CN109900193B - Bridge detecting system - Google Patents

Abstract

The invention discloses a bridge detection system, which comprises a sliding box, wherein a power mechanism is arranged in the sliding box, the power mechanism comprises a sliding cavity and a motor threaded rod, a sliding guide rail is fixedly arranged in the sliding cavity, a sliding block is slidably arranged on the sliding guide rail, a transmission motor is arranged in the sliding block, a right output shaft of the transmission motor is fixedly connected with the transmission motor rod, the transmission motor in the power mechanism controls the detection box to move left and right, the detection moving block is matched with the detection wheel to detect a bridge floor, when the bridge floor is convex, the detection moving block moves upwards, when the bridge floor is concave, the detection moving block moves downwards, not only can be used for detecting the bulge of the bridge floor, but also can be used for detecting the dent, when in detection, a coating marks the detected problems, when the detection moving block is reset, a.

Description

Bridge detecting system

Technical Field

The invention relates to the technical field of detection, in particular to a bridge detection system.

Background

After long-term use, whether there is the potential safety hazard in the bridge needs to detect, in prior art, when detecting bridge face depth of parallelism, can only detect out the arch of bridge floor, often can't detect out the sunken of bridge floor, lead to some hidden dangers to still exist, and simultaneously, when detecting, need artificially go the mark to the problem that detects out, the quantity of unable statistics problem, lead to the check-out time extension, the problem such as mark leakage produces, consequently need one kind can detect bridge floor arch and sunken simultaneously, and can mark the bridge detecting system of statistics to the problem that detects.

Disclosure of Invention

The present invention is directed to a bridge inspection system for overcoming the above-mentioned disadvantages of the prior art.

According to the embodiment of the invention, the bridge detection system comprises a sliding box, a power mechanism is arranged in the sliding box, the power mechanism comprises a sliding cavity and a motor threaded rod, a sliding guide rail is fixedly arranged in the sliding cavity, a sliding block is slidably arranged on the sliding guide rail, a transmission motor is arranged in the sliding block, an output shaft of the transmission motor towards the right is fixedly connected with a transmission motor rod, a transmission main gear is fixedly arranged on the transmission motor rod, a detection box is arranged on the motor threaded rod, a protrusion mechanism is arranged in the detection box, the protrusion mechanism comprises a detection cavity, a detection moving block is arranged in the detection cavity in a sliding fit manner, a detection transmission cavity is arranged at the left side of the detection cavity, a detection stirring wheel and a detection meshing gear are arranged in the detection transmission cavity, a detection stirring rod is fixedly arranged on the detection stirring wheel, a protrusion driving cavity is, scribble drive rod right side and be equipped with coating main storage chamber, protruding mechanism right side is equipped with counting mechanism, counting mechanism is including count movable plate and count transmission mobile jib, and count transmission mobile jib fixed connection count ratchet cover is equipped with the count ratchet in the count ratchet cover, and fixed mounting count transmission sublance on the count ratchet, fixed mounting display number ratchet on the count transmission sublance, the display number ratchet outside are equipped with the display number wheel, the count mechanism top is equipped with sunken mechanism, sunken mechanism is including detecting vice stopper, detects the sunken drive rod of fixed mounting on the vice stopper, and sunken drive rod below is equipped with sunken worm, and sunken worm meshes has sunken worm wheel, and the sunken drive rod of fixed mounting on the sunken worm wheel, and sunken drive rod right side is equipped with the vice chamber of depositing of coating, and the vice chamber intercommunication of depositing of coating is equipped with the vice export of coating, is equipped with.

Further technical scheme, power unit is including setting up sliding chamber in the slip incasement, fixed mounting sliding guide controls on the sliding chamber left and right sides inner wall fixed mounting sliding guide installs the sliding block in the sliding guide, be equipped with the transmission chamber in the sliding block, transmission chamber left side inner wall internal fixation installs drive motor, the right side terminal surface fixed mounting drive motor pole of the output shaft that drive motor is right, drive motor pole right side terminal surface fixed mounting transmission master gear, slip case left side terminal surface fixed mounting removes fixed mobile jib, the slip case right side is equipped with removes fixed auxiliary rod, remove fixed auxiliary rod with remove fixed mobile jib top terminal surface fixed mounting and remove the gag lever post, remove gag lever post top terminal surface fixed mounting screw thread limiting rod, remove fixed auxiliary rod with remove fixed mobile jib top terminal surface and be located remove gag lever post right side fixed mounting and run through the adjustment threaded rod of screw thread limiting rod The utility model discloses a transmission cavity right side inner wall's motor threaded rod, including the adjusting screw rod, adjusting screw rod top terminal surface fixed mounting dwang, remove on the gag lever post sliding fit installation with adjusting screw rod screw-thread fit's adjusting lever, left adjusting lever extend right with sliding block left side terminal surface fixed connection, the interior running fit installation of adjusting lever right side terminal surface on right side runs through the motor threaded rod of transmission cavity right side inner wall, motor threaded rod left side terminal surface fixed mounting transmission pinion, the transmission pinion with transmission master gear meshing, sliding block and right side symmetry fixed mounting movable baffle around between the adjusting lever, remove fixed mobile jib with the running fit installation movable pulley on the fixed auxiliary rod of removal.

