CN116840054A - Portable cement pole intelligent detection device - Google Patents

Abstract

The invention discloses a mobile intelligent cement pole detection device, which comprises a vehicle and a detection module, wherein the vehicle comprises a trailer part and a traction part for driving the trailer part, a plurality of supporting legs are arranged around the trailer part, the detection module is arranged on the upper side of the trailer part and comprises a bottom plate, one end of the bottom plate, which is close to the traction part, is fixedly connected with a first supporting block, one side, which is far away from the traction part, of the first supporting block is provided with a second supporting block, the second supporting block is fixedly connected with the bottom plate, the detection module further comprises a plurality of displacement sensors which are arranged along the length direction of the cement pole, and the bottom plate is provided with a loading device for applying force perpendicular to the axis of the cement pole to the end part of the cement pole. The invention provides a movable intelligent cement pole detection device which can detect cement poles on site and has high cement pole replacement efficiency.

Description

Portable cement pole intelligent detection device

Technical Field

The invention relates to the technical field of detection devices, in particular to a movable intelligent cement pole detection device.

Background

The cement pole mainly consists of steel bars and concrete, so the cement pole is also called reinforced concrete cement pole, is mainly used as a wire-erecting support in the industries of electric power, communication, railway, petroleum and the like, is one of the most basic and indispensable network-entering materials in the construction of a distribution network, and any quality defect of the cement pole can cause serious threat to the safe operation of a power grid! However, the generation technology threshold of the materials is low, the manufacturers are numerous, the supply channels are complex, and the supply mode is usually that the suppliers directly send the materials to a construction site to install the materials into the network.

In order to strictly control the quality of net-entering materials and prevent unqualified products from entering the net; our industry requirements; the cement pole materials need to be subjected to spot check, the material department is responsible for the whole spot check process, sampling and sample sealing are carried out on a construction site, vehicle carriers are organized and arranged, and the vehicle carriers are transported to a professional detection site for detection. The detection mode of the inspection greatly reduces the detection efficiency, so that the construction period is prolonged, in addition, when the existing detection device detects a plurality of cement poles successively, the detected cement poles need to be taken down from the detection device by the crane, the next cement pole to be detected is assembled on the detection device by the crane for detection, the replacement efficiency of the cement poles is low, and the detection efficiency is affected.

Disclosure of Invention

The invention provides a movable intelligent cement pole detection device, which aims to solve the defects of low detection efficiency and low cement pole replacement efficiency of the existing detection mode, can detect a cement pole on site and has high cement pole replacement efficiency.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the utility model provides a portable cement pole intelligent detection device, including vehicle and detection module, the vehicle includes the trailer portion and is used for driving the traction portion of trailer portion, be provided with a plurality of landing legs around the trailer portion, detection module sets up the upside at the trailer portion, detection module includes the bottom plate, the bottom plate is close to the first supporting shoe of one end fixedly connected with of traction portion, one side that traction portion was kept away from to first supporting shoe is provided with the second supporting shoe, second supporting shoe and bottom plate fixed connection, detection module still includes a plurality of displacement sensor that arrange along the length direction of cement pole, the bottom plate is provided with the loading device that is used for exerting the axial line of perpendicular to cement pole to the tip of cement pole.

Through the arrangement, spot sampling inspection can be realized, so that the construction period is shortened. Specifically, the trailer part is used for supporting detection module, and the traction part can drive trailer part walking to make things convenient for detection module's removal, detection module accessible vehicle motion to the job site that needs the spot of checking cement pole and detect the cement pole of job site, need not transport the cement pole to detection mechanism like traditional way, reduced the cost of transportation, prevented the possibility that the transportation destroyed, saved the time of transportation, improved the efficiency of detection, be favorable to shortening the time limit for a project. During detection, the support legs are downwards extended and are abutted to the ground, then the support legs are further extended and lift the tire of the trailer part, wherein the support legs can refer to corresponding structures in the existing crane or the forklift, the bottom plate is in a horizontal state, the cement pole to be detected on the construction site is lifted to the bottom plate by using lifting devices on the construction site, such as a tower crane, a crane and the like, the cement pole is arranged along the length direction of the vehicle, the first support block and the second support block are positioned at one end of the cement pole, which is close to the traction part, and the first support block and the second support block are abutted to the opposite sides of the cement pole, at the moment, the axis of the cement pole extends along the horizontal direction, displacement sensors are sequentially arranged along the length direction of the cement pole, and are used for measuring the deflection of different positions of the cement pole, the loading device applies force perpendicular to the axial direction of the cement rod to one end of the cement rod, which is far away from the traction part, under the action of the loading device, the first supporting block and the second supporting block are in pressure equalizing and tightening on the cement rod, the force of the first supporting block to the cement rod is a first force, the force of the second supporting block to the cement rod is a second force, the force of the loading device to the cement rod is a third force, the third force extends horizontally and is perpendicular to the axial direction of the cement rod, the directions of the first force and the third force are consistent, the directions of the first force and the second force are opposite, the cement rod is bent under the action of the first force, the second force and the third force, the deflection of different positions of the cement rod is measured by each displacement sensor, the third force is gradually increased until the third force is increased to a preset value, and whether the cement rod is qualified or not can be obtained according to the deflection of the cement rod.

Further, the upside of bottom plate is provided with a plurality of trays that are used for supporting the cement pole and set up along the length direction of cement pole, and the tray includes the backup pad and sets up the universal wheel at the downside of backup pad.

By the arrangement, the detection accuracy can be improved. Specifically, when detecting the cement pole, place the cement pole on the tray, there is frictional force between tray and the cement pole, when the cement pole takes place to crookedly under loading device's effect, under the effect of frictional force, the cement pole drives the tray motion, and the tray passes through the universal wheel and moves on the bottom plate, because be rolling friction between universal wheel and the bottom plate, frictional force is less, has reduced the influence of frictional force to the amount of deflection to the accuracy of detection has been improved.

