment and the neck-in relation of residents can be influenced, and the seepage detection of the building wall surface is very necessary after the building construction is completed.

However, current infiltration detection device is in detection achievement, all is the water spray to the wallboard for a long time usually, and the infiltration condition of rethread manual observation wallboard, but under the service environment of reality, the rainwater is all different to the dynamics of assaulting of wallboard under the different overcast and rainy weather, and the dynamics of its water spray of traditional infiltration detection device makes invariable, and consequently the testing result that provides is not comprehensive and the reliability is not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a building wall infiltration detection device can perfect simulation wallboard in the use under the rainy day to can derive the water that has infiltration in wallboard and the detection case gap, still can adjust the impact force degree of rivers to wallboard sample surface in addition, thereby detect the infiltration condition of wallboard under little rain, well rain and heavy rain environment respectively.

The utility model discloses the technical scheme who takes specifically as follows:

a building wall surface water seepage detection device comprises a detection box and a wallboard sample, wherein a sample diagonal bracing table is fixedly arranged inside the detection box, the sample diagonal bracing table is a rectangular frame, the wallboard sample is placed on the obliquely upper surface of the sample diagonal bracing table, blocking tables are arranged at the high end and the low end of the sample diagonal bracing table, drain holes are formed in the blocking tables at the oblique lower positions at equal intervals, a water seepage drainage groove is formed in the edge of the obliquely upper surface of the sample diagonal bracing table, and an observation window is fixedly arranged at the bottom of one side wall of the detection box;

the top fixed mounting of the inside one end of detection case has the rainwater simulation pipe, the rainwater simulation pipe still includes the sprinkler pipe, the fixed water jet that is provided with of surface equidistance of sprinkler pipe, the water jet all with the surface looks vertical of sample bracing platform.

The outer wall of one side of the detection box is fixedly connected with main drainage pipes at equal intervals, and the main drainage pipes are communicated with the drainage holes.

The sample inclined supporting platform is characterized in that a water guide groove is fixedly formed in the baffle platform and communicated with the water guide groove, a water seepage discharge pipe is fixedly connected to the lower surface of the sample inclined supporting platform, and the water seepage discharge pipe is communicated with the water guide groove.

The fixed header tank that is provided with in outside one side of detection case, main sewer pipe and the other end of infiltration calandria all with the header tank is linked together.

The top fixed mounting of header tank has the water pump, the work end fixed connection drinking-water pipe and the water injection pipe of water pump, the drinking-water pipe with the inside of header tank is linked together, the end of water injection pipe all with the inside of sprinkler pipe is linked together.

The inside of watering pipe is rotated and is installed interior regulation pole, just the diameter size of interior regulation pole is less than the internal diameter size of water jet, the fixed sealed pipeline that is provided with of one end of watering pipe, running through of interior regulation pole the one end fixedly connected with runner of sealed pipeline, just interior regulation pole with be sealed setting between the sealed pipeline.

The fixed fast pipe two that keeps off of water that is provided with of outer wall one side equidistance of interior regulation pole, the fixed fast pipe two that keeps off of water that is provided with of outer wall opposite side equidistance of interior regulation pole, the fast interval size that keeps off pipe one of water is greater than the interval size of water spout, the fast interval size that keeps off pipe two of water is greater than the fast interval size that keeps off pipe one of water.

The water speed blocking pipe I and the water speed blocking pipe II are movably provided with nozzle plugs, and springs are connected between the nozzle plugs and the inner adjusting rods.

The utility model discloses the technological effect who gains does:

(1) The utility model has the advantages that the process that water flows along the surface of the inclined wallboard sample just simulates the process that rainwater flows along the wall surface; in addition, by the water that wallboard sample edge oozed, can flow into the infiltration and arrange the inslot, the effect of cyclic utilization water resource can be realized to this device, and can perfectly simulate the use of wallboard under the rainy day to can derive the water that has infiltration in wallboard sample and the detection case gap, guarantee to detect authenticity and the accuracy of structure, in addition, the device overall structure is simple, and area is little, easy operation.