According to a further technical scheme, the protrusion mechanism comprises a detection box which is installed on the motor threaded rod in a threaded fit manner, a detection cavity is arranged in the detection box, a detection moving block is installed in the detection cavity in a sliding fit manner, detection wheel fixing plates are symmetrically and fixedly installed at the front and the rear of the bottom end face of the detection moving block, a detection wheel is installed between the front and the rear detection wheel fixing plates in a rotating fit manner, a detection main limiting block is fixedly installed at the left end face of the detection moving block, a detection transmission cavity is communicated with the left side of the detection cavity, a detection main rod is installed between the front inner wall and the rear inner wall of the detection transmission cavity in a rotating fit manner, a detection meshing gear meshed with the detection moving block is fixedly installed on the detection main rod, a detection ratchet gear device is fixedly installed at the front side of the detection meshing gear, a, a detection driving wheel is fixedly installed on the detection auxiliary rod, a detection belt is installed between the detection driving wheel and the detection driving ratchet device in a transmission matching mode, a detection poking wheel is fixedly installed on the rear side of the detection driving wheel on the detection auxiliary rod, a detection poking rod is fixedly installed on the detection poking wheel, a protrusion driving cavity is communicated with the left side of the detection driving cavity and is internally provided with a coating driving rod in a sliding matching mode, a protrusion driving spring is fixedly installed between the bottom end face of the coating driving rod and the bottom wall of the protrusion driving cavity, a protrusion poking block extending into the detection driving cavity is fixedly installed on the right end face of the coating driving rod, a coating main storage cavity is arranged on the right side of the coating driving rod, a coating main outlet penetrating through the bottom end face of the detection box is communicated with the left side of the coating main storage cavity, and a coating sliding plate is fixedly installed on, coating main memory chamber left side inner wall intercommunication is equipped with and runs through the main import of coating of detection case left side terminal surface, coating main export left side is equipped with the edulcoration chamber, edulcoration intracavity sliding fit installation edulcoration pole, about the edulcoration pole side end fixed mounting with edulcoration chamber sliding fit's edulcoration stopper, edulcoration pole top end with fixed mounting edulcoration spring between the edulcoration chamber roof, edulcoration pole left side end fixed mounting removes miscellaneous piece.

In a further technical scheme, the sinking mechanism comprises a sinking moving cavity communicated and arranged on the right side of the detection cavity, a detection auxiliary limiting block in sliding fit with the sinking moving cavity is fixedly arranged on the right end face of the detection moving block, a detection limiting spring is fixedly arranged between the bottom end face of the detection auxiliary limiting block and the bottom wall of the detection cavity and between the bottom end face of the detection main limiting block and the bottom wall of the detection cavity, a sinking driving rod is fixedly arranged on the front end face of the detection auxiliary limiting block, a sinking moving block is arranged in the sinking moving cavity in sliding fit, a sinking moving groove is arranged in the sinking moving block and is in sliding fit with the sinking driving rod, a paint auxiliary storage cavity is communicated and arranged on the right side of the sinking moving cavity, a paint push rod extending into the paint auxiliary storage cavity is fixedly arranged on the right end face of the sinking moving block, and a paint auxiliary inlet penetrating through the right end, the inner wall of the right side of the paint auxiliary storage cavity is provided with a paint auxiliary outlet which penetrates through the end surface of the right side of the detection box, a coating baffle is hinged and matched on the top wall of the coating auxiliary outlet, a coating baffle spring is fixedly arranged between the end surface of the right side of the coating baffle and the top wall of the coating auxiliary outlet, a concave transmission cavity is communicated and arranged below the concave moving cavity, a concave worm is arranged between the inner walls of the front side and the rear side of the concave transmission cavity in a rotating fit manner, a concave meshing gear meshed with the end face of the bottom of the concave moving block is fixedly arranged on the concave worm, a concave auxiliary cavity is arranged at the right side of the concave transmission cavity, a concave transmission rod is arranged between the concave auxiliary cavity and the concave transmission cavity in a rotating fit manner, the end face of the left side of the sunken transmission rod is fixedly provided with a sunken worm wheel, the sunken worm wheel is meshed with the sunken worm, and the end face of the right side of the sunken transmission rod is fixedly provided with a sunken transmission gear.

