CN210005449U - pavement damage monitoring devices based on big data technology - Google Patents

Abstract

The utility model discloses a road surface disease monitoring devices based on big data technology, the support column that is cylindric structure including vertical arrangement, transversely fix the base in this support column bottom, fix and laminate in the shock transducer on road surface in the base bottom, link firmly the case that holds that is the rectangle form on this support column top, link firmly at the camera installation mechanism who holds the roof end, and be located camera installation mechanism top and be used for the monitoring system of road surface disease monitoring the utility model discloses can rely on a platform and mounting panel to provide mounting structure for the camera, conveniently let linear array CCD camera and area array CCD projector distribute in the southeast and northwest position on support column top for linear array CCD camera and area array CCD camera can all-roundly carry out information acquisition to highway road surface, are favorable to pushing away of road surface disease monitoring devices and use.

Description

pavement damage monitoring devices based on big data technology

Technical Field

The utility model relates to a road surface disease monitoring technology field specifically is road surface disease monitoring devices based on big data technology.

Background

The types of pavement diseases are mainly as follows: cracks, pits, bulges, cracks, stagnant water, slope slippage, rockfall, pitted surfaces, looseness, slurry turning, frozen swelling, oil flooding, rutting, waves, abrasion, vehicle jumping, platform staggering and the like; the road surface has many diseases such as cracks, pits, bulges and the like, which affect the operation and driving safety; with the continuous development of science and technology, different types of pavement disease monitoring devices appear in the market.

However, in the current road surface disease monitoring device, the camera can only acquire information of a specified area of the road surface, and cannot acquire information of other areas of the road surface in an all-around manner, which is not beneficial to the use of the road surface disease monitoring device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide kinds of road surface disease monitoring devices based on big data technique to the camera that proposes in solving above-mentioned background art only can carry out information acquisition to highway road surface specified area, can't carry out omnidirectional information acquisition's problem to other regions of highway road surface.

In order to achieve the above object, the utility model provides a following technical scheme:

pavement damage monitoring device based on big data technology comprises a support column vertically arranged in a cylindrical structure, a base transversely fixed at the bottom end of the support column, a bolt connected to the top end of the base and fixing the base at the top of a pavement, a vibration sensor fixed at the bottom of the base and attached to the pavement, a rectangular containing box fixedly connected to the top end of the support column, a camera mounting mechanism fixedly connected to the top end of the containing box, and a monitoring system located at the top end of the camera mounting mechanism and used for monitoring pavement damage, wherein the camera mounting mechanism comprises a square support transversely fixed at the top end of the containing box and an L-shaped mounting frame arranged in a mirror image manner and fixedly connected to the bottom end of the support, the mounting frame comprises a rectangular connecting plate fixed at the bottom end of the support through screws and an L-shaped mounting plate fixedly connected to the bottom end of the connecting plate, the vertical section of the mounting plate is vertically aligned with the outer side wall of the containing box, the monitoring system comprises a central processing unit arranged in the inner cavity of the containing box, a wireless communication module, a GPRS gateway, four groups of surface array cameras, a CCD linear array camera fixedly connected to the central processing module at the outer side of the connecting plate of the vertical section of the connecting plate with the CCD connecting plate, a GPRS linear array camera, a wireless communication module, a wireless array camera, a wireless array receiver, a wireless array camera, a wireless array receiver.

Preferably, the bottom ends of the supporting platforms are evenly distributed with the stability augmentation columns in a rectangular mode, the top ends of the stability augmentation columns in each group and the bottom ends of the supporting platforms are fixedly connected to the bodies, and the outer surfaces of the stability augmentation columns are rough surfaces.

Preferably, both sides of the top end of the connecting plate are provided with circular through holes in a penetrating manner, both sides of the top end of the vertical section of the mounting plate are provided with circular insertion holes, and the through holes are vertically communicated with the insertion holes.

Preferably, the bottom end of the stability augmentation post passes through the perforation and extends into the cavity of the jack.

Preferably, the vibration sensor is an RS9200T type sensor, the central processing unit is an STM32F103C8T6 processor, the wireless communication module is a ZWD-1222 type wireless high-definition audio-video transmitter, and the GPS receiver is a Q8H type receiver.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a camera installation mechanism, the camera mounting means of this monitoring devices has been improved, can rely on abutment and mounting panel to provide mounting structure for the camera, conveniently let linear array CCD camera and area array CCD projector distribute in the southeast and northwest position on support column top, make linear array CCD camera and area array CCD camera can the omnidirectional carry out information acquisition to highway road surface, and form the database in highway road surface information transmission to the remote monitoring center through wireless communication module and GPRS gateway will gather, be favorable to pushing away of road surface disease monitoring devices and use.

