CN116087065A

CN116087065A - Road and bridge seepage detection device

Info

Publication number: CN116087065A
Application number: CN202310374881.2A
Authority: CN
Inventors: 宋瑞利; 刘琳; 李品; 李敬树; 苌永涛; 刘卫杰; 赵亚玲; 高珂华; 王星光; 于伟; 郝云翔
Original assignee: Shijiazhuang Highway And Bridge Construction Group Co ltd
Current assignee: Shijiazhuang Highway And Bridge Construction Group Co ltd
Priority date: 2023-04-10
Filing date: 2023-04-10
Publication date: 2023-05-09
Anticipated expiration: 2043-04-10
Also published as: CN116087065B

Abstract

The invention belongs to the technical field of roads and bridges, and discloses a road and bridge water seepage detection device which comprises a moving mechanism, wherein a storage shell is arranged at the top of the moving mechanism, when sampling point seepage detection is carried out after a road surface is finished, a detection mechanism is taken out from the storage shell by a worker, then a bolt at the top of a bolt component at one side of a main detection column is pulled out, the annular main detection column and an auxiliary detection column are linearly extended and unfolded around a rotating shaft component through an arc rod, cylindrical sucker pieces at the bottoms of the auxiliary detection column and the main detection column are directly positioned on the surfaces of corresponding detection points after the auxiliary detection column and the main detection column are linearly extended and unfolded, and the local detection of the main detection column aiming at the sampling points is effectively changed into the detection of the sampling points in a linear arrangement mode, so that the time of detecting the sampling points one by the worker is shortened, and the working efficiency of the worker is improved.

Description

Road and bridge seepage detection device

Technical Field

The invention belongs to the technical field of roads and bridges, and particularly relates to a road and bridge water seepage detection device.

Background

The road and bridge water seepage detection device is a tool for checking and accepting road surface water seepage on the whole smooth road surface after bridge road construction is completed, and mainly comprises a measuring cylinder, a bottom disc arranged at the bottom of the measuring cylinder, and a round hole formed in the inner wall of the cylinder and the base, and is widely used for checking and accepting.

The existing road and bridge water seepage detection device is characterized in that firstly, workers clean dust on a road surface after construction is finished, then the workers sample the road surface to obtain a local inspection point, then the workers smear gypsum powder on a smooth road surface, the smearing shape is optimally circular, then the bottoms of the detectors are pressed on the tops of the gypsum powder to be adhered, finally, the workers inject water into a measuring cylinder to observe the water level to reduce the liquid level, if the water level is reduced to the lowest liquid level of the measuring cylinder, the local road surface water seepage inspection is qualified, after the inspection point is finished, the workers tax later reaches the next point to be inspected, and thus all the inspection points of the reciprocating straight values are finished.

When the existing road and bridge water seepage detection device finishes detection of road construction, when a worker takes the detection device to detect the seepage point sampled by the road surface, firstly, when the sampling of the road surface point is more, the worker takes one detection device to repeat one action detection on the road surface sampling point, the process brings great consumption to the working time and physical strength of the worker, the working efficiency of the worker in the detection process is low,

disclosure of Invention

In order to solve the problems in the background technology, the invention provides a road and bridge water seepage detection device, which has the advantages of reducing the work time and the huge consumption of physical strength caused by repeated action detection of a detection device taken by a worker on a road surface sampling point and low work efficiency in the inspection process of the worker.

In order to achieve the above purpose, the present invention provides the following technical solutions: the road and bridge water seepage detection device comprises a moving mechanism, wherein the top of the moving mechanism is provided with a storage shell, the whole storage shell is divided into two half forms, the broken part of the storage shell is clamped by a round rod, the outer surface of one broken side of the storage shell is fixedly connected with a wrench, one side of the storage shell with a handle is fixedly connected with the round rod, the bottom of the storage shell with the handle is movably detached from the top of the moving mechanism, and the inside of the storage shell is provided with a detection mechanism;

the detection mechanism comprises three auxiliary detection columns and a main detection column, wherein the auxiliary detection columns and the main detection columns are annularly arranged in the initial state, and two thirds of the bottoms of the auxiliary detection columns and the main detection columns are annularly and movably connected with arc rods;

the inside all movable joint of vice detection post and main detection post has the graduated flask spare, the top inner wall of graduated flask spare has cup jointed the water injection section of thick bamboo, the outside fixedly connected with second gear of water injection section of thick bamboo, the bottom surface of vice detection post and main detection post is all connected the third gear through the draw-in groove pivot, the surface of second gear and third gear is elastic connection elastic drive area and lower elastic drive area respectively.

