CN116625724A

CN116625724A - Quality detection system and detection method for highway construction

Info

Publication number: CN116625724A
Application number: CN202310918974.7A
Authority: CN
Inventors: 宋建军; 杨志国
Original assignee: Luanping County North Highway Engineering Co ltd
Current assignee: Luanping County North Highway Engineering Co ltd
Priority date: 2023-07-26
Filing date: 2023-07-26
Publication date: 2023-08-22
Anticipated expiration: 2043-07-26
Also published as: CN116625724B

Abstract

The invention discloses a quality detection system and a detection method for highway construction, and relates to the technical field of highway construction detection.

Description

Quality detection system and detection method for highway construction

Technical Field

The invention relates to the technical field of highway construction detection, in particular to a highway construction quality detection system and a highway construction quality detection method.

Background

The road construction refers to the work of investigation, measurement, design, construction, maintenance, management and the like of a road structure, and in the process of road construction, a plurality of tests are needed to be carried out on the road to ensure the safety of the road surface, wherein the test on the hardness of the road surface is one of the tests, and in the process of testing the structural strength of the road, a sampling device is needed to carry out drilling sampling on the road;

but at present, in the process of drilling and sampling the highway through a sampling device, the drill bit is required to be continuously sprayed and cooled in order to ensure the normal use of the drill bit of the sampling device, so that a large amount of slurry can be generated in the process of rotating and sampling the drill bit, the sampling device is caused to pollute the ground in a large area in the use process, and meanwhile, the slurry pollutants can also cause the phenomenon of slipping on the top surface of the highway, so that the use cleanliness and the use safety of the sampling device are reduced.

Disclosure of Invention

The invention provides a highway construction quality detection system and a highway construction quality detection method, which can effectively solve the problems that in the process of drilling and sampling a highway through a sampling device, the drill bit is required to be continuously sprayed and cooled in order to ensure the normal use of the drill bit of the sampling device, so that a large amount of slurry is generated in the process of rotating and sampling the drill bit, the sampling device causes large-area pollution to the ground in the use process, and meanwhile, the slurry pollutants also cause the phenomenon of skidding on the top surface of the highway, so that the use cleanliness and the use safety of the sampling device are reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the quality detection system for highway construction comprises a mounting moving plate, wherein a mounting inner frame is mounted on the inner side of the mounting moving plate;

an independent circulating sealing anti-fouling mechanism is arranged at the top of the installation inner frame;

the independent circulating sealing antifouling mechanism comprises a mounting angle cylinder;

the top surface of the installation inner frame is provided with an installation angle cylinder, the inner side of the installation angle cylinder is connected with a lifting driving rod, the bottom end of the lifting driving rod is connected with a driving inclined rod, the end part of the driving inclined rod is connected with a driving circular ring, the bottom surface of the driving circular ring is adhered with a flexible rubber ring, the bottom surface of the flexible rubber ring is adhered with a sealing rubber ring, the outer side of the driving circular ring is connected with a connecting side plate, and one side of the connecting side plate is provided with an inflator pump;

a recovery bottom pipe is installed on one side of the sealant ring in a penetrating mode, a collection bottom pump is connected to the tail end of the recovery bottom pipe, a filtering front box is connected to one end of the collection bottom pump, a filtering bottom net is installed on the inner side of the filtering front box, a cleaning bottom frame is clamped on the inner side of the filtering front box, and a communication notch is formed in one side of the cleaning bottom frame;

the drainage pipe is arranged on the inner side of the filtering front box, the drainage top pump is fixedly connected to the tail end of the drainage pipe, the transfer valve is fixedly connected to one end of the drainage top pump, one end of the transfer valve is connected with the drainage top pipe, the drainage box is fixedly connected to the tail end of the drainage top pipe, one side of the transfer valve is connected with the transfer side pipe, and the tail end of the transfer side pipe is connected with the sewage collecting tail box;

The water storage curved box is installed at the end part of the installation moving plate, a shower pump is connected to one side of the water storage curved box, a flow dividing valve is fixedly connected to one side of the shower pump through a pipeline, spraying hoses are fixedly connected to two sides of the flow dividing valve, and spraying arc-shaped boxes are connected to the tail ends of the spraying hoses.

According to the technical scheme, the top surface of the installation inner frame is provided with the lifting sliding frame, the inner side of the lifting sliding frame is provided with the adjusting screw rod, the outer side of the lifting sliding frame is sleeved with the lifting side plate, the top surface of the lifting side plate is provided with the driving motor, and the bottom end of the output shaft of the driving motor is provided with the cutting cylinder;

the driving motor is powered by an external power supply, the collecting bottom pump is powered by the external power supply, the drainage top pump is powered by the external power supply, and the shower pump is powered by the external power supply;

the two sides of the installation moving plate are fixedly connected with an installation crutch rack at the position corresponding to the top of the installation crutch rack, a sliding ejector rod is fixedly connected at the position corresponding to the inside of the installation crutch rack at the top of the installation moving plate, an installation ejector rod is fixedly connected at the position corresponding to the guide groove at the top of the installation crutch rack at the top of the tail end of the sliding ejector rod, and a locking ring is sleeved at the position corresponding to the top surface of the installation crutch rack at the outer side of the installation ejector rod through threads;

When the cutting cylinder is used for checking and sampling the pavement, the outside of the sampling point is isolated and protected, so that the pollution to the surrounding environment caused by the random diffusion of sewage and dirt on a road in the sampling process is prevented.

According to the technical scheme, the middle part of one end of the lifting side plate is connected with the outer side of the adjusting screw rod through threads, the inflator pump is powered by an external power supply, and the end parts of the inflator pump are mutually communicated with the inner cavity of the telescopic rubber ring through the inflatable rubber tube.

According to the technical scheme, the cleaning underframe one end is provided with the lifting knob corresponding to the position of the outer side of the filtering front box, and the bottom surface of one side of the cleaning underframe is tightly attached to the bottom surface of the inner side of the filtering front box, and the cleaning underframe outer side is tightly attached to the side wall of the filtering front box.

According to the technical scheme, the water storage curved box top one side is provided with the water adding port, the drainage aperture has evenly been seted up to spray arc box one side cambered surface, closely slide the laminating between the ejector pin outside and the installation turn frame top inner chamber, closely laminate between locking ring bottom surface and the installation turn frame top surface.

According to the technical scheme, the bottom of the installation moving plate is provided with the end lifting adjusting protection mechanism, the height of the installation moving plate is adjusted through lifting, and the motion state of the sampling device is changed through changing the height of the installation moving plate, so that the running stability of the sampling device is ensured;

The end lifting adjusting and protecting mechanism comprises a supporting corner post;

the four corners of the bottom surface of the installation moving plate are fixedly provided with supporting corner posts, two sides of the bottom surface of each supporting corner post are adhered with supporting films, the top of the inner side of each supporting corner post is slidably provided with a lifting slide block, the middle part of the side surface of each lifting slide block rotates to penetrate through the installation rotating post, the outer side of the end part of each installation rotating post is fixedly sleeved with a moving roller corresponding to the outer side of the installation moving plate, one end of each installation rotating post is fixedly connected with a driving bending block corresponding to the bottom position of the installation moving plate, the middle part of the top surface of each driving bending block is provided with a mounting groove, and the bottom surface of the inner side of each mounting groove is fixedly provided with a lifting telescopic rod;

the two driving bending block side connecting blocks located at the same end are fixedly connected with lifting end plates, limiting rubber strips are adhered to two ends of the inner side of each lifting end plate, a bottom strip is fixedly connected with the bottom surface of each lifting end plate, a cleaning bottom brush is uniformly adhered to the middle of the bottom surface of each bottom strip, a laser marking box is embedded and installed in the middle of the top end of each lifting end plate, mounting end boxes are symmetrically and fixedly connected to the middle of two ends of one side of each lifting end plate, buffer springs are symmetrically and fixedly connected to two ends of one side of each mounting end box, sliding cross rods are fixedly connected to the positions of the ends of each buffer spring, buffer end plates are fixedly connected to the ends of each sliding cross rod, and protective rubber sheets are adhered to the middle of one side of each buffer end plate.