Further, the upside fixedly connected with of backup pad is a plurality of first supports and a plurality of second supports, rotates between the first support and is connected with first gyro wheel, and the second support sets up the both ends at the backup pad, and first support sets up between the second support, rotates between first support and the second support and is connected with the second gyro wheel, and first gyro wheel setting is between the second gyro wheel and forms the ascending spacing groove of opening with the second gyro wheel, and the axis of first gyro wheel and the axis of second gyro wheel are all perpendicular with the axis of cement pole.

Through the setting, can further increase the accuracy that detects, specifically, when detecting the cement pole, place the cement pole at the spacing inslot through hoist device, the downside and the first gyro wheel butt of cement pole this moment, the second gyro wheel can prevent that the cement pole from the tip landing of first gyro wheel, loading device is when exerting force to the cement pole, when the cement pole warp, when the backup pad produces the displacement along the axis direction of cement pole relative to the cement pole, be rolling friction between backup pad and the cement pole, frictional force is less, the influence of frictional force to the amount of deflection has been reduced, thereby the accuracy of detection has been improved.

Further, one side of the first supporting block is provided with a first groove matched with the cement pole, and one side of the second supporting block is provided with a second groove matched with the cement pole.

Through above-mentioned setting, can prevent that first supporting shoe and second supporting shoe from pressing the cement pole bad, specific loading device is when loading the cement pole, first recess and cement pole laminating, second recess and cement pole laminating, area of contact between first supporting shoe and the cement pole is great, thereby make the pressure of first supporting shoe to the cement pole less, and then prevent that first supporting shoe from pressing the cement pole and influencing the testing result, area of contact between second supporting shoe and the cement pole is great, thereby make the pressure of second supporting shoe to the cement pole less, and then prevent that the second supporting shoe from pressing the cement pole and influencing the testing result.

Further, one end of the bottom plate, which is far away from the traction part, is fixedly connected with a limiting piece for preventing the cement pole from sliding off from the edge of the bottom plate.

Through the arrangement, when the lifting device lifts the cement pole onto the tray, the limiting piece and the first supporting block are located on the same side of the cement pole, and the limiting piece can prevent the cement pole from sliding off the edge of the bottom plate.

Further, the number of the displacement sensors is three, the displacement sensors are divided into a first displacement sensor, a second displacement sensor and a third displacement sensor, the first displacement sensor is located on one side of the cement pole away from the first supporting block, the second displacement sensor is located on one side of the cement pole away from the second supporting block, and the third displacement sensor is located on one end of the cement pole away from the traction part.

Through the arrangement, the deflection of the loading device at three different positions on the cement pole in the loading process can be measured.

Further, a fourth bracket for supporting the third displacement sensor is arranged on one side of the trailer part away from the traction part.

Through the setting, the cement pole that measurable length is great, when the length of cement pole is great, the cement pole is kept away from the one end of traction portion and can be unsettled, and the fourth support sets up subaerial, and the third displacement sensor is installed on the fourth support and is used for measuring the flexibility that the one end was kept away from to the cement pole.

The displacement sensor can refer to the existing linear displacement sensor, the telescopic end of the linear displacement sensor is abutted against one side of the cement rod during measurement, in the application, the first displacement sensor is abutted against one side of the cement rod, which is far away from the first supporting block, the second displacement sensor is abutted against one side of the cement rod, which is far away from the second supporting block, and the third displacement sensor is abutted against one side of the cement rod, which is far away from the loading device.

Further, the loading device comprises a first loading beam arranged on the upper side of the bottom plate, the first loading beam extends along the length direction of the vehicle, the first loading beam comprises a rotating end and a loading end, the rotating end is close to the traction portion and is rotationally connected with the bottom plate, the loading end is close to one end of the cement pole, which is far away from the traction portion, and is connected with a first steel cable, the upper side of the bottom plate is rotationally connected with an oil cylinder, the oil cylinder is rotationally connected with the middle of the first loading beam and is used for driving the first loading beam to rotate, and the first loading beam and the second supporting block are located on the same side of the cement pole.

Through above-mentioned setting, can keep away from the one end of traction portion to the cement pole and load, specifically, one end cover that traction portion was kept away from to the cement pole is gone up a rope sling, then first cable wire and rope sling are connected, the hydro-cylinder setting is between cement pole and first loading roof beam and be used for driving first loading roof beam to the one side rotation of keeping away from the cement pole, when the hydro-cylinder extends, first loading Liang Raozhuai moves the end and rotates to the one side of keeping away from the cement pole, the loading end is kept away from the cement pole and applys the third power to the cement pole through first cable wire and rope sling this moment. In addition, a tension sensor can be arranged between the first steel cable and the loading end, so that the force applied by the loading device to the cement pole can be monitored in real time.

Further, the first loading beam is configured as a telescopic beam.

Through the arrangement, the cement poles with different lengths can be detected, and in addition, the length of the first loading beam can be shortened, so that the running safety of a vehicle is improved. The telescopic beam refers to the telescopic arm of the existing crane.

A platform is arranged between the traction part and the trailer part, a crane is arranged on the upper side of the platform, and a first lifting hook is arranged at the end part of the crane.

Through the arrangement, the detection module and the cement pole can be conveniently assembled and disassembled, the detection module and the trailer part are detachably connected, the base plate and the trailer part are detachably connected, the first lifting hook is connected with the base plate, then the crane is used for lifting the detection module away from the trailer part, the trailer part can be used for transporting materials at the moment, in addition, when the cement pole is detected, the crane can be used for lifting the cement pole, after the cement pole is detected, the detected cement pole is lifted away, and then a new cement pole to be detected is lifted onto the detection module again for detection of a new round.

