CN217765382U - Automatic monitoring device for water seepage of structure - Google Patents

Abstract

The utility model relates to a infiltration monitoring technology field, concretely relates to structure infiltration automatic monitoring device, include: installation mount, unit humidity monitoring devices, the film and the monitoring host computer absorb water, the installation mount, unit humidity monitoring devices fixed mounting are on installation mount top surface, and unit humidity monitoring devices connect in parallel each other and with detection host computer electric connection, and the film that absorbs water covers in the world of installation mount, and the film that absorbs water, installation mount and unit humidity monitoring devices constitute wholly equidistant ground pre-buried in the building structure concrete, and the monitoring host computer setting is outside the building structure concrete. Install in the middle of building structure through humidity monitoring devices, the layering segmentation installation guarantees that humidity monitoring devices can cover the structure prevention of seepage weak face to utilize the parallelly connected characteristic of humidity monitoring devices, pinpoint the seepage node, thereby in time to the infiltration automatic monitoring and take remedial reinforcement measure in time.

Description

Automatic monitoring device for water seepage of structure

Technical Field

The utility model relates to a infiltration monitoring technology field, concretely relates to structure infiltration automatic monitoring device.

Background

In life, people sometimes encounter the condition of wall water seepage, the reasons for the wall water seepage are generally several, one is based on the difference of the performance of waterproof materials and the difference of the climate in the south and north of China, so that the waterproof design of a house has certain complexity, and once the waterproof design of a project has problems, the leakage of a house building is directly caused; the other is that various building materials adopted by modern house building construction basically have the characteristics of larger porosity, stronger water absorption performance and poorer leakage resistance. The anti-leakage of the building base layer is an extremely important performance in the building construction process, and directly influences the stability and the service life of the building.

The conventional technical means adopted by the building structure water seepage detection all the time are judgment and naked eye judgment only by the experience of constructors, and when the water seepage is judged by naked eyes, the building structure is greatly damaged, and the building structure is not repaired in time.

In view of this, it is urgent to wait to design a structure infiltration automatic monitoring device, installs in the middle of the building structure through humidity monitoring device, and the installation of layering segmentation guarantees that humidity monitoring device can cover structure prevention of seepage weak face to utilize the parallelly connected characteristic of humidity monitoring device, pinpoint the seepage node, thereby in time take the remedy reinforcement measure to the infiltration automation.

SUMMERY OF THE UTILITY MODEL

In order to solve the deficiencies of the prior art, an object of the utility model is to provide a structure infiltration automatic monitoring device installs in the middle of building structure through humidity monitoring device, and layering segmentation installation guarantees that humidity monitoring device can the covering structure prevention of seepage weak face to utilize the parallelly connected characteristic of humidity monitoring device, fix a position the seepage node accurately, thereby in time take remedial reinforcement measure to the automatic monitoring of infiltration.

In order to realize the above object, the technical scheme of the utility model is that: the utility model provides a structure infiltration automatic monitoring device, includes: installation mount, unit humidity monitoring devices, the film and the monitoring host computer absorb water, the installation mount, unit humidity monitoring devices fixed mounting be in installation mount top surface, unit humidity monitoring devices connect in parallel each other and with detect host computer electric connection, the film that absorbs water covers the world ground of installation mount, the whole equidistant ground that film, installation mount and unit humidity monitoring devices of absorbing water constitute is pre-buried in the building structure concrete, the monitoring host computer sets up outside the building structure concrete.

Further, the installation fixing frame includes: top cap, base, mounting groove and tectorial membrane net, the top cap with the base cooperatees, can dismantle the connection through the bolt between top cap and the base, the mounting groove equidistant setting is in between top cap and the base, the tectorial membrane net passes through bolt fixed connection and is in the top surface of top cap and the bottom surface of base.

Further, the unit humidity monitoring device includes: humidity sensing piece and resistance to compression rack, humidity sensing piece with resistance to compression rack inner diameter face cooperatees, the resistance to compression rack with the mounting groove cooperatees.