(2) The utility model discloses, artifical rotatory runner, adjust the pole in the inside rotation of sprinkler pipe in making, keep off the quantity that pipe one and water speed kept off pipe two according to the water speed, the water spout quantity that can spray water is adjusted in correspondence, the more that can spray water, the spun velocity of flow will be less, can spray water less, the spun velocity of flow will be big more, finally realize adjusting the impact force degree of rivers to wallboard sample surface, thereby detect the infiltration condition of wallboard respectively under little rain, well rain and heavy rain environment, the testing condition is nimble adjustable, the testing result is more various.

Drawings

Fig. 1 is a front perspective view provided by an embodiment of the present invention;

fig. 2 is an internal structure diagram of the detection box according to the embodiment of the present invention;

fig. 3 is a structural diagram of a rainwater simulation pipe according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of a rainwater simulation pipe according to an embodiment of the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a detection box; 101. a sample inclined supporting platform; 102. blocking the platform; 103. a drain hole; 104. a water seepage drainage groove; 105. a water chute; 106. a main drain pipe; 107. a water seepage calandria; 108. an observation window; 2. a water collection tank; 3. a water pump; 301. a water injection pipe; 4. a rainwater simulation pipe; 401. a sprinkler pipe; 402. a water spray nozzle; 403. sealing the pipeline; 404. an inner adjusting rod; 405. a rotating wheel; 406. a first water speed blocking pipe; 407. a water speed blocking pipe II; 408. a mouth plug; 409. a spring; 5. wallboard samples.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention, and is not intended to strictly limit the scope of the claims.

As shown in fig. 1-4, a building wall surface water seepage detection device, including detection case 1 and wallboard sample 5, the fixed sample bracing platform 101 that is provided with in inside of detection case 1, sample bracing platform 101 is rectangular frame, wallboard sample 5 places the oblique top surface at sample bracing platform 101, the height both ends of sample bracing platform 101 all are provided with keeps off platform 102, the inside equidistance of fender platform 102 that is located oblique below has seted up wash port 103, the edge on the oblique top surface of sample bracing platform 101 has seted up infiltration row's groove 104, the fixed observation window 108 that is provided with in a lateral wall bottom of detection case 1.

Referring to fig. 1 and 2, a main drainage pipe 106 is fixedly connected to an outer wall of one side of the detection box 1 at equal intervals, the main drainage pipe 106 is communicated with a drainage hole 103, a water guide groove 105 is fixedly formed in the inner portion of a baffle table 102 located below the inclined portion, a water seepage drainage groove 104 is communicated with the water guide groove 105, a water seepage drainage pipe 107 is fixedly connected to the lower surface of a sample inclined supporting table 101, the water seepage drainage pipe 107 is communicated with the water guide groove 105, a water collection box 2 is fixedly arranged on one side of the outer portion of the detection box 1, and the other ends of the main drainage pipe 106 and the water seepage drainage pipe 107 are communicated with the water collection box 2.

Referring to the attached drawings 1 and 3, the top fixed mounting of the inside one end of the detection box 1 has a rainwater simulation pipe 4, the rainwater simulation pipe 4 further comprises a sprinkling pipe 401, the top fixed mounting of the water collection box 2 has a water pump 3, the working end of the water pump 3 is fixedly connected with a water pumping pipe and a water injection pipe 301, the water pumping pipe is communicated with the inside of the water collection box 2, the tail end of the water injection pipe 301 is communicated with the inside of the sprinkling pipe 401, water spray nozzles 402 are fixedly arranged on the surface of the sprinkling pipe 401 at equal intervals, and the water spray nozzles 402 are perpendicular to the surface of the sample inclined supporting table 101.