The utility model provides a portable cement pole intelligent detection device, including vehicle and detection module, the vehicle includes the trailer portion and is used for driving the traction portion of trailer portion, be provided with a plurality of landing legs around the trailer portion, detection module sets up the upside at the trailer portion, detection module includes the bottom plate, the bottom plate is close to the first supporting shoe of one end fixedly connected with of traction portion, one side that traction portion was kept away from to first supporting shoe is provided with the second supporting shoe, second supporting shoe and bottom plate fixed connection, detection module still includes a plurality of displacement sensor that arrange along the length direction of cement pole, the bottom plate is provided with the loading device that is used for exerting the axial line of perpendicular to cement pole to the tip of cement pole.

The upside of bottom plate is provided with a plurality of trays that are used for supporting the cement pole and set up along the length direction of cement pole, and the tray includes the backup pad and sets up the universal wheel at the downside of backup pad.

The upside fixedly connected with of backup pad is a plurality of first supports and a plurality of second supports, rotates between the first support and is connected with first gyro wheel, and the second support sets up the both ends at the backup pad, and first support setting is between the second support, rotates between first support and the second support and is connected with the second gyro wheel, and first gyro wheel setting is between the second gyro wheel and form the ascending spacing groove of opening with the second gyro wheel, and the axis of first gyro wheel and the axis of second gyro wheel are all perpendicular with the axis of cement pole.

One side of the first supporting block is provided with a first groove matched with the cement pole, and one side of the second supporting block is provided with a second groove matched with the cement pole.

One end of the bottom plate, which is far away from the traction part, is fixedly connected with a limiting piece for preventing the cement pole from sliding off from the edge of the bottom plate.

The number of the displacement sensors is three, the displacement sensors are divided into a first displacement sensor, a second displacement sensor and a third displacement sensor, the first displacement sensor is located at one side of the cement pole away from the first supporting block, the second displacement sensor is located at one side of the cement pole away from the second supporting block, and the third displacement sensor is located at one end of the cement pole away from the traction part.

Further, the displacement sensor is connected with the PLC, the PLC reads the data of the displacement sensor in real time and automatically records the data, a detector is not required to manually record the data, and the detection accuracy is improved.

A fourth bracket for supporting the third displacement sensor is arranged on one side of the trailer part away from the traction part.

A platform is arranged between the traction part and the trailer part, a crane is arranged on the upper side of the platform, and a first lifting hook is arranged at the end part of the crane.

Further, the cement pole is provided with the passageway that runs through the both ends of cement pole, and the cement pole sets up the connector that is used for with first lifting hook connection, and the connector is provided with rings including the connecting cable that passes the passageway, and the one end of connecting cable is provided with the second lifting hook, and the external diameter of rings is greater than the diameter of passageway, and the second lifting hook passes through rings and is connected with the connecting cable, and the connecting cable forms closed architecture, and rings are located the top at the middle part of cement pole.

Through above-mentioned setting, make things convenient for loop-shaped cement pole is personally submitted to crane hoist and mount, in particular, the crane is referenced the hoist mechanism on the current crane, the crane still includes davit and lifting rope, the davit is referenced the flexible arm of current crane, the davit is scalable, thereby adjustable first lifting hook's radius of motion and motion height, first lifting hook is connected on the lifting rope, after first lifting hook connects rings, the lifting rope can upwards hoist the cement pole is accomodate to the loop, thereby the crane release lifting rope can be with the cement pole down, the second lifting hook sets up at the middle part of cement pole, thereby make the cement pole by the stability better after the lifting, through the rotation of davit, can make the cement pole move to the top of tray or leave the top of tray.

Further, loading device includes the second loading beam that sets up along the length direction of vehicle, the one end and the bottom plate fixed connection that the second loading beam is close to traction portion, the other end that the second loading beam is close to the cement pole and keeps away from traction portion's one end and rotate and be connected with the switching-over wheel, the upside of bottom plate is provided with the hoist engine, the hoist engine is connected with the second cable wire, the second cable wire is connected with the third lifting hook, portable cement pole intelligent detection device still includes gravity seat, gravity seat's upper end is provided with and is used for with second lifting hook complex hanging hole, rotate on the gravity seat and be connected with the rotation cover, the one end that traction portion was kept away from to the bottom plate rotates and is connected with the third gyro wheel that is used for preventing cement pole collision bottom plate.