According to the technical scheme, the outer side of the lifting telescopic rod penetrates through the bottom of the installation moving plate, the outer side of the lifting telescopic rod is fixedly connected with the installation moving plate, and the thickness of the limiting adhesive tape is smaller than the distance between the side surface of the lifting end plate and the installation moving plate;

the laser marking lamp of laser marking box side is supplied power through its internal power source, slide and close slip laminating between the horizontal pole tip corresponds the installation end box inner wall.

According to the technical scheme, the bottom of one side of the water storage bent box is provided with the circulation auxiliary drying mechanism, and the circulation auxiliary drying mechanism is used for rotationally drying the outer side of the cut sample column and drying the sample column through the heated circulation air flow;

the circulating auxiliary drying mechanism comprises a connecting vertical plate;

the bottom of one side of the water storage bent box is fixedly provided with a connecting vertical plate, the bottoms of the two connecting vertical plates are fixedly connected with a long circular plate, one end of the bottom surface of the long circular plate is embedded and provided with a separation motor, the separation motor is powered by an external power supply, the top end of an output shaft of the separation motor is correspondingly provided with a driving belt wheel in a sleeved mode, the middle position of the other end of the long circular plate is rotatably provided with a driving side shaft, the outer side of the driving side shaft is correspondingly provided with a driven belt wheel in a sleeved mode, and the outer side positions of the driving belt wheel and the driven belt wheel are jointly coated with a driving belt;

The bottom end of the driving side shaft is fixedly provided with a connecting circular plate at a position corresponding to the bottom of the long circular plate, the edge part of the bottom surface of the connecting circular plate is fixedly connected with a protection side frame, the bottom surface of the protection side frame is fixedly connected with a placing circular plate, the middle part of the bottom surface of the placing circular plate is provided with a driving threaded bolt through threads, the top end of the driving threaded bolt is correspondingly provided with a lifting circular plate in a rotating manner at the position corresponding to the top surface of the placing circular plate, and the middle parts of the top surface of the lifting circular plate and the bottom surface of the connecting circular plate are both adhered with supporting adhesive tapes;

the top edge of the sewage collection tail box is fixedly connected with a limit frame at a position corresponding to the top of the movable plate, a support screen plate is embedded and installed at the bottom of the inner side of the limit frame, and an isolation sponge plate is bonded to the bottom surface of the support screen plate;

the utility model discloses a horizontal box of stoving, including the curved box of water storage, the curved box of water storage one side corresponds protection side bearer one side position department fixed mounting has the horizontal box of stoving, the inboard middle part equidistance fixed mounting of horizontal box of stoving has the heating diaphragm, horizontal box top middle part embedding of stoving is installed circulating fan, horizontal box one side fixedly connected with of stoving is bloied the otter board, it all rotates to be connected with spacing piece soon to bloied otter board positive bottom both corners department, it has sealed curb plate to bloied the positive top of otter board, horizontal box bottom surface one end middle part fixedly connected with guide duct of stoving, the terminal fixed connection of installation movable plate bottom surface position department of guide duct is blown horizontal box.

According to the technical scheme, the driving belt wheel and the driven belt wheel are located at the same height, the air outlet grooves are evenly formed in the middle of the side face of the air blowing screen plate at equal intervals, arc grooves are formed in two corners of the end portion of the air blowing screen plate, and the side face of the sealing side plate is tightly attached to the side face of the limiting rotating block in a vertical state.

According to the technical scheme, the quality detection method for highway construction, which uses the quality detection system for highway construction, comprises the following steps:

s1, when a highway sampling point to be detected needs to be sampled through a sampling device, each assembly on the upper top of the installation inner frame and each assembly on the installation inner frame need to be transported to a proper position through an installation moving plate, and a pavement is cut and sampled through a cutting cylinder in the descending process of the lifting side plate;

s2, after the pavement of the highway is cut through the cutting cylinder, the cut sample column is required to be taken out of the hole, cleaned and dried, and the sample column is taken out of the sampling hole and then is directly placed on the top of the supporting adhesive tape on the lifting circular plate, and the lifting circular plate is driven to rise by twisting the driving threaded bolt;

s3, continuously blowing air flow into the drying transverse box through the circulating fan while the sample column rotates, and heating the air flow flowing into the drying transverse box through the heating transverse plate;

S4, when the bottom surface is dried after the drying of the sample column is finished, the sealing side plate is turned downwards, and then the ground can be dried by blowing the continuously blown hot air flow at the bottom of the transverse box;

s5, after the outer sides of the movable rollers are in contact with the ground, the installation movable plate is lifted upwards through the reaction force generated in the downward movement process, so that the bottom of the supporting corner column is separated from the ground, the sampling device is moved through the movable rollers, and the road surface is cleaned through the cleaning bottom brush.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the independent circulating sealing anti-fouling mechanism is arranged, the sampling process of the sampling device is optimized through the mutual matching among all components in the independent circulating sealing anti-fouling mechanism, the temporary independent cavity formed by the telescopic rubber ring and the sealing rubber ring can be isolated through the structural design of the telescopic rubber ring and the sealing rubber ring, cooling water sprayed by the spraying arc box is still collected on the outer side of the cutting cylinder after the outer side of the cutting cylinder is flushed, and the cooling water is collected in the independent cavity to continuously cool the cutting cylinder, so that the consumption of the cooling water in the sampling process of the sampling device is effectively reduced, meanwhile, the pollution to other road areas caused by the random diffusion of slurry generated in the road cutting process is effectively prevented through the constraint of the cooling water, and the environmental protection of the sampling device is effectively improved;

Meanwhile, the spraying position of the water storage bent box is adjusted, cooling water sprayed by the water storage bent box can be concentrated in the telescopic rubber ring after the outside of the cutting cylinder is washed, the telescopic rubber ring can be controlled by the air pump to carry out periodic telescopic expansion, and the mud-water mixture in the independent cavity is stirred through the telescopic expansion of the telescopic rubber ring, so that sediment in the mixture is prevented from being precipitated, sediment mixture in the water discharge top pump can be circularly filtered through the bottom collecting pump and the water discharge top pump, sediment in the mixture is effectively prevented from remaining on a road after the sampling is finished, the using process of the sampling device is effectively improved, meanwhile, the whole cutting process of the cutting cylinder is carried out between liquid surfaces, noise generated by cutting the cutting cylinder can be blocked through the cooling water in the independent cavity, and the using experience of the sampling device is effectively improved.

2. The end lifting adjusting protection mechanism is arranged, the operation and use processes of the sampling device are optimized through the mutual matching among the components in the end lifting adjusting protection mechanism, the height position of the movable roller can be adjusted through the extension and contraction of the lifting telescopic rod, and then the movement state of the sampling device is changed, so that the bottom of the installation movable plate is stably supported by the sampling device in the operation process through the supporting corner posts and the supporting films, the shaking phenomenon of the sampling device in the operation process is effectively prevented, and the operation stability of the sampling device is effectively improved;

Simultaneously can mark sampling device's external area through the laser mark box to prevent that sampling device from being close to sampling device at will and taking place the accident at the in-process of operation, and then effectually improved sampling device's safety in utilization, can protect the both ends of installation movable plate through lift end plate and buffering end plate simultaneously, and then prevented that sampling device from bumping and damaging in the transportation, further improved sampling device's security in the transportation, and the in-process accessible clearance bottom brush that sampling device removed carries out simple and easy clearance to the road surface, further expanded sampling device's function, improved sampling device's usability.

