CN209589249U - A kind of light pollution detection device - Google Patents

Abstract

The utility model relates to a kind of light pollution detection devices, including pedestal, telescopic supporting rod, rotating mechanism and luminous intensity detector, the upper end of pedestal sets telescopic supporting rod, the top connecting steering mechanism of telescopic supporting rod, the upper end of rotating mechanism sets luminous intensity detector, cylinder and controller are set on pedestal, cylinder and controller are fixedly connected with pedestal respectively, telescopic supporting rod connects cylinder, rotating mechanism includes angular transducer and hemispherical support, luminous intensity detector connects hemispherical support by sliding block, luminous intensity detector is detachably connected the upper surface of sliding block, the lower surface of sliding block is slidably connected the outer surface of hemispherical support, angular transducer is set on luminous intensity detector, cylinder, rotating mechanism, luminous intensity detector is controlled by controller, light pollution detection device provided by the utility model can multi-angle rotation, and convenient for control Rotational angle processed, it can be achieved that different height different angle luminous intensity real-time measurement, convenient for record.

Description

A kind of light pollution detection device

Technical field

The utility model belongs to environment monitoring equipment technical field, and in particular to a kind of light pollution detection device.

Background technique

Light pollution is the new environomental pollution source of one kind after the pollutions such as exhaust gas, waste water, waste residue and noise, mainly includes Bai Liang pollution, artificial daytime pollution and colour light pollution, light pollution are threaten people's health, in daily life, people The situation of common light pollution be mostly by mirror surface build it is reflective caused by pedestrian and driver spinning sensation and night it is unreasonable Light will reduce the harm that this city of light pollution is newly polluted to sense of discomfort caused by human body, and key is to reinforce urban planning Management, reasonable Arrangement light source reinforce the management to advertising lamp and neon light, are forbidden to use high power strong light source, and control uses big It is imperative to monitor the measures such as the intensity of illumination of ambient enviroment in real time for the civilian laser aid of power, however, existing light pollution is examined The device for lacking the position rotation for facilitating luminous intensity detector on device is surveyed, can not achieve luminous intensity detector to each orientation Luminous intensity detection, be unable to satisfy the demand of actual conditions.

Summary of the invention

The problem of purpose of the utility model is to solve proposed in background technique, and providing one kind can multi-angle turn Light pollution detection device dynamic and convenient for control rotational angle.

Purpose of the utility model is realized as follows:

A kind of light pollution detection device, including pedestal, telescopic supporting rod, rotating mechanism and luminous intensity detector, pedestal Upper end sets telescopic supporting rod, and the top connecting steering mechanism of telescopic supporting rod, the upper end of rotating mechanism sets luminous intensity detector, bottom Cylinder and controller are set on seat, cylinder and controller are fixedly connected with pedestal respectively, and telescopic supporting rod connects cylinder, rotating mechanism Including angular transducer and hemispherical support, luminous intensity detector connects hemispherical support by sliding block, and luminous intensity detector can The upper surface of dismantling connection sliding block, the lower surface of sliding block are slidably connected the outer surface of hemispherical support, and angular transducer is set to light On intensity detector, cylinder, rotating mechanism, luminous intensity detector are controlled by controller.

Further, servo motor is set in sliding block, servo motor is controlled by controller, and servo motor drives sliding block to drive light Intensity detector moves on the outer surface of hemispherical support.

Further, sliding rail is opened up on the upper surface of hemispherical support, sliding block is slidably connected with sliding rail, and sliding rail is along hemisphere The longest perimeter side of shape support outer surface opens up.

Further, display screen is set on controller, display screen display is examined by angular transducer and luminous intensity detector The data of survey.

Further, the bottom end of telescopic supporting rod sets range sensor, and range sensor is controlled by controller.

Further, telescopic supporting rod is rigid material, and telescopic supporting rod is hollow structure.

Further, telescopic supporting rod is fixedly connected on pedestal by fastening nut, and the lower end of hemispherical support passes through Fastening nut is fixedly connected on the upper end of telescopic supporting rod.

The utility model has the beneficial effects that:

1, a kind of light pollution detection device of the utility model, telescopic supporting rod are hollow cylindrical structure, it can be achieved that stretching The height adjustment of contracting support rod, can be accurately positioned the height of telescopic supporting rod by range sensor, and luminous intensity detector can be with The rotation of mobile realization different angle of the sliding block in sliding rail, to measure the light of different height and sustained height different angle Intensity real-time detection.

