CN114486130B - Device based on artificial intelligence detects tunnel inner wall infiltration - Google Patents

Abstract

The application relates to the technical field of tunnel engineering equipment, in particular to a device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence, which comprises a first water seepage detector, a platform support plate, a limiting conducting frame and a second water seepage detector, wherein the side end position of the first water seepage detector is fixedly connected with the second water seepage detector, the front end position of the first water seepage detector is fixedly connected with the platform support plate, the upper end of the platform support plate is in plug-in connection with the limiting conducting frame, the first water seepage detector comprises a detection part and a stabilizing frame seat, the stabilizing frame seat is arranged at the side part position of the inner end of the first water seepage detector, the upper end position of the stabilizing frame seat is fixedly connected with the detection part, the first water seepage detector further comprises a first bottom plate and a second bottom plate, the side position of the lower end of the stabilizing frame seat is fixedly connected with the first bottom plate, and the other side position of the lower end of the stabilizing frame seat is fixedly connected with the second bottom plate. According to the application, the water seepage detection operation is realized through the arrangement of the first water seepage detector.

Description

Device based on artificial intelligence detects tunnel inner wall infiltration

Technical Field

The application relates to the technical field of tunnel engineering equipment, in particular to a device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence.

Background

The device for detecting the water seepage of the inner wall of the tunnel can perform detection work of the water seepage of the inner wall of the tunnel, realize omnibearing detection work, realize real-time transmission through cooperation with the Internet, facilitate on-site regulation and control, realize comprehensive inspection management work, better realize safe tunnel construction and better control work of details.

The application discloses an on-line monitoring and detecting system for tunnel water seepage according to Chinese patent number CN201710212336.8, which is characterized in that: the on-line monitoring and detecting system for tunnel water seepage consists of the following parts: the system comprises an infrared and visible light monitoring system, a network transmission system, a background image display and information processing system. The information processing system judges whether water seepage exists at the position or not by comparing the development change of the thermal image of the tunnel surface, and provides monitoring personnel for confirmation and check. By utilizing the infrared image and the visible light image, a background monitoring person can intuitively and effectively check and evaluate the tunnel water seepage condition and formulate corresponding solving measures. Through carrying out infrared and visible light monitoring to tunnel surface, utilize backstage information processing system in time to discover tunnel infiltration phenomenon to carry out corresponding processing, provided subway rail transit security and operating efficiency, but this patent exists and is inconvenient for carrying out the regulation and control detection work of multi-angle, needs to improve.

The application belongs to the field of sensors and relates to an intelligent tunnel water seepage monitoring sensor which comprises a shell and a main board according to Chinese patent number CN 201921462464.9; the shell is formed by injection molding of a high polymer material, and the main board comprises a single electrode capacitor, an MCU, a Capacitor Digital Converter (CDC), a communication module and a power supply; the power supply provides energy for the whole system, the CDC is connected with the single electrode capacitor, the MCU communication interface is connected with the CDC and the communication module, the MCU acquires the capacitance value of the single electrode capacitor measured by the CDC in real time, then the MCU calculates the acquired capacitance value to acquire the current water flow flowing through the space between the shell bottom shell and the tunnel wall, and then the water flow data is sent to the back-end server; the intelligent tunnel seepage monitoring sensor can accurately measure large-flow and micro-flow water flow to realize accurate detection of tunnel seepage, but the intelligent tunnel seepage monitoring sensor is unfavorable for integral detection work and needs improvement.

According to Chinese patent number CN201811646272.3, the application belongs to the field of tunnel water seepage detection, and relates to a system for monitoring tunnel water seepage based on the conductive property of electrolyte water.

However, the existing device for detecting the water seepage of the inner wall of the tunnel has some defects in the use process, such as:

the detection work of regulation and control of being unfavorable for the multi-angle is not convenient for carry out, is unfavorable for integral detection work to inconvenient accurate detection purpose that carries out still be inconvenient for simultaneously carrying out the cooperation expansion phenomenon, is unfavorable for the detection work in different tunnels of width, so need a device based on artificial intelligence detects tunnel inner wall infiltration, in order to solve the problem that proposes in the above-mentioned.

