CN220019517U - Real-time detection device for solar atmospheric environment - Google Patents

Abstract

The utility model discloses a solar atmospheric environment real-time detection device, wherein the top end of a mounting bracket is fixedly connected with a mounting box, the side wall of the mounting bracket is provided with a lifting guide groove, and a posture adjustment assembly is arranged on the mounting box and is connected with a solar panel for adjusting the orientation angle of the solar panel. In the lifting assembly, an adjusting screw rod is rotatably arranged in a lifting guide groove, a lifting seat is slidably arranged in the lifting guide groove and is in screwed connection with the adjusting screw rod, and a first motor is fixedly arranged in a mounting box and is in power connection with the adjusting screw rod. The lifting seat is internally provided with a detection cavity, the bottom and the side wall of the detection cavity are respectively provided with an air inlet and an air outlet, and the detection assembly comprises a fan assembled at the air inlet and an atmosphere detection sensor assembled in the detection cavity. The utility model has the advantages of convenient assembly and reduced electric energy access, and can detect the air quality of different heights in real time.

Description

Real-time detection device for solar atmospheric environment

Technical Field

The utility model relates to the technical field of atmospheric environment detection, in particular to a solar atmospheric environment real-time detection device.

Background

When detecting atmospheric environment, in order to ensure that monitoring data has good representativeness, the detection device is often assembled at the height, an external power supply is often required during construction and assembly to ensure that the installed electric equipment normally operates, and a plurality of inconveniences exist on an operation level. Or the handheld equipment of staff is used for field detection, and because of limited manpower, continuous real-time data of a certain area is difficult to obtain, and the quality of the atmospheric environment is difficult to accurately evaluate.

In the process of detecting the quality of the atmospheric environment, the traditional detection device is difficult to detect the air quality in a specific height range in a layering manner, and the obtained detection data is difficult to represent the actual state of the height area.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a solar atmospheric environment real-time detection device which has the advantages of convenient assembly and reduced electric energy access and can detect the atmospheric quality at different heights in real time.

The technical scheme adopted by the utility model for achieving the purpose is as follows: the solar atmospheric environment real-time detection device comprises a mounting bracket, a solar panel, an attitude adjusting assembly, a lifting assembly and a detection assembly, wherein the top end of the mounting bracket is fixedly connected with a mounting box, a vertically arranged lifting guide groove is formed in the side wall of the mounting bracket, the attitude adjusting assembly is mounted on the mounting box in a matching way and is connected with the solar panel, and the attitude adjusting assembly is used for adjusting the orientation angle of the solar panel; the lifting assembly comprises a lifting seat, an adjusting screw rod and a first motor, the adjusting screw rod is rotatably arranged in the lifting guide groove, the lifting seat is slidably arranged in the lifting guide groove and is in screwed connection with the adjusting screw rod, and the first motor is fixedly arranged in the mounting box and is in power connection with the adjusting screw rod; the lifting seat is internally provided with a detection cavity, the bottom and the side wall of the detection cavity are respectively provided with an air inlet and an air outlet, and the detection assembly comprises a fan assembled at the air inlet and an atmosphere detection sensor assembled in the detection cavity.

In some implementations, when the solar energy atmospheric environment real-time detection device is installed on site, the solar energy atmospheric environment real-time detection device is usually assembled on a street lamp and an electric pole to detect the surrounding atmospheric environment in real time, and in order to ensure that the installation support can be stably installed on the street lamp and the electric pole, the upper end and the lower end of the installation support are fixedly connected with connection supports.

In some implementations, in order to ensure that the first motor can drive the adjusting screw to stably rotate, the adjusting screw drives the lifting seat to stably lift in the lifting guide groove, and then the detecting assembly detects components of the atmosphere at different heights, the following technical scheme is provided.

The solar panel is characterized in that a storage battery which is electrically connected with the solar panel is fixedly installed in the installation box, the first motor is in power connection with the storage battery, a first driving gear is fixedly connected to a rotating shaft of the first motor, a first transmission gear which is arranged in the installation box is fixedly connected to the top end of the adjusting screw rod, and the first transmission gear is in rotary connection with the first driving gear.

In some implementations, in order to ensure that the posture adjustment assembly and the solar panel can be stably installed, the posture adjustment assembly can drive the solar panel to stably rotate around the vertical axis, so that the solar panel follows the rotation of the sun, and the following technical scheme is provided.

The gesture adjusting assembly comprises a rotating seat and a second motor, the rotating seat is rotatably mounted at the top of the mounting box, the solar panel is mounted above the rotating seat in a matched mode, a second transmission gear arranged on the inner side of the mounting box is fixedly connected to the bottom of the rotating seat, the second motor is fixedly mounted in the mounting box and is electrically connected with the storage battery, a second driving gear is fixedly connected to a rotating shaft of the second motor, and the second driving gear is meshed with the second transmission gear.