Through the arrangement, the loading device realizes the loading of the cement pole, on the other hand, the detected cement pole can be taken down from the detection module by the loading device, a new cement pole to be detected can be hoisted onto the detection module by the crane in the process, and the two steps are simultaneously carried out, so that the speed of replacing the cement pole is improved, and the detection efficiency is further improved. Specifically, when the loading device loads the cement rod, a rope sleeve is sleeved at one end of the cement rod far away from traction, then a second steel rope passes through a reversing wheel and is hooked by a third lifting hook, then a winch receives the second steel rope, so that force vertical to the axial direction of the cement rod is applied to the end part of the cement rod, in addition, a tension sensor is arranged between the second steel rope and the third lifting hook, so that the magnitude of the loaded force can be monitored in real time, the loaded force is regulated by regulating the power of the winch, the tension sensor is specifically connected with a PLC, the PLC reads data of the tension sensor in real time and automatically records the data, and combines with the data of a displacement sensor in the loading process, a curve of tension-deflection is automatically drawn, so that a tester can conveniently know the mechanical property of the cement rod. At this moment, the second cable wire is accomodate to the hoist engine, the one end butt that second cable wire pulling connecting cable, rings and cement pole are close to traction portion, when connecting cable driving rings to the rotation cover motion, rings driving cement pole keep away from traction portion, rings driving cement pole is to the rear side motion of vehicle, the upside fixedly connected with spacing arch of bottom plate, spacing arch sets up in the tray one side of keeping away from traction portion, along with cement pole to the rear side motion of vehicle, the cement pole can drive the tray to the rear side motion of vehicle, when the tray moves to spacing arch, the tray can not continue to the rear side motion of vehicle, the tray can not follow the rear side of bottom plate and slide down, the cement pole drives first gyro wheel rotation, first gyro wheel makes cement pole backward movement's resistance less, after cement pole and first gyro wheel are disengaged, under the effect of gravity, the cement pole supports and leans on the third gyro wheel, thereby prevent that cement pole and bottom plate from taking place the collision, finally, the cement pole is dragged down from the bottom plate (the cement pole that detects because surface fracture, generally no longer uses, so when taking the cement pole off from detecting the detection module, the cement pole and taking out from the detection module, the cement pole need not take out from the detection module, then need take out the protection cable from the bridge cable, draw-off the connecting cable is close to the one end, can be taken out from the connecting cable, can be passed through from the connecting cable, the lifting hook, can be connected through the one end, and can be broken through the connecting cable, and can be passed through the hook, and the one end. In the process that the cement pole is taken down from the detection module, another person is connected with a lifting ring of another cement pole to be detected through a first lifting hook of the crane and lifts by crane (a connector of the cement pole is installed in advance), after the detected cement pole is taken down from the bottom plate, the position of the tray is placed, then the new cement pole to be detected is placed on the tray through the crane, and the installation of the new cement pole can be completed, so that the detection of a new round can be started.

Drawings

FIG. 1 is a schematic diagram of the present application.

Fig. 2 is a schematic diagram of a detection module according to embodiment 1 of the present application.

Fig. 3 is a schematic diagram of a detection module according to embodiment 1 of the present application.

Fig. 4 is an enlarged view at a of fig. 3.

Fig. 5 is a schematic view of the tray of the present application.

FIG. 6 is a schematic diagram of the test in example 1.

Fig. 7 is a top view of fig. 6.

Fig. 8 is a schematic diagram of detection by the detection module of embodiment 2.

Fig. 9 is a schematic view of a cement pole and connector.

Fig. 10 is a schematic view of example 2 when unloading a cement pole.

Fig. 11 is a schematic view of the abutment of the cement pole and the third roller at the time of unloading the cement pole in example 2.

Detailed Description

The technical scheme of the application is further specifically described below through examples and with reference to the accompanying drawings.

Example 1:

referring to fig. 1 to 7, a mobile intelligent cement pole detection device comprises a vehicle 11 and a detection module 12, wherein the vehicle 11 comprises a trailer part 111 and a traction part 112 for driving the trailer part 111, a plurality of supporting legs 113 are arranged around the trailer part 111, the detection module 12 is arranged on the upper side of the trailer part 111, the detection module 12 comprises a bottom plate 121, one end, close to the traction part 112, of the bottom plate 121 is fixedly connected with a first supporting block 122, one side, far away from the traction part 112, of the first supporting block 122 is provided with a second supporting block 123, the second supporting block 123 is fixedly connected with the bottom plate 121, the detection module 12 further comprises a plurality of displacement sensors which are arranged along the length direction of the cement pole 21, and the bottom plate 121 is provided with a loading device 125 for applying force perpendicular to the axis of the cement pole 21 to the end of the cement pole 21.

Through the arrangement, spot sampling inspection can be realized, so that the construction period is shortened. Specifically, the trailer portion 111 is used for supporting the detection module 12, and the traction portion 112 can drive the trailer portion 111 to walk, so that the detection module 12 can be moved conveniently, that is, the detection module 12 can move to a construction site where the cement pole 21 needs to be subjected to spot check and detect the cement pole 21 on the construction site through the vehicle 11, the cement pole 21 does not need to be conveyed to the detection mechanism like a traditional method, the transportation cost is reduced, the possibility of damage caused by transportation is prevented, the transportation time is saved, the detection efficiency is improved, and the construction period is shortened. During detection, the supporting legs 113 are downwards stretched and abutted against the ground, then the supporting legs 113 are further stretched and the tires of the trailer part 111 are lifted, wherein the supporting legs 113 can refer to the corresponding structure in the existing crane or the elevator car, the bottom plate 121 is in a horizontal state, the cement pole 21 to be detected on the construction site is lifted onto the bottom plate 121 by using a lifting device on the construction site, such as a tower crane, a crane and the like, the cement pole 21 is arranged along the length direction of the vehicle 11, the first supporting block 122 and the second supporting block 123 are positioned at one end of the cement pole 21 close to the traction part 112, the first supporting block 122 and the second supporting block 123 are abutted against the opposite sides of the cement pole 21, the axis of the cement pole 21 extends along the horizontal direction, the displacement sensors are sequentially arranged along the length direction of the cement pole 21 and are used for measuring the deflection of different positions of the cement pole 21, during measurement, the loading device 125 applies a force perpendicular to the axial direction of the cement rod 21 to one end of the cement rod 21 far away from the traction part 112, under the action of the loading device 125, the first support block 122 and the second support block 123 are in pressure equalizing and tightening on the cement rod 21, the force of the first support block 122 to the cement rod 21 is a first force, the force of the second support block 123 to the cement rod 21 is a second force, the force of the loading device 125 to the cement rod 21 is a third force which extends horizontally and is perpendicular to the axial direction of the cement rod 21, the first force and the third force are consistent, the first force and the second force are opposite, the cement rod 21 is bent under the action of the first force, the second force and the third force, the deflection of different positions of the cement rod 21 is measured by each displacement sensor, the third force is gradually increased until the third force is increased to a preset value, whether the cement pole 21 is qualified or not can be obtained according to the deflection of the cement pole 21.

