CN214116207U - Construction site is with portable monitoring device that manages - Google Patents

Abstract

The utility model provides a construction site is with portable monitoring device that manages, including locating the moving platform on the construction base surface, be equipped with the road surface threadiness laser position sensor that corresponds the construction base surface on the moving platform; the mobile platform is also provided with a data processing terminal for receiving and processing monitoring data from the road linear laser position sensor; and the mobile platform is also provided with a wireless communication module for receiving and transmitting the processing data from the data processing terminal. The utility model relates to an along laying face installation mobile platform of construction base, the road surface linear laser position sensor that the installation corresponds construction base surface on mobile platform installs data processing terminal and wireless communication module simultaneously, and the data processing terminal is used for receiving and handles the road surface signal data that road surface linear laser position sensor detected, handles to finish sending for the supervisor of far away through wireless communication module, and the supervisor has just not gone on the spot like this.

Description

Construction site is with portable monitoring device that manages

Technical Field

The utility model relates to engineering supervision technical field, in particular to job site is with portable monitoring device that supervises.

Background

As shown in fig. 1, in the engineering construction process, a supervisor is required to monitor the flatness of the pavement 1 of the construction base 2 by using a detection instrument, and random fixed-point detection is generally adopted.

The pavement surface 1 of the construction base 2 is long, and pavement flatness detection is required to perform pavement settlement inspection and maintenance detection every year. The long-distance detection can bring physical burden to the supervision personnel, and the supervision personnel are tired. In addition, other detection facilities such as a box body, a level meter, infrared equipment, drilling equipment and the like need to be carried to cooperate and detect other parameters, so that the operation is laborious.

Moreover, the supervision personnel need to check the construction scene, need to know the progress and the construction current situation at any time, and frequently go to the construction site, which is time-consuming, labor-consuming and inconvenient.

SUMMERY OF THE UTILITY MODEL

For solving the shortcoming of the prior art, the utility model provides a construction site is with portable monitoring device that supervises.

The utility model provides a technical scheme is: a movable supervision monitoring device for a construction site comprises a movable platform arranged on the surface of a construction base, wherein a road linear laser position sensor corresponding to the surface of the construction base is arranged on the movable platform; the mobile platform is also provided with a data processing terminal for receiving and processing monitoring data from the road linear laser position sensor; and the mobile platform is also provided with a wireless communication module for receiving and transmitting the processing data from the data processing terminal.

The utility model relates to an along the face installation moving platform that lays of construction base, moving platform can be removed along with project construction progress by constructor, the road surface linear laser position sensor that the installation corresponds construction base surface on moving platform, install data processing terminal and wireless communication module simultaneously, the road surface signal data that the linear laser position sensor in road surface detected is used for receiving and handling to the data processing terminal, the processing finishes sending for the supervisor of keeping away through the wireless communication module, the supervisor has just not gone on-the-spot like this.

As shown in fig. 1 and 2, the mobile supervision and monitoring device for the construction site comprises a mobile platform arranged on the surface of a construction base, wherein the upper center of the construction base is a main working laying surface, and the mobile platform is erected across the laying surface. The mobile platform is moved along with the progress of the project by constructors.

A road surface linear laser position sensor corresponding to the surface of the construction base is arranged on the mobile platform; the linear laser position sensor of road surface can survey the road surface data of the surface of paving, and the laser displacement sensor can be accurate non-contact measurement measured object's change such as position, displacement, mainly is applied to the measurement of geometric quantities such as the displacement of measuring object, thickness, vibration, distance, diameter.

In order to process the signal data as detected,

the mobile platform is also provided with a data processing terminal for receiving and processing monitoring data from the road linear laser position sensor;

the data processing terminal is a hardware processing device commonly used in the industry, and the built-in software is used for processing signal data.

And the mobile platform is also provided with a wireless communication module for receiving and transmitting the processing data from the data processing terminal.

The wireless communication module adopts a 4G communication module, sends out the signal data processed by the data processing terminal, and can be received and displayed by the terminal equipment of the supervision personnel.

The mobile platform is provided with a storage battery for providing power supply for the equipment.

As shown in fig. 1 and 2, the mobile platform adopts a sliding rail mode.

Preferably, the mobile platform comprises concrete construction surfaces which are arranged on the surface of the construction base in a bilateral symmetry mode, a reinforced concrete base is embedded and installed on the concrete construction surfaces, the upper surface of the reinforced concrete base is provided with a groove, a vertical convex steel rail is installed in the groove in a matched mode, and a sliding table is matched on the upper portion of the convex steel rail.