Disclosure of Invention

The application aims to provide a device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: the device comprises a first seepage detector, a platform support plate, a limiting conducting frame and a second seepage detector, wherein the second seepage detector is fixedly connected to the side end position of the first seepage detector, the platform support plate is fixedly connected to the front end position of the first seepage detector, and the upper end of the platform support plate is spliced with the limiting conducting frame;

the first water seepage detector comprises a detection component and a stable stand seat;

the stable frame seat is arranged at the side part of the inner end of the first water seepage detector, and the upper end of the stable frame seat is fixedly connected with a detection part;

the first water seepage detector further comprises a first bottom plate and a second bottom plate;

one side of the lower end of the stable frame seat is fixedly connected with the first bottom plate, and the other side of the lower end of the stable frame seat is fixedly connected with the second bottom plate;

the detection component comprises a driving structure and an inner lining plate;

the driving structure is arranged at one side of the inner end of the detection part, and the side end of the driving structure is fixedly connected with the inner lining plate;

the detection part further comprises a first contact piece and a second contact piece, the first contact piece is arranged at the upper end position of the inner lining plate, and the front end position of the first contact piece is fixedly connected with the second contact piece;

the driving structure comprises a motor, a rack, a toothed ring, a bottom plate support frame, a track plate frame, a connecting pushing frame, a movable block and a fixed top frame, wherein the side end position of the motor is fixedly connected with the toothed ring, the upper end and the lower end of the toothed ring are symmetrically meshed and connected with the rack, the front end position of the rack is provided with the track plate frame, the center of the track plate frame is elastically connected with the bottom plate support frame, the side end position of the track plate frame is in sliding connection with the movable block, the side end position of the movable block is fixedly connected with the connecting pushing frame, and the top position of the track plate frame is fixedly connected with the fixed top frame;

the driving structure further comprises a transmission main shaft, a matched inserting frame and a displacement frame block, the front end of the toothed ring is fixedly connected with the transmission main shaft, the front end position of the transmission main shaft is communicated with the matched inserting frame, and the side end of the bottom plate supporting frame is fixedly connected with the displacement frame block;

the first water seepage detector comprises a central controller, a cradle head, a control panel and a wireless sensor, wherein the first water seepage detector is wirelessly connected with the central controller, the central controller is wirelessly connected with the wireless sensor, the central controller is wirelessly connected with the cradle head, and the central controller is wirelessly connected with the control panel;

the motor is arranged in an electric connection with the outside, the motor is meshed with the rack through the toothed ring, the rack is symmetrically arranged through the toothed ring and is meshed with the toothed ring, the rack at the top position is fixedly connected with the displacement rack block, and the rack at the bottom position is fixedly connected with the symmetrically arranged displacement rack block.

Preferably, the connection pushing frame is fixedly connected with the first contact piece and the second contact piece, and the first contact piece and the second contact piece are symmetrically arranged relative to the detection component.

Preferably, the displacement frame block drives the connection pushing frame and the movable block to be in sliding connection, and the displacement frame block is fixedly connected with the rack.

Preferably, the bottom of the fixed top frame is in sliding connection with the front end of the motor, the fixed top frames are symmetrically arranged, and the fixed top frames are connected with each other through rod bodies in a telescopic mode.

Preferably, the cradle head and the control panel are electrically communicated with the outside, and signals are transmitted through the cradle head and the control panel.

Preferably, the stable frame seat is fixedly connected with the motor, and the bottoms of the stable frame seats are in supporting connection through the first bottom plate and the second bottom plate.

Preferably, the first water seepage detector and the second water seepage detector are symmetrically arranged, and the first water seepage detector and the second water seepage detector are connected with the limiting conducting frame through the platform support plate.

Preferably, the first contact piece and the second contact piece are arranged in a half circle, and the first contact piece and the second contact piece which are symmetrically arranged are movably connected relatively.

Preferably, the upper ends of the first contact piece and the second contact piece are provided with an induction electrode piece.

Preferably, a supporting arc-shaped frame is inserted between the first water seepage detector and the second water seepage detector, and the upper end of the supporting arc-shaped frame is fixedly connected with a shielding annular plate.

Compared with the prior art, the application has the following beneficial effects:

according to the application, the first water seepage detector, the platform support plate, the limiting guide frame and the second water seepage detector are symmetrically arranged, so that synchronous inspection work at two ends can be realized, average data is convenient, water leakage detection work is better realized, the platform support plate and the limiting guide frame are in plug-in connection, the first water seepage detector and the second water seepage detector can slide on the limiting guide frame in a limiting manner through the platform support plate, the positions of the first water seepage detector and the second water seepage detector are conveniently adjusted, and integral mechanical detection work is facilitated.