2, when telescopic supporting rod is raised to certain altitude, driving instruction, servo can be issued to servo motor by controller Motor driven sliding block moves in the periphery sliding rail along hemispherical support, the height of telescopic supporting rod rising, luminous intensity detection Instrument can be shown on display screen in the Optical power values that different angle obtains, and facilitated staff and obtained real time data, just In record.

3, it can be realized by rotating mechanism and position rotation is carried out to luminous intensity detector, controller can be issued to servo motor Instruction, sliding block drive luminous intensity detector multi-angle in sliding rail mobile, can obtain luminous intensity inspection in real time by angular transducer The rotational angle for surveying instrument, detects luminous intensity detector to each orientation, easy to operate.

Detailed description of the invention

Fig. 1 is a kind of light pollution structure of the detecting device schematic diagram of the utility model.

Fig. 2 is the top view of rotating mechanism in a kind of light pollution detection device of the utility model.

In figure: 1, pedestal；2, controller；3, display screen；4, telescopic supporting rod；5, hemispherical support；6, sliding block；7, servo Motor；8, luminous intensity detector；9, range sensor；10, cylinder；11, sliding rail；12, angular transducer.

Specific embodiment

The technical solutions in the embodiments of the present invention are clearly and completely described with reference to the accompanying drawing, it is clear that institute The embodiment of description is only the utility model a part of the embodiment, rather than whole embodiments, based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

Embodiment 1

As shown in Figure 1 and Figure 2, a kind of light pollution detection device, including pedestal 1, telescopic supporting rod 4, rotating mechanism and light intensity Detector 8 is spent, the upper end of pedestal 1 sets telescopic supporting rod 4, and telescopic supporting rod 4 is rigid material, and telescopic supporting rod 4 is hollow knot Structure, specifically, telescopic rod can be stainless steel material, to prevent external environment from influencing the service life of telescopic supporting rod 4, branch of stretching Strut 4 is fixedly connected on pedestal 1 by fastening nut, the top connecting steering mechanism of telescopic supporting rod 4, rotating mechanism it is upper End sets luminous intensity detector 8, and cylinder 10 and controller 2 are set on pedestal 1, and cylinder 10 and controller 2 are fixed with pedestal 1 respectively to be connected It connects, telescopic supporting rod 4 connects cylinder 10, and the oscilaltion that cylinder 10 is used to control telescopic supporting rod 4 moves back and forth, retractable support The bottom end of bar 4 sets range sensor 9, and range sensor 9 is controlled by controller 2, can in real time, accurately by range sensor 9 Acquisition telescopic supporting rod 4 adjustable height, rotating mechanism includes angular transducer 12 and hemispherical support 5, luminous intensity detection Instrument 8 connects hemispherical support 5 by sliding block 6, and the lower end of hemispherical support 5 is fixedly connected on telescopic supporting rod by fastening nut 4 upper end, luminous intensity detector 8 are detachably connected the upper surface of sliding block 6, and the lower surface of sliding block 6 is slidably connected hemispherical support 5 Outer surface, set servo motor 7 in sliding block 6, servo motor 7 is controlled by controller 2, and servo motor 7 drives sliding block 6 to drive light intensity Degree detector 8 moves on the outer surface of hemispherical support 5, and angular transducer 12 is set on luminous intensity detector 8, cylinder 10, Rotating mechanism, luminous intensity detector 8 are controlled by controller 2, and display screen 3 is set on controller 2, and display passes through angle on display screen 3 The data that degree sensor 12 and luminous intensity detector 8 detect pass through controller 2 when telescopic supporting rod 4 is raised to certain altitude Driving instruction can be issued to servo motor 7, servo motor 7 drives sliding block 6 to move in the periphery along hemispherical support 5, stretches The height of the rising of support rod 4, luminous intensity detector 8 can be shown on display screen 3 in the Optical power values that different angle obtains, Facilitate staff and obtain real time data, convenient for record.