Preferably, one side of the auxiliary detection column and one side of the main detection column are fixedly connected with two rotating shaft assemblies, an arc rod is clamped between the two rotating shaft assemblies through a rotating shaft, the other side of the main detection column is fixedly connected with two bolt assemblies, and the two bolt assemblies can be detached from the tail ends of the arc rod through bolts.

Preferably, the bottom fixedly connected with cylinder suction disc spare of main detection post, the bottom outward flange of cylinder suction disc spare is round platform shape cushion, the back of main detection post is through oval slat fixedly connected with biax motor, the top transmission of biax motor is connected with the output shaft, the bottom transmission of biax motor is connected with down the output shaft, the bottom threaded connection screw member of output shaft down, the equal fixedly connected with first gear in top of screw member and last output shaft, the surface transmission of the first gear in output shaft top is gone up elastic drive area on the transmission engagement, the surface transmission of the first gear in screw member bottom is gone up elastic drive area under the transmission engagement.

Preferably, the front of the main detection column is fixedly connected with an air suction pump through an arc plate, two sides of the bottom of the air suction pump are fixedly connected with an air suction pipe, a cylindrical suction disc part is fixedly connected with the bottom of the air suction pipe, two first air delivery pipes are fixedly connected with two top sides of the air suction pump, an air tank part is fixedly connected with the top of the first air delivery pipes, a second air delivery pipe is fixedly connected with the top of the air tank part, the top of the second air delivery pipe is fixedly connected with a cylinder part, and one side of the air tank part is fixedly connected with the main detection column through a slat.

Preferably, the inner wall of the main detection column is in through connection with the measuring cylinder, and the bottom of the measuring cylinder is fixedly connected with a conical sucker.

Preferably, the bottom of the conical sucker is flush with the bottom port of the cylindrical sucker, the inner part of the cylindrical sucker comprises the conical sucker, a gap is formed between the outer edge of the conical sucker and the inner wall of the cylindrical sucker, and the conical sucker is conical in shape and two centimeters in height.

Preferably, the inside of the cylindrical sucker and the top of the conical sucker are provided with extraction areas, and the bottom of the conical sucker is provided with a water accumulation area.

Preferably, the top of the second air pipe penetrates through the inner wall of the measuring cylinder part and is fixed to the bottom of the water injection cylinder, scale marks are arranged on the outer edge of the measuring cylinder part, which is located at the top of the main detection column, and the measuring cylinder part is made of transparent materials.

Preferably, the top inner wall of the water injection cylinder is connected with a threaded plug in a threaded manner.

Preferably, the top area of the measuring cylinder is in threaded connection with a thread sleeve, the outer surface of the thread sleeve is in annular connection with a telescopic rod, and the top of the telescopic rod is in telescopic connection with a second gear.

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

when the leakage detection of the sampling points is carried out after the pavement is finished, a detection mechanism is taken out from a storage shell by a worker, then a top bolt of a bolt component on one side of a main detection column is pulled out, an annular main detection column and an annular auxiliary detection column are linearly extended and unfolded around a rotating shaft component through an arc rod, the auxiliary detection column and a cylindrical sucker piece at the bottom of the main detection column are directly positioned on the surface of a corresponding detection point after the linear extension and unfolding, the local detection of the main detection column aiming at the sampling points is effectively changed into the detection of the sampling points in a linear arrangement, and the time for the worker to detect the sampling points one by one is reduced in this way, so that the working efficiency of the worker is improved;

after the detection mechanism is used by the staff to detect the road surface water seepage point, the main detection column and the auxiliary detection column are directly combined to form a ring shape by the staff, then the top bolt of the bolt component on one side of the main detection column is directly inserted into the arc rod and the inner wall of the bolt component to be clamped, the detection mechanism is integrally used up and stored in the storage shell, the staff can conveniently take the detection mechanism, and meanwhile, when the detection mechanism moves to a remote detection point by the staff, the detection mechanism is pushed to be driven to integrally move to the detection point, so that the physical strength of the staff can be saved.