According to a further technical scheme, the counting mechanism comprises a counting main cavity arranged on the end face of the right side of the detection moving block, a counting auxiliary cavity is communicated with the right side of the counting main cavity, a counting moving plate is installed in the counting main cavity and the counting auxiliary cavity in a sliding fit manner, a counting spring is fixedly installed between the top end face of the counting moving plate and the top wall of the counting auxiliary cavity, a counting connecting cavity is communicated with the lower portion of the counting auxiliary cavity, a counting ratchet cavity is arranged on the right side of the counting connecting cavity, a counting transmission main rod is installed between the counting ratchet cavity and the counting connecting cavity in a rotating fit manner, a counting torsion spring is fixedly installed on the left end face of the counting transmission main rod, a counting pull wire is fixedly installed between the top end face of the counting torsion spring and the bottom end face of the counting moving plate, a counting ratchet sleeve is fixedly installed on the right end face of the counting transmission main, the counting transmission auxiliary rod which runs through the sunken auxiliary cavity is installed between the counting cavity and the counting ratchet cavity in a rotating fit manner, the counting transmission auxiliary rod is fixedly installed with a counting ratchet wheel on the left end face, the counting ratchet wheel is installed with the counting ratchet wheel sleeve in a pawl fit manner, a counting wheel marked with numbers is carved on the outer side of the rotating fit installation in the counting cavity, a limiting plate of the counting wheel is arranged in the counting wheel, the counting transmission auxiliary rod is fixedly installed with the counting ratchet wheel on the right end face, the counting torsion spring is fixedly installed on the right end face of the counting ratchet wheel, a counting clamping block is installed on the counting torsion spring in a rotating fit manner, the counting clamping block can be clamped with the limiting plate of the counting wheel, the counting wheel is fixedly installed with a counting reset wheel which runs through the right end face of the detection box, and the counting transmission auxiliary rod is located in the sunken auxiliary cavity and is fixedly installed with the counting transmission ratchet device, and a concave transmission belt is arranged between the counting transmission ratchet device and the concave transmission gear in a transmission matching manner.

The invention has the beneficial effects that: the detection device is simple in structure and convenient to operate, the transmission motor in the power mechanism controls the detection box to move left and right, the detection moving block is matched with the detection wheel to detect the bridge floor, when the bridge floor is convex, the detection moving block moves upwards, the paint in the paint main storage cavity falls from the paint main outlet, when the bridge floor is concave, the detection moving block moves downwards, the paint in the paint auxiliary storage cavity falls from the paint auxiliary outlet, the bulge of the bridge floor can be detected, the depression can be detected, when the detection is performed, the detected problems are marked by the paint, when the detection moving block is reset, the counting mechanism is not influenced, the counting mechanism can count the number of the detected problems, and the detection device is worthy.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is an enlarged schematic view at B in FIG. 2;

FIG. 4 is an enlarged schematic view at C of FIG. 2;

fig. 5 is a schematic sectional view in the direction D-D in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-5, a bridge detection system according to an embodiment of the present invention includes a sliding box 16, a power mechanism is disposed in the sliding box 16, the power mechanism includes a sliding cavity 19 and a motor threaded rod 22, a sliding guide 17 is fixedly disposed in the sliding cavity 19, a sliding block 18 is slidably disposed on the sliding guide 17, a transmission motor 27 is disposed in the sliding block 18, a right output shaft of the transmission motor 27 is fixedly connected to a transmission motor rod 26, a transmission master gear 23 is fixedly disposed on the transmission motor rod 26, a detection box 57 is disposed on the motor threaded rod 22, a protrusion mechanism is disposed in the detection box 57, the protrusion mechanism includes a detection cavity 53, a detection moving block 48 is slidably disposed in the detection cavity 53, a detection transmission cavity 43 is disposed at the left side of the detection cavity 53, a detection dial wheel 45 and a detection engagement gear 49 are disposed in the detection transmission cavity 43, a detection dial wheel 44 is fixedly, detect transmission chamber 43 left side and be equipped with protruding drive chamber 40, protruding drive intracavity 40 sliding fit installation scribble drive rod 33, scribble drive rod 33 right side and be equipped with coating main storage chamber 31, protruding mechanism right side is equipped with counting mechanism, counting mechanism includes count movable plate 58 and count transmission mobile jib 62, and count transmission mobile jib 62 fixed connection count ratchet cover 63 is equipped with count ratchet 65 in the count ratchet cover 63, fixed mounting count transmission auxiliary rod 66 on the count ratchet 65, fixed mounting count ratchet 93 on the count transmission auxiliary rod 66, and the count ratchet 93 outside is equipped with count wheel 91, the counting mechanism top is equipped with sunken mechanism, sunken mechanism includes detection auxiliary limit block 73, detects sunken drive rod 88 of fixed mounting on auxiliary limit block 73, and sunken drive rod 88 below is equipped with sunken worm 75, and the sunken worm wheel 77 of worm meshing has sunken worm wheel, the sunken drive rod 78 of fixed mounting on sunken worm wheel 77, the right side of the sunken driving rod 88 is provided with a coating auxiliary storage cavity 86, the coating auxiliary storage cavity 86 is communicated with a coating auxiliary outlet 82, and a coating baffle 84 is arranged in the coating auxiliary outlet 82.

