CN214174649U - Engineering is supervised and is passed through detection device with tunnel prevention of seepage - Google Patents

Abstract

The utility model relates to an engineering is supervised and is passed through detection device with tunnel prevention of seepage relates to tunnel quality detection device's technical field, including the arc frame, the arc frame includes drive mount and test jig, be provided with reciprocating mechanism on the arc frame, reciprocating mechanism connects on drive mount and test jig, the last sponge section of thick bamboo that is provided with of reciprocating mechanism, sponge section of thick bamboo level sets up, sponge section of thick bamboo both ends set up respectively on drive mount and test jig, reciprocating mechanism is used for driving a sponge section of thick bamboo reciprocating motion and gyration on the arc frame, be provided with the actuating mechanism who is used for driving a sponge section of thick bamboo reciprocating motion and gyration on the drive mount, be provided with the detection mechanism who is used for monitoring a sponge section of thick bamboo water content on the test jig. The application has the effect of conveniently and safely checking the water leakage condition of the arc top of the tunnel by constructors.

Description

Engineering is supervised and is passed through detection device with tunnel prevention of seepage

Technical Field

The application relates to the technical field of tunnel quality detection devices, in particular to a tunnel anti-seepage detection device for engineering supervision.

Background

Tunnels are engineering structures buried in the ground, which is a form of underground space used by humans. Tunnels can be divided into traffic tunnels, hydraulic tunnels, municipal tunnels and the like, and in modern road engineering, tunnels are often required to be excavated so that roads can pass through mountains. The construction quality of the tunnel is very important because the traffic in the tunnel is required to be communicated. Leakage water is a phenomenon that easily occurs in a tunnel, and the quality and the service life of the tunnel are reduced by the leakage water. Constructors need to pay attention to whether water leaks in the tunnel or not and repair the tunnel in time, and therefore safety of the tunnel is guaranteed.

The detection of the seepage water in the related tunnel needs to be manually completed by constructors, the constructors need to build a scaffold and climb the scaffold, so that the constructors can closely observe the wall condition of the arc top of the tunnel, and follow-up maintenance is carried out according to the position and the area of a seepage point.

The above prior art solutions have the following drawbacks: the arc top height in the tunnel differs, and for the higher tunnel of inspection arc top, need build higher scaffold, constructor has the safety risk on the scaffold, causes inconveniently.

SUMMERY OF THE UTILITY MODEL

In order to conveniently and conveniently check the water leakage condition of the arc top of the tunnel by constructors safely, the application provides a tunnel anti-seepage detection device for engineering supervision.

The application provides a tunnel prevention of seepage detection device for engineering supervision adopts following technical scheme:

the utility model provides an engineering is supervised and is passed through detection device with tunnel prevention of seepage, including the arc frame, the arc frame includes drive frame and test rack, be provided with reciprocating mechanism on the arc frame, reciprocating mechanism connects on drive frame and test rack, the last sponge section of thick bamboo that is provided with of reciprocating mechanism, the sponge section of thick bamboo level sets up, the sponge section of thick bamboo both ends set up respectively on drive frame and test rack, reciprocating mechanism is used for driving a sponge section of thick bamboo reciprocating motion and gyration on the arc frame, be provided with the actuating mechanism who is used for driving a sponge section of thick bamboo reciprocating motion and gyration on the drive frame, be provided with the detection mechanism who is used for monitoring a sponge section of thick bamboo water content on the test rack.

Through adopting above-mentioned technical scheme, through setting up reciprocating mechanism on the arc frame, set up a sponge section of thick bamboo on reciprocating mechanism, make reciprocating mechanism can drive a sponge section of thick bamboo gyration on the arc frame, through making a sponge section of thick bamboo butt on tunnel arc top, make a sponge section of thick bamboo roll and absorb the percolating water of tunnel arc top on tunnel arc top, through setting up detection mechanism on detecting the frame, make detection mechanism can detect the volume that absorbs percolating water on the sponge section of thick bamboo, whether user of service can learn the tunnel arc top through detection mechanism and have the seepage phenomenon, the effect that makes things convenient for constructor to check the percolating water condition of tunnel arc top safely conveniently has.

Optionally, the reciprocating mechanism includes a rotating shaft, two gears and two arc-shaped racks, each arc-shaped rack is arranged on one arc-shaped frame, two ends of the rotating shaft are coaxially fixed with one gear respectively, the gears are engaged with the arc-shaped racks, the driving mechanism is connected to the rotating shaft, and the driving mechanism is used for driving the rotating shaft to rotate.