Drawings

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

FIG. 2 is a schematic view of the inside of the housing of the present invention;

FIG. 3 is a schematic view of the overall initial placement of the secondary and primary columns of the present invention;

FIG. 4 is a schematic view of the main column of the present invention;

FIG. 5 is a schematic cross-sectional view of a lower output shaft of the present invention;

FIG. 6 is a schematic diagram of the top of the secondary and primary columns of the present invention;

FIG. 7 is a schematic view of an arc rod of the present invention;

FIG. 8 is a schematic view of the bottom of the secondary and primary columns of the present invention;

FIG. 9 is a schematic diagram of the secondary and primary columns of the present invention;

FIG. 10 is a schematic cross-sectional view of a cylindrical suction disc member of the present invention;

FIG. 11 is a schematic view of a thread kit according to the present invention;

FIG. 12 is a schematic cross-sectional view of a measuring cylinder of the present invention;

FIG. 13 is a schematic cross-sectional view of a cartridge of the present invention.

In the figure: 1. a moving mechanism; 2. a storage case; 3. a detection mechanism; 4. an upper elastic transmission belt; 5. a biaxial motor; 501. a lower output shaft; 502. an upper output shaft; 6. a secondary detection column; 7. a main detection column; 8. a first gear; 9. a lower elastic transmission belt; 10. a threaded rod; 11. a measuring cylinder; 111. scale marks; 12. a second gear; 13. a thread set; 14. a telescopic rod; 15. a water injection cylinder; 16. a second gas pipe; 17. a gas tank member; 18. an air extracting pump; 19. a cylindrical suction disc member; 20. an air suction pipe; 21. a first gas pipe; 22. an arc rod; 23. a plug pin assembly; 24. a spindle assembly; 25. a third gear; 26. a water accumulation area; 27. an extraction area; 28. a conical sucker; 29. a threaded plug.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 13, the invention provides a road and bridge water seepage detection device, which comprises a moving mechanism 1, wherein a storage shell 2 is arranged at the top of the moving mechanism 1, the whole storage shell 2 is divided into two parts, the broken part of the storage shell 2 is clamped by a round rod, the outer surface of one broken side of the storage shell 2 is fixedly connected with a wrench, one side with a handle storage shell 2 is fixedly connected with the round rod, the bottom of the storage shell 2 with one side with the handle is movably detached at the top of the moving mechanism 1, and a detection mechanism 3 is arranged in the storage shell 2;

the detection mechanism 3 comprises three auxiliary detection columns 6 and a main detection column 7, the initial states of the auxiliary detection columns 6 and the main detection column 7 are in annular arrangement, and two thirds of the bottoms of the auxiliary detection columns 6 and the main detection column 7 are in annular movable connection with an arc rod 22;

the inside all movable joint of vice detection post 6 and main detection post 7 has graduated flask spare 11, and the top inner wall of graduated flask spare 11 has cup jointed water injection cylinder 15, and the outside fixedly connected with second gear 12 of water injection cylinder 15, and the bottom surface of vice detection post 6 and main detection post 7 all is through draw-in groove pivot connection third gear 25, and the surface of second gear 12 and third gear 25 all elasticity is connected elasticity drive belt 4 and lower elasticity drive belt 9 respectively.

