CN219496036U - Cement detection equipment - Google Patents

Abstract

The utility model relates to the technical field of erosion-resistant detection of cement blocks, in particular to cement detection equipment. The cement detection equipment provided by the utility model solves the technical problem that the detection error of the cement erosion-resistant detection equipment in the prior art is large. The cement detection equipment comprises a detection table, wherein a water tank is arranged below the detection table, a placing disc for placing cement blocks to be detected is arranged on the detection table, a sprayer and a fan are also arranged on the detection table, and the sprayer is positioned between the placing disc and the fan; through setting up the fan to make the shower be located between the fan and the platform of placing, shower spun water is blown to the cement piece by the fan, thereby makes the cement piece that awaits measuring more be close real environment in the testing process, has improved detection precision.

Description

Cement detection equipment

Technical Field

The utility model relates to the technical field of erosion-resistant detection of cement blocks, in particular to cement detection equipment.

Background

The cement paste on the building wall surface is exposed, once the building wall surface is exposed to rain, the surface layer of the building wall surface is continuously washed by rainwater, the phenomena of loose falling, pits and the like of the cement paste on the building wall surface are gradually caused, and finally the water on the building wall surface is damaged, so that the washing resistance of cement is detected before the cement paste is smeared. The existing detection method is to take cement detection blocks and place the cement detection blocks on a detection table for detecting the flushing resistance.

The detection mode in the prior art is to directly wash the cement blocks to be detected by using water flow, however, the actual washed state of cement is not water flow direct washing, but rainwater is blown to a building after being influenced by wind power, so that the cement detection equipment in the prior art cannot simulate the actual washed environment of cement, and the error of the detection result is larger.

Disclosure of Invention

The cement detection equipment provided by the utility model solves the technical problem that the detection error of the cement erosion-resistant detection equipment in the prior art is large.

Some embodiments employed to solve the above technical problems include:

the cement detection equipment comprises a detection table, wherein a water tank is arranged below the detection table, a placing disc for placing cement blocks to be detected is arranged on the detection table, a sprayer and a fan are also arranged on the detection table, and the sprayer is positioned between the placing disc and the fan;

a water collecting tank is further arranged on the detection table, and a through hole for guiding water in the water collecting tank into the water tank is arranged in the water collecting tank;

a filter plate is further arranged on the detection table, and water on the detection table enters the water collecting tank through the filter plate;

the water tank is provided with a water pump, and the water pump supplies water to the sprayer through a hose.

In the actual detection process, firstly, water is added into the water tank, then, the cement block to be detected is placed on the placing plate, the water pump is started, the water pump supplies water in the water tank into the sprayer through the hose, the fan is started after the sprayer works, and the fan blows the water sprayed by the sprayer to the cement block due to the fact that the sprayer is located between the fan and the cement block, and the fan blows the water sprayed by the sprayer.

After flushing the cement blocks, the water blown to the cement blocks is accumulated on the detection table under the action of gravity, and then the water on the detection table enters the water collecting tank after being filtered by the filter plate, and flows back to the water tank for recycling through the through holes in the water collecting tank.

And observing the state of the cement blocks to be tested on the placing table after being washed by water to obtain the detection structure. The arrangement of the fan enables water sprayed out of the sprayer to be blown to the cement block to be detected by airflow, so that the cement block to be detected is closer to the real environment in the detection process, and the detection accuracy is improved.

Preferably, the filter plate encloses a detection area, and the placing tray, the fan and the sprayer are all located in the detection area.

In the technical scheme, the filter plate encloses a detection area, and water on the detection table can be filtered by the filter plate, so that the water quality of water in the water tank is improved. The water pump is not easy to damage.

Preferably, the filter plate protrudes from the detection table, and the filter plate is fixed to the detection table by screws.

In the technical scheme, the filter plate protrudes out of the detection table, and water on the detection table can be filtered. Meanwhile, water is not easy to accumulate on the detection table, and all water on the detection table can flow to the converging groove to enter the water tank, so that a water source is saved.

Preferably, the air outlet width of the fan is not smaller than the width of the placing tray.