According to the application, the first water seepage detector is arranged and connected in a combined manner through the detection component, the stable frame seat, the first bottom plate and the second bottom plate help the detection component to support, specific detection work is convenient to carry out through the arrangement of the detection component, the first contact piece and the second contact piece in the detection component can be expanded to realize direct contact with the inner wall of a tunnel, the first contact piece and the second contact piece are provided with the induction electrode piece, the detection purpose of a water body is convenient to carry out, the detection purpose of high precision is realized, and the communication treatment with the outside is convenient to realize through the arrangement of the central controller, the cradle head, the control panel and the wireless sensor, the information transmission is facilitated, the control work is convenient to carry out, and the real-time control purpose is facilitated.

According to the application, the arc-shaped support frame and the shielding annular plate are arranged, and the shielding annular plate is connected between the first water seepage detector and the second water seepage detector through the arc-shaped support frame, so that the protection of the central position is realized, the internal damage caused by external water is prevented, the protection purpose of the first water seepage detector and the second water seepage detector is facilitated, the durability of the first water seepage detector and the second water seepage detector is improved, and the integral protection and use purpose of the first water seepage detector and the second water seepage detector is facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the main structure of the present application;

FIG. 2 is a side view of the body of the present application;

FIG. 3 is a schematic view of a first water penetration detector according to the present application;

FIG. 4 is a side view of a first water penetration detector of the present application;

FIG. 5 is a schematic structural view of the detecting unit of the present application;

FIG. 6 is a side view of a detection member of the present application;

FIG. 7 is a schematic diagram of a driving structure according to the present application;

FIG. 8 is a side view of the drive structure of the present application;

FIG. 9 is a flow chart of electrical control of the present application;

fig. 10 is a schematic structural view of a second embodiment of the body of the present application.

In the figure: 1-first water seepage detector, 2-platform supporting plate, 3-spacing conducting frame, 4-second water seepage detector, 5-detection part, 6-firm frame foundation, 7-first bottom plate, 8-second bottom plate, 9-driving structure, 10-interior welt, 11-first contact piece, 12-second contact piece, 13-motor, 14-rack, 15-ring gear, 16-bottom plate support frame, 17-track grillage, 18-connection pushing frame, 19-movable block, 20-fixed roof-rack, 21-transmission main shaft, 22-cooperation grafting frame, 23-displacement frame piece, 24-central controller, 25-cloud platform, 26-control panel, 27-wireless sensor, 28-support arc frame, 29-shielding ring plate.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the application herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The application is further described below with reference to the accompanying drawings.

Example 1

Referring to fig. 1 and 2, an embodiment of the present application is provided: the utility model provides a device based on tunnel inner wall infiltration of artificial intelligence detection, includes first infiltration detector 1, platform extension board 2, spacing conduction frame 3 and second infiltration detector 4, and the side position fixedly connected with second infiltration detector 4 of first infiltration detector 1, the front end position fixedly connected with platform extension board 2 of first infiltration detector 1, the upper end of platform extension board 2 and spacing conduction frame 3 looks grafting setting;

referring to fig. 3, the first water seepage detector 1 includes a detecting component 5 and a stable stand 6, and water seepage detection is conveniently performed by setting the detecting component 5 and the stable stand 6, so as to realize integral connection and fixation;

the stable frame seat 6 is arranged at the side part of the inner end of the first water seepage detector 1, and the upper end of the stable frame seat 6 is fixedly connected with the detection part 5;

referring to fig. 4, the first water seepage detector 1 further includes a first bottom plate 7 and a second bottom plate 8, and the bottom support connection is facilitated by the arrangement of the first bottom plate 7 and the second bottom plate 8;

one side of the lower end of the stable frame seat 6 is fixedly connected with the first bottom plate 7, and the other side of the lower end of the stable frame seat 6 is fixedly connected with the second bottom plate 8;

referring to fig. 5, the detecting component 5 includes a driving structure 9 and a lining board 10, and specific detecting work is implemented by the combined arrangement of the driving structure 9 and the lining board 10;

the driving structure 9 is arranged at one side of the inner end of the detection part 5, and the side end of the driving structure 9 is fixedly connected with the inner lining plate 10;