When the detection device is used, when the leakage detection of sampling points is carried out after the pavement is finished, a detection mechanism 3 is taken out from a storage shell 2 by a worker, then a top bolt of a bolt component 23 on one side of a main detection column 7 is pulled out, an annular main detection column 7 and an annular auxiliary detection column 6 are linearly extended and unfolded around a rotating shaft component 24 through an arc rod 22, the auxiliary detection column 6 and a cylindrical suction disc 19 at the bottom of the linearly extended and unfolded main detection column 7 are directly positioned on the surface of a corresponding detection point, and the local detection of the main detection column 7 aiming at the sampling points is effectively changed into the detection of the sampling points in a linear arrangement mode, so that the time for detecting the sampling points one by the worker is reduced, and the working efficiency of the worker is improved;

after the detection mechanism 3 is used by the staff to detect the road surface water seepage point, the main detection column 7 and the auxiliary detection column 6 are directly combined to form a ring shape by the staff, then the top bolt of the bolt component 23 on one side of the main detection column 7 is directly inserted into the arc rod 22 and the inner wall of the bolt component 23 to be clamped, the detection mechanism 3 is integrally used up and stored in the storage shell 2, the staff can take the detection mechanism conveniently, and meanwhile, when the detection mechanism moves to a remote detection point by the staff, the moving mechanism 1 is pushed to drive the detection mechanism 3 to integrally move to the detection point, so that the physical strength of the staff is saved.

The auxiliary detection column 6 and the main detection column 7 are in an annular initial state, when the auxiliary detection column 6 and the main detection column 7 are opened, the main detection column 7 is taken as a fixed point, then the other auxiliary detection columns 6 are pulled one by one, finally, the auxiliary detection column 6 and the main detection column 7 are in a straight-line shape, and the upper elastic driving belt 4 and the lower elastic driving belt 9 at the top and the bottom of the auxiliary detection column 6 and the main detection column 7 are deformed by a circle and are also deformed by a straight line shape in the process of expanding the auxiliary detection column 6 and the main detection column 7;

if the operator feels that the operation is not suitable, the upper elastic driving belt 4 and the lower elastic driving belt 9 can be taken off first, and after the auxiliary detection column 6 and the main detection column 7 are unfolded, the outer surfaces of the upper elastic driving belt 4 and the lower elastic driving belt 9 corresponding to the second gear 12 and the third gear 25 are sleeved;

and, the distance between each of the auxiliary detecting columns 6 and the main detecting column 7 is set relatively according to the distance between the road surface straight line sampling points.

As shown in fig. 3 to 4, one side of the auxiliary detection column 6 and one side of the main detection column 7 are fixedly connected with two rotating shaft assemblies 24, an arc rod 22 is clamped between the two rotating shaft assemblies 24 through a rotating shaft, the other side of the main detection column 7 is fixedly connected with two bolt assemblies 23, and the two bolt assemblies 23 can be detached from the tail ends of the arc rod 22 through bolts.

When the detection mechanism 3 is taken out integrally by a worker, the main detection column 7 is taken as a main point, then the worker places the main detection column 7 at the top of a first detection point of a road surface, then plugs the top of a plug pin assembly 23 on one side of the main detection column 7, then pulls an arc rod 22 on one side of the plug pin assembly 23 to drive the auxiliary detection columns 6 to be unfolded in a straight line one by one, finally the other auxiliary detection columns 6 are unfolded in a straight line corresponding to detection points of the road surface in the horizontal direction, finally the auxiliary detection columns 6 and the main detection column 7 form a straight line to detect the detection points of the road surface, and the condition that the worker uses a single main detection column 7 to detect the points of the road surface one by one in a point mode is effectively reduced.

As shown in fig. 5 to 11, the bottom of the main detection column 7 is fixedly connected with a cylindrical suction disc 19, the outer edge of the bottom of the cylindrical suction disc 19 is a truncated cone-shaped rubber pad, the back of the main detection column 7 is fixedly connected with a double-shaft motor 5 through an elliptical slat, the top of the double-shaft motor 5 is in transmission connection with an upper output shaft 502, the bottom of the double-shaft motor 5 is in transmission connection with a lower output shaft 501, the bottom of the lower output shaft 501 is in threaded connection with a threaded rod 10, the tops of the threaded rod 10 and the upper output shaft 502 are fixedly connected with a first gear 8, the outer surface of the first gear 8 at the top of the upper output shaft 502 is in transmission engagement with an upper elastic transmission belt 4, and the outer surface of the first gear 8 at the bottom of the threaded rod 10 is in transmission engagement with a lower elastic transmission belt 9.