As one implementation, the upper side of the bottom plate 121 is provided with a plurality of trays 126 for supporting the cement poles 21 and disposed along the length direction of the cement poles 21, and the trays 126 include a support plate 1261 and universal wheels 1262 disposed at the lower side of the support plate 1261.

By the arrangement, the detection accuracy can be improved. Specifically, when detecting cement pole 21, place cement pole 21 on tray 126, there is frictional force between tray 126 and the cement pole 21, when cement pole 21 takes place to bend under loading device 125's effect, under the effect of frictional force, cement pole 21 drives tray 126 motion, and tray 126 passes through universal wheel 1262 and moves on bottom plate 121, because be rolling friction between universal wheel 1262 and bottom plate 121, frictional force is less, has reduced the influence of frictional force to the deflection to the accuracy of detection has been improved.

As an implementation manner, the upper side of the supporting plate 1261 is fixedly connected with a plurality of first brackets 1263 and a plurality of second brackets 1264, a first roller 1265 is rotatably connected between the first brackets 1263, the second brackets 1264 are arranged at two ends of the supporting plate 1261, the first brackets 1263 are arranged between the second brackets 1264, a second roller 1266 is rotatably connected between the first brackets 1263 and the second brackets 1264, the first roller 1265 is arranged between the second rollers 1266 and forms a limiting groove with an upward opening with the second roller 1266, and the axis of the first roller 1265 and the axis of the second roller 1266 are perpendicular to the axis of the cement pole 21.

Through the arrangement, the accuracy of detection can be further increased, specifically, when detecting the cement pole 21, place the cement pole 21 in the spacing inslot through hoist device, the downside and the first gyro wheel 1265 butt of cement pole 21 this moment, the tip landing of second gyro wheel 1266 follow first gyro wheel 1265 can be prevented to the cement pole 21, loading device 125 is when exerting force to cement pole 21, when cement pole 21 warp, when the relative cement pole 21 of backup pad 1261 produces the displacement along the axis direction of cement pole 21, be rolling friction between backup pad 1261 and the cement pole 21, frictional force is less, frictional force has reduced the influence of frictional force to the amount of deflection, thereby the accuracy of detection has been improved.

As an implementation, a first groove 1221 adapted to the cement pole 21 is provided on one side of the first support block 122, and a second groove 1231 adapted to the cement pole 21 is provided on one side of the second support block 123.

Through the above-mentioned setting, can prevent that first supporting shoe 122 and second supporting shoe 123 from pressing the cement pole 21 to be bad, specifically, loading device 125 is loading to cement pole 21 when, first recess 1221 and cement pole 21 laminating, second recess 1231 and cement pole 21 laminating, the area of contact between first supporting shoe 122 and the cement pole 21 is great, thereby make the pressure of first supporting shoe 122 to cement pole 21 less, and then prevent that first supporting shoe 122 from pressing cement pole 21 and influencing the testing result, the area of contact between second supporting shoe 123 and cement pole 21 is great, thereby make second supporting shoe 123 less to the pressure of cement pole 21, and then prevent that second supporting shoe 123 from pressing cement pole 21 and influencing the testing result.

As one implementation, a stopper 1211 for preventing the cement shaft 21 from sliding off the edge of the bottom plate 121 is fixedly connected to the end of the bottom plate 121 remote from the traction portion 112.

With the above arrangement, when the lifting device lifts the cement pole 21 onto the tray 126, the limiting member 1211 and the first supporting block 122 are located on the same side of the cement pole 21, and the limiting member 1211 can prevent the cement pole 21 from sliding off the edge of the bottom plate 121.

As one implementation, the number of displacement sensors is three, and the displacement sensors are divided into a first displacement sensor 1241, a second displacement sensor 1242 and a third displacement sensor 1243, where the first displacement sensor 1241 is located on a side of the cement pole 21 away from the first supporting block 122, the second displacement sensor 1242 is located on a side of the cement pole 21 away from the second supporting block 123, and the third displacement sensor 1243 is located on an end of the cement pole 21 away from the traction portion 112.

With the above arrangement, the deflection of the loading device 125 at three different positions on the cement pole 21 during loading can be measured.

As an implementation, the side of the trailer part 111 remote from the towing part 112 is provided with a fourth bracket 13 for supporting a third displacement sensor 1243.

Through the above arrangement, the cement pole 21 with a larger measurable length can be suspended at the end of the cement pole 21 far away from the traction part 112 when the cement pole 21 has a larger length, and referring to fig. 6, the fourth bracket 13 is arranged on the ground, and the third displacement sensor 1243 is mounted on the fourth bracket 13 and used for measuring the deflection of the end of the cement pole 21 far away from the traction part 112.

The displacement sensor may refer to a conventional linear displacement sensor, and the telescopic end of the linear displacement sensor may be abutted against one side of the cement pole 21 during measurement, in the present application, the first displacement sensor 1241 is abutted against one side of the cement pole 21 away from the first support block 122, the second displacement sensor 1242 is abutted against one side of the cement pole 21 away from the second support block 123, and the third displacement sensor 1243 is abutted against one side of the cement pole 21 away from the loading device 125.