referring to fig. 6, the detecting component 5 further includes a first contact piece 11 and a second contact piece 12, where the first contact piece 11 is disposed at an upper end position of the inner lining board 10, and a front end position of the first contact piece 11 is fixedly connected with the second contact piece 12, and by setting the first contact piece 11 and the second contact piece 12, connection contact with a tunnel is realized, so as to facilitate cooperation detection work;

referring to fig. 7, the driving structure 9 includes a motor 13, a rack 14, a toothed ring 15, a bottom plate support 16, a track rack 17, a connection pushing rack 18, a movable block 19 and a fixed top rack 20, wherein the side end position of the motor 13 is fixedly connected with the toothed ring 15, the upper end and the lower end of the toothed ring 15 are symmetrically engaged and connected with the rack 14, the front end position of the rack 14 is provided with the track rack 17, the center of the track rack 17 is elastically connected with the bottom plate support 16, the side end position of the track rack 17 is slidably connected with the movable block 19, the side end position of the movable block 19 is fixedly connected with the connection pushing rack 18, and the top position of the track rack 17 is fixedly connected with the fixed top rack 20, so that the driving adjustment work is realized and the matching detection is convenient through the combined connection of the motor 13, the rack 14, the toothed ring 15, the bottom plate support 16, the track rack 17, the connection pushing rack 18, the movable block 19 and the fixed top rack 20;

referring to fig. 8, the driving structure 9 further includes a transmission main shaft 21, a mating plugging frame 22 and a displacement frame block 23, the front end of the toothed ring 15 is fixedly connected with the transmission main shaft 21, the front end position of the transmission main shaft 21 is communicated with the mating plugging frame 22, and the side end of the bottom plate support frame 16 is fixedly connected with the displacement frame block 23;

referring to fig. 9, the first water seepage detector 1 includes a central controller 24, a cradle head 25, a control panel 26 and a wireless sensor 27, the first water seepage detector 1 is wirelessly connected with the central controller 24, the central controller 24 is wirelessly connected with the wireless sensor 27, the central controller 24 is wirelessly connected with the cradle head 25, the central controller 24 is wirelessly connected with the control panel 26, and the overall electrical control purpose is achieved through the arrangement of the central controller 24, the cradle head 25, the control panel 26 and the wireless sensor 27;

the motor 13 is electrically connected with the outside, the motor 13 is meshed with the rack 14 through the toothed ring 15, the rack 14 is symmetrically arranged through the toothed ring 15 and is meshed with the toothed ring 15, the rack 14 at the top position is fixedly connected with the displacement rack block 23, and the rack 14 at the bottom position is fixedly connected with the symmetrically arranged displacement rack block 23.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, the connection pushing frame 18 is fixedly connected with the first contact piece 11 and the second contact piece 12, the first contact piece 11 and the second contact piece 12 are symmetrically arranged about the detection component 5, the displacement frame block 23 drives the connection pushing frame 18 and the movable block 19 to be in sliding connection, the displacement frame block 23 is fixedly connected with the tooth frame 14, the bottom of the fixed top frame 20 is slidably inserted with the front end of the motor 13, the fixed top frame 20 is symmetrically arranged, the fixed top frames 20 are connected with the telescopic arrangement through a rod body, the cloud deck 25 and the control panel 26 are electrically communicated with the outside, signals are transmitted through the cloud deck 25 and the control panel 26, the stable frame seat 6 is fixedly connected with the motor 13, the bottom of the stable frame seat 6 is supported and connected through the first bottom plate 7 and the second bottom plate 8, the first water seepage detector 1 and the second water seepage detector 4 are symmetrically arranged, the first water seepage detector 1 and the second water seepage detector 4 are both connected with the first contact piece 12 through the guide plate 2 and the second water seepage detector 4, and the first contact piece 11 is in contact with the second contact frame 12 through the first contact frame 12, the whole contact structure is arranged, and the second contact piece 11 is arranged, the whole contact structure is arranged, and the whole contact structure is arranged.