The convex-shaped steel rail is flush with the concrete construction surface, and the convex-shaped steel rail is fixed on the concrete construction surface by adopting a pair of symmetrical fixing steel plates.

The reinforced concrete base, the concrete construction surface, the fixed steel plate and the convex steel rail are all installed along the length direction of the laying surface.

The sliding table slides along the convex-shaped steel rail.

Preferably, the slip table bilateral symmetry arranges between the horizontal welding has the steelframe, and steelframe top level erects to be equipped with and to sit the delivery platform at the slip table top surface, and the linear laser position sensor in road surface installs in the steelframe bottom surface, and data processing terminal and wireless communication module all install at the delivery platform upper surface.

As shown in the attached drawing 1, the sliding tables are arranged in a bilateral symmetry mode, steel frames are horizontally welded between the sliding tables, a carrying platform of a steel plate structure located on the top surface of the sliding table is horizontally erected at the top of the steel frame, six pavement linear laser position sensors are installed on the bottom surface of the steel frame, pavement data are conveniently detected at multiple positions, and a data processing terminal and a wireless communication module are installed on the upper surface of the carrying platform. Here, the wireless communication module is installed on the data processing terminal, and fig. 1 is a schematic view, and the installation position may not be limited.

Preferably, the top surface of the sliding table is provided with a positioning pin.

In order to stably fix the carrying platform on the upper surface of the sliding table, a positioning pin is arranged on the top surface of the sliding table.

Preferably, a closed cavity is arranged inside the sliding table, and balls are arranged in the closed cavity; a round door matched with the ball is hinged on the outer side surface of the sliding table where the closed cavity is located.

In this place, the sliding table and the convex-shaped steel rail are not in surface-to-surface contact, because the surface-to-surface contact is adopted, if the sliding table and the convex-shaped steel rail slide relatively, the friction is large, and therefore point-to-surface contact is adopted.

As shown in the attached figure 3, a closed cavity is arranged inside the sliding table, and balls are arranged inside the closed cavity; a round door matched with the ball is hinged on the outer side surface of the sliding table where the closed cavity is located.

When the sliding table is matched on the convex-shaped steel rail, a sealing structure is formed between the two sliding tables, the ball support is arranged between the sliding table and the convex-shaped steel rail, a circular door matched with the ball is hinged to the outer side face of the sliding table where the sealing cavity is located, and the ball can be taken and placed by opening the circular door.

Preferably, a stop pin is arranged between the lower main body of the sliding table and the convex steel rail.

The lower main body of the sliding table and the convex steel rail are horizontally provided with holes and are matched with a stop pin, and when the sliding table needs to be stopped, the stop pin is inserted to keep the lower main body of the sliding table and the convex steel rail fixed and static.

Preferably, angle iron supports are fixedly arranged at four corners of the upper surface of the carrying platform through bolts, and rails are arranged on the angle iron supports.

In order to protect the carrying platform and equipment on the upper part of the carrying platform, angle steel supports are fixedly arranged at four corners of the upper surface of the carrying platform through bolts, and a fence is arranged on the angle steel supports.

The utility model has the beneficial technical effects that: the utility model relates to an along the face installation moving platform that lays of construction base, moving platform can be removed along with project construction progress by constructor, the road surface linear laser position sensor that the installation corresponds construction base surface on moving platform, install data processing terminal and wireless communication module simultaneously, the road surface signal data that the linear laser position sensor in road surface detected is used for receiving and handling to the data processing terminal, the processing finishes sending for the supervisor of keeping away through the wireless communication module, the supervisor has just not gone on-the-spot like this.

Drawings

FIG. 1 is a schematic diagram of a detection system of the supervision monitoring device of the present invention;

FIG. 2 is a schematic diagram of the monitoring device of the present invention;

FIG. 3 is a schematic view of the mounting structure of the sliding table and the convex-shaped steel rail of the present invention;

in the figure, the device comprises a pavement surface 1, a construction base 2, a reinforced concrete base 3, a reinforced concrete base 4, a concrete construction surface 5, a fixed steel plate 6, a convex steel rail 7, a stop pin 8, a ball 9, a sliding table 10, a carrying platform 11, a positioning pin 12, an angle steel support 13, a fence 14, a data processing terminal 15, a wireless communication module 16, a steel frame 17, a road surface linear laser position sensor 18 and a circular door.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, the relative terms "upper", "lower", "left", "right", "inner", "outer" and other position indication positions are only based on the position shown in the drawings to simplify the description of the present invention, but not the position and structure that the components must have, and thus, the limitation of the present invention cannot be understood.