As one implementation, the loading device 125 includes a first loading beam 1251 disposed on an upper side of the bottom plate 121, the first loading beam 1251 extends along a length direction of the vehicle 11, the first loading beam 1251 includes a rotation end 12511 and a loading end 12512, the rotation end 12511 is close to the traction portion 112 and is rotatably connected to the bottom plate 121, the loading end 12512 is close to an end of the cement pole 21 away from the traction portion 112 and is connected to a first steel cable 1252, an oil cylinder 1253 is rotatably connected to an upper side of the bottom plate 121, the oil cylinder 1253 is rotatably connected to a middle portion of the first loading beam 1251 and is used for driving the first loading beam 1251 to rotate, and the first loading beam 1251 and the second supporting block 123 are located on the same side of the cement pole 21.

Through the above arrangement, the end of the cement pole 21 far away from the traction portion 112 can be loaded, specifically, a rope sleeve 31 is sleeved on the end of the cement pole 21 far away from the traction portion 112, then the first steel cable 1252 is connected with the rope sleeve 31, the oil cylinder 1253 is arranged between the cement pole 21 and the first loading beam 1251 and is used for driving the first loading beam 1251 to rotate towards the side far away from the cement pole 21, when the oil cylinder 1253 stretches, the first loading beam 1251 rotates towards the side far away from the cement pole 21 around the rotating end 12511, and at this time, the loading end 12512 is far away from the cement pole 21 and applies a third force to the cement pole 21 through the first steel cable 1252 and the rope sleeve 31. In addition, a tension sensor may be provided between the first cable 1252 and the loading end 12512 so that the amount of force applied by the loading device 125 to the cement pole 21 may be monitored in real time.

As one implementation, the first load beam 1251 is provided as a telescoping beam.

With the above arrangement, the cement poles 21 of different lengths can be detected, and the length of the first load beam 1251 can be shortened, thereby improving the running safety of the vehicle 11. The telescopic beam refers to the telescopic arm of the existing crane.

A platform 114 is provided between the traction portion 112 and the trailer portion 111, a crane 1141 is provided on the upper side of the platform 114, and a first hook 1142 is provided at an end of the crane 1141.

Through the arrangement, the detection module 12 and the cement pole 21 can be conveniently assembled and disassembled, and particularly, the detection module 12 and the trailer part 111 can be detachably connected, and particularly, the bottom plate 121 and the trailer part 111 can be detachably connected, the first lifting hook 1142 is connected with the bottom plate 121, then the crane 1141 lifts away the detection module 12 from the trailer part 111, at the moment, the trailer part 111 can be used for transporting materials, in addition, when the cement pole 21 is detected, the crane 1141 can be used for lifting the cement pole 21, after the cement pole 21 is detected, the detected cement pole 21 is lifted away, and then a new cement pole 21 to be detected is lifted onto the detection module 12 again for detection of a new round.

Example 2:

referring to fig. 1, fig. 4, fig. 5, fig. 8, fig. 9, fig. 10, fig. 11, a mobile intelligent cement pole detection device comprises a vehicle 11 and a detection module 12, wherein the vehicle 11 comprises a trailer part 111 and a traction part 112 for driving the trailer part 111, a plurality of supporting legs 113 are arranged around the trailer part 111, the detection module 12 is arranged on the upper side of the trailer part 111, the detection module 12 comprises a bottom plate 121, one end of the bottom plate 121 close to the traction part 112 is fixedly connected with a first supporting block 122, one side of the first supporting block 122 far away from the traction part 112 is provided with a second supporting block 123, the second supporting block 123 is fixedly connected with the bottom plate 121, the detection module 12 further comprises a plurality of displacement sensors which are arranged along the length direction of the cement pole 21, and the bottom plate 121 is provided with a loading device 125 for applying force perpendicular to the axis of the cement pole 21 to the end of the cement pole 21.

The upper side of the bottom plate 121 is provided with a plurality of trays 126 for supporting the cement poles 21 and arranged along the length direction of the cement poles 21, and the trays 126 include a support plate 1261 and universal wheels 1262 arranged at the lower side of the support plate 1261.

The upside fixedly connected with a plurality of first supports 1263 and a plurality of second supports 1264 of backup pad 1261, rotate between the first supports 1263 and be connected with first gyro wheel 1265, second supports 1264 set up the both ends at backup pad 1261, first supports 1263 set up between second supports 1264, rotate between first supports 1263 and the second supports 1264 and be connected with second gyro wheel 1266, first gyro wheel 1265 sets up between second gyro wheel 1266 and forms the spacing groove that the opening was upwards with second gyro wheel 1266, the axis of first gyro wheel 1265 and the axis of second gyro wheel 1266 are all perpendicular with the axis of cement pole 21.

One side of the first support block 122 is provided with a first groove 1221 adapted to the cement pole 21, and one side of the second support block 123 is provided with a second groove 1231 adapted to the cement pole 21.

A stopper 1211 for preventing the cement shaft 21 from sliding off the edge of the bottom plate 121 is fixedly connected to one end of the bottom plate 121 remote from the traction portion 112.

The number of the displacement sensors is three, the displacement sensors are divided into a first displacement sensor 1241, a second displacement sensor 1242 and a third displacement sensor 1243, the first displacement sensor 1241 is located on one side of the cement pole 21 far away from the first supporting block 122, the second displacement sensor 1242 is located on one side of the cement pole 21 far away from the second supporting block 123, and the third displacement sensor 1243 is located on one end of the cement pole 21 far away from the traction portion 112.

As an implementation mode, the displacement sensor is connected with the PLC, the PLC reads the data of the displacement sensor in real time and automatically records the data, a detector is not required to manually record the data, and the detection accuracy is improved.

The side of the trailer part 111 remote from the towing part 112 is provided with a fourth bracket 13 for supporting a third displacement sensor 1243.

A platform 114 is provided between the traction portion 112 and the trailer portion 111, a crane 1141 is provided on the upper side of the platform 114, and a first hook 1142 is provided at an end of the crane 1141.