Furthermore, a plurality of connecting holes are formed in the water absorption film, and the connecting holes can be detachably connected with the connecting grooves in the film covering net through bolts.

Furthermore, the monitoring host is provided with host system, wireless communication module, connect in parallel each other between the humidity sensing piece and through the thread with monitoring host system electric connection, the monitoring host system is controlled by host system and through wireless communication module and removal monitoring end signal connection.

Has the advantages that:

the utility model provides a pair of go out a structure infiltration automatic monitoring device installs in the middle of building structure through humidity monitoring devices, and the layering segmentation installation guarantees that humidity monitoring devices can the covering structure prevention of seepage weak face to utilize the parallelly connected characteristic of humidity monitoring devices, fix a position the seepage node accurately, thereby take remedial reinforcement measure in time to the automatic monitoring of infiltration.

Drawings

FIG. 1 is a schematic structural cross-sectional view of an automatic monitoring device for structural water seepage of the present invention;

FIG. 2 is an electrical schematic diagram of the automatic monitoring device for structural water seepage of the present invention; the labels in the figure are: 1-installing a fixed frame, 2-unit humidity monitoring devices, 3-a water absorption film, 4-a monitoring host, 11-a top cover, 12-a base, 13-an installation groove, 14-a film covering net, 21-a humidity sensing piece, 22-a compression-resistant net frame, 31-a connecting hole, 41-a main control module and 42-a wireless communication module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art all belong to the protection scope of the present invention.

As shown in the figure, the utility model discloses a structure infiltration automatic monitoring device, include: installation mount 1, unit humidity monitoring devices 2, water absorption film 3 and monitoring host 4, installation mount 1, 2 fixed mounting of unit humidity monitoring devices are in installation mount 1 top surface, unit humidity monitoring devices 2 connect in parallel each other and with detect host electric connection, water absorption film 3 covers installation mount 1 day ground, the whole equidistant ground that water absorption film 3, installation mount 1 and unit humidity monitoring devices 2 constitute is pre-buried in the building structure concrete, monitoring host 4 sets up outside the building structure concrete.

In this embodiment, the mounting fixture 1 includes: top cap 11, base 12, mounting groove 13 and tectorial membrane net 14, top cap 11 with base 12 cooperatees, can dismantle the connection through the bolt between top cap 11 and the base 12, mounting groove 13 equidistant setting is in between top cap 11 and the base 12, the tectorial membrane net passes through bolt fixed connection and is in the top surface of top cap 11 and the bottom surface of base 12.

In this embodiment, the unit humidity monitoring device 2 includes: humidity sensing piece 21 and resistance to compression rack 22, humidity sensing piece 21 with resistance to compression rack 22 inside diameter face cooperatees, resistance to compression rack 22 with mounting groove 13 cooperatees.

In this embodiment, the water absorbing film 3 is provided with a plurality of connecting holes 31, and the connecting holes 31 can be detachably connected with the connecting grooves on the film covering net 14 through bolts.

In this embodiment, the monitoring host 4 is provided with a main control module 41 and a wireless communication module 42, the humidity sensing sheets 21 are connected in parallel with each other and are electrically connected with the monitoring host 4 through a main line, and the monitoring host 4 is controlled by the main control module 41 and is in signal connection with the mobile monitoring end through the wireless communication module 42.

The working principle is as follows:

the top cover 11 and the base 12 of the installation fixing frame 1 are in butt joint through bolts, mounting grooves 13 are formed in the top cover 11 and the base 12, the mounting grooves 13 are matched with the unit humidity monitoring devices 2, the unit humidity monitoring devices 2 are installed in the mounting grooves 13, the top cover 11 and the base 12 are matched, the unit humidity monitoring devices 2 are fixedly connected through the bolts, and the unit humidity monitoring devices 2 are fixed in the installation fixing frame 1 at equal intervals.