When the device is used, a worker holds the main detection column 7 by hand, then starts the double-shaft motor 5 and simultaneously drives the lower output shaft 501 and the upper output shaft 502, in the process of driving the lower output shaft 501, the lower output shaft 501 rotates to drive the bottom first gear 8 of the threaded rod 10 to synchronously drive the lower elastic driving belt 9, so that the rest auxiliary detection columns 6 and the air suction pump 18 on the surface of the main detection column 7 are synchronously driven, and then, due to the fact that the lower output shaft 501 is in threaded connection with the threaded rod 10, in the process of driving the threaded rod 10, the threaded rod 10 is pushed to move downwards by the threads of the lower output shaft 501, meanwhile, the lower elastic driving belt 9 and the third gear 25 are driven to press downwards, and the third gear 25 can drive the auxiliary detection columns 6 and the main detection columns 7 to press downwards so that the auxiliary detection columns 6 and the cylindrical suction disc 19 at the bottom of the main detection columns 7 are pressed downwards.

For the further description, the lower output shaft 501 is driven by the dual-shaft motor 5 to rotate, so that the lower elastic driving belt 9 driven by the first gear 8 at the bottom of the threaded rod member 10 drives the third gear 25 to rotate to generate descending, because the lower elastic driving belt 9 driven by the first gear 8 at the bottom of the lower output shaft 501 can be used as a bottom stress point, the threaded rod member 10 is descended by threads through the rotation of the lower output shaft 501, the worker is held by hand as a bracket point in the descending process, the unstable condition of the descending of the transmission of the dual-shaft motor 5 is reduced,

and does not push down too much during the depression of the cylindrical suction disc 19.

As shown in fig. 4 to 13, the front surface of the main detection column 7 is fixedly connected with an air suction pump 18 through an arc plate, two sides of the bottom of the air suction pump 18 are fixedly connected with an air suction pipe 20, the bottom of the air suction pipe 20 is fixedly connected with a cylindrical suction disc 19, two first air delivery pipes 21 are fixedly connected with two top sides of the air suction pump 18, the top of the two first air delivery pipes 21 is fixedly connected with an air tank 17, the top of the air tank 17 is fixedly connected with a second air delivery pipe 16, the top of the second air delivery pipe 16 is fixedly connected with a measuring cylinder 11, and one side of the air tank 17 is fixedly connected with the main detection column 7 through a slat;

the inner wall of the main detection column 7 is connected with the measuring cylinder 11 in a penetrating way, and the bottom of the measuring cylinder 11 is fixedly connected with a conical sucker 28;

the bottom of the conical sucker 28 is flush with the bottom port of the cylindrical sucker 19, the conical sucker 28 is arranged in the cylindrical sucker 19, a gap is arranged between the outer edge of the conical sucker 28 and the inner wall of the cylindrical sucker 19, and the conical sucker 28 is conical in shape and has a height of two centimeters;

the inside of the cylindrical suction disc 19 and the top of the conical suction disc 28 are provided with an extraction area 27, and the bottom of the conical suction disc 28 is provided with a water accumulation area 26;

the top of the second air pipe 16 penetrates through the inner wall of the measuring cylinder 11 and is fixed to the bottom of the water injection cylinder 15, graduation marks 111 are arranged on the top of the main detection column 7 outside the measuring cylinder 11, and the measuring cylinder 11 is made of transparent materials.