Through adopting above-mentioned technical scheme, through setting up the gear in the pivot, set up the arc rack on the arc frame, make the gear can mesh on the arc rack, the user can make the pivot rotate through actuating mechanism, and then makes the pivot can move along the arc orbit on the arc rack through the gear, makes the pivot turn around at the removal in-process simultaneously to make a sponge section of thick bamboo can be through the pivot gyration.

Optionally, a yielding arc groove I is formed in the driving frame, an arc center of the yielding arc groove I is coincident with an arc center of the arc frame, the end of the rotating shaft penetrates through the gear and extends out of the driving frame through the yielding arc groove I, and the rotating shaft is connected with the driving mechanism from one end of the yielding arc groove I.

Through adopting above-mentioned technical scheme, through setting up the arc groove of stepping down on the carriage, make pivot tip stretch out from the arc groove of stepping down to make actuating mechanism can set up the one side of keeping away from the test rack on the carriage, and then reduce rivers in the sponge section of thick bamboo to actuating mechanism on, play protection actuating mechanism's effect.

Optionally, the driving mechanism includes a self-locking motor, a housing of the self-locking motor is slidably connected to one side of the driving frame far away from the detection frame, and an output shaft of the self-locking motor is coaxially fixed with the rotating shaft.

Through adopting above-mentioned technical scheme, through setting up self-locking motor in the pivot, make self-locking motor's output shaft can drive the pivot and rotate, through using self-locking motor drive pivot, when self-locking motor stall, the dead output shaft of self-locking motor card, and then make the pivot remain static on the arc frame to make the pivot can be through the gear static on the arc rack.

Optionally, a connecting arc groove is formed in the driving frame, a hanging piece is arranged on the self-locking motor, the hanging piece is fixed on a shell of the self-locking motor, and one end, far away from the self-locking motor, of the hanging piece is connected in the connecting arc groove in a sliding mode.

Through adopting above-mentioned technical scheme, through seting up the connection arc groove on the drive frame, set up the pendant on self-locking motor, make the pendant can sliding connection in connecting the arc groove, when self-locking motor's output shaft rotated, the pendant can block on connecting the arc inslot wall, and then made self-locking motor be difficult to along the output shaft gyration, played the effect that makes the pivot can move along the arc orbit on the arc rack through the gear.

Optionally, the detection frame is provided with a yielding arc groove II, the end part of the rotating shaft penetrates through the yielding arc groove II and extends out of the detection frame, and the detection mechanism is arranged on one side, far away from the driving frame, of the detection frame.

Through adopting above-mentioned technical scheme, through offering the arc groove two of stepping down on the test rack, make pivot tip stretch out to the arc groove of stepping down outside, and then make detection mechanism can set up on one side of keeping away from a sponge section of thick bamboo on the test rack, play the effect of protection detection mechanism, can reduce rivers in the sponge section of thick bamboo to detection mechanism on.

Optionally, the detection mechanism comprises a connecting frame and a humidity sensor, the connecting frame is rotatably connected to one end, located on the rotating shaft, of the abdicating arc groove II, the humidity sensor is arranged on the connecting frame, and the humidity sensor is used for abutting against the end face of the sponge cylinder.

Through adopting above-mentioned technical scheme, rotate through making the link and connect on the arc groove two of stepping down to make the link can follow the pivot and slide on the detection frame, connect on the link through making humidity transducer, make humidity transducer can remove along with the pivot, and then make humidity transducer can butt all the time on a sponge section of thick bamboo and detect the water content change of a sponge section of thick bamboo.

Optionally, an inserting cylinder is arranged on the connecting frame, the inserting cylinder is inserted into the abdicating arc groove II, and the humidity sensor penetrates through the inserting cylinder and abuts against the sponge cylinder.

Through adopting above-mentioned technical scheme, through setting up on the link and inserting a section of thick bamboo, make the link through the pivot with insert a section of thick bamboo sliding connection and in abdicating arc groove two, and then make humidity transducer butt all the time on a sponge section of thick bamboo, reduce the probability that the link revolves the axle gyration.

Optionally, the arc-shaped frame is provided with a plurality of brackets.

Through adopting above-mentioned technical scheme, through set up the support on the arc frame, make the support can rise the arc frame to the position that is close to the tunnel arc top to make a sponge section of thick bamboo can butt on the tunnel arc top.

