CN217276464U - Overrun overload intelligent identification monitoring devices - Google Patents

Abstract

The utility model discloses an overrun overload intelligent identification monitoring devices, including the road bed, the road bed is concreted for concrete or the mixed grit of asphalt and forms, and the road bed bottom sets up the pipeline that leads to the sewer, and there is the collateral branch shore through bolt group fixed mounting in the road bed both sides, and wherein, collateral branch shore upper end is provided with the connecting block, and the connecting block left side is provided with gathers the horizontal pole, gathers the horizontal pole and is provided with the probe panel for the below, and the equidistance in probe panel middle part is provided with the camera, and high detection subassembly sets up at the collateral branch shore inboard, and overload detection subassembly sets up middle part in the road bed. The utility model discloses a overloading detection subassembly comes to measure the weight of vehicle, comes to make up measured vehicle load and high detection module measuring vehicle height through overloading detection subassembly, makes up at combination camera measuring vehicle information and foretell load and the information of height, can upload the high in the clouds with overloading and hypervelocity vehicle information.

Description

Overrun overload intelligent identification monitoring devices

Technical Field

The utility model relates to a transportation equipment field, in particular to transfinite overload intelligent identification monitoring devices.

Background

Overrun means that the loaded length, width, height and loaded quality of the freight vehicle exceed the limits specified by regulations, and the relationship between the vehicle loading and the road is mainly studied, and the normal use of the road is particularly concerned. Overload means that the load capacity of the automobile exceeds the rated load capacity of the automobile when the automobile is loaded with goods, and the main concern is the automobile performance and the driving safety caused by the performance.

However, the traditional overrun overload equipment adopts the mode of weighing one by one and limiting the height of a fence to protect, and the vehicle is ultrahigh and damages the railing and road facilities, so that the maintenance cost is high, and the road traffic is influenced.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide an overrun overload intelligent identification monitoring device, which can effectively solve the problems in the background art.

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

an overrun overload intelligent identification monitoring device comprises:

the roadbed is formed by pouring concrete or asphalt mixed gravel, a pipeline for introducing sewage is arranged at the bottom of the roadbed, side supporting columns are fixedly arranged on two sides of the roadbed through bolt groups and are stainless square steel columns,

wherein the upper end of the side supporting column is provided with a connecting block, the left side of the connecting block is provided with an acquisition cross bar, the lower part of the acquisition cross bar is provided with a detection plate, the middle part of the detection plate is provided with cameras at equal intervals, the cameras are a combination of a plurality of groups of high-speed cameras to take pictures of passing vehicle license plates,

a height detection component which is arranged at the inner side of the side supporting column and is used for measuring the height of the vehicle running on the surface of the road base,

and the overload detection assembly is arranged in the middle of the interior of the roadbed.

Preferably, the positions of the overload detection assembly and the side support columns in the roadbed are in a straight line, the weight of the vehicle is measured through the overload detection assembly, the measured vehicle load and the vehicle height measured by the height detection assembly are combined through the overload detection assembly, the vehicle information measured by the combined camera is combined with the load and height information, and the overload and overspeed vehicle information can be uploaded to the cloud.

Preferably, the height detection assembly comprises a detection plate and detection heads, the detection plate is a square mechanism plate, a plurality of groups of detection heads are arranged in the detection plate at equal intervals, the detection heads are photoelectric sensors, the detection of the height of the vehicle can be realized, the vehicle height is measured through the detection heads on two sides respectively, the obtained two groups of data can be subjected to compromise calculation, and the height precision measurement of the vehicle is improved.

Preferably, the overload detection assembly comprises a seal cavity, a seal plate structure of a square frame is arranged in the middle of the seal cavity, a filter plate is arranged in the middle of the seal cavity, a pressure sensor is arranged at the upper end of the filter plate, a pressure sensor is arranged at the upper end of the pressure sensor, and the pressure sensor can convert the load of the vehicle above the pressure sensor.

Preferably, be provided with two sets of reset spring between briquetting and the filter plate, the reset spring upper end is provided with the briquetting, the inside spring that is provided with of reset spring will kick-back the briquetting that pushes down to initial position through reset spring, forms and resets, the follow-up detection that lasts of being convenient for.