3. The circulating auxiliary drying mechanism is arranged, the collecting and drying process of the sample column is optimized through the mutual matching among all components in the circulating auxiliary drying mechanism, the sample column can be rapidly clamped into the protective side frame through the driving threaded bolt, the lifting circular plate and the supporting adhesive tape, the sample column is rotated through the separating motor, water drops with large particles on the outer side of the sample column can be thrown out in the rotating process of the sample column, the water drops dropping on the side face of the sample column are collected and filtered through the limiting frame, the supporting mesh plate and the isolating sponge plate, the filtered water drops are collected through the sewage collecting tail box, meanwhile, the periphery of the sample column can be dried through the hot air flow continuously blown out by the drying transverse box, the sample column can be rapidly dried after being taken out, and the function of the sampling device is effectively expanded;

Meanwhile, after the collection of the sample column is completed, a small amount of residual moisture on the road is still required to be dried, and the side air outlet of the drying transverse box can be sealed through the limiting rotating block and the sealing side plate, so that heated hot air flow can directly blow onto the road through the air guide pipe and the blowing transverse box, and the residual moisture on the road around the sampling point is dried through the hot air flow, the functions of the sampling device are further expanded, and the use experience of the sampling device is improved.

In summary, through the mutual cooperation between independent circulation sealing antifouling mechanism and the circulation auxiliary drying mechanism, the sampling process and the sample treatment process of the road by the detection system are optimized, the independent chamber formed by the telescopic rubber ring and the sealing rubber ring can isolate the sampling point area, and then the influence on the surrounding environment in the sampling process of the sampling device is reduced, the sample column and the road surface are dried by the continuous circulating hot air flow, and then the post-treatment work of the sample and the sampling point after the sampling is optimized, the functions of the detection system are expanded, and the use convenience of the sampling device is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

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

FIG. 2 is a schematic view of the structure of the lifting end plate installation of the present invention;

FIG. 3 is a schematic view of the seal ring installation of the present invention;

FIG. 4 is a schematic view of the spray arced cartridge installation of the present invention;

FIG. 5 is a schematic view of the independent circulating seal anti-fouling mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the bottom collecting pump installation of the present invention;

FIG. 7 is a schematic view of the structure of the end lift adjustment guard mechanism of the present invention;

FIG. 8 is a schematic view of the construction of the cleaning brush assembly of the present invention;

FIG. 9 is a schematic view of the structure of the installation of the cushioning end plate of the present invention;

FIG. 10 is a schematic view of the circulation-assisted drying mechanism of the present invention;

FIG. 11 is a schematic view of the structure of the drive bolt installation of the present invention;

reference numerals in the drawings: 1. installing a moving plate; 2. installing an inner frame; 3. lifting the sliding frame; 4. adjusting a screw rod; 5. lifting the side plate; 6. a driving motor; 7. a cutting cylinder;

8. an independent circulating sealing antifouling mechanism; 801. installing a corner barrel; 802. a lifting driving rod; 803. driving the inclined rod; 804. driving the circular ring; 805. a flexible rubber ring; 806. a sealant ring; 807. connecting side plates; 808. an inflator pump; 809. recovering the bottom pipe; 810. collecting a bottom pump; 811. a filter cartridge; 812. a filter bottom screen; 813. cleaning a bottom frame; 814. a communication notch; 815. a drain pipe; 816. a drainage top pump; 817. a transfer valve; 818. a water draining jacking pipe; 819. a drain box; 820. a transfer side tube; 821. a sewage collection tail box; 822. a water storage bent box; 823. a shower pump; 824. a diverter valve; 825. a spray hose; 826. spraying an arc-shaped box; 827. installing a crutch rack; 828. sliding ejector rods; 829. installing a push rod; 830. a locking ring;

9. An end lifting adjusting and protecting mechanism; 901. supporting the corner posts; 902. supporting the film; 903. a lifting slide block; 904. installing a rotating column; 905. moving the roller; 906. driving the bending block; 907. a mounting groove; 908. lifting the telescopic rod; 909. lifting the end plate; 910. a limiting adhesive tape; 911. installing a bottom strip; 912. cleaning a bottom brush; 913. a laser marking box; 914. installing an end box; 915. a buffer spring; 916. a sliding cross bar; 917. a buffer end plate; 918. a protective film;

10. a circulation auxiliary drying mechanism; 1001. connecting a vertical plate; 1002. mounting a long circular plate; 1003. separating the motor; 1004. a driving belt wheel; 1005. a drive side shaft; 1006. a driven pulley; 1007. a drive belt; 1008. a connecting circular plate; 1009. a protective side frame; 1010. placing a circular plate; 1011. driving the threaded bolt; 1012. lifting the circular plate; 1013. supporting the adhesive tape; 1014. limiting frames; 1015. a support screen; 1016. isolating the sponge board; 1017. drying the transverse box; 1018. heating the transverse plate; 1019. a circulating fan; 1020. a blowing screen plate; 1021. limiting rotating blocks; 1022. sealing the side plates; 1023. an air guide pipe; 1024. blowing the transverse box.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-11, the invention provides a technical scheme, a quality detection system for highway construction, which comprises a mounting moving plate 1, wherein a mounting inner frame 2 is embedded in the middle part of the inner side of the mounting moving plate 1, lifting sliding frames 3 are fixedly arranged on two sides of one end of the top surface of the mounting inner frame 2, an adjusting screw 4 is rotatably arranged in the middle part of the inner side of the lifting sliding frames 3, lifting side plates 5 are sleeved in the middle part of the outer side of the lifting sliding frames 3 in a sliding manner, a driving motor 6 is arranged on one side of the top surface of each lifting side plate 5, the driving motor 6 is powered by an external power supply, the driving motor 6 is powered by the external power supply, and a cutting cylinder 7 is arranged at the bottom end of an output shaft of the driving motor 6;

the top of the installation inner frame 2 is provided with an independent circulating sealing anti-fouling mechanism 8 which is used for isolating and protecting the outer side of a sampling point when the cutting cylinder 7 is used for checking and sampling the pavement, so as to prevent pollution to the surrounding environment caused by random diffusion of sewage and dirt on the road in the sampling process;

the independent circulation sealing antifouling mechanism 8 comprises a mounting horn 801, a lifting driving rod 802, a driving inclined rod 803, a driving circular ring 804, a telescopic rubber ring 805, a sealing rubber ring 806, a connecting side plate 807, an inflator 808, a recycling bottom pipe 809, a collecting bottom pump 810, a pre-filtering box 811, a filtering bottom net 812, a cleaning bottom frame 813, a communicating notch 814, a drain pipe 815, a drain top pump 816, a transfer valve 817, a drain top pipe 818, a drain box 819, a transfer side pipe 820, a sewage collecting tail box 821, a water storage curved box 822, a shower pump 823, a diverter valve 824, a shower hose 825, a shower arc box 826, a mounting corner frame 827, a sliding top rod 828, a mounting top rod 829 and a locking ring 830;

