CN210346906U - Ground light measuring device and light measuring system - Google Patents

Abstract

The utility model relates to a luminosity measuring device technical field especially relates to a ground luminosity measuring device and luminosity measurement system. A ground light measuring device comprises a mounting bracket, a light meter body and a light meter probe electrically connected with the light meter body; the mounting bracket comprises a horizontal chassis, a telescopic center pillar assembly and a probe mounting elastic rope, the telescopic center pillar assembly is vertically mounted on the horizontal chassis, two ends of the probe mounting elastic rope are respectively connected to the top end of the telescopic center pillar assembly and the horizontal chassis, and the probe mounting elastic rope, the horizontal chassis and the telescopic center pillar assembly are arranged in a triangular shape; a plurality of illuminometer probes are arranged on the probe mounting elastic rope at intervals. The utility model discloses a ground light measuring device and measurement system, the luminosity of not co-altitude distribution of measurable quantity.

Description

Ground light measuring device and light measuring system

Technical Field

The utility model relates to a luminosity measuring device technical field especially relates to a ground luminosity measuring device and luminosity measurement system.

Background

The patent application with publication number CN106767779 discloses an automatic measuring device and a measuring method for road illumination, which mainly provide technical schemes of automatic measurement, automatic navigation, precise positioning, etc., but have the problems that it cannot be applied to a curved road, and only can measure the luminosity at a fixed height, and cannot measure the luminosity at different heights, so it is necessary to provide a ground luminosity measuring device capable of measuring the luminosity at different heights, and a luminosity measuring system suitable for measuring the curvilinear road.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a ground light degree measuring device and luminosity measurement system to prior art's not enough, the luminosity of measurable quantity not co-altitude distribution, applicable in the luminosity of measuring curve road.

In order to achieve the purpose, the utility model discloses a ground light measuring device, which comprises a mounting bracket, a light meter body and a light meter probe electrically connected with the light meter body; the mounting bracket comprises a horizontal chassis, a telescopic center pillar assembly and a probe mounting elastic rope, the telescopic center pillar assembly is vertically mounted on the horizontal chassis, two ends of the probe mounting elastic rope are respectively connected to the top end of the telescopic center pillar assembly and the horizontal chassis, and the probe mounting elastic rope, the horizontal chassis and the telescopic center pillar assembly are arranged in a triangular shape; a plurality of illuminometer probes are arranged on the probe mounting elastic rope at intervals.

Preferably, the device also comprises a telescopic slide bar for supporting the probe and installing the elastic rope, wherein the telescopic slide bar comprises a first slide pipe and a second slide pipe, one end of the first slide pipe is hinged to the horizontal chassis, one end of the second slide pipe is hinged to the top end of the telescopic center pillar assembly, and the other end of the first slide pipe is connected with the other end of the second slide pipe in a relative sliding manner; the illuminometer probe is arranged on the telescopic slide rod in a sliding manner.

Preferably, the device further comprises a probe mounting sliding table and a sliding connector, wherein the probe mounting sliding table is provided with a sleeve part and a horizontal supporting table, the horizontal supporting table is rotatably arranged on the sleeve part, the sleeve part is slidably arranged on the telescopic slide rod, and the illuminometer probe is horizontally arranged on the horizontal supporting table; the tube bodies of the first sliding tube and the second sliding tube are provided with sliding grooves, the probe installation elastic rope penetrates through the tube cavities of the first sliding tube and the second sliding tube, the sliding connection piece is arranged in the sliding grooves in a sliding mode, and the probe installation sliding table is fixedly connected to the probe installation elastic rope through the sliding connection piece.

Preferably, the two probe mounting elastic ropes and the two telescopic sliding rods are respectively arranged on two sides of the telescopic middle column assembly and are arranged in an isosceles triangle with the horizontal chassis; the device also comprises a connecting telescopic rod for maintaining the horizontal supporting platforms to be horizontal, and two ends of the connecting telescopic rod are respectively pivoted to the two horizontal supporting platforms which are positioned at the same height and respectively connected to the two probe mounting elastic ropes.