Preferably, the briquetting is curved rubber structure piece, through the arc structural design of briquetting, can protect the vehicle tire who passes through, the briquetting both sides are provided with the slider, seal chamber both sides slidable mounting has the slider, leads through the slider in the inboard slip of seal chamber with the removal of briquetting.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the weight of the vehicle is measured through the overload detection assembly, the measured vehicle load is combined with the vehicle height measured by the height detection assembly through the overload detection assembly, the vehicle information measured by the combined camera is combined with the load and height information, and the overload and overspeed vehicle information can be uploaded to the cloud.

2. Pressure sensor can convert the vehicle load of top, be provided with two sets of reset spring between briquetting and the filter plate, kick-back to initial position through reset spring with the briquetting that pushes down, form and reset, the follow-up detection that lasts of being convenient for through the arc structural design of briquetting, can protect the vehicle tire that passes through, leads through the slider in the inboard removal that comes the briquetting of sliding of seal chamber.

3. The filter plate is hollow out construction, in leading-in the pipeline of below with the rivers that the slider side flowed in, form the derivation to rivers, avoid inside the rainwater entering equipment, this kind of structure compares with traditional limit for height railing, has according to simple reliable, can reuse, also can avoid vehicle superelevation to damage railing and road facilities simultaneously, the cost of maintenance who causes is high, influences road traffic, it synthesizes to hand over the rule through the electron and handles the action that can play equally and accept the violation.

Drawings

Fig. 1 is an overall structure diagram of the overload intelligent identification and monitoring device of the present invention;

fig. 2 is a top view structural diagram of the overrun overload intelligent identification monitoring device of the present invention;

FIG. 3 is a structural diagram of a height detection assembly in the overrun overload intelligent identification monitoring device of the present invention;

fig. 4 is the utility model relates to a side view structure chart of overload detection subassembly among transfinite overload intelligent recognition monitoring devices.

In the figure: 1. a roadbed; 2. side support columns; 3. a height detection assembly; 31. detecting a plate; 32. a probe; 4. connecting blocks; 5. collecting a cross bar; 6. a detection plate; 7. a probe head; 8. an overload detection assembly; 81. sealing the cavity; 82. filtering the plate; 83. a slider; 84. briquetting; 85. a return spring; 86. a pressure sensor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 and 2, an overload and overload intelligent identification and monitoring device includes:

the roadbed 1 is formed by pouring concrete or asphalt mixed gravel, a pipeline for introducing water is arranged at the bottom of the roadbed 1, side support columns 2 are fixedly arranged at two sides of the roadbed 1 through bolt groups, the side support columns 2 are stainless square steel upright columns,

wherein the upper end of the side supporting column 2 is provided with a connecting block 4, the left side of the connecting block 4 is provided with an acquisition cross bar 5, the acquisition cross bar 5 is provided with a detection plate 6 below, the middle part of the detection plate 6 is provided with cameras 7 at equal intervals, the cameras 7 are a combination of a plurality of groups of high-speed cameras to take pictures of the passing vehicle license plate,

a height detection assembly 3 arranged at the inner side of the side support column 2, the height of the vehicle running on the surface of the roadbed 1 is measured through the height detection assembly 3,

the overload detection component 8 is arranged in the middle of the inside of the roadbed 1, the positions of the overload detection component 8 and the side support columns 2 in the roadbed 1 are in a straight line, the weight of the vehicle is measured through the overload detection component 8, the measured vehicle load is combined with the vehicle height measured by the height detection component 3 through the overload detection component 8, the vehicle information measured by the combined camera 7 is combined with the load and height information, and the overload and overspeed vehicle information can be uploaded to the cloud,

as shown in fig. 3, the height detecting assembly 3 includes a detecting plate 31 and detecting heads 32, the detecting plate 31 is a square mechanism plate, a plurality of groups of detecting heads 32 are equidistantly arranged in the detecting plate 31, the detecting heads 32 are photoelectric sensors, the vehicle height can be detected, the vehicle height can be measured by the detecting heads 32 on both sides, the obtained two groups of data can be subjected to compromise calculation, the vehicle height precision measurement can be improved,