In the technical scheme, the whole detection surface of the cement block to be detected can be flushed by water flow, so that the detection precision is improved.

Preferably, one side of the placing plate far away from the fan is provided with a positioning convex plate for positioning the cement blocks to be tested, and the positioning convex plate and the placing plate are of an integrated structure.

According to the technical scheme, the positioning protruding blocks are arranged, so that the displacement of the cement blocks to be tested under the action of wind force of the fan can be prevented, and the detection precision is further improved.

Preferably, the detection table is provided with a first guide rail for adjusting the distance between the placing tray and the sprayer, the placing tray is slidably connected to the first guide rail, and the placing tray is further provided with a first locking screw for locking the placing tray to the first guide rail.

According to the technical scheme, the first guide rail is arranged, and the position of the placing disc can be adjusted, so that the distance between the cement block to be tested and the sprayer can be adjusted, and the real environment can be better simulated.

Preferably, the sprayer comprises a stand, the stand is slidably arranged on the first guide rail, and the stand is provided with a second locking screw for locking the stand on the first guide rail.

Among the above-mentioned technical scheme, through setting up the grudging post, the shower slides and sets up in first guide rail, and the position of shower can be adjusted to make the distance between placing tray and the shower more easily adjust.

Preferably, the first guide rail has two, the grudging post includes first riser and second riser, the shower still includes the shower, the shower is located first riser with between the second riser, first guide rail is provided with the scale mark.

Among the above-mentioned technical scheme, first guide rail has two, and two first guide rails make the shower and place the position control precision of dish higher, and the shower is difficult for misplacing with placing the dish. Through setting up the scale mark, when adjusting the shower or placing the dish position, more easily adjust.

Preferably, the detection platform is further provided with a second guide rail, the fan is slidably arranged on the second guide rail through a sliding block, and the sliding block is provided with a third locking screw for locking the sliding block on the second guide rail.

In the technical scheme, the position of the fan can be conveniently adjusted by arranging the second guide rail, so that the position between the fan and the sprayer can be adjusted.

Preferably, the fan is fixed on the sliding block through a screw, the second guide rail is parallel to the first guide rail, and the second guide rail is provided with scale marks.

In the technical scheme, the scale marks are arranged on the second guide rail, so that the fan is more convenient to operate when adjusting the position.

Compared with the prior art, the anti-slip turning-over pillow provided by the utility model has the following advantages:

1. through setting up the fan to make the shower be located between the fan and the platform of placing, shower spun water is blown to the cement piece by the fan, thereby makes the cement piece that awaits measuring more be close real environment in the testing process, has improved detection precision.

2. Through setting up water collecting tank and through-hole, the water on the detection platform flows back to the water tank through water collecting tank and through-hole to make the water that detects usefulness can not by extravagant, reduced detection cost.

3. Through setting up the filter, the filter can be to detecting the water that flows back to the water tank in on the bench and filter, makes the water in the water tank have better quality of water to make the water pump not fragile.

Drawings

For purposes of explanation, several embodiments of the present technology are set forth in the following figures. The following drawings are incorporated herein and constitute a part of this detailed description. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the subject technology.

Fig. 1 is a front view of the present utility model.

Fig. 2 is a left side view of the present utility model.

Fig. 3 is a top view of the present utility model.

Fig. 4 is a schematic view of a first angle of the present utility model.

Fig. 5 is a schematic view of a second angle of the present utility model.

In the figure:

1. the device comprises a detection table 11, a water collecting tank 12, through holes 13, a filter plate 14, a first guide rail 15 and a second guide rail.

2. Water tank, 21, water pump.

3. The tray is placed, 31, the locating convex plate, 32 and the first locking screw.

4. The shower, 41, the grudging post, 42, second locking screw, 43, first riser, 44, second riser, 45, shower.

5. Fan, 51, third locking screw.

Detailed Description

The specific embodiments illustrated below are intended as descriptions of various configurations of the subject technology and are not intended to represent the only configurations in which the subject technology may be practiced. Particular embodiments include specific details for the purpose of providing a thorough understanding of the subject technology. It will be clear and apparent, however, to one skilled in the art that the subject technology is not limited to the specific details shown herein and may be practiced without these specific details.