Example 1

A construction site uses the portable monitoring device of managing, including locating the moving platform on the surface of the construction base 2, there are linear laser position sensors 17 of road surface on the said moving platform corresponding to surface of the construction base 2; the mobile platform is also provided with a data processing terminal 14 for receiving and processing monitoring data from the road linear laser position sensor 17; the mobile platform is further provided with a wireless communication module 15 for receiving and transmitting the processing data from the data processing terminal 14.

The utility model relates to an along 1 installation moving platform of face of laying of construction base 2, moving platform can be removed along with project construction progress by constructor, the installation corresponds the road surface linear laser position sensor 17 on 2 surfaces of construction base on moving platform, install data processing terminal 14 and wireless communication module 15 simultaneously, data processing terminal 14 is used for receiving and handles the road surface signal data that road surface linear laser position sensor 17 detected, the processing finishes sending for the prisoner in a distance through wireless communication module 15, the prisoner has just not gone the scene like this.

As shown in fig. 1 and 2, the mobile supervision and monitoring device for the construction site comprises a mobile platform arranged on the surface of a construction base 2, wherein the upper center of the construction base 2 is a main working laying surface 1, and the mobile platform is erected by crossing the laying surface 1. The mobile platform is moved along with the progress of the project by constructors.

A road surface linear laser position sensor 17 corresponding to the surface of the construction base 2 is arranged on the mobile platform; the pavement linear laser position sensor 17 can detect pavement data of the pavement surface 1, and the laser displacement sensor can accurately measure the position, displacement and other changes of a measured object in a non-contact manner, and is mainly applied to measurement of geometric quantities of the measured object such as displacement, thickness, vibration, distance, diameter and the like.

In order to process the signal data as detected,

a data processing terminal 14 for receiving and processing monitoring data from the road linear laser position sensor 17 is also arranged on the mobile platform;

the data processing terminal 14 is a hardware processing device commonly used in the industry, and a built-in software is used for processing signal data.

The mobile platform is further provided with a wireless communication module 15 for receiving and transmitting the processing data from the data processing terminal 14.

The wireless communication module 15 adopts a 4G communication module, and sends out the signal data processed by the data processing terminal 14, and the signal data can be received and displayed by the terminal equipment of the supervision personnel.

The mobile platform is provided with a storage battery for providing power supply for the equipment.

As shown in fig. 1 and 2, the mobile platform adopts a sliding rail mode.

Preferably, the mobile platform comprises concrete construction surfaces 4 which are arranged on the surface of the construction base 2 in a bilateral symmetry mode, a reinforced concrete base 3 is embedded and installed on the concrete construction surfaces 4, the upper surface of the reinforced concrete base 3 is provided with a groove, a vertical convex steel rail 6 is installed in the groove in a matched mode, and a sliding table 9 is matched with the upper portion of the convex steel rail 6.

The convex-shaped steel rail 6 is flush with the concrete construction surface 4, and the convex-shaped steel rail 6 is fixed on the concrete construction surface 4 by adopting a pair of symmetrical fixing steel plates 5.

The reinforced concrete base 3, the concrete construction surface 4, the fixed steel plate 5 and the convex steel rail 6 are all installed along the length direction of the laying surface 1.

The slide table 9 slides along the inverted-letter-shaped rail 6.

Preferably, the slipways 9 are arranged in bilateral symmetry, steel frames 16 are horizontally welded between the slipways, the carrying platform 10 located on the top surface of the slipway 9 is horizontally erected at the top of the steel frame 16, the pavement linear laser position sensor 17 is installed on the bottom surface of the steel frame 16, and the data processing terminal 14 and the wireless communication module 15 are both installed on the upper surface of the carrying platform 10.

As shown in fig. 1, the sliding tables 9 are arranged in bilateral symmetry, steel frames 16 are horizontally welded between the sliding tables 9, a carrying platform 10 of a steel plate structure located on the top surface of the sliding table 9 is horizontally erected at the top of each steel frame 16, six pavement linear laser position sensors 17 are installed on the bottom surface of each steel frame 16, pavement data can be conveniently detected at multiple positions, and the data processing terminal 14 and the wireless communication module 15 are installed on the upper surface of the carrying platform 10. Here, the wireless communication module 15 is installed on the data processing terminal 14, and fig. 1 is a schematic diagram, and the installation position may not be limited.

Preferably, the top surface of the sliding table 9 is provided with a positioning pin 11.