When the device is used, when the bottom cylindrical suction disc 19 of the auxiliary detection column 6 and the main detection column 7 are respectively positioned at the permeation detection points, water is injected into the area where the water accumulation area 26 is reached by the bottom conical suction disc 28 of the conical suction disc 28 by a worker, the water is injected into the water injection cylinder 15 along the measuring cylinder 11, then the double-shaft motor 5 is started to work so that a part of gas is pumped down to the air tank member 17 by the transmission of the bottom lower output shaft 501 in the process of pushing down the cylindrical suction disc 19, the measuring cylinder 11 is driven to be communicated with the bottom conical suction disc 28 to be pushed down by the main detection column 7 in the process of pushing down, the water in the area 26 at the bottom of the conical suction disc 28 is fused with the pavement, the edge of the water accumulation area 26 is simultaneously made to be tightly adhered to the pavement by the water pressure intensity, the bottom of the conical suction disc 28 is made to be tightly adhered to the pavement, at the moment, a closed space is formed inside the measuring cylinder 11, then a part is pumped by the air suction tube 18 through the air suction tube 20 to the inner pumping area 27 of the cylindrical suction disc 19, then the top second air suction tube 16 is respectively transmitted to the inside the air tank member 17, the inner wall of the measuring cylinder 11 is made to be respectively, the inner wall of the air tank member 17 is made to be in the inner wall of the air tank member 11, the inner wall of the air tank member is made to be more than the inner wall of the air tank 11 is directly observed, the water level of the air tank 11 is directly detected, and the water leakage detection efficiency of the device can be more can be directly observed, and the water leakage detection efficiency of the device is increased, and the device can be directly detected by the device is more than the staff is directly can be directly and the detected, and the device is more when the device is directly is a device is used, and is a device.

As shown in fig. 13, a screw plug 29 is screw-coupled to the top inner wall of the water injection cylinder 15.

In use, when filling the inside of the measuring cylinder 11, the screw plug 29 is rotated to screw the top of the water filling cylinder 15, and then precipitation is injected into the inside of the measuring cylinder 11 along the water filling cylinder 15.

As shown in fig. 10 to 12, a screw sleeve 13 is screwed to the top region of the measuring cylinder 11, a telescopic rod 14 is annularly connected to the outer surface of the screw sleeve 13, and a second gear 12 is telescopically connected to the top of the telescopic rod 14.

When the device is used, the upper output shaft 502 is driven by the double-shaft motor 5 to drive the upper elastic driving belt 4 to drive the second gear 12, the second gear 12 can descend through the bottom telescopic rod 14 and the threaded sleeve 13 in threaded connection with the measuring cylinder 11, the water injection cylinder 15 can be driven to descend along the inner wall of the measuring cylinder 11 in the descending process of the second gear 12, the bottom of the water injection cylinder 15 can press down the internal water pressure of the measuring cylinder 11 again, the severity of the seepage surface is further detected, and if the water level of the measuring cylinder 11 descends to the last page and the water inside the measuring cylinder 11 is not available, the pavement detection point is seriously permeated.

For the above further description, in the detection process, the dual-shaft motor 5 is driven to rotate at one side of the lower output shaft 501 and the lower output shaft 501 for two circles to observe the internal page of the measuring cylinder 11, so that the excessive rotation of the dual-shaft motor 5 is effectively prevented, and the internal pressure of the measuring cylinder 11 is excessively high, so that the auxiliary detection column 6 and the main detection column 7 are loosened by the water pressure.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention 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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Road and bridge infiltration detection device, including mobile mechanism (1), its characterized in that: the top of the moving mechanism (1) is provided with a storage shell (2), the whole storage shell (2) is divided into two half forms, the broken part of the storage shell (2) is clamped by a round rod, the outer surface of the broken side of the storage shell (2) is fixedly connected with a wrench, one side of the storage shell (2) with a handle is fixedly connected with the round rod, the bottom of the storage shell (2) with one side of the handle is movably detached from the top of the moving mechanism (1), and a detection mechanism (3) is arranged in the storage shell (2);

the detection mechanism (3) comprises three auxiliary detection columns (6) and a main detection column (7), the auxiliary detection columns (6) and the main detection column (7) are annularly arranged in the initial state, and two thirds of the bottoms of the auxiliary detection columns (6) and the main detection column (7) are annularly movably connected with an arc rod (22);

the inside all movable joint of vice detection post (6) and main detection post (7) has graduated flask spare (11), the top inner wall of graduated flask spare (11) has cup jointed water injection section of thick bamboo (15), the outside fixedly connected with second gear (12) of water injection section of thick bamboo (15), the bottom surface of vice detection post (6) and main detection post (7) is all through draw-in groove pivot connection third gear (25), elastic connection goes up elastic drive belt (4) and lower elastic drive belt (9) respectively in the surface of second gear (12) and third gear (25).