Embodiment 2

As shown in Figure 1 and Figure 2, a kind of light pollution detection device, including pedestal 1, telescopic supporting rod 4, rotating mechanism and light intensity Spend detector 8, the upper end of pedestal 1 sets telescopic supporting rod 4, the top connecting steering mechanism of telescopic supporting rod 4, rotating mechanism it is upper End sets luminous intensity detector 8, and cylinder 10 and controller 2 are set on pedestal 1, and cylinder 10 and controller 2 are fixed with pedestal 1 respectively to be connected It connects, telescopic supporting rod 4 connects cylinder 10, and rotating mechanism includes angular transducer 12 and hemispherical support 5, luminous intensity detector 8 Hemispherical support 5 is connected by sliding block 6, luminous intensity detector 8 is detachably connected the upper surface of sliding block 6, the lower surface of sliding block 6 The outer surface of the hemispherical that is slidably connected support 5, angular transducer 12 be set to luminous intensity detector 8 on, cylinder 10, rotating mechanism, Luminous intensity detector 8 is controlled by controller 2, sets servo motor 7 in sliding block 6, and servo motor 7 is controlled by controller 2, servo electricity Machine 7 drives sliding block 6 that luminous intensity detector 8 is driven to move on the outer surface of hemispherical support 5, the upper surface of hemispherical support 5 On open up sliding rail 11, sliding block 6 is slidably connected with sliding rail 11, and sliding rail 11 is opened along the longest perimeter side of 5 outer surface of hemispherical support If setting display screen 3 on controller 2, the data that display is detected by angular transducer 12 and luminous intensity detector 8 on display screen 3, The bottom end of telescopic supporting rod 4 sets range sensor 9, and range sensor 9 is controlled by controller 2, and telescopic supporting rod 4 is rigid material Material, telescopic supporting rod 4 are hollow structure, and telescopic supporting rod 4 is fixedly connected on pedestal 1 by fastening nut, hemispherical support 5 Lower end the upper end of telescopic supporting rod 4 is fixedly connected on by fastening nut.

In use, first opening controller 2, controller 2 controls cylinder 10 and telescopic supporting rod 4 is driven to rise to specified altitude assignment, with Controller 2 is issued to servo motor 7 and is instructed afterwards, and servo motor 7 drives sliding block 6 that luminous intensity detector 8 is driven to move in sliding rail 11 It is dynamic, the angle that luminous intensity detector 8 rotates can be observed by angular transducer 12 in real time, to obtain the luminous intensity of different angle Detected value can record the light intensity value of different height and sustained height different angle by display screen 3 in time, and measurement is accurate, behaviour Facilitate.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (7)

1. a kind of light pollution detection device, it is characterised in that: including pedestal (1), telescopic supporting rod (4), rotating mechanism and light intensity It spends detector (8), the upper end of the pedestal (1) is set telescopic supporting rod (4), and the top of the telescopic supporting rod (4) connects rotation Mechanism, the upper end of the rotating mechanism are set luminous intensity detector (8), set cylinder (10) and controller (2) on the pedestal (1), The cylinder (10) and controller (2) are fixedly connected with pedestal (1) respectively, and the telescopic supporting rod (4) connects cylinder (10), institute Stating rotating mechanism includes angular transducer (12) and hemispherical support (5), and the luminous intensity detector (8) is connected by sliding block (6) It connects hemispherical support (5), the luminous intensity detector (8) is detachably connected the upper surface of sliding block (6), under the sliding block (6) Surface is slidably connected the outer surfaces of hemispherical support (5), and the angular transducer (12) is set on luminous intensity detector (8), institute Cylinder (10), rotating mechanism, luminous intensity detector (8) is stated to be controlled by controller (2).

2. a kind of light pollution detection device according to claim 1, it is characterised in that: set servo electricity in the sliding block (6) Machine (7), the servo motor (7) are controlled by controller (2), and servo motor (7) driving sliding block (6) drives luminous intensity detection Instrument (8) moves on the outer surface of hemispherical support (5).

3. a kind of light pollution detection device according to claim 1, it is characterised in that: the hemispherical support (5) it is upper It is opened up on surface sliding rail (11), the sliding block (6) is slidably connected with sliding rail (11), and the sliding rail (11) is along hemispherical support (5) the longest perimeter side of outer surface opens up.

4. a kind of light pollution detection device according to claim 1, it is characterised in that: set display on the controller (2) Shield (3), the data that display is detected by angular transducer (12) and luminous intensity detector (8) on the display screen (3).

5. a kind of light pollution detection device according to claim 1, it is characterised in that: the bottom of the telescopic supporting rod (4) End is set range sensor (9), and the range sensor (9) is controlled by controller (2).

6. a kind of light pollution detection device according to claim 1, it is characterised in that: the telescopic supporting rod (4) is rigid Property material, the telescopic supporting rod (4) be hollow structure.

7. a kind of light pollution detection device according to claim 1, it is characterised in that: the telescopic supporting rod (4) passes through Fastening nut is fixedly connected on pedestal (1), and the lower end of the hemispherical support (5) is fixedly connected on flexible by fastening nut The upper end of support rod (4).