CN114152332B - Road illuminance measuring device - Google Patents

Abstract

The invention provides a road illuminance measuring device, which belongs to the technical field of on-site illuminance measurement and comprises: moving the vehicle body; the control cabinet is arranged on the mobile vehicle body; the vertical lifting assembly is arranged on the movable car body and is in communication connection with the control cabinet; the two opposite sides of the vertical lifting assembly are respectively provided with at least one horizontal telescopic assembly, and the horizontal telescopic assemblies are in communication connection with the control cabinet; the automatic leveling cloud deck is at least provided with one automatic leveling cloud deck on the vertical lifting assembly and the horizontal telescopic assembly, and the automatic leveling cloud deck is in communication connection with the control cabinet; and the illuminometer probes are arranged on each automatic leveling cloud deck and are in communication connection with the control cabinet. The road illuminance measuring device provided by the invention can adaptively adjust the position of the illuminometer, thereby meeting more measurement requirements.

Description

Road illuminance measuring device

Technical Field

The invention belongs to the technical field of on-site illuminance measurement, and particularly relates to a road illuminance measurement device.

Background

The illuminance is an important index for evaluating the lighting effect, the standard of the lighting measurement method is GB/T5700-2008 lighting measurement method, for the detection of the illuminance and illuminance uniformity of a road, a measured road section is divided into a plurality of rectangular grids with equal size according to the installation mode of the road lamp, when the uniformity of the road surface is relatively poor or the measurement accuracy requirement is relatively high, the divided grids are more, and when the distance between two lamp posts is smaller than or equal to 50m, the distance between the two lamp posts is preferably equal to 10 along the longitudinal direction of the road; when the distance between the two lamp posts is larger than 50m, the two lamp posts are preferably divided according to equal intervals of which the side length of each grid is smaller than or equal to 5m, each lane is preferably trisected in the transverse direction of the road, and when the uniformity of the road surface is good or the requirement on measurement accuracy is low, the side length of the transverse grid of the road can be equal to the width of each lane.

When the grid is drawn, the illumination values need to be measured one by one at the middle point of the grid, and the illumination uniformity is obtained by adding all the illuminations and then averaging. In the illuminance measurement process, staff is required to place illuminometers at the center point of each grid one by one to measure illuminance, time and labor are wasted, and due to the problems of road flatness and the like, the illuminometers cannot be completely and horizontally placed, so that measurement results have deviation, in addition, the street lamp illumination effect measurement is required to be performed at night without moon light, compared with the daytime, a driver has poor field of view at night, the danger of the road illumination effect measurement staff is increased, and at least four detection staff are usually required to draw grids and measure illuminance.

Based on the above-mentioned traditional manual measurement mode, a mode of carrying an illuminometer by a mobile trolley for measurement appears, but when an illuminometer measurement standard is changed, the position of the illuminometer cannot be adjusted adaptively.

Disclosure of Invention

The invention aims to provide a road illuminance measuring device, which aims to solve the technical problem that the position of an illuminometer cannot be adaptively adjusted when an illuminance measuring standard is changed.

In order to achieve the above purpose, the invention adopts the following technical scheme: provided is a road illuminance measuring device including: moving the vehicle body; the control cabinet is arranged on the mobile vehicle body; the vertical lifting assembly is arranged on the movable car body and is in communication connection with the control cabinet; the two opposite sides of the vertical lifting assembly are respectively provided with at least one horizontal telescopic assembly, and the horizontal telescopic assemblies are in communication connection with the control cabinet; the automatic leveling cloud deck is at least provided with one automatic leveling cloud deck on the vertical lifting assembly and the horizontal telescopic assembly, and the automatic leveling cloud deck is in communication connection with the control cabinet; and the illuminometer probes are arranged on each automatic leveling cloud deck and are in communication connection with the control cabinet.

In one possible implementation, the control cabinet includes: the cabinet body is arranged on the movable car body; the controller is arranged in the cabinet body; and the control buttons are all in communication connection with the controller and respectively control the vertical lifting assembly, the horizontal telescopic assembly, the automatic leveling holder and the illuminometer probe.

In one possible implementation manner, the control cabinet further comprises a display screen arranged on the cabinet body, and the display screen is in communication connection with the controller.

In one possible implementation, the vertical lift assembly includes: the lifting driving piece is arranged on the movable car body and is in communication connection with the control cabinet; the lifting executing piece is connected with the lifting driving piece, and the fixed end of the lifting executing piece is arranged on the movable vehicle body; and the vertical tray is arranged on the lifting execution piece and is provided with the corresponding automatic leveling cradle head.