Referring to fig. 1 to 5, a cement detection device comprises a detection table 1, wherein a water tank 2 is arranged below the detection table 1, a placing tray 3 for placing cement blocks to be detected is arranged on the detection table 1, a sprayer 4 and a fan 5 are also arranged on the detection table 1, and the sprayer 4 is positioned between the placing tray 3 and the fan 5;

a water collecting tank 11 is further arranged on the detection table 1, and a through hole 12 for guiding water in the water collecting tank 11 into the water tank 2 is arranged in the water collecting tank 11;

a filter plate 13 is further arranged on the detection table 1, and water on the detection table 1 enters the water collecting tank 11 through the filter plate 13;

the water tank 2 is provided with a water pump 21, and the water pump 21 supplies water to the sprayer 4 through a hose.

The placement tray 3 may be made of a metallic or non-metallic material. The water sprayed by the sprayer 4 can be in a water flow state or a drip state, and in practical application, the sprayer 4 adopting the drip state is closer to the real environment.

The filter plate 13 may be made of filter cotton or other filter material having filtering capability.

The fan 5 can adopt a variable frequency fan 5, so that the air output of the fan 5 can be accurately controlled, and the detection environment is more similar to the real environment.

Referring to fig. 1 to 5, in some embodiments, the filter plate 13 encloses a detection area, and the placement tray 3, the blower 5, and the shower 4 are all located in the detection area.

The filter 13 protrudes out of the detection table 1, and the filter 13 is fixed on the detection table 1 through screws.

The filter plate 13 may be fixed to the test table 1 by other means, for example, by adhesion or the like.

In some embodiments, the air outlet width of the blower 5 is not smaller than the width of the placement tray 3.

The larger the air outlet width of the fan 5 is, the larger the air-receiving area of the cement block to be tested is, and the more accurate the detection result is. Therefore, the air outlet width of the fan 5 should not be smaller than the width of the cement block to be tested.

Referring to fig. 1 to 5, in some embodiments, a positioning protruding plate 31 for positioning the cement block to be tested is disposed on a side of the placement tray 3 away from the fan 5, and the positioning protruding plate 31 and the placement tray 3 are in an integral structure.

The positioning convex plate 31 is mainly used for positioning the cement blocks, when the area of the cement block to be detected is large and the weight is light, the fan 5 can blow the cement block to be detected to displace, therefore, the cement block to be detected can be effectively positioned by arranging the positioning convex plate 31, and the cement block to be detected cannot displace in the detection process.

In some embodiments, the detection platform 1 is provided with a first guide rail 14 for adjusting the distance between the placing tray 3 and the sprayer 4, the placing tray 3 is slidably connected to the first guide rail 14, and the placing tray 3 is further provided with a first locking screw 32 for locking the placing tray 3 to the first guide rail 14.

The shower 4 includes a stand 41, the stand 41 is slidably disposed on the first rail 14, and the stand 41 is provided with a second locking screw 42 for locking the stand 41 to the first rail 14.

The number of the first guide rails 14 is two, the vertical frames 41 comprise a first vertical plate 43 and a second vertical plate 44, the sprayer 4 further comprises a spray pipe 45, the spray pipe 45 is located between the first vertical plate 43 and the second vertical plate 44, and the first guide rails 14 are provided with scale marks.

When there are two first guide rails 14, the placing tray 3 should have two sliding grooves matched with the first guide rails 14, so that the placing tray 3 has higher displacement precision.

The detection table 1 is further provided with a second guide rail 15, the fan 5 is slidably arranged on the second guide rail 15 through a sliding block, and the sliding block is provided with a third locking screw 51 for locking the sliding block on the second guide rail 15.

The fan 5 is fixed on the sliding block through a screw, the second guide rail 15 is parallel to the first guide rail 14, and the second guide rail 15 is provided with scale marks.

The first guide rail 14 and the second guide rail 15 may be integrally formed with the inspection station 1. The cross-sectional shapes of the first rail 14 and the second rail 15 may each be rectangular, so that the first rail 14 and the second rail 15 are easy to process.