Preferably, the telescopic center pillar assembly comprises a first center pillar, a second center pillar, a screw and a motor, the first center pillar and the second center pillar are both hollow tubes, the first center pillar is fixed on the horizontal chassis, the second center pillar is slidably arranged at one end of the first center pillar, one end of the second center pillar is provided with an internal thread part in transmission connection with the screw, and the probe installation elastic rope is connected to the other end of the second center pillar; the screw rod is rotatably arranged on the horizontal chassis and arranged in the hollow pipe cavities of the first center pillar and the second center pillar, and the motor drives the screw rod to rotate and is arranged on the horizontal chassis.

In order to achieve the above object, the utility model discloses a ground luminosity intelligent measurement system, including host computer, route information acquisition unmanned aerial vehicle and mobile luminosity measurement car, mobile luminosity measurement car is provided with ground luminosity measuring device, route information acquisition unmanned aerial vehicle and mobile luminosity measurement car all are provided with the radio communication module, and mobile luminosity measurement car and route information acquisition unmanned aerial vehicle pass through radio signal connection with the host computer respectively; the path information acquisition unmanned aerial vehicle is provided with a machine vision imaging module, and the mobile photometric measurement vehicle is provided with a steering servo motor and a GPS navigation module.

The utility model has the advantages that: the utility model discloses a ground light degree measuring device, flexible center pillar subassembly can change the height in vertical direction, and when flexible center pillar subassembly took place to extend, pulling probe installation elasticity rope was drawn the power and takes place even elastic deformation, can change the position of illuminometer probe in vertical direction to in the luminosity of measuring different height distributions. The utility model discloses a ground light measuring device, the luminosity of measurable quantity not co-altitude distribution.

The utility model discloses a ground light degree intelligence measurement system, accessible path information gathers unmanned aerial vehicle and gathers path information, transmit to the host computer through radio communication module and generate simulation navigation path information, host computer control turns to servo motor and realizes the moving direction of regulation and control removal luminosity measurement car, GPS navigation module measures the longitude and latitude data that removal luminosity measurement car was located often, the difference of longitude and latitude data and simulation navigation path information is compared to the host computer, control removal luminosity measurement car removes along simulation navigation path, realize measuring different positions, the luminosity of co-altitude.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic sectional view of the present invention.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 1.

The reference numerals include:

1-mounting support

11-horizontal chassis 12-probe installation elastic rope

13-telescopic sliding rod 131-chute

14-connecting telescopic rod

15-probe mounting sliding table 151-sleeve part 152-horizontal supporting table

2-telescoping center post assembly

21-first center pillar

22-second center post 23-screw 24-motor

3-illuminometer probe.

Detailed Description

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

As shown in fig. 1 to 3, the ground light measuring device of the present invention comprises a mounting bracket 1, a light meter body and a light meter probe 3 electrically connected with the light meter body; the mounting bracket 1 comprises a horizontal chassis 11, a telescopic center pillar assembly 2 and a probe mounting elastic rope 12, the telescopic center pillar assembly 2 is vertically mounted on the horizontal chassis 11, two ends of the probe mounting elastic rope 12 are respectively connected to the top end of the telescopic center pillar assembly 2 and the horizontal chassis 11, and the probe mounting elastic rope 12, the horizontal chassis 11 and the telescopic center pillar assembly 2 are arranged in a triangular shape; the plurality of illuminometer probes 3 are disposed at intervals on the probe-mounting elastic cord 12. The utility model discloses a ground light degree measuring device, flexible center pillar subassembly 2 can change the height in vertical direction, and when flexible center pillar subassembly 2 took place to extend, pulling probe installation elasticity rope 12 was drawn the power and takes place even elastic deformation, can change the position of illuminometer probe 3 in vertical direction to in the luminosity of measuring the not co-altitude distribution. The utility model discloses a ground light measuring device, the luminosity of measurable quantity not co-altitude distribution.