In the embodiment, common construction work is realized through the first water seepage detector 1, the platform support plate 2, the limit conducting frame 3 and the second water seepage detector 4, the first water seepage detector 1 and the second water seepage detector 4 can be slidably regulated through the platform support plate 2 and the limit conducting frame 3, the change of the detection positions of the first water seepage detector 1 and the second water seepage detector 4 is realized, the regulation and detection purposes are convenient, the first water seepage detector 1 is connected through the detection part 5, the stable support seat 6, the first bottom plate 7 and the second bottom plate 8 can be in support connection with the detection part 5, the detection part 5 is used for helping specific detection work, the driving structure 9 in the detection part 5 can be driven, the inner lining plate 10 is convenient for central support connection, the first contact piece 11 and the second contact piece 12 in the detection part 5 can be stretched, realizing contact connection, the driving structure 9 is connected with the fixed top frame 20 through the motor 13, the rack 14, the toothed ring 15, the bottom plate support frame 16, the track plate frame 17, the connecting pushing frame 18, the movable block 19 and the fixed top frame 20 in a combined way, is driven by the motor 13, drives the toothed ring 15 to rotate, acts on the rack 14, can drive the connecting pushing frame 18 and the movable block 19 to change positions, and drives the first contact piece 11 and the second contact piece 12 to displace through the movement of the connecting pushing frame 18, realizes contact connection with a tunnel, helps water seepage detection work, induction electrode pieces are arranged on the first contact piece 11 and the second contact piece 12, facilitates induction processing work, and is convenient to carry out database communication processing through the combined arrangement of the central controller 24, the cloud deck 25, the control panel 26 and the wireless sensor 27, the information transmission is realized, and remote control work is convenient to carry out.

Example 2

On the basis of embodiment 1, as shown in fig. 10, a supporting arc-shaped frame 28 is inserted between the first water seepage detector 1 and the second water seepage detector 4, and the upper end of the supporting arc-shaped frame 28 is fixedly connected with a shielding ring plate 29.

When implementing this embodiment, the user passes through the installation support arc frame 28 and shelters from the annular plate 29, shelters from the annular plate 29 and passes through the support arc frame 28 to be connected between first infiltration detector 1, second infiltration detector 4, realizes central point's protection, prevents that external water from causing inside damage, helps carrying out the protection purpose of first infiltration detector 1, second infiltration detector 4, improves the durable degree of first infiltration detector 1, second infiltration detector 4, conveniently carries out the holistic protection use purpose of first infiltration detector 1, second infiltration detector 4.

Working principle: the user carries out the combination connection with first infiltration detector 1, platform extension board 2, spacing conduction frame 3, second infiltration detector 4, realize holistic installation, can carry out the regulation of first infiltration detector 1, second infiltration detector 4 position through platform extension board 2, spacing conduction frame 3, through driving motor 13, motor 13 can drive ring gear 15 and rotate, act on rack 14, realize rack 14's purpose of passing, and rack 14 can drive bottom plate support frame 16, displacement frame piece 23 carries out the position, make the relative position of change connection pushing frame 18, movable block 19, fixed roof frame 20, conveniently carry out the regulation control work, make first contact 11, second contact 12 expand, realize the contact with the tunnel inner wall, and be equipped with the induction electrode piece on first contact 11, the second contact 12, can carry out the detection work of infiltration point, conveniently carry out infiltration detection work, help carrying out holistic control connection, the setting of transmission main shaft 21, can realize the transmission of power, and cooperation jack-in frame 22 can be used to transmit the limit connection of main shaft 21, can realize that first contact piece 11, 24, can realize the first end face plate 1 is to the wireless transmission to the central controller 24 is realized to the solid water infiltration detector 1, can realize the transmission of the wireless control center controller 24, can realize the transmission of the data to the first and the central controller 1, can realize the transmission to the wireless control of the whole through 24, the controller is realized to the 24, the first is connected to the controller is connected to the end, 24.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Device based on artificial intelligence detects tunnel inner wall infiltration, its characterized in that: comprises a first seepage detector (1), a platform support plate (2), a limiting and conducting frame (3) and a second seepage detector (4);

the side end position of the first water seepage detector (1) is fixedly connected with a second water seepage detector (4), the front end position of the first water seepage detector (1) is fixedly connected with a platform support plate (2), and the upper end of the platform support plate (2) is spliced with the limit conducting frame (3);

the first water seepage detector (1) comprises a detection component (5) and a stable stand (6); the stable frame seat (6) is positioned at the side part of the inner end of the first water seepage detector (1), and the upper end of the stable frame seat (6) is fixedly connected with a detection part (5); the first water seepage detector (1) further comprises a first bottom plate (7) and a second bottom plate (8); one side of the lower end of the stable frame seat (6) is fixedly connected with the first bottom plate (7), and the other side of the lower end of the stable frame seat (6) is fixedly connected with the second bottom plate (8); the driving structure (9) is positioned at one side of the inner end of the detection part (5), and the side end of the driving structure (9) is fixedly connected with the inner lining plate (10);