As an implementation, the cement pole 21 is provided with a channel 211 penetrating through two ends of the cement pole 21, the cement pole 21 is provided with a connector 212 for being connected with a first hanging hook 1142, the connector 212 comprises a connecting rope 2121 penetrating through the channel 211, one end of the connecting rope 2121 is provided with a hanging ring 2122, the other end of the connecting rope 2121 is provided with a second hanging hook 2123, the outer diameter of the hanging ring 2122 is larger than the diameter of the channel 211, the second hanging hook 2123 passes through the hanging ring 2122 and is connected with the connecting rope 2121, the connecting rope 2121 forms a closed structure, and the hanging ring 2122 is located above the middle part of the cement pole 21, see fig. 9.

Through the arrangement, the cement pole 21 is conveniently hoisted by the crane 1141, and particularly, the cement pole 21 with a circular cross section is hoisted by the crane 1141, the crane 1141 specifically refers to a hoisting mechanism on an existing crane, the crane 1141 further comprises a suspension arm 1143 and a lifting rope, the suspension arm 1143 refers to a telescopic arm of the existing crane, the suspension arm 1143 is telescopic, so that the movement radius and the movement height of the first lifting hook 1142 can be adjusted, the first lifting hook 1142 is connected to the lifting rope, after the first lifting hook 1142 is connected to the lifting ring 2122, the cement pole 21 can be hoisted upwards by the lifting rope stored in the crane 1141, the lifting rope is released by the crane 1141 so that the cement pole 21 can be lowered, and the second lifting hook 2123 is arranged in the middle of the cement pole 21, so that the stability is good after the cement pole 21 is hoisted, and the cement pole 21 can be moved to the upper part of the tray 126 or the upper part of the tray 126 through the rotation of the suspension arm 1143.

As an implementation manner, the loading device 125 includes a second loading beam 12513 disposed along the length direction of the vehicle 11, one end of the second loading beam 12513 close to the traction portion 112 is fixedly connected with the bottom plate 121, the other end of the second loading beam 12513 is close to one end of the cement pole 21 far away from the traction portion 112 and is rotatably connected with a reversing wheel 12514, a winch 12515 is disposed on the upper side of the bottom plate 121, the winch 12515 is connected with a second steel cable 12516, the second steel cable 12516 is connected with a third lifting hook 12517, the mobile cement pole intelligent detection device further includes a gravity seat 14, a lifting hole 141 for being matched with the second lifting hook 2123 is disposed at the upper end of the gravity seat 14, a rotating sleeve 142 is rotatably connected to the gravity seat 14, and a third roller 1212 for preventing the cement pole 21 from colliding with the bottom plate 121 is rotatably connected to one end of the bottom plate 121 far away from the traction portion 112.

Through the arrangement, the loading device 125 realizes loading the cement pole 21, on the other hand, the detected cement pole 21 can be taken down from the detection module 12 by using the loading device 125, and a new cement pole 21 to be detected can be hoisted to the detection module 12 by using the crane 1141 in the process, and the two steps are simultaneously carried out, so that the speed of replacing the cement pole 21 is improved, and the detection efficiency is further improved. Specifically, when the loading device 125 loads the cement pole 21, a rope sleeve 31 is sleeved at one end of the cement pole 21 far away from traction, then the second steel rope 12516 passes through the reversing wheel 12514 and hooks the rope sleeve 31 through the third lifting hook 12517, then the winch 12515 receives the second steel rope 12516, so that force vertical to the axial direction of the cement pole 21 is applied to the end part of the cement pole 21, in addition, a tension sensor is arranged between the second steel rope 12516 and the third lifting hook 12517, so that the loading force can be monitored in real time, the loading force is regulated by regulating the power of the winch 12515, specifically, the tension sensor is connected with a PLC, the PLC reads data of the tension sensor in real time and automatically records, and a tension-deflection curve is automatically drawn in combination with the data of a displacement sensor in the loading process, so that a tester can conveniently know the mechanical property of the cement pole 21, the application automatically reads and records data, finally automatically generates a detection report according to the measured data, is more intelligent than the traditional test mode, after the cement rod 21 is detected, the cement rod 21 can be removed from the detection module 12 by utilizing the loading device 125, in particular, the gravity seat 14 is placed at the rear side of the vehicle 11 in advance by using the crane 1141, the hanging hole 141 facilitates the connection between the gravity seat 14 and the crane 1141, the gravity of the gravity seat 14 is larger, thus the gravity seat 14 is basically fixed on the ground, the third hanging hook 12517 is removed from the rope sleeve 31, then the connecting cable 2121 and the hanging ring 2122 are disconnected, so that the two ends of the connecting cable 2121 are separated, at the moment, the hanging ring 2122 is positioned at one end of the cement rod 21 close to the traction part 112, when the outer diameter of the hanging ring 2122 is larger than the diameter of the channel 211, the end of the hanging ring 2122 close to the cement rod 21 is abutted to the end of the traction part 112 and cannot enter the channel 211, see figure 10, the connecting cable 2121 is bent away from one end of the lifting ring 2122 and then connected with the second hook 2123 to form a connecting buckle, see fig. 10, the second steel cable 12516 passes through the rotating sleeve 142 and is connected with the connecting buckle through the third hook 12517, at this time, the winch 12515 accommodates the second steel cable 12516, see fig. 11, the second steel cable 12516 pulls the connecting cable 2121, one end of the lifting ring 2122, which is close to the traction portion 112, abuts against one end of the cement rod 21, when the connecting cable 2121 drives the lifting ring 2122 to move toward the rotating sleeve 142, the lifting ring 2122 drives the cement rod 21 to move away from the traction portion 112, that is, the lifting ring 2122 drives the cement rod 21 to move toward the rear side of the vehicle 11, the limiting protrusion 1213 is fixedly connected to the upper side of the bottom plate 121, the limiting protrusion is disposed on one side of the tray 126 away from the traction portion 112, as the cement rod 21 moves toward the rear side of the vehicle 11, the cement rod 21 drives the tray 126 to move toward the rear side of the vehicle 11, when the tray 126 moves toward the limiting protrusion, the tray 126 does not continue to move to the rear side of the vehicle 11, i.e., the tray 126 does not slide from the rear side of the bottom plate 121, the cement column 21 drives the first roller 1265 to rotate, the first roller 1265 makes the resistance to the backward movement of the cement column 21 small, when the cement column 21 and the first roller 1265 are disengaged, the cement column 21 abuts against the third roller 1212 under the action of gravity, thereby preventing the cement column 21 and the bottom plate 121 from colliding, see fig. 11, finally, the cement column 21 is pulled off from the bottom plate 121 (the detected cement column 21 is generally not used any more due to surface cracking, so that the protection of the cement column 21 is not required when the cement column 21 is removed from the detection module 12), then the third hooks 12517 and the connecting cable 2121 are disengaged, the connector 212 is removed from the detected cement column 21, the second hooks 2123 are small in volume and can pass through the passage 211, pulling on the end of the connecting cable 2121 adjacent to the bail 2122 withdraws the connecting cable 2121 from the channel 211. In the process of removing the cement pole 21 from the detection module 12, another person connects and lifts up another hanging ring 2122 of the cement pole 21 to be detected (the connector 212 of the cement pole 21 is pre-installed) through the first hanging hook 1142 of the crane 1141, after the detected cement pole 21 is removed from the bottom plate 121, the position of the tray 126 is set, and then a new cement pole 21 to be detected is set on the tray 126 through the crane 1141, so that the installation of the new cement pole 21 can be completed, and a new round of detection can be started.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (8)