To sum up, the beneficial technical effect of this application does:

1. the reciprocating mechanism is arranged on the arc-shaped frame, the sponge cylinder is arranged on the reciprocating mechanism, the reciprocating mechanism can drive the sponge cylinder to rotate on the arc-shaped frame, the sponge cylinder is abutted against the arc top of the tunnel, the sponge cylinder can roll on the arc top of the tunnel and absorb the leakage water on the arc top of the tunnel, the detection mechanism is arranged on the detection frame, the detection mechanism can detect the amount of the leakage water absorbed on the sponge cylinder, and a user can know whether the leakage phenomenon exists on the arc top of the tunnel through the detection mechanism, so that the detection device has the effect of conveniently and safely checking the leakage water condition of the arc top of the tunnel by the constructor;

2. the gear is arranged on the rotating shaft, the arc rack is arranged on the arc frame, so that the gear can be meshed with the arc rack, a user can rotate the rotating shaft through the driving mechanism, the rotating shaft can move on the arc rack along an arc track through the gear, and the rotating shaft rotates in the moving process, so that the sponge cylinder can rotate through the rotating shaft;

3. through set up the self-locking motor in the pivot, make the output shaft of self-locking motor can drive the pivot and rotate, through using the self-locking motor drive pivot, when the self-locking motor stall, the dead output shaft of self-locking motor card, and then make the pivot remain static on the arc frame to make the pivot can be through the gear static on the arc rack.

Drawings

Fig. 1 is a first schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic overall structure diagram of the embodiment of the present application.

Fig. 3 is a schematic view of the mounting structure of the reciprocating mechanism.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

FIG. 5 is a partially enlarged view of portion B of FIG. 3

Reference numerals: 1. an arc-shaped frame; 11. a driving frame; 111. a yielding arc groove I; 112. connecting the arc grooves; 12. a detection frame; 121. a abdicating arc groove II; 13. a support; 2. a reciprocating mechanism; 21. a rotating shaft; 22. a gear; 23. an arc-shaped rack; 24. a drive mechanism; 241. a self-locking motor; 242. hanging parts; 243. an insertion portion; 244. a connecting portion; 3. a detection mechanism; 31. a connecting frame; 311. inserting a cylinder; 32. a humidity sensor; 4. a sponge cylinder.

Detailed Description

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

The embodiment of the application discloses tunnel prevention of seepage detection device for engineering supervision. Referring to fig. 1, including two arc framves 1, arc frame 1 includes drive rack 11 and test rack 12, all is provided with a plurality of supports 13 on drive rack 11 and the test rack 12, and support 13 is vertical to be set up subaerial, and support 13 upper end is connected with arc frame 1 to make arc frame 1 can set up the eminence near the tunnel arc top.

Referring to fig. 1 and 2, a reciprocating mechanism 2 is arranged between the two arc-shaped frames 1, and a driving mechanism 24 for driving the reciprocating mechanism 2 to move is arranged on the driving frame 11. The reciprocating mechanism 2 is used for reciprocating and rotating on the arc-shaped frame 1 along the arc shape of the arc-shaped frame 1. The reciprocating mechanism 2 is provided with a sponge cylinder 4, the sponge cylinder 4 is horizontally arranged, and two end parts of the sponge cylinder 4 are respectively connected to the arc-shaped frame 1. The reciprocating mechanism 2 can drive the sponge cylinder 4 to reciprocate and rotate on the arc-shaped frame 1, so that the sponge cylinder 4 can be abutted against the arc top of the tunnel and absorb the leakage water on the surface of the arc top of the tunnel. Be provided with detection mechanism 3 that is used for monitoring 4 humidities of a sponge section of thick bamboo on the test rack 12, whether user of service can learn a sponge section of thick bamboo 4 and have the percolating water phenomenon on the route that tunnel arc top removed through monitoring the humidity change of a sponge section of thick bamboo 4 to make things convenient for user of service to inspect the tunnel percolating water condition and seek the infiltration point.