In one possible implementation manner, the lifting executing piece is provided with a lifting platform frame, the vertical tray is arranged in a bending shape, two clamping grooves for clamping opposite sides of the lifting platform frame and two containing grooves between the clamping grooves are formed, the opening directions of the containing grooves are opposite to that of the clamping grooves, and the containing grooves are provided with corresponding automatic leveling cloud platforms.

In one possible implementation, the horizontal telescoping assembly includes: the telescopic driving piece is arranged on the movable car body and is in communication connection with the control cabinet; the telescopic executing piece is connected with the telescopic driving piece and is provided with the corresponding automatic leveling cloud deck; and the fixed plate is connected with the vertical tray and the telescopic executive component.

In one possible implementation manner, the horizontal telescopic assembly further comprises a horizontal tray arranged at one end of the telescopic actuating piece, which is far away from the fixing plate, and the horizontal tray is provided with the corresponding automatic leveling cradle head.

In one possible implementation, the horizontal tray has a side plate connected to the telescopic actuator, and a bottom plate connected to the side plate, the bottom plate being provided with the corresponding self-leveling head.

In one possible implementation, the mobile vehicle body includes: the hollowed-out car body chassis is provided with the control cabinet and the vertical lifting component; and the wheel sets are detachably arranged on the hollowed-out vehicle body chassis.

In one possible implementation manner, the mobile vehicle body further comprises a handle arranged on the hollowed-out vehicle body chassis, and the handle is arranged adjacent to the control cabinet.

The road illuminance measuring device provided by the invention has at least the following technical effects: compared with the prior art, the road illuminance measuring device provided by the invention has the advantages that under the action of the control cabinet, the height of the illuminometer probe can be adjusted by utilizing the vertical lifting component, the horizontal distance of the illuminometer probe can be adjusted by utilizing the horizontal telescopic component, so that the position of the illuminometer can be adaptively adjusted, more measurement requirements are met, synchronous measurement of at least three illuminance points can be realized, under the action of the horizontal telescopic component, positioning points are only required to be drawn longitudinally on a road, and positioning points are not required to be drawn transversely on the road, so that the number and the working time of workers can be reduced, the safety risk of the workers can be reduced, in addition, the levelness of the illuminometer probe can be ensured by automatically leveling the cradle head, and the accuracy of a measurement result can be ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is an exploded view of a road illuminance measuring device according to an embodiment of the present invention.

Reference numerals illustrate:

1. road illuminance measuring device 100, mobile vehicle body 110 and hollowed-out vehicle body chassis

111. Chassis hole 120, wheel set 121, wheel hole

130. Handle 200, control cabinet 210 and cabinet body

220. Control button 230, display 300, and vertical lift assembly

310. Lifting driving member 320, lifting executing member 321, and lifting platform frame

322. Lifting hole 330, vertical tray 331 and clamping groove

332. Receiving groove 333, first tray hole 334, second tray hole

400. Horizontal telescoping assembly 410, telescoping drive 420, telescoping actuator

430. Fixing plate 431, fixing hole 440, and horizontal tray

441. Third tray hole 500, automatic leveling cradle head 600 and illuminometer probe

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "fixed" to "another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to," "connected to" another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "disposed on," "secured to" another element, it can be directly on the other element or intervening elements may also be present. "plurality" refers to two and more numbers.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Referring to fig. 1, a road illuminance measuring apparatus 1 according to an embodiment of the present invention will be described.

Referring to fig. 1, an embodiment of the present invention provides a road illuminance measuring apparatus 1, including: a mobile vehicle body 100; a control cabinet 200 provided on the mobile vehicle body 100; the vertical lifting assembly 300 is arranged on the mobile car body 100 and is in communication connection with the control cabinet 200; the horizontal telescopic assembly 400 is respectively arranged on two opposite sides of the vertical lifting assembly 300, and the horizontal telescopic assembly 400 is in communication connection with the control cabinet 200; the automatic leveling cloud deck 500 is at least provided with one automatic leveling cloud deck 500 on the vertical lifting assembly 300 and the horizontal telescopic assembly 400, and the automatic leveling cloud deck 500 is in communication connection with the control cabinet 200; and a illuminometer probe 600, wherein each self-leveling cradle head 500 is provided with an illuminometer probe 600, and the illuminometer probes 600 are in communication connection with the control cabinet 200.