1. The utility model provides a portable cement pole intelligent detection device, its characterized in that, includes vehicle and detection module, the vehicle includes trailer portion and is used for the drive the traction portion of trailer portion, be provided with a plurality of landing legs around the trailer portion, detection module sets up the upside of trailer portion, detection module includes the bottom plate, the bottom plate is close to the one end fixedly connected with first supporting shoe of traction portion, first supporting shoe is kept away from one side of traction portion is provided with the second supporting shoe, the second supporting shoe with bottom plate fixed connection, detection module still includes a plurality of displacement sensor that arrange along the length direction of cement pole, the bottom plate is provided with and is used for right the tip of cement pole applys perpendicularly the loading device of the axis of cement pole, be provided with the platform between traction portion and the trailer portion, the upside of platform is provided with the loop wheel, the tip of loop wheel is provided with first supporting hook, the cement pole is provided with the passageway that runs through the both ends of cement pole, the cement pole sets up and is used for the hook and first connector, the cable is located the diameter of the passageway is connected with the top of the cable is connected with the wire, the diameter of hanging ring is connected with the passageway is located the diameter of hanging ring is connected to the cable.

2. The intelligent detection device for the movable cement pole according to claim 1, wherein a plurality of trays for supporting the cement pole and arranged along the length direction of the cement pole are arranged on the upper side of the bottom plate, and each tray comprises a supporting plate and universal wheels arranged on the lower side of the supporting plate.

3. The intelligent detection device for the movable cement pole according to claim 2, wherein a plurality of first supports and a plurality of second supports are fixedly connected to the upper side of the supporting plate, first rollers are rotatably connected between the first supports, the second supports are arranged at two ends of the supporting plate, the first supports are arranged between the second supports, second rollers are rotatably connected between the first supports and the second supports, the first rollers are arranged between the second rollers and form limiting grooves with upward openings with the second rollers, and the axes of the first rollers and the axes of the second rollers are perpendicular to the axes of the cement pole.

4. The intelligent mobile cement pole detection device according to claim 1, wherein a first groove matched with the cement pole is formed in one side of the first support block, and a second groove matched with the cement pole is formed in one side of the second support block.

5. The intelligent detection device for the movable cement pole according to claim 1, wherein a limiting piece for preventing the cement pole from sliding off the edge of the bottom plate is fixedly connected to one end of the bottom plate away from the traction portion.

6. The intelligent detection device for the movable cement pole according to claim 1, wherein the number of the displacement sensors is three, the displacement sensors are divided into a first displacement sensor, a second displacement sensor and a third displacement sensor, the first displacement sensor is located at one side of the cement pole away from the first supporting block, the second displacement sensor is located at one side of the cement pole away from the second supporting block, and the third displacement sensor is located at one end of the cement pole away from the traction portion.

7. The intelligent mobile cement pole inspection apparatus of claim 6, wherein a fourth bracket for supporting the third displacement sensor is provided on a side of the trailer portion remote from the traction portion.

8. The intelligent mobile cement pole inspection apparatus according to any one of claims 1 to 7, wherein the loading device comprises a second loading beam arranged along the length direction of the vehicle, one end of the traction portion of the second loading Liang Kaojin is fixedly connected with the bottom plate, the other end of the second loading beam is close to one end of the cement pole far away from the traction portion and is rotatably connected with a reversing wheel, a hoist is arranged on the upper side of the bottom plate, the hoist engine is connected with the second cable wire, the second cable wire is connected with the third lifting hook, portable cement pole intelligent detection device still includes gravity seat, the upper end of gravity seat be provided with be used for with second lifting hook complex hanging hole, the last rotation of gravity seat is connected with the rotation cover, the bottom plate is kept away from the one end rotation of traction portion is connected with and is used for preventing the cement pole collision the third gyro wheel of bottom plate.