In order to stably fix the carrying platform 10 to the upper surface of the slide table 9, a positioning pin 11 is provided on the top surface of the slide table 9.

Preferably, a closed cavity is arranged inside the sliding table 9, and a ball 8 is arranged inside the closed cavity; a round door 18 matched with the ball 8 is hinged on the outer side surface of the sliding table 9 where the closed cavity is located.

Here, the sliding table 9 and the convex rail 6 are not in surface-to-surface contact, because the surface-to-surface contact is adopted, and if the sliding is relative sliding, the friction is large, so the point-to-surface contact is adopted.

As shown in fig. 3, a closed cavity is arranged inside the sliding table 9, and a ball 8 is arranged inside the closed cavity; a round door 18 matched with the ball 8 is hinged on the outer side surface of the sliding table 9 where the closed cavity is located.

When the sliding table 9 is matched with the convex-shaped steel rail 6, a sealing structure is formed between the two sliding tables, the ball 8 is supported and arranged between the sliding table 9 and the convex-shaped steel rail 6, a round door 18 matched with the ball 8 is hinged to the outer side face of the sliding table 9 where the sealing cavity is located, and the ball 8 can be taken and placed by opening the round door 18.

Preferably, a stop pin 7 is provided between the lower body of the slide table 9 and the inverted-letter-shaped rail 6.

The lower main body of the sliding table 9 and the convex-shaped steel rail 6 are horizontally provided with holes and provided with a stop pin 7, and when the sliding table needs to be stopped, the stop pin 7 is inserted to fix the lower main body of the sliding table 9 and the convex-shaped steel rail 6.

Preferably, angle iron supports 12 are fixedly installed at four corners of the upper surface of the carrying platform 10 by bolts, and rails 13 are installed thereon.

In order to protect the carrying platform 10 and the devices on the upper part of the carrying platform 10, angle iron supports 12 are fixedly installed at four corners of the upper surface of the carrying platform 10 through bolts, and rails 13 are installed on the angle iron supports.

The foregoing is a preferred embodiment of the present invention, and it should be understood that those skilled in the art can derive the related technical solutions through logic analysis, reasoning or experiment based on the present invention without creative efforts, and therefore, these related technical solutions should be within the protection scope of the present claims.

Claims (7)

1. The utility model provides a job site is with portable monitoring device that manages which characterized in that: the device comprises a mobile platform arranged on the surface of a construction base (2), wherein a road surface linear laser position sensor (17) corresponding to the surface of the construction base (2) is arranged on the mobile platform; the mobile platform is also provided with a data processing terminal (14) for receiving and processing monitoring data from the road linear laser position sensor (17); the mobile platform is also provided with a wireless communication module (15) for receiving and transmitting the processing data from the data processing terminal (14).

2. The mobile supervision and monitoring device for construction sites according to claim 1, wherein: the mobile platform comprises a concrete construction surface (4) which is arranged on the surface of the construction base (2) in a bilateral symmetry mode, a reinforced concrete base (3) is embedded and installed on the concrete construction surface (4), a vertical convex steel rail (6) is installed on the reinforced concrete base (3), and a sliding table (9) is matched with the upper portion of the convex steel rail (6).

3. The mobile supervision and monitoring device for construction sites according to claim 2, wherein: the sliding tables (9) are arranged in a bilateral symmetry mode, steel frames (16) are horizontally welded among the sliding tables, a carrying platform (10) located on the top face of the sliding tables (9) is horizontally erected at the tops of the steel frames (16), a road surface linear laser position sensor (17) is installed on the bottom face of each steel frame (16), and a data processing terminal (14) and a wireless communication module (15) are installed on the upper surface of each carrying platform (10).

4. The mobile supervision and monitoring device for construction sites according to claim 3, wherein: the top surface of the sliding table (9) is provided with a positioning pin (11).

5. The mobile supervision and monitoring device for construction sites according to claim 4, wherein: a closed cavity is arranged inside the sliding table (9), and a ball (8) is arranged inside the closed cavity; a round door (18) matched with the ball (8) is hinged on the outer side surface of the sliding table (9) where the closed cavity is located.

6. The mobile supervision and monitoring device for construction sites according to claim 5, wherein: a stop pin (7) is arranged between the lower main body of the sliding table (9) and the convex steel rail (6).

7. The mobile supervision and monitoring device for construction sites according to claim 6, wherein: the four corners of the upper surface of the carrying platform (10) are fixedly provided with angle iron supports (12) through bolts, and the angle iron supports are provided with fences (13).

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