Referring to fig. 3 and 4, the reciprocating mechanism 2 includes a rotating shaft 21, two gears 22 and two arc-shaped racks 23, the rotating shaft 21 is horizontally disposed, two ends of the rotating shaft 21 are respectively coaxially and fixedly connected with one gear 22, and an end of the rotating shaft 21 penetrates through the gear 22 and extends out. The gear teeth of the arc-shaped rack 23 are arranged on one side of the arc-shaped rack 23, which is far away from the arc center. Two arc-shaped racks 23 are respectively arranged on the driving frame 11 and the detection frame 12, and the gear 22 is meshed with the arc-shaped racks 23. The user can control the rotation of the rotating shaft 21 to move the rotating shaft 21 on the arc-shaped rack 23 through the gear 22, so that the reciprocating mechanism 2 can move along the arc-shaped track and make the rotating shaft 21 rotate in the moving process.

Referring to fig. 3 and 5, the driving rack 11 is provided with a yielding arc groove one 111, and an arc center of the yielding arc groove one 111 coincides with an arc center of the driving rack 11. One end of the rotating shaft 21 extends out of the driving frame 11 through the abdicating arc groove I111. The second abdicating arc groove 121 is formed in the detection frame 12, the position of the second abdicating arc groove 121 corresponds to the first abdicating arc groove 111, and the other end of the rotating shaft 21 extends out of the detection frame 12 through the second abdicating arc groove 121. Through making the pivot 21 slide in the arc groove 111 of stepping down and the arc groove two 121 of stepping down, and then reduce reciprocating mechanism 2 and be the gliding probability of arc diameter direction along arc frame 1 to reduce reciprocating mechanism 2 and the probability of arc frame 1 disconnection.

Referring to fig. 3 and 5, the driving mechanism 24 includes a self-locking motor 241 and a hanging member 242, the self-locking motor 241 is disposed on one end of the rotating shaft 21 close to the driving frame 11, the self-locking motor 241 is disposed on one side of the driving frame 11 far away from the detecting frame 12, a housing of the self-locking motor 241 is slidably connected to the driving frame 11, and an output shaft of the self-locking motor 241 is coaxially and fixedly connected to the rotating shaft 21. The self-locking motor 241 is used for driving the rotating shaft 21 to rotate. The hanging member 242 is disposed on the housing of the self-locking motor 241, the hanging member 242 includes an insertion portion 243 and a connection portion 244, the connection portion 244 is disposed vertically, one end of the connection portion 244 is fixed on the upper surface of the housing of the self-locking motor 241, and the other end is connected to the insertion portion 243. The insertion portion 243 is horizontally arranged, the insertion portion 243 is perpendicular to the driving frame 11, the driving frame 11 is provided with a connecting arc groove 112, and the insertion portion 243 is inserted into the connecting arc groove 112. The arc center of the connecting arc groove 112 coincides with the arc center of the abdicating arc groove one 111. The hanging member 242 is used to slidably connect the self-locking motor 241 to the driving frame 11. When the output shaft of the self-locking motor 241 rotates, because the hanging piece 242 is clamped in the connecting arc groove 112, the self-locking motor 241 is difficult to rotate, the self-locking motor 241 can drive the rotating shaft 21 to rotate and enable the gear 22 to rotate, so that the reciprocating mechanism 2 moves on the arc-shaped frame 1, when the self-locking motor 241 stops rotating, the output shaft is locked by the self-locking motor 241, the rotating shaft 21 is made to be static on the arc-shaped frame 1, and the reciprocating mechanism 2 can be fixed on the arc-shaped frame 1.

Referring to fig. 3 and 4, the detecting mechanism 3 includes a link frame 31 and a humidity sensor 32, and the link frame 31 is disposed on an end of the detecting frame 12 away from the driving frame 11. The connecting frame 31 is attached to the detecting frame 12, and the rotating shaft 21 penetrates through the connecting frame 31 and is rotatably connected to the connecting frame 31. The humidity sensor 32 is arranged on the connecting frame 31, the inserting cylinder 311 is arranged on the connecting frame 31, and the inserting cylinder 311 is inserted into the abdicating arc groove two 121. The connecting frame 31 can be driven by the reciprocating mechanism 2 to reciprocate on the arc-shaped frame 1. The humidity sensor 32 is provided on the connecting frame 31, and the humidity sensor 32 penetrates the connecting frame 31 and the insertion tube 311 and abuts on the end face of the sponge tube 4. In the process of moving reciprocating mechanism 2, sponge section of thick bamboo 4 butt is on the tunnel arc top and absorb the percolating water, and humidity transducer 32 is arranged in detecting the humidity in sponge section of thick bamboo 4, and the user can learn the water content change in sponge section of thick bamboo 4 through humidity transducer 32, and then learn whether have the percolating water on the tunnel cambered surface of sponge section of thick bamboo 4 butt.