Beneficially or exemplarily, the power mechanism includes a sliding cavity 19 disposed in the sliding box 16, a sliding guide rail 17 is fixedly mounted on inner walls of left and right sides of the sliding cavity 19, a sliding block 18 is slidably and cooperatively mounted on the sliding guide rail 17, a transmission cavity 25 is disposed in the sliding block 18, a transmission motor 27 is fixedly mounted in an inner wall of left side of the transmission cavity 25, a transmission motor rod 26 is fixedly mounted on a right side end surface of a right output shaft of the transmission motor 27, a transmission main gear 23 is fixedly mounted on a right side end surface of the transmission motor rod 26, a movable fixed main rod 15 is fixedly mounted on a left side end surface of the sliding box 16, a movable fixed auxiliary rod 97 is disposed on a right side of the sliding box 16, the movable fixed auxiliary rod 97 and the movable fixed main rod 15 are fixedly mounted on a top end surface of the movable limiting rod 12, and a thread limiting rod 29 is fixedly mounted on a top, remove fixed mobile jib 97 with remove fixed mobile jib 15 top end face and be located remove 12 right side fixed mounting and run through threaded restriction rod 29's adjusting threaded rod 11, adjusting threaded rod 11 top end face fixed mounting dwang 28, remove on the gag lever post 12 sliding fit installation with adjusting threaded rod 11 screw-thread fit's adjusting lever 13, left adjusting lever 13 extend right with sliding block 18 left side end face fixed connection, adjusting lever 13 right side end face normal running fit installation on right side runs through the motor threaded rod 22 of transmission chamber 25 right side inner wall, motor threaded rod 22 left side end face fixed mounting transmission pinion 24, transmission pinion 24 with transmission master gear 23 meshes, sliding block 18 and right side symmetry fixed mounting removes baffle 21 around between the adjusting lever 13, remove fixed mobile jib 15 with remove fixed mobile jib 97 on the cooperation installation and remove wheel 14, thereby, the rotating rod 28 is twisted to drive the adjusting threaded rod 11 to rotate, so that the adjusting rod 13 drives the sliding block 18 to slide up and down on the sliding guide rail 17, the height of the motor threaded rod 22 can be adjusted, the moving wheel 14 drives the device to move left and right, the transmission motor 27 is started to drive the transmission motor rod 26 to rotate, the transmission motor rod 26 rotates to drive the transmission main gear 23 to rotate, and the transmission main gear 23 drives the motor threaded rod 22 to rotate by meshing with the transmission pinion 24.

Beneficially or exemplarily, the protrusion mechanism includes a detection box 57 installed on the motor threaded rod 22 in a threaded fit manner, a detection cavity 53 is arranged in the detection box 57, a detection moving block 48 is installed in the detection cavity 53 in a sliding fit manner, detection wheel fixing plates 46 are symmetrically and fixedly installed on the front and back of the bottom end surface of the detection moving block 48, a detection wheel 47 is installed between the front and back detection wheel fixing plates 46 in a rotating fit manner, a detection main limit block 52 is fixedly installed on the left end surface of the detection moving block 48, a detection transmission cavity 43 is communicated with the left side of the detection cavity 53, a detection main rod 51 is installed between the front and back inner walls of the detection transmission cavity 43 in a rotating fit manner, a detection engaging gear 49 engaged with the detection moving block 48 is fixedly installed on the detection main rod 51, and a detection transmission ratchet device 50 is fixedly installed on the, the detection transmission cavity 43 is located between the front inner wall and the rear inner wall of the detection transmission cavity 43, the detection main rod 51 is installed on the left side in a rotating fit manner to form a detection auxiliary rod 55, the detection auxiliary rod 55 is fixedly installed with a detection transmission wheel 56, the detection transmission wheel 56 is installed with a detection belt 54 in a rotating fit manner between the detection transmission wheel 56 and the detection transmission ratchet device 50, the detection auxiliary rod 55 is located on the rear side of the detection transmission wheel 56 and is fixedly installed with a detection toggle wheel 45, the detection toggle wheel 45 is fixedly installed with a detection toggle rod 44, the detection transmission cavity 43 is communicated with the left side to form a protruding driving cavity 40, the coating driving rod 33 is installed in the protruding driving cavity 40 in a sliding fit manner to form a coating driving spring 41, the coating driving rod 33 is fixedly installed between the bottom end face and the bottom wall of the protruding driving cavity 40, the coating driving rod 33 is fixedly installed on the end face of the right, a main coating outlet 34 penetrating through the bottom end face of the detection box 57 is communicated with the left side of the main coating cavity 31, a coating sliding plate 32 is fixedly installed on the top end face of the coating driving rod 33, a main coating inlet 30 penetrating through the left end face of the detection box 57 is communicated with the inner wall of the left side of the main coating cavity 31, an impurity removing cavity 36 is arranged on the left side of the main coating outlet 34, an impurity removing rod 38 is installed in the impurity removing cavity 36 in a sliding fit manner, an impurity removing limiting block 37 in sliding fit with the impurity removing cavity 36 is fixedly installed on the left side end face of the impurity removing rod 38, an impurity removing spring 35 is fixedly installed between the top end face of the impurity removing rod 38 and the top wall of the impurity removing cavity 36, an impurity removing block 39 is fixedly installed on the left side end face of the impurity removing rod 38, so that the motor threaded rod 22 rotates to drive, the detection meshing gear 49 is driven to rotate, the detection meshing gear 49 rotates to drive the detection transmission ratchet device 50 to rotate, the detection transmission ratchet device 50 rotates to drive the detection main rod 51 to rotate, the detection main rod 51 drives the detection transmission wheel 56 and the detection auxiliary rod 55 to rotate through the detection belt 54, the detection auxiliary rod 55 rotates to drive the detection poking wheel 45 to rotate, the detection poking rod 44 drives the protrusion poking block 42 to move up and down, the coating sliding plate 32 moves downwards, the coating falls out from the coating main outlet 34 through the coating sliding plate 32 from the coating main storage cavity 31 to be marked, and the impurity removing block 39 cleans impurities on the bridge floor to ensure that the detection result is not influenced.