Drawings

FIG. 1 is a front view of the structure of the present invention;

fig. 2 is a schematic structural diagram of the camera mounting mechanism of the present invention;

FIG. 3 is a schematic block diagram of the present invention;

FIG. 4 is a perspective view of the supporting platform of the present invention;

FIG. 5 is a perspective view of the connecting plate and the mounting plate of the present invention;

fig. 6 is a perspective view of the mounting plate of the present invention;

fig. 7 is a perspective view of the structure of the camera mounting mechanism of the present invention.

In the figure: the system comprises a support column 1, a base 2, a bolt 3, a vibration sensor 4, an accommodating box 5, a central processing unit 6, a wireless communication module 7, a GPRS gateway 8, a camera mounting mechanism 9, a stand 91, a 911 stabilization-enhancing column, a 92 connecting plate 921, a perforation, a mounting plate 93, a jack 931, a linear array CCD camera 10, an area array CCD camera 11, a support rod 12, a solar cell panel 13, a storage battery 14 and a GPS receiver 15.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

Referring to fig. 1-7, the present invention provides technical solutions:

road surface disease monitoring device based on big data technology, comprising a support column 1 vertically arranged in a cylindrical structure, a base 2 transversely fixed at the bottom end of the support column 1, a bolt 3 connected to the top end of the base 2 and fixing the base 2 at the top of the road surface, a vibration sensor 4 fixed at the bottom of the base 2 and attached to the road surface, a containing box 5 fixedly connected at the top end of the support column 1 in a rectangular shape, a camera mounting mechanism 9 fixedly connected at the top end of the containing box 5, and a monitoring system located at the top end of the camera mounting mechanism 9 and used for monitoring road surface diseases, wherein the camera mounting mechanism 9 comprises a support 91 transversely fixed at the top end of the containing box 5 in a square shape, and an installation rack arranged in an L shape in a mirror image manner and fixedly connected at the bottom end of the support 91, the installation rack comprises a connecting plate 92 fixed at the bottom end of the support 91 in a rectangular shape by screws, a mounting plate 93 fixedly connected at the bottom end of the connecting plate 92 in an L shape, a vertical section of the mounting plate 93 is flush with the vertical outer side wall of the containing box 5, the vertical section of the mounting rack is flush with the vertical side wall of a central linear array camera 10 of the central linear array of a GPS linear array camera, the central linear array 10, the central linear array camera, the central linear array 10 is connected with a GPS camera 6 and a GPS linear array 10, the central linear array of the central linear array 10, the central linear array camera, the central linear array of the central linear array camera, the central linear array 10 is connected with a GPS linear array, the central linear array.

Stabilizing columns 911 are uniformly distributed at the bottom end of the supporting platform 91 in a rectangular manner, the top end of each stabilizing column 911 and the bottom end of the supporting platform 91 are fixedly connected to bodies, the outer surface of each stabilizing column 911 is a rough surface, circular through holes 921 are formed in both sides of the top end of the connecting plate 92 in a penetrating manner, circular insertion holes 931 are formed in both sides of the top end of the vertical section of the mounting plate 93, the through holes 921 are vertically communicated with the insertion holes 931, and the bottom ends of the stabilizing columns 911 penetrate through the through holes 921 and extend into the hole cavities of the insertion holes 931.

The arrangement of the rough surface can increase the friction force on the surface of the stability augmentation column 911, so that the stability augmentation column 911 is firmly inserted into the insertion hole 931, and the support 91, the connecting plate 92 and the mounting plate 93 are tightly combined with the body by utilizing the matching of the stability augmentation column 911 and the insertion hole 931, thereby being beneficial to the mounting of the linear array CCD camera 10 and the area array CCD camera 11.

The vibration sensor 4 is an RS9200T type sensor, the central processing unit 6 is an STM32F103C8T6 processor, the wireless communication module 7 is a ZWD-1222 type wireless high-definition audio-video transmitter, and the GPS receiver 15 is a Q8H type receiver.