The implementation principle of the embodiment of the application is as follows: through set up reciprocating mechanism 2 on arc frame 1, make pivot 21 rotate through actuating mechanism 24, and then make a sponge section of thick bamboo 4 can be in the gyration on arc frame 1, through set up detection mechanism 3 on testing stand 12 to make humidity transducer 32 can be through the water content change of monitoring a sponge section of thick bamboo 4, and then make things convenient for the user of service to detect whether there is the infiltration point on the tunnel arc top.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an engineering is supervised and is passed through detection device with tunnel prevention of seepage which characterized in that: the device comprises an arc-shaped frame (1), wherein the arc-shaped frame (1) comprises a driving frame (11) and a detection frame (12), a reciprocating mechanism (2) is arranged on the arc-shaped frame (1), the reciprocating mechanism (2) is connected to the driving frame (11) and the detection frame (12), a sponge cylinder (4) is arranged on the reciprocating mechanism (2), the sponge cylinder (4) is horizontally arranged, two ends of the sponge cylinder (4) are respectively arranged on the driving frame (11) and the detection frame (12), the reciprocating mechanism (2) is used for driving the sponge cylinder (4) to reciprocate and rotate on the arc-shaped frame (1), a driving mechanism (24) used for driving the sponge cylinder (4) to reciprocate and rotate is arranged on the driving frame (11), and a detection mechanism (3) used for monitoring the water content of the sponge cylinder (4) is arranged on the detection frame (12).

2. The tunnel anti-seepage detection device for engineering supervision according to claim 1, characterized in that: reciprocating mechanism (2) are including pivot (21), two gear (22) and two arc rack (23), and every arc rack (23) sets up respectively on an arc frame (1), and pivot (21) both ends are coaxial fixed with a gear (22) respectively, and gear (22) and arc rack (23) mesh, and actuating mechanism (24) are connected on pivot (21), and actuating mechanism (24) are used for driving pivot (21) to rotate.

3. The tunnel anti-seepage detection device for engineering supervision according to claim 2, characterized in that: offer on drive frame (11) and abdicate arc groove (111), abdicate arc center that arc groove (111) is curved and arc center coincidence that arc frame (1) is, gear (22) are passed and stretch out to drive frame (11) outside through abdicating arc groove (111) to pivot (21) tip, and pivot (21) are connected with actuating mechanism (24) from the one end of abdicating arc groove (111).

4. The tunnel anti-seepage detection device for engineering supervision according to claim 3, characterized in that: the driving mechanism (24) comprises a self-locking motor (241), a shell of the self-locking motor (241) is connected to one side, far away from the detection frame (12), of the driving frame (11) in a sliding mode, and an output shaft of the self-locking motor (241) is coaxially fixed with the rotating shaft (21).

5. The tunnel anti-seepage detection device for engineering supervision according to claim 4, characterized in that: the driving frame (11) is provided with a connecting arc groove (112), the self-locking motor (241) is provided with a hanging piece (242), the hanging piece (242) is fixed on a shell of the self-locking motor (241), and one end, far away from the self-locking motor (241), of the hanging piece (242) is connected in the connecting arc groove (112) in a sliding mode.

6. The tunnel anti-seepage detection device for engineering supervision according to claim 1, characterized in that: offer on the testing stand (12) and abdicate arc groove two (121), pivot (21) tip runs through and abdicate arc groove two (121) and stretch out outside testing stand (12), and detection mechanism (3) set up the one side of keeping away from drive frame (11) on testing stand (12).

7. The tunnel anti-seepage detection device for engineering supervision according to claim 6, characterized in that: detection mechanism (3) are including link (31) and humidity transducer (32), and link (31) rotate to be connected and lie in on pivot (21) and give way one of arc groove two (121) and serve, and humidity transducer (32) set up on link (31), and humidity transducer (32) are used for the butt on a sponge section of thick bamboo (4) terminal surface.

8. The tunnel anti-seepage detection device for engineering supervision according to claim 7, characterized in that: an inserting barrel (311) is arranged on the connecting frame (31), the inserting barrel (311) is inserted into the abdicating arc groove II (121), and the humidity sensor (32) penetrates through the inserting barrel (311) and abuts against the sponge barrel (4).

9. The tunnel anti-seepage detection device for engineering supervision according to claim 1, characterized in that: the arc-shaped frame (1) is provided with a plurality of brackets (13).

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