Beneficially or exemplarily, the concave mechanism comprises a concave moving cavity 87 which is communicated with and arranged at the right side of the detection cavity 53, a detection auxiliary limit block 73 which is in sliding fit with the concave moving cavity 87 is fixedly arranged on the end surface at the right side of the detection moving block 48, a detection limit spring 98 is fixedly arranged between the end surface at the bottom of the detection auxiliary limit block 73 and the detection main limit block 52 and the bottom wall of the detection cavity 53, a concave driving rod 88 is fixedly arranged on the end surface at the front side of the detection auxiliary limit block 73, a concave moving block 90 is arranged in the concave moving cavity 87 in sliding fit, a concave moving groove 89 is arranged in the concave moving block 90, the concave moving groove 89 is arranged in sliding fit with the concave driving rod 88, a paint auxiliary storage cavity 86 is communicated with and arranged at the right side of the concave moving cavity 87, and a paint pushing rod 96 which extends into the paint auxiliary storage cavity 86 is fixedly, a paint auxiliary inlet 85 penetrating through the right end face of the detection box 57 is arranged on the top wall of the paint auxiliary storage cavity 86, a paint auxiliary outlet 82 penetrating through the right end face of the detection box 57 is arranged on the inner wall of the right side of the paint auxiliary storage cavity 86, a paint baffle 84 is hinged and matched and installed on the top wall of the paint auxiliary outlet 82, a paint baffle spring 83 is fixedly installed between the right end face of the paint baffle 84 and the top wall of the paint auxiliary outlet 82, a concave transmission cavity 76 is communicated below the concave moving cavity 87, a concave worm 75 is installed between the inner walls of the front side and the rear side of the concave transmission cavity 76 in a rotating and matching manner, a concave meshing gear 74 meshed with the bottom end face of the concave moving block 90 is fixedly installed on the concave worm 75, a concave auxiliary cavity 81 is arranged on the right side of the concave transmission cavity 76, and a concave transmission rod 78 is installed between the concave, a sunken worm wheel 77 is fixedly arranged on the left end face of the sunken transmission rod 78, the sunken worm wheel 77 is meshed with the sunken worm gear 75, and a sunken transmission gear 80 is fixedly arranged on the right end face of the sunken transmission rod 78, so that when a bridge deck is sunken, the detection moving block 48 moves downwards to drive the detection auxiliary limiting block 73 to move downwards, the sunken driving rod 88 drives the sunken moving block 90 to move rightwards, the coating pushing rod 96 moves rightwards to push the coating in the coating auxiliary storage cavity 86 to move rightwards, the coating baffle 84 moves rightwards upwards, the coating falls from the coating auxiliary outlet 82, the sunken moving block 90 moves rightwards to drive the sunken meshing gear 74 to rotate, the sunken meshing gear 74 rotates to drive the sunken worm gear 75 to rotate, the sunken worm gear 75 rotates to drive the sunken worm wheel 77 to rotate, and the sunken worm.