The four corners of the top surface of the installation inner frame 2 are fixedly provided with installation angle barrels 801, the top of the inner side of the installation angle barrels 801 is fixedly connected with lifting driving rods 802, the bottom ends of the lifting driving rods 802 are fixedly connected with driving inclined rods 803 corresponding to the bottom position of the installation inner frame 2, the ends of the four driving inclined rods 803 are fixedly connected with driving circular rings 804 corresponding to the bottom position of the outer side of the cutting cylinder 7, the bottom edge of the driving circular rings 804 is adhered with telescopic rubber rings 805, the bottom edge of the telescopic rubber rings 805 is adhered with sealing rubber rings 806, the top of the outer side of the driving circular rings 804 is fixedly connected with connecting side plates 807, the middle part of one side of each connecting side plate 807 is fixedly provided with an inflator pump 808, the middle part of one end of each lifting side plate 5 is connected with the outer side of each adjusting screw rod 4 through threads, the inflator pump 808 is powered through an external power supply, and the ends of the inflator pump 808 are mutually communicated with the inner cavities of the telescopic rubber rings 805 through an inflating rubber tube;

a recovery bottom pipe 809 is installed in the middle of one side of the sealing glue ring 806 in a penetrating mode, a collection bottom pump 810 is fixedly connected to the position, corresponding to the bottom of the installation moving plate 1, of the tail end of the recovery bottom pipe 809, the collection bottom pump 810 is powered by an external power supply, a filtering front box 811 is fixedly connected to the position, corresponding to the bottom of the installation moving plate 1, of one end of the collection bottom pump 810 through a pipeline, a filtering bottom net 812 is embedded and installed at the bottom of the inner side of the filtering front box 811, a cleaning bottom frame 813 is slidably clamped to the position, corresponding to the bottom of the filtering bottom net 812, of the inner side of the filtering front box 811, a communicating notch 814 is formed in the position, corresponding to a connecting port of the end of the collection bottom pump 810, of one side of the cleaning bottom frame 813, a lifting knob is arranged at the position, corresponding to the outer side of the filtering front box 811, of the inner side of the cleaning bottom frame 813, and the side of the filtering front box 811, the cleaning bottom frame 813, and the side of the filtering front box 811 are tightly attached to each other side;

A drain pipe 815 is fixedly arranged on one side of the top of the inner side of the filtering front box 811, a drain top pump 816 is fixedly connected to the tail end of the drain pipe 815 corresponding to one side of the filtering front box 811, the drain top pump 816 is powered by an external power supply, one end of the drain top pump 816 is fixedly connected with a transfer valve 817 through a pipeline, the middle part of one end of the transfer valve 817 is fixedly connected with a drain top pipe 818, the tail end of the drain top pipe 818 is fixedly connected with a drain box 819 corresponding to the top side of the driving circular ring 804, one side of the transfer valve 817 is fixedly connected with a transfer side pipe 820, and the tail end of the transfer side pipe 820 is fixedly connected with a sewage collecting tail box 821 corresponding to the other end of the mounting moving plate 1;

the end part of the installation moving plate 1 is embedded and installed with a water storage bent box 822 corresponding to the position of one side of the sewage collection tail box 821, the bottom of one side of the water storage bent box 822 is fixedly connected with a shower pump 823 through a pipeline, the shower pump 823 is powered by an external power supply, one side of the shower pump 823 is fixedly connected with a diverter valve 824 through a pipeline, both sides of the diverter valve 824 are fixedly connected with spray hoses 825, both sides of the spray hose 825 corresponding to the top of the driving circular ring 804 are fixedly connected with spray arc boxes 826, both sides of the installation moving plate 1 are fixedly connected with installation bent frames 827 corresponding to the top of the spray arc boxes 826, the top of the spray arc boxes 826 is fixedly connected with sliding ejector rods 828 corresponding to the inner position of the installation bent frames 827, the top of the tail end of the sliding ejector rods 828 is fixedly connected with installation ejector rods 829 corresponding to the position of the guide grooves of the top of the installation bent frames 827, the outer sides of the installation ejector rods 829 are sleeved with locking rings 830 through threads, a water adding port is arranged at one side of the top end of the water storage bent box 822, a water draining small hole is uniformly arranged on one side cambered surface of the spray arc box 826, the outer side of the slide ejector rod 828 is tightly and slidably attached to the inner cavity of the top of the mounting bent frame 827, the bottom surface of the locking ring 830 is tightly attached to the top surface of the mounting bent frame 827, the sampling process of the sampling device is optimized through the mutual matching between the components in the independent circulating sealing anti-fouling mechanism 8, the periphery of a cutting point of the cutting cylinder 7 can be isolated through a temporary independent cavity formed by the telescopic rubber ring 805 and the sealing rubber ring 806, cooling water sprayed by the spray arc box 826 is still collected outside the cutting cylinder 7 after the washing of the outer side of the cutting cylinder 7 is completed, the cutting cylinder 7 can be continuously cooled through the cooling water collected in the independent cavity, the consumption of cooling water in the sampling process of the sampling device is effectively reduced, meanwhile, the pollution to other road areas caused by random diffusion of slurry generated in the road cutting process is effectively prevented through the constraint of the cooling water, and the environmental protection of the sampling device is effectively improved;

Meanwhile, by adjusting the spraying position of the water storage bent box 822, the cooling water sprayed by the water storage bent box 822 can be concentrated in the telescopic rubber ring 805 after the outside of the cutting cylinder 7 is washed, the telescopic rubber ring 805 can be controlled to be periodically telescopic expanded through the inflator pump 808, the mud-water mixture in the independent cavity is stirred through the telescopic expansion of the telescopic rubber ring 805, sediment in the mixture is prevented from being precipitated, the sediment mixture in the water drainage top pump 816 can be circularly filtered through the bottom collecting pump 810 and the water drainage top pump 816, sediment in the mixture is effectively prevented from remaining on a road after the sampling is finished, the using process of the sampling device is effectively improved, meanwhile, the whole cutting process of the cutting cylinder 7 is performed between liquid surfaces, noise generated by the cutting of the cutting cylinder 7 can be blocked through the cooling water in the independent cavity, and the using experience of the sampling device is effectively improved;

the bottom of the installation mobile plate 1 is provided with an end lifting adjusting and protecting mechanism 9, the height of the installation mobile plate 1 is adjusted through lifting, and the motion state of the sampling device is changed through changing the height of the installation mobile plate 1, so that the running stability of the sampling device is ensured;

The end lifting adjusting and protecting mechanism 9 comprises a supporting corner post 901, a supporting film 902, a lifting slider 903, a mounting rotating post 904, a moving roller 905, a driving bending block 906, a mounting groove 907, a lifting telescopic rod 908, a lifting end plate 909, a limiting adhesive tape 910, a mounting bottom strip 911, a cleaning bottom brush 912, a laser marking box 913, a mounting end box 914, a buffer spring 915, a sliding cross rod 916, a buffer end plate 917 and a protecting film 918;

support corner posts 901 are fixedly arranged at four corners of the bottom surface of the installation moving plate 1, support films 902 are adhered to two sides of the bottom surface of the support corner posts 901, lifting slide blocks 903 are slidably arranged at the tops of the inner sides of the support corner posts 901, installation rotating posts 904 are rotatably and penetratingly arranged in the middle of the side surfaces of the lifting slide blocks 903, moving rollers 905 are fixedly sleeved at positions, corresponding to the outer sides of the installation moving plate 1, of the end parts of the installation rotating posts 904, driving bending blocks 906 are fixedly connected at positions, corresponding to the bottom parts of the installation moving plate 1, of one ends of the installation rotating posts 904, installation grooves 907 are formed in the middle of the top surfaces of the driving bending blocks 906, and lifting telescopic rods 908 are fixedly arranged at the bottoms of the inner sides of the installation grooves 907;

the two driving bending blocks 906 are fixedly connected with a lifting end plate 909 at the same end, limiting rubber strips 910 are adhered to two ends of the inner side of the lifting end plate 909, a mounting bottom strip 911 is fixedly connected to the bottom surface of the lifting end plate 909, a cleaning bottom brush 912 is uniformly adhered to the middle of the bottom surface of the mounting bottom strip 911, a laser marking box 913 is embedded and mounted in the middle of the top end of the lifting end plate 909, mounting end boxes 914 are symmetrically and fixedly connected to the middle of two ends of one side of the lifting end plate 909, buffer springs 915 are symmetrically and fixedly connected to two ends of one side of the inner side of the mounting end box 914, sliding cross rods 916 are fixedly connected to the buffer end plates 917 at positions corresponding to the inner sides of the mounting end boxes 914, protective rubber strips 918 are adhered to the middle of one side of the buffer end plates 917, the outer sides of the lifting telescopic rods 908 penetrate through the bottom of the mounting moving plate 1, the outer sides of the lifting telescopic rods 908 are fixedly connected with the mounting moving plate 1, and the thickness of the limiting rubber strips 910 is smaller than the distance between the side of the lifting end plate 909 and the mounting moving plate 1;