Preferably, the device also comprises a telescopic sliding rod 13 used for supporting the probe installation elastic rope 12, wherein the telescopic sliding rod 13 comprises a first sliding pipe and a second sliding pipe, one end of the first sliding pipe is hinged to the horizontal chassis 11, one end of the second sliding pipe is hinged to the top end of the telescopic center pillar component 2, and the other end of the first sliding pipe is connected with the other end of the second sliding pipe in a relative sliding manner; the illuminometer probe 3 is slidably arranged on a telescopic sliding rod 13. In the ground luminosity measuring device of the utility model, the telescopic slide rod 13 is used for providing good support for the probe installation elastic rope 12, reducing or avoiding the oscillation of the illuminometer probe 3 and ensuring the precision of luminosity measurement; the telescopic strut 13 is driven to extend when the telescopic strut 2 is extended, which provides good support for the probe mounting elastic cord 12 when it is extended.

Preferably, the device further comprises a probe mounting sliding table 15 and a sliding connection piece, wherein the probe mounting sliding table 15 is provided with a sleeve part 151 and a horizontal supporting table 152, the horizontal supporting table 152 is rotatably arranged on the sleeve part 151, the sleeve part 151 is slidably arranged on the telescopic slide rod 13, and the illuminometer probe 3 is horizontally arranged on the horizontal supporting table 152; the body of first slide pipe and second slide pipe is provided with spout 131, and the lumen of first slide pipe and second slide pipe is worn to locate by probe installation elasticity rope 12, and the slip joint piece slides and sets up in spout 131, and probe installation slip table 15 passes through slip joint piece fixed connection in probe installation elasticity rope 12 to probe installation slip table 15 can slide in step when guaranteeing that probe installation elasticity rope 12 takes place to extend. The utility model discloses a ground light degree measuring device, horizontal branch platform 152 rotatable set up in sleeve portion 151 so that adjust the angle of horizontal branch platform 152, and 3 horizontal installation in horizontal branch platform 152 of illuminometer probe are so that it accepts illumination, guarantee luminosity measurement accuracy.

Preferably, the two probe installation elastic ropes 12 and the two telescopic sliding rods 13 are respectively arranged, and the two probe installation elastic ropes 12 are respectively arranged on two sides of the telescopic middle column assembly 2 and are arranged in an isosceles triangle with the horizontal chassis 11; the device further comprises a connecting telescopic rod 14 for maintaining the horizontal supporting platforms 152 to be horizontal, and two ends of the connecting telescopic rod 14 are respectively pivoted to the two horizontal supporting platforms 152 which are located at the same height and respectively connected to the two probe mounting elastic ropes 12. The utility model discloses a ground light measuring device, the illuminometer probe 3 is wide in distribution, and the efficiency of collecting illumination data is high; when flexible center pillar subassembly 2 takes place to extend, connect the synchronous emergence of telescopic link 14 and extend and can remain the level throughout, can make the pin joint remain the level throughout in the horizontal abutment 152 who connects the telescopic link 14 both ends simultaneously, the utility model discloses a ground light degree measuring device, it remains the level throughout when the high position of illuminometer probe 3 changes.

Preferably, the telescopic center pillar assembly 2 comprises a first center pillar 21, a second center pillar 22, a screw 23 and a motor 24, wherein the first center pillar 21 and the second center pillar 22 are both hollow tubes, the first center pillar 21 is fixed on the horizontal chassis 11, the second center pillar 22 is slidably arranged at one end of the first center pillar 21, one end of the second center pillar 22 is provided with an internal threaded part in transmission connection with the screw 23, and the probe installation elastic rope 12 is connected to the other end of the second center pillar 22; the screw 23 is rotatably provided to the horizontal chassis 11 and disposed in the hollow tube cavities of the first and second center pillars 21 and 22, and the motor 24 drives the screw 23 to rotate and is provided to the horizontal chassis 11. The utility model discloses a ground light degree measuring device, motor 24 drive screw 23 rotate, and screw 23 rotates and promotes second center pillar 22 and takes place to reciprocate in order to realize changing the height of flexible center pillar subassembly 2, the utility model discloses a ground light degree measuring device, stable in structure easily adjusts the height of flexible center pillar subassembly 2.