It should be noted that, at least one auto-leveling pan-tilt 500 and illuminometer probe 600 are configured in each of the vertical lifting assembly 300 and the horizontal telescopic assembly 400, so as to realize measurement of at least three illumination points. For example, one horizontal telescopic assembly 400 is disposed at each of opposite sides of the vertical lift assembly 300, and for example, two horizontal telescopic assemblies 400 are disposed at each of opposite sides of the vertical lift assembly 300, so long as the plurality of auto-leveling head 500 is maintained at the same horizontal plane. Therefore, illuminance point measurement with different heights and different widths can be realized, and the adaptability is better.

It will be appreciated that the telescoping direction of the horizontal telescoping assembly 400 is perpendicular to the direction of travel of the moving vehicle body 100. Herein, "communication connection" shall be construed broadly to include wired connection, wireless connection, electrical connection.

The road illuminance measuring device 1 provided by the embodiment of the invention has at least the following technical effects: compared with the prior art, the road illuminance measuring device 1 provided by the embodiment of the invention can adjust the height of the illuminometer probe 600 by using the vertical lifting assembly 300 under the action of the control cabinet 200, can adjust the horizontal distance of the illuminometer probe 600 by using the horizontal telescopic assembly 400, can adaptively adjust the position of the illuminometer, meets more measurement requirements, can realize synchronous measurement of at least three illuminance points, only needs to draw positioning points in the longitudinal direction of a road under the action of the horizontal telescopic assembly 400, does not need to draw positioning points in the transverse direction of the road, can reduce the number of staff and the working time, reduces the safety risk of the staff, and can ensure the levelness of the illuminometer probe 600 by automatically leveling the cradle head 500 and ensure the accuracy of a measurement result.

The specific composition of the control cabinet 200 is not limited, and is exemplified below.

Referring to fig. 1, in some possible embodiments, a control cabinet 200 includes: a cabinet 210 provided on the mobile vehicle body 100; the controller is arranged in the cabinet body 210; and a plurality of control buttons 220, all in communication with the controller, for controlling the vertical lift assembly 300, the horizontal telescoping assembly 400, the auto leveling head 500, and the illuminometer probe 600, respectively.

Specifically, the controller is disposed in the cabinet 210, and can reduce mechanical damage and contamination, and specifically can include a processor, a comparator, an amplifier, and other components, and can control lifting of the vertical lifting assembly 300, telescoping of the horizontal telescoping assembly 400, leveling of the auto-leveling pan-tilt 500, and acquisition of the illuminometer probe 600 by operation of the control button 220. The control button 220 may be a screw-type, a push-type, or a toggle-type.

Based on the above-mentioned components of the control cabinet 200, referring to fig. 1, in a specific embodiment, the control cabinet 200 further includes a display screen 230 disposed on the cabinet body 210, where the display screen 230 is communicatively connected to the controller. In this embodiment, the display screen 230 may display a lifting distance, a telescopic distance, a leveling degree, a collection status, and the like, so that a worker can learn the current detection situation in time. Of course, the display 230 may also be touch type, and input information is performed.

Of course, in other possible embodiments, the control cabinet 200 may not be provided with the display screen 230, may be provided with an early warning module, a positioning module, or the like, and is not limited thereto.

The specific composition of the vertical lift assembly 300 is not limited and is illustrated below.

Referring to fig. 1, in some possible embodiments, the vertical lift assembly 300 includes: the lifting driving piece 310 is arranged on the mobile car body 100 and is in communication connection with the control cabinet 200; the lifting actuator 320 is connected with the lifting driving member 310, and the fixed end of the lifting actuator 320 is arranged on the mobile car body 100; and a vertical tray 330 provided on the lifting actuator 320 and provided with a corresponding auto-leveling head 500.

Specifically, the lifting driving member 310 may be a hydraulic cylinder, an air cylinder, or the like, and the lifting driving member 310 shown in fig. 1 may be an oil source pipeline when the lifting driving member 310 is a hydraulic cylinder, and the lifting executing member 320 may be a scissor type lifting rod set, a straight up-down type rod set, or a plate set, or the like, so that lifting operation may be implemented under the action of the control cabinet 200. The vertical tray 330 is fixed on the lifting actuator 320, which can provide a large contact area, facilitating installation of the auto-leveling head 500.

Referring to fig. 1 for describing the vertical lift assembly 300, in a specific embodiment, the lift actuator 320 has a lift platform frame 321, a vertical tray 330 is configured in a bent shape, two clamping grooves 331 that clamp opposite sides of the lift platform frame 321, and a receiving groove 332 between the two clamping grooves 331, where the opening directions of the receiving groove 332 and the clamping groove 331 are opposite, and the receiving groove 332 is provided with a corresponding self-leveling pan-tilt 500.