Beneficially or exemplarily, the counting mechanism includes a counting main cavity 72 disposed on a right end surface of the detecting moving block 48, a counting auxiliary cavity 70 is disposed in communication with a right side of the counting main cavity 72, a counting moving plate 58 is slidably fitted and mounted in the counting main cavity 72 and the counting auxiliary cavity 70, a counting spring 71 is fixedly mounted between a top end surface of the counting moving plate 58 and a top wall of the counting auxiliary cavity 70, a counting connection cavity 59 is disposed in communication with a lower portion of the counting auxiliary cavity 70, a counting ratchet cavity 64 is disposed on a right side of the counting connection cavity 59, a counting transmission main rod 62 is rotatably fitted and mounted between the counting ratchet cavity 64 and the counting connection cavity 59, a counting torsion spring 61 is fixedly mounted on a left end surface of the counting transmission main rod 62, a counting pull wire 60 is fixedly mounted between a top end surface of the counting torsion spring 61 and a bottom end surface of the counting moving plate 58, a counting ratchet sleeve 63 is fixedly mounted on an end, the sunken auxiliary cavity 81 right side is equipped with the count chamber 68, the count chamber 68 with the count ratchet chamber 64 between the normal running fit installation run through the sunken auxiliary cavity 81 count transmission auxiliary rod 66, count transmission auxiliary rod 66 left side terminal surface fixed mounting count ratchet 65, count ratchet 65 with count ratchet cover 63 passes through pawl cooperation installation, be carved with the digital display wheel 91 of mark digit in the normal running fit installation outside in the count chamber 68, be equipped with digital display wheel limiting plate 92 in the digital display wheel 91, count transmission auxiliary rod 66 right side terminal surface fixed mounting display ratchet 93, digital display ratchet 93 right side terminal surface fixed mounting display torsional spring 95, the digital display spring 95 goes up the normal running fit installation display fixture block 94, digital display fixture block 94 can block with digital display wheel limiting plate 92, digital display wheel 91 right side terminal surface fixed mounting runs through the count reset wheel 69 of detection case 57 right side terminal surface, the counting transmission ratchet device 67 is fixedly installed in the depressed auxiliary cavity 81 on the counting transmission auxiliary rod 66, the depressed transmission belt 79 is installed between the counting transmission ratchet device 67 and the depressed transmission gear 80 in a transmission fit manner, so that when the detection moving block 48 moves upwards, the counting moving plate 58 is pushed to move upwards, the counting pull wire 60 pulls the counting torsion spring 61 to rotate, the counting torsion spring 61 rotates to drive the counting transmission main rod 62 to rotate, the counting transmission main rod 62 rotates to drive the counting ratchet 65 to rotate, the counting ratchet 65 rotates to drive the counting transmission auxiliary rod 66 to rotate, the counting transmission auxiliary rod 66 rotates to drive the display ratchet 93 to rotate, the display ratchet 93 drives the display wheel 91 to rotate and count through the display fixture block 94, the counting transmission ratchet device 67 does not rotate, when resetting is performed, the counting ratchet sleeve 63 does not drive the counting ratchet 65 to rotate, and when the detection moving block 48 moves downwards, the concave transmission gear 80 drives the counting transmission ratchet gear 67 to rotate through the concave transmission belt 79, so that the display wheel 91 rotates for counting, and the counting reset wheel 69 rotates to reset the display wheel 91.

When the device is used, the rotating rod 28 is twisted to drive the adjusting threaded rod 11 to rotate, so that the adjusting rod 13 drives the sliding block 18 to slide up and down on the sliding guide rail 17, the height of the motor threaded rod 22 can be adjusted, the moving wheel 14 drives the device to move left and right, the transmission motor 27 is started to drive the transmission motor rod 26 to rotate, the transmission motor rod 26 rotates to drive the transmission main gear 23 to rotate, the transmission main gear 23 drives the motor threaded rod 22 to rotate by meshing with the transmission auxiliary gear 24, the motor threaded rod 22 rotates to drive the detection box 57 to move left and right, the detection wheel 47 moves on the bridge floor, when encountering a bulge, the detection moving block 48 moves upwards to drive the detection meshing gear 49 to rotate, the detection meshing gear 49 rotates to drive the detection transmission ratchet device 50 to rotate, the detection ratchet device 50 rotates to drive the detection main rod 51 to rotate, and the detection main rod 51 drives the, the detection auxiliary rod 55 rotates to drive the detection toggle wheel 45 to rotate, so that the detection toggle rod 44 drives the protrusion toggle block 42 to move up and down, the coating sliding plate 32 moves down, the coating falls out from the coating main storage cavity 31 through the coating sliding plate 32 from the coating main outlet 34 to be marked, the impurity removing block 39 cleans impurities on the bridge floor to ensure that the detection result is not influenced, when the detection moving block 48 moves up, the counting moving plate 58 is pushed to move up, the counting torsion spring 61 is pulled to rotate through the counting pull wire 60, the counting torsion spring 61 rotates to drive the counting transmission main rod 62 to rotate, the counting transmission main rod 62 rotates to drive the counting ratchet wheel 65 to rotate, the counting ratchet wheel 65 rotates to drive the counting transmission auxiliary rod 66 to rotate, the counting transmission auxiliary rod 66 rotates to drive the display ratchet wheel 93 to rotate, the display ratchet wheel 93 drives the display wheel 91 to rotate for counting through the display fixture block 94, and the, when resetting, the counting ratchet sleeve 63 does not drive the counting ratchet 65 to rotate, when the bridge deck is sunken, the detection moving block 48 moves downwards to drive the detection auxiliary limiting block 73 to move downwards, the depression driving rod 88 drives the depression moving block 90 to move rightwards, the coating pushing rod 96 moves rightwards to push the coating in the coating auxiliary storage cavity 86 to move rightwards, so that the coating baffle 84 moves rightwards and upwards, the coating falls down from the coating auxiliary outlet 82, the depression moving block 90 moves rightwards to drive the depression meshing gear 74 to rotate, the depression meshing gear 74 rotates to drive the depression worm 75 to rotate, the depression worm 75 rotates to drive the depression worm gear 77 to rotate, the depression worm gear 77 rotates to drive the depression driving rod 78 and the depression driving gear 80 to rotate, the depression driving gear 80 drives the counting ratchet gear 67 to rotate through the depression driving belt 79, so that the display wheel 91 rotates, the display wheel 91 can be reset.