The laser marking lamp on the side surface of the laser marking box 913 supplies power through an internal power supply, the end part of the sliding cross rod 916 is closely attached to the inner wall of the mounting end box 914 in a sliding manner, the operation and use processes of the sampling device are optimized through the mutual matching among the components in the end part lifting adjusting and protecting mechanism 9, the height position of the movable roller 905 can be adjusted through the stretching of the lifting telescopic rod 908, the movement state of the sampling device is changed, the bottom of the mounting movable plate 1 can be stably supported through the supporting corner posts 901 and the supporting films 902 in the operation process of the sampling device, the shaking phenomenon of the sampling device in the operation process is effectively prevented, and the operation stability of the sampling device is effectively improved;

meanwhile, the laser marking box 913 can be used for marking the external area of the sampling device so as to prevent accidents caused by the fact that a surrounding person approaches the sampling device at will in the operation process of the sampling device, so that the use safety of the sampling device is effectively improved, meanwhile, the two ends of the installation moving plate 1 can be protected through the lifting end plate 909 and the buffering end plate 917, further, the sampling device is prevented from being damaged due to collision in the transportation process, the safety of the sampling device in the transportation process is further improved, and the road surface can be simply cleaned through the cleaning bottom brush 912 in the movement process of the sampling device, so that the functions of the sampling device are further expanded, and the usability of the sampling device is improved;

The bottom of one side of the water storage bent box 822 is provided with a circulation auxiliary drying mechanism 10 which is used for rotationally drying the outer side of the cut sample column and drying the sample column through the heated circulation airflow;

the circulation auxiliary drying mechanism 10 includes a connection riser 1001, an installation long circular plate 1002, a separation motor 1003, a driving pulley 1004, a driving side shaft 1005, a driven pulley 1006, a driving belt 1007, a connection circular plate 1008, a protection side frame 1009, a placement circular plate 1010, a driving screw bolt 1011, a lifting circular plate 1012, a supporting adhesive tape 1013, a limit frame 1014, a supporting mesh plate 1015, an isolation sponge plate 1016, a drying cross box 1017, a heating cross plate 1018, a circulation fan 1019, a blowing mesh plate 1020, a limit rotation block 1021, a sealing side plate 1022, an air guide pipe 1023, and a blowing cross box 1024;

a connecting riser 1001 is fixedly arranged at the bottom of one side of the water storage bending box 822, the bottoms of the two connecting risers 1001 are fixedly connected with a long circular plate 1002, one end of the bottom surface of the long circular plate 1002 is embedded and provided with a separating motor 1003, the separating motor 1003 is powered by an external power supply, the top end of an output shaft of the separating motor 1003 is correspondingly provided with a driving belt wheel 1004 in a sleeved mode, a driving side shaft 1005 is rotatably arranged at the middle position of the other end of the long circular plate 1002, a driven belt wheel 1006 is sleeved at the outer side of the driving side shaft 1005 and corresponds to the position of one side of the driving belt wheel 1004, and a driving belt 1007 is jointly coated at the outer side positions of the driving belt wheel 1004 and the driven belt wheel 1006;

A connecting circular plate 1008 is fixedly arranged at the bottom end of the driving side shaft 1005 corresponding to the bottom position of the long circular plate 1002, a protection side frame 1009 is fixedly connected to the edge of the bottom surface of the connecting circular plate 1008, a placing circular plate 1010 is fixedly connected to the bottom surface of the protection side frame 1009, a driving threaded bolt 1011 is arranged at the middle part of the bottom surface of the placing circular plate 1010 through threads, a lifting circular plate 1012 is rotatably arranged at the top end of the driving threaded bolt 1011 corresponding to the top surface position of the placing circular plate 1010, and supporting adhesive tapes 1013 are adhered to the middle parts of the top surface of the lifting circular plate 1012 and the bottom surface of the connecting circular plate 1008;

a limit frame 1014 is fixedly connected to the top of the movable plate 1 at the edge of the top of the sewage collection tail box 821, a support screen 1015 is embedded and mounted at the bottom of the inner side of the limit frame 1014, and an isolation sponge plate 1016 is bonded to the bottom of the support screen 1015;

a drying transverse box 1017 is fixedly arranged at the position of one side of the water storage bending box 822 corresponding to one side of the protective side frame 1009, a heating transverse plate 1018 is fixedly arranged at the middle part of the inner side of the drying transverse box 1017 at equal intervals, a circulating fan 1019 is embedded and arranged at the middle part of the top end of the drying transverse box 1017, a blowing screen 1020 is fixedly connected at one side of the drying transverse box 1017, limiting rotating blocks 1021 are rotationally connected at two corners of the bottom of the front of the blowing screen 1020, a sealing side plate 1022 is hinged at the top of the front of the blowing screen 1020, an air guide pipe 1023 is fixedly connected at the middle part of one end of the bottom of the drying transverse box 1017, a blowing transverse box 1024 is fixedly connected at the position of the tail end of the air guide pipe 1023 corresponding to the bottom of the installation mobile plate 1, a driving pulley 1004 and a driven pulley 1006 are positioned at the same height, air outlet grooves are uniformly formed at the middle part of the side surface of the blowing screen 1020 at equal intervals, arc grooves are formed at the two corners of the end of the blowing screen 1020, the sealed side plate 1022 is tightly attached between the side surface and the side surface of the limiting rotating block 1021 in the vertical state, the collection and drying process of the sample column is optimized through the mutual matching between the components in the circulation auxiliary drying mechanism 10, the sample column can be quickly clamped into the protective side frame 1009 through the driving threaded bolt 1011, the lifting circular plate 1012 and the supporting adhesive tape 1013, the sample column is rotated through the separating motor 1003, the water drops with large particles on the outer side can be thrown out in the rotating process of the sample column, the water drops dropping on the side surface of the sample column are collected and filtered through the limiting frame 1014, the supporting mesh 1015 and the isolating sponge plate 1016, the filtered water drops are collected through the sewage collecting tail box 821, meanwhile, the periphery of the sample column can be dried through the continuously blown hot air flow of the drying transverse box 1017, the sample column can be effectively ensured to be quickly dried after being taken out for collection, further effectively expanding the functions of the sampling device;

Meanwhile, after the collection of the sample column is completed, a small amount of residual moisture on the road is still required to be dried, and the side air outlet of the drying transverse box 1017 can be sealed through the limiting rotating block 1021 and the sealing side plate 1022, so that heated hot air flow can be directly blown onto the road through the air guide pipe 1023 and the blowing transverse box 1024, and the residual moisture on the road surface around the sampling point is dried through the hot air flow, the function of the sampling device is further expanded, and the use experience of the sampling device is improved.