According to the above structure: after cutting out wallboard sample 5, place the oblique top surface at sample bracing platform 101, start water pump 3 afterwards, inside water pump 3 passes through water injection pipe 301 suction sprinkler pipe 401 with the water in the header tank 2, spout the surface to wallboard sample 5 through each water jet 402 at last, finally, the artifical infiltration condition that sees through observation window 108 and observes this wallboard sample 5.

Referring to fig. 3, an inner adjusting rod 404 is rotatably installed inside the sprinkler pipe 401, the diameter of the inner adjusting rod 404 is smaller than the inner diameter of the water nozzle 402, a sealing pipe 403 is fixedly installed at one end of the sprinkler pipe 401, a rotating wheel 405 is fixedly connected to one end of the inner adjusting rod 404 penetrating through the sealing pipe 403, and the inner adjusting rod 404 and the sealing pipe 403 are in a sealing arrangement.

Referring to fig. 3 and 4, a first water speed blocking pipe 406 is fixedly arranged on one side of the outer wall of the inner adjusting rod 404 at equal intervals, a second water speed blocking pipe 407 is fixedly arranged on the other side of the outer wall of the inner adjusting rod 404 at equal intervals, the distance between the first water speed blocking pipe 406 is larger than that between the water nozzles 402, the distance between the second water speed blocking pipe 407 is larger than that between the first water speed blocking pipe 406, nozzle plugs 408 are movably arranged inside the first water speed blocking pipe 406 and the second water speed blocking pipe 407, and springs 409 are connected between the nozzle plugs 408 and the inner adjusting rod 404.

According to the above structure: the rotating wheel 405 is manually rotated to rotate the inner adjusting rod 404 inside the sprinkling pipe 401, the first water speed blocking pipe 406 or the second water speed blocking pipe 407 is close to the water spraying nozzle 402, and the number of the water spraying nozzles 402 capable of spraying water is correspondingly adjusted according to the number of the first water speed blocking pipe 406 and the second water speed blocking pipe 407, so that the more water can be sprayed, the smaller the flow rate of the sprayed water is, and the less water can be sprayed, the larger the flow rate of the sprayed water is.

The utility model discloses a theory of operation does: after the wallboard sample 5 is cut, the wallboard sample 5 is placed on the obliquely upper surface of the sample inclined supporting table 101, then the water pump 3 is started, the water in the water collecting tank 2 is pumped into the sprinkler pipe 401 through the water injection pipe 301 by the water pump 3, and is finally sprayed to the surface of the wallboard sample 5 through each water spray nozzle 402, and finally, the water seepage condition of the wallboard sample 5 is observed manually through the observation window 108;

the process that water flows along the surface of the inclined wallboard sample 5 just simulates the process that rainwater flows along the wall surface, and most of the water sprayed to the surface of the wallboard sample 5 flows back to the inside of the water collecting tank 2 through the drain hole 103 and the main drain pipe 106; the water seeped from the edge of the wallboard sample 5 can flow into the water seepage drainage groove 104, flow into the water guide groove 105 along the inclined direction of the sample inclined supporting platform 101, and finally flow back to the water collecting tank 2 through the water seepage drainage pipe 107, so that the effect of recycling water resources is realized, the use process of the wall body in rainy days can be perfectly simulated, the water seeped into the gap between the wallboard sample 5 and the detection box 1 can be guided out, and the authenticity and the accuracy of the detection structure are ensured;

in addition, the rotating wheel 405 is manually rotated to enable the inner adjusting rod 404 to rotate inside the sprinkler pipe 401, the first water speed blocking pipe 406 or the second water speed blocking pipe 407 is close to the water spraying nozzle 402, when the nozzle plug 408 in the corresponding blocking pipe moves to the position of the water spraying nozzle 402, the nozzle plug 408 is immediately ejected out by the spring 409 in an extrusion state, the nozzle plug 408 is enabled to plug the water spraying nozzle 402, the more the water can be sprayed, the smaller the flow rate of the sprayed water can be, the larger the flow rate of the sprayed water can be, and finally the impact force of the adjusted water flow on the surface of the wallboard sample 5 is realized, so that the water seepage condition of the wallboard in the light rain, medium rain and heavy rain environments is detected, the detection conditions are flexible and adjustable, and the detection results are more diverse.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. Structures, devices and methods of operation not specifically described or illustrated in the present application are not specifically illustrated or described, but are generally practiced in the art without limitation.