The invention has the beneficial effects that: the detection device is simple in structure and convenient to operate, the transmission motor in the power mechanism controls the detection box to move left and right, the detection moving block is matched with the detection wheel to detect the bridge floor, when the bridge floor is convex, the detection moving block moves upwards, the paint in the paint main storage cavity falls from the paint main outlet, when the bridge floor is concave, the detection moving block moves downwards, the paint in the paint auxiliary storage cavity falls from the paint auxiliary outlet, the bulge of the bridge floor can be detected, the depression can be detected, when the detection is performed, the detected problems are marked by the paint, when the detection moving block is reset, the counting mechanism is not influenced, the counting mechanism can count the number of the detected problems, and the detection device is worthy.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (1)

1. The utility model provides a bridge detecting system, includes the slip case, its characterized in that: a power mechanism is arranged in the sliding box, the power mechanism comprises a sliding cavity and a motor threaded rod, a sliding guide rail is fixedly arranged in the sliding cavity, a sliding block is slidably arranged on the sliding guide rail, a transmission motor is arranged in the sliding block, an output shaft of the transmission motor towards the right is fixedly connected with a transmission motor rod, a transmission main gear is fixedly arranged on the transmission motor rod, a detection box is arranged on the motor threaded rod, a protrusion mechanism is arranged in the detection box, the protrusion mechanism comprises a detection cavity, a detection moving block is arranged in the detection cavity in a sliding fit manner, a detection transmission cavity is arranged at the left side of the detection cavity, a detection poking wheel and a detection meshing gear are arranged in the detection transmission cavity, a detection poking rod is fixedly arranged on the detection poking wheel, a protrusion driving cavity is arranged at the left side of the detection transmission cavity, a coating driving, the counting mechanism comprises a counting moving plate and a counting transmission main rod, the counting transmission main rod is fixedly connected with a counting ratchet sleeve, a counting ratchet is arranged in the counting ratchet sleeve, a counting transmission auxiliary rod is fixedly mounted on the counting ratchet, a display ratchet is fixedly mounted on the counting transmission auxiliary rod, a display wheel is arranged on the outer side of the display ratchet, a sinking mechanism is arranged above the counting mechanism and comprises a detection auxiliary limiting block, a sinking driving rod is fixedly mounted on the detection auxiliary limiting block, a sinking worm is arranged below the sinking driving rod and meshed with a sinking worm wheel, a sinking driving rod is fixedly mounted on the sinking worm wheel, a coating auxiliary storage cavity is arranged on the right side of the sinking driving rod, the coating auxiliary storage cavity is communicated with a coating auxiliary outlet, and a coating baffle is arranged in the coating auxiliary outlet;

the power mechanism comprises a sliding cavity arranged in the sliding box, sliding guide rails are fixedly installed on the inner walls of the left side and the right side of the sliding cavity, sliding matching installation sliding blocks are arranged on the sliding guide rails on the left side and the right side, a transmission cavity is arranged in the sliding blocks, a transmission motor is fixedly installed in the inner wall of the left side of the transmission cavity, a transmission motor rod is fixedly installed at the right side end face of an output shaft of the transmission motor on the right side, a transmission main gear is fixedly installed at the right side end face of the transmission motor rod, a movable fixed main rod is fixedly installed at the left side end face of the sliding box, a movable fixed auxiliary rod is arranged at the right side of the sliding box, a movable limiting rod is fixedly installed at the top end face of the movable fixed main rod and a movable limiting rod, a thread limiting rod is fixedly installed at the top end face of the movable limiting rod, the movable fixed auxiliary rod and, a rotating rod is fixedly installed on the end face of the top of the adjusting threaded rod, an adjusting rod in threaded fit with the adjusting threaded rod is installed on the movable limiting rod in a sliding fit mode, the adjusting rod on the left side extends rightwards and is fixedly connected with the end face of the left side of the sliding block, a motor threaded rod penetrating through the inner wall of the right side of the transmission cavity is installed in the end face of the right side of the adjusting rod on the right side in a rotating fit mode, a transmission pinion is fixedly installed on the end face of the left side of the motor threaded rod and is meshed with the transmission main gear, movable baffles are fixedly installed between the sliding block and the adjusting rod on the right side in a front-back symmetrical mode;

the protrusion mechanism comprises a detection box which is installed on the threaded rod of the motor in a threaded fit manner, a detection cavity is arranged in the detection box, a detection moving block is installed in the detection cavity in a sliding fit manner, detection wheel fixing plates are symmetrically and fixedly installed at the front and the back of the bottom end face of the detection moving block, a detection wheel is installed between the front and the back detection wheel fixing plates in a rotating fit manner, a detection main limiting block is fixedly installed at the left end face of the detection moving block, a detection transmission cavity is communicated with the left side of the detection transmission cavity, a detection main rod is installed between the front and the back inner walls of the detection transmission cavity in a rotating fit manner, a detection meshing gear meshed with the detection moving block is fixedly installed on the detection main rod, a detection transmission ratchet device is fixedly installed at the front side of the detection meshing gear, a, a detection driving wheel is fixedly installed on the detection auxiliary rod, a detection belt is installed between the detection driving wheel and the detection driving ratchet device in a transmission matching mode, a detection poking wheel is fixedly installed on the rear side of the detection driving wheel on the detection auxiliary rod, a detection poking rod is fixedly installed on the detection poking wheel, a protrusion driving cavity is communicated with the left side of the detection driving cavity and is internally provided with a coating driving rod in a sliding matching mode, a protrusion driving spring is fixedly installed between the bottom end face of the coating driving rod and the bottom wall of the protrusion driving cavity, a protrusion poking block extending into the detection driving cavity is fixedly installed on the right end face of the coating driving rod, a coating main storage cavity is arranged on the right side of the coating driving rod, a coating main outlet penetrating through the bottom end face of the detection box is communicated with the left side of the coating main storage cavity, and a coating sliding plate is fixedly installed on, the inner wall of the left side of the coating main storage cavity is communicated with a coating main inlet penetrating through the left side end face of the detection box, the left side of the coating main outlet is provided with an impurity removal cavity, an impurity removal rod is installed in the impurity removal cavity in a sliding fit mode, impurity removal limiting blocks in sliding fit with the impurity removal cavity are fixedly installed on the left side end face and the right side end face of the impurity removal rod, an impurity removal spring is fixedly installed between the top end face of the impurity removal rod and the top wall of the impurity removal cavity, and an impurity removal block is fixedly installed on;