In this embodiment, the lifting platform frame 321 has a plurality of frames that are enclosed together, so that the weight of the whole device can be reduced, the vertical tray 330 can be integrally formed or can be formed separately, a concave shape without a bottom edge is formed, the two opposite sides of the lifting platform frame 321 can be correspondingly clamped by the clamping grooves 331 on the two sides, and the automatic leveling tripod head 500 can be mounted by the middle accommodating groove 332.

Wherein, be equipped with first tray hole 333 at the diapire that constitutes centre gripping groove 331, be equipped with lifting hole 322 at lifting platform frame 321, set up the installation that the screw can realize vertical tray 330 in first tray hole 333 and lifting hole 322, certainly can also adopt the welded mode. Mounting holes may be formed in the bottom wall of the housing groove 332, and the self-leveling head 500 may be mounted by screws fitted in the mounting holes, or may be welded.

Of course, in other possible embodiments, the auto-leveling head 500 may be directly disposed on the lifting actuator 320 without disposing the vertical tray 330, and other vertical trays 330 may be disposed, so long as it is ensured that the plurality of auto-leveling heads 500 are kept at the same horizontal plane.

Based on the description of the vertical lift assembly 300 above, referring to FIG. 1, in one particular embodiment, a horizontal telescoping assembly 400 includes: the telescopic driving piece 410 is arranged on the mobile car body 100 and is in communication connection with the control cabinet 200; the telescopic executing piece 420 is connected with the telescopic driving piece 410 and is provided with a corresponding automatic leveling cloud deck 500; and a fixing plate 430 connected with the vertical tray 330 and connected with the telescopic actuator 420.

In this embodiment, the telescopic driving element 410 may be a hydraulic cylinder, an air cylinder, or the like, and the telescopic driving element 410 shown in fig. 1 may be an air source pipeline when the telescopic driving element 410 is an air cylinder, and the telescopic actuating element 420 may be a plurality of rod groups, electric telescopic rods, or the like, so that the telescopic operation may be realized under the action of the control cabinet 200. The fixing plate 430 is fixed between the vertical tray 330 and the telescopic actuator 420, and ensures the synchronization and consistency of the adjustment positions of the plurality of self-leveling head 500.

Wherein, be equipped with fixed orifices 431 on fixed plate 430, be equipped with second tray hole 334 on vertical tray 330, set up the installation that the screw can realize horizontal telescopic assembly 400 in fixed orifices 431 and second tray hole 334, of course, also can adopt the welded mode.

Referring to fig. 1, in a specific embodiment, the horizontal telescopic assembly 400 further includes a horizontal tray 440 disposed at an end of the telescopic actuator 420 away from the fixing plate 430, where the horizontal tray 440 is provided with a corresponding auto-leveling pan/tilt 500. In this embodiment, the horizontal tray 440 is fixed at the end of the telescopic actuator 420 by means of threaded connection, welding, etc., so that a larger contact area can be provided, and the automatic leveling pan-tilt 500 can be conveniently installed.

Based on the description of the horizontal tray 440 above, referring to fig. 1, the horizontal tray 440 illustratively has a side plate connected to the telescopic actuator 420, and a bottom plate connected to the side plate, and the bottom plate is provided with a corresponding self-leveling pan/tilt 500. In this embodiment, the side plate may form a limit for the auto-leveling pan-tilt 500, and meanwhile, a plurality of side panels surrounding the side plate to form a cavity may be further disposed on the bottom plate to form a further limit function.

Wherein, a third tray hole 441 is provided on the bottom plate, and the auto-leveling tripod head 500 is mounted by a screw engaged in the third tray hole 441, which may also be a welding method.

Of course, in other possible embodiments, the horizontal telescopic assembly 400 may be provided with no fixing plate 430, no horizontal tray 440, the automatic leveling head 500 directly provided on the telescopic actuator 420, the telescopic actuator 420 directly provided on the vertical tray 330, and the horizontal tray 440 of other shapes, so long as the tray bearing surfaces of the horizontal tray 440 and the vertical tray 330 are kept at the same horizontal plane.

The specific composition of the mobile vehicle body 100 is not limited, and is exemplified below.