Claims (8)

1. The utility model provides a building wall infiltration detection device, includes detection case (1) and wallboard sample (5), its characterized in that: a sample diagonal bracing table (101) is fixedly arranged inside the detection box (1), the sample diagonal bracing table (101) is a rectangular frame, the wallboard sample (5) is placed on the obliquely upper surface of the sample diagonal bracing table (101), baffle tables (102) are arranged at the two high and low ends of the sample diagonal bracing table (101), drain holes (103) are formed in the baffle tables (102) which are positioned obliquely below at equal intervals, a water seepage drainage groove (104) is formed in the edge of the obliquely upper surface of the sample diagonal bracing table (101), and an observation window (108) is fixedly arranged at the bottom of one side wall of the detection box (1);

the top fixed mounting of the inside one end of detection case (1) has rainwater simulation pipe (4), rainwater simulation pipe (4) still include sprinkler pipe (401), the fixed water spout (402) that is provided with of surface equidistance of sprinkler pipe (401), water spout (402) all with the surface looks vertically of sample bracing platform (101).

2. The building wall surface water seepage detection device according to claim 1, characterized in that: the outer wall of one side of the detection box (1) is fixedly connected with main drainage pipes (106) at equal intervals, and the main drainage pipes (106) are communicated with the drainage holes (103).

3. The building wall surface water seepage detection device according to claim 2, characterized in that: be located oblique below keep off platform (102) inside fixed aqueduct (105) of having seted up, just infiltration calandria (104) with aqueduct (105) are linked together, sample bearing diagonal platform (101) lower surface fixedly connected with infiltration calandria (107), just infiltration calandria (107) with aqueduct (105) are linked together.

4. The building wall surface water seepage detection device according to claim 3, characterized in that: the fixed header tank (2) that is provided with in outside one side of detection case (1), main sewer pipe (106) and the other end of infiltration calandria (107) all with header tank (2) are linked together.

5. The building wall surface water seepage detection device according to claim 4, characterized in that: the top fixed mounting of header tank (2) has water pump (3), the working end fixed connection drinking-water pipe and water injection pipe (301) of water pump (3), the drinking-water pipe with the inside of header tank (2) is linked together, the end of water injection pipe (301) all with the inside of sprinkler pipe (401) is linked together.

6. The building wall surface water seepage detection device according to claim 5, characterized in that: an inner adjusting rod (404) is rotatably arranged inside the sprinkler pipe (401), the diameter of the inner adjusting rod (404) is smaller than the inner diameter of the water nozzle (402), a sealed pipeline (403) is fixedly arranged at one end of the sprinkler pipe (401), a rotating wheel (405) is fixedly connected at one end, penetrating through the sealed pipeline (403), of the inner adjusting rod (404), and the inner adjusting rod (404) and the sealed pipeline (403) are in sealed arrangement.

7. The building wall surface water seepage detection device according to claim 6, characterized in that: the fixed water speed that is provided with in outer wall one side equidistance of interior regulation pole (404) keeps off pipe (406), the fixed water speed that is provided with of outer wall opposite side equidistance of interior regulation pole (404) keeps off pipe two (407), the interval size that the water speed kept off pipe one (406) is greater than the interval size of water spout (402), the interval size that the water speed kept off pipe two (407) is greater than the interval size that the water speed kept off pipe one (406).

8. The building wall surface water seepage detection device according to claim 7, characterized in that: the water speed blocking pipe I (406) and the water speed blocking pipe II (407) are both movably provided with a nozzle plug (408), and springs (409) are connected between the nozzle plug (408) and the inner adjusting rod (404).

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