The positions of the blower 5, the sprayer 4 and the placing tray 3 can be adjusted to be mainly used for simulating the real environment, specifically, the distance between two buildings in the prior art can be relatively close, and the distance can be changed when the real rain wash is carried out to the buildings, so that the positions of the blower 5, the sprayer 4 and the placing tray 3 can be adjusted, simulation parameters can be changed more, and the detection environment is more similar to the real environment.

While the foregoing has been presented with a specific embodiment of the subject matter and with corresponding details, it should be understood that the foregoing description is only a few embodiments of the subject matter and that some details may be omitted when the embodiments are particularly implemented.

In addition, in some embodiments of the above utility model, there are many embodiments that can be implemented in combination, and the various combinations are not listed here. The above embodiments may be freely combined and implemented by those skilled in the art in specific implementation according to requirements, so as to obtain a better application experience.

When implementing the subject matter technical scheme, the person skilled in the art can obtain other detail configurations or drawings according to the subject matter technical scheme and the drawings, and obviously, the details still belong to the scope covered by the subject matter technical scheme without departing from the subject matter technical scheme.

Claims (10)

1. Cement detection equipment, its characterized in that: the device comprises a detection table (1), wherein a water tank (2) is arranged below the detection table (1), a placing disc (3) for placing a cement block to be detected is arranged on the detection table (1), a sprayer (4) and a fan (5) are further arranged on the detection table (1), and the sprayer (4) is positioned between the placing disc (3) and the fan (5);

a water collecting tank (11) is further arranged on the detection table (1), and a through hole (12) for guiding water in the water collecting tank (11) into the water tank (2) is arranged in the water collecting tank (11);

the detection platform (1) is also provided with a filter plate (13), and water on the detection platform (1) enters the water collecting tank (11) through the filter plate (13):

the water tank (2) is provided with a water pump (21), and the water pump (21) supplies water to the sprayer (4) through a hose.

2. The cement detection device of claim 1, wherein: the filter board (13) encloses into the detection area, place dish (3), fan (5) and spray thrower (4) all are located the detection area is interior.

3. The cement detection device of claim 2, wherein: the filter plate (13) protrudes out of the detection table (1), and the filter plate (13) is fixed on the detection table (1) through screws.

4. The cement detection device of claim 1, wherein: the air outlet width of the fan (5) is not smaller than the width of the placing plate (3).

5. The cement detection device of claim 4, wherein: one side of placing dish (3) keeping away from fan (5) is provided with location flange (31) of location cement piece that awaits measuring, location flange (31) with place dish (3) structure as an organic whole.

6. The cement detection device of claim 1, wherein: the detection table (1) is provided with a first guide rail (14) for adjusting the distance between the placing tray (3) and the sprayer (4), the placing tray (3) is slidably connected to the first guide rail (14), and the placing tray (3) is further provided with a first locking screw (32) for locking the placing tray (3) to the first guide rail (14).

7. The cement detection device of claim 6, wherein: the sprayer (4) comprises a stand (41), the stand (41) is slidably arranged on the first guide rail (14), and the stand (41) is provided with a second locking screw (42) for locking the stand (41) on the first guide rail (14).

8. The cement detection device of claim 7, wherein: the two first guide rails (14) are arranged, the vertical frame (41) comprises a first vertical plate (43) and a second vertical plate (44), the sprayer (4) further comprises a spray pipe (45), the spray pipe (45) is located between the first vertical plate (43) and the second vertical plate (44), and the first guide rails (14) are provided with scale marks.

9. The cement detection device of claim 8, wherein: the detection table (1) is further provided with a second guide rail (15), the fan (5) is slidably arranged on the second guide rail (15) through a sliding block, and the sliding block is provided with a third locking screw (51) for locking the sliding block on the second guide rail (15).

10. The cement detection device of claim 9, wherein: the fan (5) is fixed to the sliding block through a screw, the second guide rail (15) is parallel to the first guide rail (14), and the second guide rail (15) is provided with scale marks.