The quality detection method for highway construction uses a quality detection system for highway construction, and comprises the following steps:

s1, when a highway sampling point to be detected needs to be sampled through a sampling device, the installation of the inner frame 2 and components on the upper top of the inner frame are transported to a proper position through the installation of the movable plate 1, and the pavement is cut and sampled through the cutting cylinder 7 in the descending process of the lifting side plate 5;

s2, after the pavement of the highway is cut through the cutting cylinder 7, the cut sample column is required to be taken out of the hole, cleaned and dried, the sample column is taken out of the sampling hole and then is directly placed on the top of the supporting adhesive tape 1013 on the lifting circular plate 1012, and the lifting circular plate 1012 is driven to ascend by twisting the driving threaded bolt 1011;

S3, continuously blowing air flow into the drying transverse box 1017 through the circulating fan 1019 while the sample column rotates, and heating the air flow flowing into the drying transverse box 1017 through the heating transverse plate 1018;

s4, when the bottom surface is dried after the drying of the sample column is finished, the sealing side plate 1022 is turned downwards, and then the ground can be dried by blowing the continuously blown hot air flow at the bottom of the transverse box 1024;

s5, after the outer side of the movable roller 905 is contacted with the ground, the installation movable plate 1 is lifted upwards by the reaction force generated in the downward movement process, so that the bottom of the support corner column 901 is separated from the ground, the sampling device is moved by the movable roller 905, and the road surface is cleaned by the cleaning bottom brush 912.

The working principle and the using flow of the invention are as follows: in the practical application process, when a highway sampling point to be detected is required to be sampled through a sampling device, the installation moving plate 1 is required to transport all components on the installation inner frame 2 and the upper top of the installation inner frame to a proper position, the lifting side plate 5 is driven by the rotation adjusting screw 4 to freely lift and adjust along the outer side of the lifting sliding frame 3, the driving motor 6 is driven after the lifting sliding frame 3 is lifted to a proper height, the cutting cylinder 7 is driven by the driving motor 6 to rotate at a high speed, and then the pavement is cut and sampled through the cutting cylinder 7 in the descending process of the lifting side plate 5;

When the road surface is sampled through the cutting cylinder 7, the lifting driving rod 802 is installed at the top of the installation inner frame 2 through the installation angle cylinder 801, the driving inclined rod 803 and the driving circular ring 804 are driven to descend along the outer side of the cutting cylinder 7 through the extension of the lifting driving rod 802, the telescopic rubber ring 805 and the sealing rubber ring 806 are driven to vertically descend through the driving circular ring 804, the bottom surface of the sealing rubber ring 806 is tightly attached to the road surface, and the top of a road surface cutting area is isolated and sealed through the telescopic rubber ring 805 and the sealing rubber ring 806;

while the cutting cylinder 7 cuts the road surface, the clear water stored in the water storage curved box 822 is transported by the flushing pump 823, the clear water discharged by the flushing pump 823 is guided into the spraying hose 825 by the flow dividing valve 824, then the clear water is guided into the spraying arc box 826 by the spraying hose 825, finally the clear water is discharged into the telescopic glue ring 805 and the sealing glue ring 806 by the small water discharging holes on the side surface of the spraying arc box 826, and the clear water is restrained into the external area of the cutting cylinder 7 by the telescopic glue ring 805 and the sealing glue ring 806, so that the clear water is prevented from being randomly diffused after being sprayed;

along with continuous cutting of the pavement by the cutting cylinder 7, slurry generated by cutting the pavement can be directly mixed into clear water of the inner rings of the telescopic rubber ring 805 and the sealing rubber ring 806, along with continuous increase of slurry dirt of the inner rings of the telescopic rubber ring 805 and the sealing rubber ring 806, a slurry-water mixture of the inner rings of the sealing rubber ring 806 is collected and transported by the recovery bottom pipe 809 and the collection bottom pump 810, and in the process of collecting the slurry-water mixture of the inner rings of the telescopic rubber ring 805 by the recovery bottom pipe 809, the interior of the telescopic rubber ring 805 is alternately inflated by the inflation pump 808, and then the slurry-water mixture of the inner rings of the telescopic rubber ring 805 is alternately expanded by the telescopic rubber ring 805 to prevent the sediment in the mixture from settling downwards and not being fully collected;

In the process that the mud-water mixture continuously rises after entering the bottom of the pre-filtration box 811, the mud-water mixture is filtered through the filtering bottom net 812, dirt in the mixture can be intercepted to the bottom of the filtering bottom net 812, the inside of the pre-filtration box 811 is cleaned by pulling the cleaning bottom frame 813 after the sampling device is used for a period of time, the filtered circulating water can be guided into the transfer valve 817 through the drain pipe 815 and the drain top pump 816 after being filtered, when the filtered circulating water needs to be sprayed to the outer side of the cutting drum 7 again, the circulating water is guided into the drain box 819 through the drain top pipe 818, and the circulating water is guided into the inner ring of the sealing glue ring 806 again through the drain box 819, and when the circulating water needs to be independently collected, the circulating water is guided into the inside of the transfer side pipe 820 through the transfer valve 817, and the circulating water is guided into the inside of the sewage collecting tail box 821 through the transfer side pipe 820 for storage, so that the cutting drum 7 cannot be diffused and leaked at will after road cutting;

after the pavement of the highway is cut through the cutting cylinder 7, the cut sample column is required to be taken out from the hole, the sample column is cleaned and dried, the sample column is taken out from the inside of the sampling hole and then is directly placed on the top of the supporting rubber strip 1013 on the lifting circular plate 1012, the lifting circular plate 1012 is driven to ascend through the torsion driving threaded bolt 1011, the sample column is driven to ascend synchronously in the ascending process of the lifting circular plate 1012, after the top surface of the sample column is tightly attached to the supporting rubber strip 1013 on the bottom surface of the connecting circular plate 1008, the clamping of the sample column is completed, when the sample column is required to be dried, the separating motor 1003 and components connected to the separating motor are installed on the side surface of the water storage curved box 822, the driving pulley 1004 is driven to rotate through the separating motor 1003, the driven pulley is driven to synchronously rotate through the driving belt 1007, the driving side shaft 1005 and the connecting circular plate 1008 are driven to synchronously rotate through the rotation of the driven pulley 1006, and the protecting circular plate 1008 and the placing circular plate 1010 are driven to synchronously rotate through the connecting circular plate 1008 and the placing circular plate 1010, and thus the sample column is driven to rotate through the connecting circular plate 1008 and the placing circular plate 1010;

While the sample column rotates, air flow is continuously blown into the drying transverse box 1017 through the circulating fan 1019, the air flow flowing into the drying transverse box 1017 is heated through the heating transverse plate 1018, then hot air flow is blown to the sample column from the side face of the protection side frame 1009 through the blowing net plate 1020, and further rapid rotary drying of the sample column is realized through rotation of the sample column and continuous blowing of hot air flow, meanwhile, the sample column placed at the top of the sewage collection tail box 821 is supported through the supporting net plate 1015, meanwhile, the sample column placed at the top of the supporting net plate 1015 is limited through the limiting frame 1014, and sewage dropped by the sample column is filtered through the isolating sponge plate 1016;

when the bottom surface is dried after the drying of the sample column is finished, the sealing side plate 1022 is turned downwards, after the side surface of the sealing side plate 1022 is tightly attached to the side surface of the blowing net 1020, the limiting rotary block 1021 is rotated to limit the sealing side plate 1022, hot air in the drying transverse box 1017 can be guided into the blowing transverse box 1024 through the air guide pipe 1023, then hot air flow is blown to the road surface through the air blowing holes at the bottom of the blowing transverse box 1024, and further the ground can be dried through the hot air flow continuously blown out from the bottom of the blowing transverse box 1024;