Wherein, because unit humidity monitoring devices 2 is provided with humidity sensing piece 21 and resistance to compression rack 22, resistance to compression rack 22 covers and establishes at humidity sensing piece 21 outer diameter face, thereby prevents because the destruction that external pressure exerted on humidity sensing piece 21 and suffered.

Wherein, because the top surface of top cap 11 and the bottom surface of base 12 are provided with tectorial membrane net 14, tectorial membrane net 14 is last detachably to be connected with the thin film 3 that absorbs water, and the thin film 3 that absorbs water covers whole installation mount 1 external diameter face and establishes. Because the installation fixing frames 1 are arranged in the concrete of the building structure at equal intervals, the basic structure of the building is not influenced. The humidity sensing pieces 21 are connected in parallel and electrically connected with the monitoring host 4 through a main line, and the monitoring host 4 can supply power to the humidity sensing pieces 21 and receive data uploaded by the humidity sensing pieces.

Since a plurality of humidity sensing pieces 21 are arranged, information uploaded by the humidity sensing pieces 21 is received by the main control module 41 of the monitoring host 4, and the corresponding positions of the humidity sensing pieces are determined and whether leakage occurs at the corresponding positions is determined.

Wherein, because the monitoring host 4 is internally provided with the wireless communication module 42, the wireless communication module 42 uploads the processed data of the main control module 41 to the mobile monitoring terminal.

The utility model provides a pair of go out a structure infiltration automatic monitoring device installs in the middle of building structure through humidity monitoring device, and the layering segmentation installation guarantees that humidity monitoring device can the seepage prevention weak face of cover structure to utilize the parallelly connected characteristic of humidity monitoring device, fix a position the seepage node accurately, thereby take remedial reinforcement measure in time to the automatic monitoring of infiltration.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and all modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (5)

1. The utility model provides a structure infiltration automatic monitoring device, includes: installation mount (1), unit humidity monitoring devices (2), water absorption film (3) and monitoring host (4), its characterized in that, installation mount (1), unit humidity monitoring devices (2) fixed mounting be in installation mount (1) top surface, unit humidity monitoring devices (2) connect in parallel each other and with detect host electric connection, water absorption film (3) cover the world ground of installation mount (1), the whole equidistant ground that water absorption film (3), installation mount (1) and unit humidity monitoring devices (2) constitute is pre-buried in the building structure concrete, monitoring host (4) set up outside building structure concrete.

2. An automatic structural water seepage monitoring device as claimed in claim 1, wherein said mounting fixture (1) comprises: top cap (11), base (12), mounting groove (13) and tectorial membrane net (14), top cap (11) with base (12) cooperate, can dismantle the connection through the bolt between top cap (11) and base (12), mounting groove (13) equidistant setting is in between top cap (11) and base (12), it passes through bolt fixed connection to cover the mould net the top surface of top cap (11) and the bottom surface of base (12).

3. The automatic structural water seepage monitoring device according to claim 2, wherein the unit humidity monitoring device (2) comprises: humidity sensing piece (21) and resistance to compression rack (22), humidity sensing piece (21) with resistance to compression rack (22) inner diameter face cooperatees, resistance to compression rack (22) with mounting groove (13) cooperate.

4. The automatic structural water seepage monitoring device as claimed in claim 3, wherein a plurality of connecting holes (31) are formed in the water absorbing film (3), and the connecting holes (31) can be detachably connected with connecting grooves in the film covering net (14) through bolts.

5. The automatic monitoring device for water seepage of a structure according to claim 4, wherein the monitoring host (4) is provided with a main control module (41) and a wireless communication module (42), the humidity sensing sheets (21) are connected in parallel with each other and are electrically connected with the monitoring host (4) through a main line, and the monitoring host (4) is controlled by the main control module (41) and is in signal connection with a mobile monitoring end through the wireless communication module (42).

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