The utility model discloses a ground light degree intelligence measurement system, including host computer, path information acquisition unmanned aerial vehicle and removal luminosity measurement car all are provided with the radio communication module, and removal luminosity measurement car and path information acquisition unmanned aerial vehicle pass through radio signal with the host computer respectively and are connected; the path information acquisition unmanned aerial vehicle is provided with a machine vision imaging module, and the mobile photometric measurement vehicle is provided with a steering servo motor and a GPS navigation module. The utility model discloses a ground light degree intelligence measurement system, accessible path information gathers unmanned aerial vehicle and gathers path information, transmit to the host computer through radio communication module and generate simulation navigation path information, host computer control turns to servo motor and realizes the moving direction of regulation and control removal luminosity measurement car, GPS navigation module measures the longitude and latitude data that removal luminosity measurement car was located often, the difference of longitude and latitude data and simulation navigation path information is compared to the host computer, control removal luminosity measurement car removes along simulation navigation path, realize measuring different positions, the luminosity of co-altitude. Specifically, the radio communication module may be a 2.4G communicator, a bluetooth communicator or a wifi module for near field communication.

The utility model discloses a ground light degree intelligence measurement system, measuring method includes following measuring step:

A. acquiring road image information by using a path information acquisition unmanned aerial vehicle flying through a curved road to be measured and transmitting the road image information to an upper computer;

B. b, the upper computer performs gray recognition on the graphic information acquired in the step A to generate simulated road curve graphic information of two side edges of the road;

C. placing a mobile photometric measuring vehicle at the starting point of a road to be measured, measuring the vertical distances A1 and A2 of the mobile photometric measuring vehicle from the edges of the two sides of the road to generate starting point coordinates A (A1 and A2), transmitting the coordinate information of A (A1 and A2) to an upper computer, simulating the starting point coordinates according to the relative positions of the starting point and the edges of the two sides of the road to be measured into the simulated road curve graph information generated in the step B by the upper computer to generate simulated starting points O (X0 and Y0), and generating a navigation path by the upper computer according to the relative positions of the simulated starting points and the curves of the two sides of the simulated road and the longitude and latitude data of the starting points; specifically, the ratio of a1 to a2 is equal to the ratio of X0 to Y0. Specifically, the points O1(X1, Y1) and O2(X2 and Y2) on the navigation path satisfy that the ratio of X1 to Y1 is equal to the ratio of X2 to Y2 is equal to the ratio of X0 to Y0.

And D, the GPS navigation module constantly measures longitude and latitude data of the mobile photometric measurement vehicle and transmits the longitude and latitude data to the upper computer, the upper computer compares the longitude and latitude data with the simulated navigation path information to control the mobile photometric measurement vehicle to move along the navigation path generated in the step C, and the illuminance meter probe 3 measures the illuminance of the passing area to generate illuminance data.

The utility model discloses a measuring method of ground light degree intelligence measurement system, usable figure acquisition discernment generate crooked road's simulation road curve graphical information, utilize the host computer to generate navigation route simultaneous control and measure and remove luminosity measurement car and remove along the navigation route, realize measuring crooked road's luminosity. Meanwhile, the upper computer can control the motor 24 to adjust the height of the telescopic middle column component 2 so as to adjust the distribution of the illuminometer probe 3 in the vertical space, and the photometric measurement of the three-dimensional space of the region to be measured is realized. Specifically, the host computer includes STM32 microprocessor controller.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the effectiveness of the prior art and has practicability, and thus it is a product with practical value.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (6)

1. A ground light measuring device which characterized in that: comprises a mounting bracket (1), an illuminometer body and an illuminometer probe (3) electrically connected with the illuminometer body; the mounting support (1) comprises a horizontal chassis (11), a telescopic center pillar assembly (2) and a probe mounting elastic rope (12), the telescopic center pillar assembly (2) is vertically mounted on the horizontal chassis (11), two ends of the probe mounting elastic rope (12) are respectively connected to the top end of the telescopic center pillar assembly (2) and the horizontal chassis (11), and the probe mounting elastic rope (12), the horizontal chassis (11) and the telescopic center pillar assembly (2) are arranged in a triangular mode; the illuminometer probes (3) are arranged on the probe mounting elastic rope (12) at intervals.