2. The road and bridge water penetration detection apparatus according to claim 1, wherein: one side fixedly connected with two pivot subassemblies (24) of vice detection post (6) and main detection post (7), two through pivot centre gripping arc pole (22) between pivot subassembly (24), the opposite side fixedly connected with two bolt subassemblies (23) of main detection post (7), two the terminal of connecting arc pole (22) is dismantled to the accessible bolt between bolt subassemblies (23).

3. The road and bridge water penetration detection apparatus according to claim 2, wherein: the bottom fixedly connected with cylinder suction disc spare (19) of main detection post (7), the bottom outward flange of cylinder suction disc spare (19) is round platform shape cushion, the back of main detection post (7) is through oval slat fixedly connected with biax motor (5), the top transmission of biax motor (5) is connected with output shaft (502), the bottom transmission of biax motor (5) is connected with output shaft (501) down, the bottom threaded connection screw member (10) of output shaft (501) down, the equal fixedly connected with first gear (8) in top of screw member (10) and last output shaft (502), elastic drive area (4) are gone up in the surface transmission meshing of first gear (8) in top of last output shaft (502), elastic drive area (9) under the surface transmission meshing of first gear (8) in screw member (10) bottom.

4. The road and bridge water penetration detection apparatus according to claim 2, wherein: the front of main detection post (7) is through arc fixedly connected with aspiration pump (18), the bottom both sides fixedly connected with breathing pipe (20) of aspiration pump (18), the bottom fixedly connected with cylinder suction disc spare (19) of breathing pipe (20), the top both sides fixedly connected with two first gas-supply pipes (21) of aspiration pump (18), two the top fixedly connected with gas pitcher spare (17) of first gas-supply pipe (21), the top fixedly connected with second gas-supply pipe (16) of gas pitcher spare (17), the top fixedly connected with graduated flask spare (11) of second gas-supply pipe (16), one side of gas pitcher spare (17) is through slat fixed connection main detection post (7).

5. The road and bridge water penetration detection apparatus according to claim 4, wherein: the inner wall of the main detection column (7) is in through connection with the measuring cylinder (11), and the bottom of the measuring cylinder (11) is fixedly connected with a conical sucker (28).

6. The road and bridge water penetration detection apparatus according to claim 5, wherein: the bottom of toper sucking disc (28) flushes with the bottom port of cylinder sucking disc spare (19), the inside of cylinder sucking disc spare (19) includes toper sucking disc (28), have the clearance between the outer edge of toper sucking disc (28) and the inner wall of cylinder sucking disc spare (19), the shape of toper sucking disc (28) is conical and high two centimeters.

7. The road and bridge water penetration detection apparatus according to claim 6, wherein: the inside of cylinder suction disc piece (19) and the top of toper sucking disc (28) are equipped with extraction district (27), the bottom of toper sucking disc (28) is equipped with ponding district (26).

8. The road and bridge water penetration detection apparatus according to claim 5, wherein: the top of second gas-supply pipe (16) passes the inner wall of graduated flask piece (11) and is fixed in the bottom of annotating water section of thick bamboo (15), the outside of graduated flask piece (11) is located the top of main detection post (7) and is equipped with scale mark (111), graduated flask piece (11) are transparent material.

9. The road and bridge water penetration detection apparatus according to claim 1, wherein: the top inner wall of the water injection cylinder (15) is connected with a threaded plug (29) in a threaded manner.

10. The road and bridge water penetration detection apparatus according to claim 8, wherein: the top area threaded connection of graduated flask spare (11) has screw thread external member (13), the surface annular of screw thread external member (13) is connected with telescopic link (14), the top telescopic connection of telescopic link (14) has second gear (12).