as shown in fig. 4, the overload detecting assembly 8 includes a sealed cavity 81, a square sealed plate structure is disposed in the middle of the sealed cavity 81, a filter plate 82 is disposed in the middle of the sealed cavity 81, a pressure sensor 86 is disposed at the upper end of the filter plate 82, a pressure sensor 86 is disposed at the upper end of the pressure sensor 86, the pressure sensor 86 can convert the load of the vehicle above, two sets of return springs 85 are disposed between the pressing block 84 and the filter plate 82, a pressing block 84 is disposed at the upper end of the return spring 85, a spring is disposed inside the return spring 85, the pressing block 84 pressed downward is rebounded to an initial position by the return spring 85 to form a return position, so as to facilitate subsequent continuous detection,

the pressing block 84 is an arc-shaped rubber structure block, the passing vehicle tire can be protected through the arc-shaped structural design of the pressing block 84, the sliding blocks 83 are arranged on two sides of the pressing block 84, the sliding blocks 83 are slidably mounted on two sides of the sealed cavity 81, the movement of the pressing block 84 is guided through the sliding of the sliding blocks 83 on the inner side of the sealed cavity 81,

the filter plate 82 is hollow out construction, and the rivers that flow in with the slider 83 side lead to in the pipeline of 82 below, form the derivation to rivers, avoid inside the rainwater entering equipment, this kind of structure is compared with traditional limit for height railing, has according to simple reliable, can reuse, also can avoid vehicle superelevation to damage railing and road facilities simultaneously, and the cost of maintenance who causes is high, influences road traffic, and it synthesizes to hand over rule processing equally can play and accept the behavior of violating the rule to take in through the electron snapshot.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides an overrun overload intelligent identification monitoring devices which characterized in that includes:

the roadbed comprises a roadbed (1), wherein the roadbed (1) is formed by pouring concrete or asphalt mixed gravel, a pipeline for introducing sewage is arranged at the bottom of the roadbed (1), side supporting columns (2) are fixedly arranged on two sides of the roadbed (1) through bolt groups, the side supporting columns (2) are stainless square steel columns,

wherein the upper end of the side supporting column (2) is provided with a connecting block (4), the left side of the connecting block (4) is provided with an acquisition cross rod (5), the acquisition cross rod (5) is provided with a detection plate (6) below, the middle part of the detection plate (6) is provided with cameras (7) at equal intervals, the cameras (7) are a combination of a plurality of groups of high-speed cameras,

a height detection component (3) which is arranged at the inner side of the side supporting column (2) and measures the height of the vehicle running on the surface of the roadbed (1) through the height detection component (3),

and the overload detection assembly (8) is arranged in the middle of the inside of the roadbed (1).

2. The intelligent overload and overload recognizing and monitoring device as claimed in claim 1, wherein: the overload detection assembly (8) and the position of the side support column (2) in the roadbed (1) form a straight line.

3. The intelligent overload and overload recognizing and monitoring device as claimed in claim 1, wherein: the height detection assembly (3) comprises a detection plate (31) and a detection head (32), wherein the detection plate (31) is a square mechanism plate.

4. The intelligent overload and overload recognizing and monitoring device as claimed in claim 3, wherein: a plurality of groups of detecting heads (32) are arranged in the detecting plate (31) at equal intervals, and the detecting heads (32) are photoelectric sensors.

5. The intelligent overload and overload recognizing and monitoring device as claimed in claim 1, wherein: the overload detection assembly (8) comprises a sealing cavity (81), a sealing plate structure of a square frame is arranged in the middle of the sealing cavity (81), a filter plate (82) is arranged in the middle of the sealing cavity (81), and a pressure sensor (86) is arranged at the upper end of the filter plate (82).

6. The intelligent overload and overload recognizing and monitoring device as claimed in claim 5, wherein: two groups of reset springs (85) are arranged between the pressing block (84) and the filter plate (82), the pressing block (84) is arranged at the upper end of each reset spring (85), and a spring is arranged in each reset spring (85).

7. The intelligent overload and overload recognizing and monitoring device as claimed in claim 6, wherein: the pressing block (84) is an arc-shaped rubber structure block, and sliding blocks (83) are arranged on two sides of the pressing block (84).

8. The intelligent overload and overload recognizing and monitoring device as claimed in claim 7, wherein: and sliding blocks (83) are arranged on two sides of the sealed cavity (81) in a sliding manner.

Images