Referring to fig. 1, in some possible embodiments, a mobile vehicle body 100 includes: the hollowed-out car body chassis 110 is provided with a control cabinet 200 and a vertical lifting assembly 300; and a plurality of wheel sets 120 detachably disposed on the hollow chassis 110. Specifically, the hollow-out chassis 110 is frame-shaped, so that the weight of the whole device can be reduced, and the plurality of wheel sets 120 are uniformly arranged on the hollow-out chassis 110, so that the stability of movement is improved. The wheel set 120 may include a mounting plate and a plurality of wheels disposed on the mounting plate, wherein the mounting plate is provided with a wheel hole 121, the hollow chassis 110 is provided with a chassis hole 111, and the wheel set 120 may be detachably mounted by setting screws in the wheel hole 121 and the chassis hole 111.

In addition, a shock absorbing structure may be provided on the wheel set 120 to reduce the shake of the entire apparatus.

Referring to fig. 1, in a specific embodiment, the mobile vehicle 100 further includes a handle 130 disposed on the hollowed-out vehicle chassis 110, and the handle 130 is disposed adjacent to the control cabinet 200. In the present embodiment, the handle 130 is disposed adjacent to the control cabinet 200, and the control button 220 on the control cabinet 200 can be rapidly and conveniently operated when the worker pushes the moving vehicle body 100.

Of course, in other possible embodiments, the mobile vehicle body 100 may have a chassis structure other than a hollow chassis structure, and may further have a housing cavity for placing tools, and the like, but is not limited thereto.

It will be appreciated that the portions of the foregoing embodiments may be freely combined or omitted to form different combined embodiments, and the details of the respective combined embodiments are not described herein, so that after the description, the present disclosure may be considered as having described the respective combined embodiments, and the different combined embodiments can be supported.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. Road illuminance measuring device, characterized by comprising:

Moving the vehicle body;

The control cabinet is arranged on the mobile vehicle body;

the vertical lifting assembly is arranged on the movable car body and is in communication connection with the control cabinet;

The two opposite sides of the vertical lifting assembly are respectively provided with at least one horizontal telescopic assembly, and the horizontal telescopic assemblies are in communication connection with the control cabinet;

the automatic leveling cloud deck is at least provided with one automatic leveling cloud deck on the vertical lifting assembly and the horizontal telescopic assembly, and the automatic leveling cloud deck is in communication connection with the control cabinet; and

The illuminometer probes are arranged on each automatic leveling cloud deck and are in communication connection with the control cabinet;

The vertical lift assembly includes:

the lifting driving piece is arranged on the movable car body and is in communication connection with the control cabinet;

the lifting executing piece is connected with the lifting driving piece, and the fixed end of the lifting executing piece is arranged on the movable vehicle body; and

The vertical tray is arranged on the lifting execution piece and is provided with the corresponding automatic leveling cradle head;

The lifting executing piece is provided with a lifting platform frame, the vertical tray is arranged in a bending shape, two clamping grooves for clamping opposite sides of the lifting platform frame are formed, and a containing groove is formed between the two clamping grooves, the opening directions of the containing groove and the opening directions of the clamping grooves are opposite, and the containing groove is provided with a corresponding automatic leveling cradle head;

the horizontal telescoping assembly includes:

the telescopic driving piece is arranged on the movable car body and is in communication connection with the control cabinet;

The telescopic executing piece is connected with the telescopic driving piece and is provided with the corresponding automatic leveling cloud deck; and

The fixed plate is connected with the vertical tray and the telescopic executive component;

the horizontal telescopic assembly further comprises a horizontal tray arranged at one end, far away from the fixed plate, of the telescopic executing piece, and the horizontal tray is provided with a corresponding automatic leveling cradle head.

2. The roadway illuminance measurement apparatus of claim 1, wherein the control cabinet comprises:

The cabinet body is arranged on the movable car body;

The controller is arranged in the cabinet body; and

And the control buttons are all in communication connection with the controller and respectively control the vertical lifting assembly, the horizontal telescopic assembly, the automatic leveling cradle head and the illuminometer probe.

3. The roadway illuminance measurement apparatus of claim 2, wherein the control cabinet further comprises a display screen disposed on the cabinet body, the display screen being communicatively coupled to the controller.

4. The roadway illuminance measuring device of claim 1 wherein the horizontal tray has a side plate connected to the telescoping actuator and a bottom plate connected to the side plate, the bottom plate being provided with the corresponding auto leveling head.

5. The road illuminance measurement device according to claim 1, wherein the moving vehicle body includes:

the hollowed-out car body chassis is provided with the control cabinet and the vertical lifting component; and

The wheel sets are detachably arranged on the hollowed-out vehicle body chassis.

6. The roadway illuminance measurement apparatus of claim 5 wherein the mobile vehicle body further comprises a handle disposed on the hollowed-out vehicle body chassis, and the handle is disposed adjacent to the control cabinet.