After the sample column of a sampling point is sampled, the mounting moving plate 1 needs to be deformed and moved, and under the state that the lifting telescopic rod 908 is contracted, the bottom surface of the supporting film 902 at the bottom of the supporting corner column 901 can be directly contacted with the ground, so that the mounting moving plate 1 can be stably supported through the supporting corner column 901 and the supporting film 902, the shaking phenomenon of the sampling device in the operation process is effectively prevented, and the operation stability of the sampling device is effectively improved;

in the process of needing to move the installation moving plate 1, the driving bending block 906 is driven to move downwards along the bottom of the installation moving plate 1 by the extension of the lifting telescopic rod 908, the lifting sliding block 903 and the installation rotating column 904 are synchronously driven to move downwards along the inside of the supporting corner column 901 in the process of driving the bending block 906 to move downwards, the moving roller 905 is synchronously driven to move downwards in the process of moving the installation rotating column 904, after the outer side of the moving roller 905 is contacted with the ground, the installation moving plate 1 is lifted upwards by the reaction force generated in the downward moving process, so that the bottoms of the supporting corner column 901 are separated from the ground, and the sampling device is further moved by the moving roller 905;

During the movement of the sampling device, the two ends of the sampling device are protected through the lifting end plate 909, when the end part of the sampling device collides with an external hard object, the end part of the buffer end plate 917 is protected through the protection rubber piece 918, then vibration is transmitted to the buffer spring 915 through the sliding cross rod 916 after the buffer end plate 917 receives impact, the sliding cross rod 916 can slide back and forth along the inside of the mounting end box 914, the kinetic energy of the buffer end plate 917 after the impact is consumed through the expansion and contraction of the buffer spring 915, and meanwhile the back surface of the lifting end plate 909 is limited through the limiting rubber piece 910;

meanwhile, warning lines can be projected on the road surface through the laser marking box 913 so as to remind bystanders to keep away in the operation process of the sampling device, and in the normal running process of the sampling device, the cleaning bottom brush 912 is installed at the bottom of the lifting end plate 909 through the installation bottom strip 911, road surfaces are cleaned through the cleaning bottom brush 912, after the sampling is completed, the required detection of hardness, materials and the like can be carried out on the samples, so that better data analysis is provided for the whole road construction.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a quality detection system of highway construction, includes installation movable plate (1), its characterized in that: an installation inner frame (2) is installed on the inner side of the installation moving plate (1);

an independent circulating sealing anti-fouling mechanism (8) is arranged at the top of the installation inner frame (2);

the independent circulating sealing antifouling mechanism (8) comprises a mounting horn (801);

the novel air pump is characterized in that an installation angle cylinder (801) is installed on the top surface of the installation inner frame (2), an elevating driving rod (802) is connected to the inner side of the installation angle cylinder (801), a driving inclined rod (803) is connected to the bottom end of the elevating driving rod (802), a driving circular ring (804) is connected to the end of the driving inclined rod (803), a flexible rubber ring (805) is adhered to the bottom surface of the driving circular ring (804), a sealing rubber ring (806) is adhered to the bottom surface of the flexible rubber ring (805), a connecting side plate (807) is connected to the outer side of the driving circular ring (804), and an air pump (808) is installed on one side of the connecting side plate (807);

a recovery bottom pipe (809) is installed on one side of the sealing glue ring (806) in an inserted mode, a collection bottom pump (810) is connected to the tail end of the recovery bottom pipe (809), a filtering front box (811) is connected to one end of the collection bottom pump (810), a filtering bottom net (812) is installed on the inner side of the filtering front box (811), a cleaning bottom frame (813) is clamped on the inner side of the filtering front box (811), and a communication notch (814) is formed in one side of the cleaning bottom frame (813);

The filter is characterized in that a drain pipe (815) is arranged on the inner side of the filter front box (811), the tail end of the drain pipe (815) is fixedly connected with a drain top pump (816), one end of the drain top pump (816) is fixedly connected with a transfer valve (817), one end of the transfer valve (817) is connected with a drain top pipe (818), the tail end of the drain top pipe (818) is fixedly connected with a drain box (819), one side of the transfer valve (817) is connected with a transfer side pipe (820), and the tail end of the transfer side pipe (820) is connected with a sewage collection tail box (821);

the water storage curved box (822) is installed at the end part of the installation moving plate (1), a shower pump (823) is connected to one side of the water storage curved box (822), a diverter valve (824) is fixedly connected to one side of the shower pump (823) through a pipeline, spraying hoses (825) are fixedly connected to two sides of the diverter valve (824), and spraying arc-shaped boxes (826) are connected to the tail ends of the spraying hoses (825).

2. The highway construction quality detection system according to claim 1, wherein a lifting sliding frame (3) is installed on the top surface of the installation inner frame (2), an adjusting screw rod (4) is installed on the inner side of the lifting sliding frame (3), a lifting side plate (5) is sleeved on the outer side of the lifting sliding frame (3), a driving motor (6) is installed on the top surface of the lifting side plate (5), and a cutting cylinder (7) is installed at the bottom end of an output shaft of the driving motor (6);

The driving motor (6) is powered by an external power supply, the collecting bottom pump (810) is powered by the external power supply, the draining top pump (816) is powered by the external power supply, and the shower pump (823) is powered by the external power supply;

the two sides of the installation moving plate (1) are fixedly connected with an installation crutch rack (827) corresponding to the top position of the installation cambered box (826), the inner position of the installation crutch rack (827) corresponding to the top end of the spraying cambered box (826) is fixedly connected with a sliding ejector rod (828), the top of the tail end of the sliding ejector rod (828) is fixedly connected with an installation ejector rod (829) corresponding to the top guide groove position of the installation crutch rack (827), and the outer side of the installation ejector rod (829) is sleeved with a locking ring (830) through threads corresponding to the top surface position of the installation crutch rack (827);

when the pavement is inspected and sampled by the cutting cylinder (7), the outer side of the sampling point is isolated and protected, so that pollution to the surrounding environment caused by random diffusion of sewage and dirt on the highway in the sampling process is prevented.

3. The highway construction quality detection system according to claim 2, wherein the middle part of one end of the lifting side plate (5) is connected with the outer side of the adjusting screw rod (4) through threads, the inflator pump (808) is powered through an external power supply, and the end part of the inflator pump (808) is communicated with the inner cavity of the telescopic rubber ring (805) through an inflatable rubber tube.

4. The highway construction quality detection system according to claim 2, wherein a lifting knob is arranged at one end of the cleaning bottom frame (813) corresponding to the outer side of the filtering front box (811), the bottom surface of one side inside the cleaning bottom frame (813) is tightly attached to the bottom surface of the inner side of the filtering front box (811), and the outer side of the cleaning bottom frame (813) is tightly attached to the side wall of the filtering front box (811).

5. The highway construction quality detection system according to claim 2, wherein a water adding port is arranged on one side of the top end of the water storage bent box (822), water draining small holes are uniformly formed in the cambered surface on one side of the spraying arc box (826), the outer side of the sliding ejector rod (828) is tightly and slidably attached to the inner cavity of the top of the mounting bent frame (827), and the bottom surface of the locking ring (830) is tightly attached to the top surface of the mounting bent frame (827).