the sunken mechanism comprises a sunken moving cavity communicated with the right side of the detection cavity, a detection auxiliary limiting block in sliding fit with the sunken moving cavity is fixedly arranged on the right end face of the detection moving block, a detection limiting spring is fixedly arranged between the bottom end face of the detection auxiliary limiting block and the bottom wall of the detection cavity, a sunken driving rod is fixedly arranged on the front end face of the detection auxiliary limiting block, a sunken moving block is arranged in the sunken moving cavity in sliding fit, a sunken moving groove is arranged in the sunken moving block and is in sliding fit with the sunken driving rod, a paint auxiliary storage cavity is communicated with the right side of the sunken moving cavity, a paint pushing rod extending into the paint auxiliary storage cavity is fixedly arranged on the right end face of the sunken moving block, and a paint auxiliary inlet penetrating through the right end face of the detection box is arranged on the top wall of the paint auxiliary storage cavity, the inner wall of the right side of the paint auxiliary storage cavity is provided with a paint auxiliary outlet which penetrates through the end surface of the right side of the detection box, a coating baffle is hinged and matched on the top wall of the coating auxiliary outlet, a coating baffle spring is fixedly arranged between the end surface of the right side of the coating baffle and the top wall of the coating auxiliary outlet, a concave transmission cavity is communicated and arranged below the concave moving cavity, a concave worm is arranged between the inner walls of the front side and the rear side of the concave transmission cavity in a rotating fit manner, a concave meshing gear meshed with the end face of the bottom of the concave moving block is fixedly arranged on the concave worm, a concave auxiliary cavity is arranged at the right side of the concave transmission cavity, a concave transmission rod is arranged between the concave auxiliary cavity and the concave transmission cavity in a rotating fit manner, a concave worm wheel is fixedly mounted on the left end face of the concave transmission rod and meshed with the concave worm, and a concave transmission gear is fixedly mounted on the right end face of the concave transmission rod;

the counting mechanism comprises a counting main cavity arranged on the end face of the right side of the detection moving block, a counting auxiliary cavity is communicated and arranged on the right side of the counting main cavity, a counting moving plate is installed in the counting main cavity and the counting auxiliary cavity in a sliding fit manner, a counting spring is fixedly installed between the top end face of the counting moving plate and the top wall of the counting auxiliary cavity, a counting connecting cavity is communicated and arranged below the counting auxiliary cavity, a counting ratchet cavity is arranged on the right side of the counting connecting cavity, a counting transmission main rod is installed between the counting ratchet cavity and the counting connecting cavity in a rotating fit manner, a counting torsion spring is fixedly installed on the left end face of the counting transmission main rod, a counting pull wire is fixedly installed between the top end face of the counting torsion spring and the bottom end face of the counting moving plate, a counting ratchet sleeve is fixedly installed on the right end face of the counting transmission main rod, the counting transmission auxiliary rod which runs through the sunken auxiliary cavity is installed between the counting cavity and the counting ratchet cavity in a rotating fit manner, the counting transmission auxiliary rod is fixedly installed with a counting ratchet wheel on the left end face, the counting ratchet wheel is installed with the counting ratchet wheel sleeve in a pawl fit manner, a counting wheel marked with numbers is carved on the outer side of the rotating fit installation in the counting cavity, a limiting plate of the counting wheel is arranged in the counting wheel, the counting transmission auxiliary rod is fixedly installed with the counting ratchet wheel on the right end face, the counting torsion spring is fixedly installed on the right end face of the counting ratchet wheel, a counting clamping block is installed on the counting torsion spring in a rotating fit manner, the counting clamping block can be clamped with the limiting plate of the counting wheel, the counting wheel is fixedly installed with a counting reset wheel which runs through the right end face of the detection box, and the counting transmission auxiliary rod is located in the sunken auxiliary cavity and is fixedly installed with the counting transmission ratchet device, and a concave transmission belt is arranged between the counting transmission ratchet device and the concave transmission gear in a transmission matching manner.

Images