2. A ground gloss measuring apparatus according to claim 1, wherein: the probe is characterized by further comprising a telescopic sliding rod (13) used for supporting the probe to install an elastic rope (12), wherein the telescopic sliding rod (13) comprises a first sliding pipe and a second sliding pipe, one end of the first sliding pipe is hinged to the horizontal chassis (11), one end of the second sliding pipe is hinged to the top end of the telescopic center pillar component (2), and the other end of the first sliding pipe is connected with the other end of the second sliding pipe in a relatively sliding mode; the illuminometer probe (3) is arranged on the telescopic sliding rod (13) in a sliding manner.

3. A ground gloss measuring apparatus according to claim 2, wherein: the device is characterized by further comprising a probe mounting sliding table (15) and a sliding connection piece, wherein the probe mounting sliding table (15) is provided with a sleeve part (151) and a horizontal supporting table (152), the horizontal supporting table (152) can be rotatably arranged on the sleeve part (151), the sleeve part (151) is slidably arranged on the telescopic slide rod (13), and the illuminometer probe (3) is horizontally arranged on the horizontal supporting table (152); the pipe body of first slide pipe and second slide pipe is provided with spout (131), and the lumen of first slide pipe and second slide pipe is worn to locate by probe installation elasticity rope (12), and the slip is connected a slip and is set up in spout (131), and probe installation slip table (15) is through slip connection fixed connection in probe installation elasticity rope (12).

4. A ground gloss measuring apparatus according to claim 3, wherein: the two probe mounting elastic ropes (12) and the two telescopic sliding rods (13) are respectively arranged on two sides of the telescopic middle column assembly (2) and are arranged in an isosceles triangle with the horizontal chassis (11); the device also comprises a connecting telescopic rod (14) for maintaining the horizontal supporting platform (152) to be horizontal, and two ends of the connecting telescopic rod (14) are respectively pivoted on two horizontal supporting platforms (152) which are positioned at the same height and respectively connected with the two probe mounting elastic ropes (12).

5. A ground gloss measuring apparatus according to claim 1, wherein: the telescopic center pillar assembly (2) comprises a first center pillar (21), a second center pillar (22), a screw rod (23) and a motor (24), wherein the first center pillar (21) and the second center pillar (22) are hollow pipe bodies, the first center pillar (21) is fixed on the horizontal chassis (11), the second center pillar (22) is arranged at one end of the first center pillar (21) in a sliding mode, one end of the second center pillar (22) is provided with an internal thread part in transmission connection with the screw rod (23), and the probe installation elastic rope (12) is connected to the other end of the second center pillar (22); the screw (23) is rotatably arranged on the horizontal chassis (11) and arranged in the hollow tube cavities of the first center pillar (21) and the second center pillar (22), and the motor (24) drives the screw (23) to rotate and is arranged on the horizontal chassis (11).

6. A ground light measurement system which characterized in that: the system comprises an upper computer, a path information acquisition unmanned aerial vehicle and a mobile photometric measurement vehicle, wherein the mobile photometric measurement vehicle is provided with the ground photometric measurement device as set forth in any one of claims 1 to 5, the path information acquisition unmanned aerial vehicle and the mobile photometric measurement vehicle are both provided with a radio communication module, and the mobile photometric measurement vehicle and the path information acquisition unmanned aerial vehicle are respectively connected with the upper computer through radio signals; the path information acquisition unmanned aerial vehicle is provided with a machine vision imaging module, and the mobile photometric measurement vehicle is provided with a steering servo motor and a GPS navigation module.

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