The utility model discloses a camera installation mechanism 9, the camera mounting means of this monitoring devices has been improved, can rely on abutment 91 and mounting panel 93 to provide mounting structure for the camera, conveniently with linear array CCD camera 10 firm connection in the mounting panel 93 outside and bottom, the firm lateral wall four sides of connecting at abutment 91 of area array CCD projector 11, let linear array CCD camera 10 and area array CCD projector 11 distribute in the southeast and northwest position on support column 1 top, make linear array CCD camera 10 and area array CCD camera 11 can the omnidirectional carry out information acquisition to highway road surface, and form the database in highway road surface information transmission to the remote monitoring center through wireless communication module 7 and GPRS gateway 8 will gather, be favorable to pushing away of road surface disease monitoring devices and use.

The working principle is as follows: when in use, the monitoring device is firstly installed on the road surface, namely the base 2 is fixed on the road surface by using the bolt 3; then the image of the road surface is collected through the linear array CCD camera 10, the image of the road environment is collected through the four groups of area array CCD cameras 11, the vibration quantity of the road surface is collected through the vibration sensor 4, the collected road surface image, the road environment and the road surface vibration quantity are transmitted to the central processing unit 6 to be processed, the central processing unit 6 uploads the processed information to the remote monitoring center through the wireless communication module 7 and the GPRS gateway 8, the remote monitoring center collects the processed road surface information into a database, the remote monitoring center analyzes the whole condition of the road surface through the information in the database, when the road surface has a disease, the remote monitoring center can be positioned to the position where the road surface disease occurs through the GPS receiver 15, and the monitoring of the road surface disease is convenient.

Wherein, solar cell panel 13 is the abutment 91 top that 30 degrees or 150 degrees set up, utilizes the principle that solar cell panel 13 charges to provide the electric energy for battery 14 can provide sufficient electric energy for this road surface disease monitoring devices all the time.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The road surface disease monitoring device based on the big data technology comprises a support column (1) which is vertically arranged to be in a cylindrical structure, a base (2) which is transversely fixed to the bottom end of the support column (1), a bolt (3) which is connected to the top end of the base (2) and fixes the base (2) to the top of a road surface, a vibration sensor (4) which is fixed to the bottom of the base (2) and is attached to the road surface, a containing box (5) which is fixedly connected to the top end of the support column (1) to be in a rectangular shape, a camera installation mechanism (9) which is fixedly connected to the top end of the containing box (5), and a monitoring system which is located at the top end of the camera installation mechanism (9) and is used for monitoring road surface diseases, wherein the camera installation mechanism (9) comprises a support platform (91) which is transversely fixed to the top end of the containing box (5) to be in a square shape, and an installation rack which is arranged at the bottom end of the support platform (91) to be in an L shape, the installation rack comprises a connecting plate (92) which is fixedly connected to the bottom end of the support platform (91) to be in a rectangular shape through screws, the mounting plate (6) which is fixedly connected to the bottom end of the support platform (5), a wireless camera, a central processing module of a GPS linear array receiver (6) and a wireless monitoring system, a wireless camera (10) which is connected to a wireless terminal, a.
2. 2. The road surface disease monitoring device based on big data technology, according to claim 1, characterized in that the bottom end of the supporting platform (91) is evenly distributed with stabilization-increasing columns (911) in a rectangular shape, the top end of each group of stabilization-increasing columns (911) and the bottom end of the supporting platform (91) are fixedly connected to body, and the outer surface of the stabilization-increasing columns (911) is a rough surface.
3. 3. The road surface disease monitoring devices based on big data technology of claim 1, characterized in that both sides of the top end of the connecting plate (92) are perforated with circular through holes (921), both sides of the top end of the vertical section of the mounting plate (93) are perforated with circular insertion holes (931), and the through holes (921) are vertically communicated with the insertion holes (931).
4. 4. road surface damage monitoring device based on big data technology, according to claim 2, characterized in that the bottom end of the stabilizing column (911) passes through the perforation (921) and extends into the hole cavity of the jack (931).
5. 5. The pavement damage monitoring devices based on big data technology of claim 1, wherein the shock sensor (4) is RS9200T type sensor, the central processing unit (6) is STM32F103C8T6 processor, the wireless communication module (7) is ZWD-1222 type wireless high definition audio-video transmitter, and the GPS receiver (15) is Q8H type receiver.

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