6. The highway construction quality detection system according to claim 2, wherein the bottom of the installation moving plate (1) is provided with an end lifting adjustment protection mechanism (9), the height of the installation moving plate (1) is adjusted by lifting, and the movement state of the sampling device is changed by changing the height of the installation moving plate (1), so as to ensure the running stability of the sampling device;

The end lifting adjusting protection mechanism (9) comprises a supporting corner post (901);

support corner posts (901) are fixedly arranged at four corners of the bottom surface of the installation moving plate (1), support films (902) are adhered to two sides of the bottom surface of each support corner post (901), lifting sliding blocks (903) are slidably arranged at the tops of the inner sides of the support corner posts (901), installation rotating posts (904) are rotatably and penetratingly arranged in the middle of the side surfaces of the lifting sliding blocks (903), moving rollers (905) are fixedly sleeved at positions, corresponding to the positions, on the outer sides of the end parts of the installation rotating posts (904), of the installation moving plate (1), driving bending blocks (906) are fixedly connected at positions, corresponding to the positions, of the bottoms of the installation moving plate (1), mounting grooves (907) are formed in the middle of the top surfaces of the driving bending blocks (906), and lifting telescopic rods (908) are fixedly arranged on the bottoms of the inner sides of the installation grooves (907).

Two of the driving bending blocks (906) located at the same end are fixedly connected with lifting end plates (909) at the side connection blocks, limiting rubber strips (910) are adhered to the two ends of the inner side of each lifting end plate (909), mounting bottom strips (911) are fixedly connected to the bottom surfaces of the lifting end plates (909), cleaning bottom brushes (912) are uniformly adhered to the middle parts of the bottom surfaces of the mounting bottom strips (911), laser marking boxes (913) are embedded in the middle parts of the top ends of the lifting end plates (909), mounting end boxes (914) are symmetrically and fixedly connected to the middle parts of one side of each lifting end plate (909), buffer springs (915) are symmetrically and fixedly connected to the positions of the ends of the inner sides of the mounting end boxes (914), sliding cross rods (916) are fixedly connected to buffer end plates (917) at the positions of the ends of the sliding cross rods, and protection films (918) are adhered to the middle parts of one side of the buffer end plates.

7. The highway construction quality detection system according to claim 6, wherein the outer side of the lifting telescopic rod (908) penetrates through the bottom of the installation moving plate (1), the outer side of the lifting telescopic rod (908) is fixedly connected with the installation moving plate (1), and the thickness of the limiting adhesive tape (910) is smaller than the distance between the side surface of the lifting end plate (909) and the installation moving plate (1);

the laser marking lamp on the side face of the laser marking box (913) is powered by an internal power supply, and the end part of the sliding cross rod (916) is in close sliding fit with the inner wall of the mounting end box (914).

8. The highway construction quality detection system according to claim 2, wherein a circulation auxiliary drying mechanism (10) is arranged at the bottom of one side of the water storage bent box (822) and is used for rotationally drying the outer side of the cut sample column and drying the sample column through the heated circulation air flow;

the circulation auxiliary drying mechanism (10) comprises a connecting vertical plate (1001);

the water storage bending box comprises a water storage bending box body (822), wherein a connecting vertical plate (1001) is fixedly arranged at the bottom of one side of the water storage bending box body, two long circular plates (1002) are fixedly connected to the bottom of the connecting vertical plate (1001), a separation motor (1003) is embedded into one end of the bottom of each long circular plate (1002), the separation motor (1003) is powered by an external power supply, a driving belt wheel (1004) is sleeved at the position, corresponding to the top of each long circular plate (1002), of the top end of an output shaft of the separation motor (1003), a driving side shaft (1005) is rotatably arranged at the position, corresponding to the driving belt wheel (1004), of the outer side of each driving side shaft (1005), a driven belt wheel (1006) is sleeved at the position, corresponding to one side of each driving belt wheel (1004), and a driving belt (1007) is jointly coated at the position, corresponding to the outer side of each driven belt wheel (1006);

The device is characterized in that a connecting circular plate (1008) is fixedly arranged at the bottom position of the bottom end of the driving side shaft (1005) corresponding to the bottom position of the long circular plate (1002), a protection side frame (1009) is fixedly connected to the edge of the bottom surface of the connecting circular plate (1008), a placing circular plate (1010) is fixedly connected to the bottom surface of the protection side frame (1009), a driving threaded bolt (1011) is arranged in the middle of the bottom surface of the placing circular plate (1010) through threads, a lifting circular plate (1012) is rotatably arranged at the top end of the driving threaded bolt (1011) corresponding to the top surface position of the placing circular plate (1010), and supporting adhesive tapes (1013) are adhered to the middle of the top surface of the lifting circular plate (1012) and the middle of the bottom surface of the connecting circular plate (1008);

a limit frame (1014) is fixedly connected to the top of the movable plate (1) correspondingly arranged at the top edge of the sewage collection tail box (821), a support screen plate (1015) is embedded and arranged at the bottom of the inner side of the limit frame (1014), and an isolation sponge plate (1016) is bonded to the bottom surface of the support screen plate (1015);

a drying transverse box (1017) is fixedly arranged at one side of the water storage bent box (822) corresponding to one side of the protection side frame (1009), a heating transverse plate (1018) is fixedly arranged at the middle part of the inner side of the drying transverse box (1017) at equal intervals, a circulating fan (1019) is embedded and arranged at the middle part of the top end of the drying transverse box (1017), a blowing screen plate (1020) is fixedly connected to one side of the drying transverse box (1017), the utility model discloses a drying device, including mesh board (1020) of blowing, sealed curb plate (1022) are articulated in mesh board (1020) of blowing positive bottom both corners department all rotates to be connected with spacing rotating block (1021), mesh board (1020) of blowing positive top, horizontal box (1017) of stoving bottom surface one end middle part fixedly connected with guide duct (1023), the terminal fixed connection of corresponding installation movable plate (1) bottom surface position department of guide duct (1023) is blown horizontal box (1024).

9. The highway construction quality detection system according to claim 8, wherein the driving pulley (1004) and the driven pulley (1006) are located at the same height, air outlet grooves are uniformly formed in the middle of the side surface of the air blowing screen plate (1020) at equal intervals, arc grooves are formed in two corners of the end part of the air blowing screen plate (1020), and the side surface of the sealing side plate (1022) is tightly attached to the side surface of the limiting rotary block (1021) in a vertical state.

10. A quality inspection method of highway construction using the quality inspection system of highway construction according to claim 8, comprising the steps of:

s1, when a highway sampling point to be detected needs to be sampled through a sampling device, the installation inner frame (2) and components on the upper top of the installation inner frame are transported to a proper position through the installation moving plate (1), and a pavement is cut and sampled through the cutting cylinder (7) in the descending process of the lifting side plate (5);

s2, after the pavement of the highway is cut through the cutting cylinder (7), the cut sample column is required to be taken out of the hole, cleaned and dried, the sample column is taken out of the sampling hole and then is directly placed on the top of the supporting adhesive tape (1013) on the lifting circular plate (1012), and the lifting circular plate (1012) is driven to rise by twisting the driving threaded bolt (1011);

S3, continuously blowing air flow into the drying transverse box (1017) through a circulating fan (1019) while the sample column rotates, and heating the air flow flowing into the drying transverse box (1017) through a heating transverse plate (1018);

s4, when the bottom surface is dried after the drying of the sample column is finished, the sealing side plate (1022) is turned downwards, and then the ground can be dried by blowing the continuously blown hot air flow at the bottom of the transverse box (1024);

s5, after the outer side of the movable roller (905) is in contact with the ground, the installation movable plate (1) is lifted upwards through a reaction force generated in the downward movement process, so that the bottom of the support corner column (901) is separated from the ground, the sampling device is moved through the movable roller (905), and the road surface is cleaned through the cleaning bottom brush (912).