the detection component (5) further comprises a first contact piece (11) and a second contact piece (12), the first contact piece (11) is arranged at the upper end position of the inner lining plate (10), and the front end position of the first contact piece (11) is fixedly connected with the second contact piece (12);

the driving structure (9) comprises a motor (13), a toothed rack (14), a toothed ring (15), a bottom plate supporting frame (16), a track plate frame (17), a connecting pushing frame (18), a movable block (19) and a fixed top frame (20), wherein the side end position of the motor (13) is fixedly connected with the toothed ring (15), the toothed rack (14) is symmetrically meshed with the upper end and the lower end of the toothed ring (15), the track plate frame (17) is arranged at the front end position of the toothed rack (14), the bottom plate supporting frame (16) is elastically connected with the center of the track plate frame (17), the side end position of the track plate frame (17) is in sliding connection with the movable block (19), the side end position of the movable block (19) is fixedly connected with the connecting pushing frame (18), and the top position of the track plate frame (17) is fixedly connected with the fixed top frame (20).

The driving structure (9) further comprises a transmission main shaft (21), a matched inserting frame (22) and a displacement frame block (23), the front end of the toothed ring (15) is fixedly connected with the transmission main shaft (21), the front end position of the transmission main shaft (21) is communicated with the matched inserting frame (22), and the side end of the bottom plate support frame (16) is fixedly connected with the displacement frame block (23);

the device further comprises a central controller (24), a cradle head (25), a control panel (26) and a wireless sensor (27), wherein the first water seepage detector (1) is wirelessly connected with the central controller (24), the central controller (24) is wirelessly connected with the wireless sensor (27), the central controller (24) is wirelessly connected with the cradle head (25), and the central controller (24) is wirelessly connected with the control panel (26); the motor (13) is electrically connected with the outside, the motor (13) is meshed with the rack (14) through the toothed ring (15), the racks (14) are symmetrically arranged through the toothed ring (15) and are meshed with the toothed ring (15), the rack (14) at the top position is fixedly connected with the displacement rack block (23), and the rack (14) at the bottom position is fixedly connected with the symmetrically arranged displacement rack block (23); the connection pushing frame (18) is fixedly connected with the first contact piece (11) and the second contact piece (12), and the first contact piece (11) and the second contact piece (12) are symmetrically arranged relative to the detection component (5).

2. The device for detecting the seepage of the inner wall of a tunnel based on artificial intelligence according to claim 1, wherein: the displacement frame block (23) drives the connection pushing frame (18) and the movable block (19) to be in sliding connection, and the displacement frame block (23) is fixedly connected with the rack (14).

3. The device for detecting the seepage of the inner wall of a tunnel based on artificial intelligence according to claim 2, wherein: the bottom of the fixed top frames (20) is in sliding connection with the front end of the motor (13), the fixed top frames (20) are symmetrically arranged, and the fixed top frames (20) are connected in a telescopic manner through rod bodies.

4. A device for detecting water seepage from the inner wall of a tunnel based on artificial intelligence as claimed in claim 3, wherein: the cradle head (25) and the control panel (26) are electrically communicated with the outside, and signals are transmitted through the cradle head (25) and the control panel (26).

5. The device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence according to claim 4, wherein: the stabilizing frame seat (6) is fixedly connected with the motor (13), and the bottoms of the stabilizing frame seat (6) are in supporting connection through the first bottom plate (7) and the second bottom plate (8).

6. The device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence according to claim 5, wherein: the first water seepage detector (1) and the second water seepage detector (4) are symmetrically arranged, and the first water seepage detector (1) and the second water seepage detector (4) are connected with the limiting conductive frame (3) through the platform support plate (2).

7. The device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence according to claim 6, wherein: the first contact piece (11) and the second contact piece (12) are arranged in half circle, and the symmetrically arranged first contact piece (11) and second contact piece (12) are movably connected relatively.

8. The device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence according to claim 7, wherein: the upper ends of the first contact piece (11) and the second contact piece (12) are provided with an induction electrode piece.

9. The device for detecting water seepage on the inner wall of a tunnel based on artificial intelligence according to claim 8, wherein: a supporting arc-shaped frame (28) is inserted between the first water seepage detector (1) and the second water seepage detector (4), and the upper end of the supporting arc-shaped frame (28) is fixedly connected with a shielding annular plate (29).