On the basis of the technical scheme about the attitude adjusting assembly, in order to ensure that the attitude adjusting assembly can adjust the pitching angle of the solar panel, sunlight irradiates the solar panel as vertically as possible, and the conversion efficiency of the solar panel is improved, the following technical scheme is provided.

The bottom of solar panel articulates to rotate on the seat, gesture adjustment subassembly still includes electric telescopic jar, sliding plate, lifting column, head rod, second connecting rod, and sliding plate slidable mounting is in the top of rotating the seat and along the horizontal direction arrangement, lifting column slidable mounting in rotating seat axle center department and along vertical direction arrangement, lifting column bottom rotate install in the rolling disc, electric telescopic jar arrange in the mounting box and with the battery keeps the intercommunication, and electric telescopic jar both ends keep articulated with rolling disc, mounting box respectively, and the both ends of head rod keep articulated with solar panel, sliding plate respectively, and the both ends of second connecting rod keep articulated with sliding plate, lifting column top respectively.

The utility model has the beneficial effects that: the solar panel converts solar energy into electric energy and stores the electric energy, so that the stable operation of the related posture adjusting component, lifting component and detecting component can be ensured, the electric energy is prevented from being connected when the detecting device is constructed on site, and the assembly difficulty of the detecting device is simplified. The attitude adjusting assembly can adjust the attitude of the solar panel according to the position of the sun, so that the energy conversion efficiency of solar energy can be effectively improved, the lifting assembly can drive the detecting assembly to stably lift, the detecting assembly can fully detect the air quality of different heights, and the accuracy of real-time detection of the air is improved.

Drawings

FIG. 1 is a schematic view of the appearance structure of the present utility model;

FIG. 2 is a schematic view of the structure of the detection assembly installed in the lifting seat;

FIG. 3 is a schematic view of the structure of the inside of the mounting case;

FIG. 4 is a schematic view of a portion of a lift assembly;

FIG. 5 is a schematic view of a solar panel mounted on a rotating base;

FIG. 6 is a schematic structural view of the mounting of the attitude adjustment assembly;

fig. 7 is a schematic cross-sectional view of the rotating seat in fig. 6.

In the figure: the solar energy storage device comprises a mounting bracket 1, a mounting box 11, a lifting guide groove 12, a connecting bracket 13, a solar panel 2, a storage battery 21, a rotating seat 31, a second transmission gear 311, a storage sink 312, a sliding guide groove 313, a lifting through hole 314, a transition groove 315, a second motor 32, a second driving gear 321, an electric telescopic cylinder 33, a sliding plate 34, a lifting column 35, a rotating disk 351, a first connecting rod 36, a second connecting rod 37, a lifting seat 41, a detection cavity 411, an air inlet 412, an air outlet 413, an adjusting screw 42, a first transmission gear 421, a first motor 43, a first driving gear 431, a fan 51 and an atmospheric detection sensor 52.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, a solar atmospheric environment real-time detection device comprises a mounting bracket 1, a solar panel 2, an attitude adjusting assembly, a lifting assembly and a detection assembly, wherein a mounting box 11 is fixedly connected to the top end of the mounting bracket 1, a vertically arranged lifting guide groove 12 is formed in the side wall of the mounting bracket 1, the attitude adjusting assembly is mounted on the mounting box 11 in a matched manner and is linked with the solar panel 2, and the attitude adjusting assembly is used for adjusting the orientation angle of the solar panel 2; the lifting assembly comprises a lifting seat 41, an adjusting screw rod 42 and a first motor 43, wherein the adjusting screw rod 42 is rotatably arranged in the lifting guide groove 12, the lifting seat 41 is slidably arranged in the lifting guide groove 12 and is in screwed connection with the adjusting screw rod 42, and the first motor 43 is fixedly arranged in the mounting box 11 and is in power connection with the adjusting screw rod 42; the lifting seat 41 is provided with a detection cavity 411, the bottom and the side wall of the detection cavity 411 are respectively provided with an air inlet 412 and an air outlet 413, and the detection assembly comprises a fan 51 assembled at the air inlet 412 and an atmosphere detection sensor 52 assembled in the detection cavity 411.

The air inlet 412 is arranged at the bottom, and can suck external atmospheric samples into the detection cavity 411 through the fan 51, so that each atmospheric detection sensor 52 assembled in the air can detect each pollution component in the atmosphere in real time to judge the pollution condition of the atmosphere, and then the air outlet 413 arranged on the side wall is discharged, and the air outlet 413 is assembled on the side wall, so that the influence of rainwater on the normal operation of the detection cavity 411 can be effectively avoided.

The atmospheric detection sensor 52 includes a PM2.5 concentration sensor, a PM10 concentration sensor, a carbon monoxide concentration sensor, a nitrogen oxide concentration sensor, a sulfur dioxide concentration sensor, and a temperature and humidity sensor, depending on the contaminant component to be detected.

The solar panel 2 converts solar energy into electric energy and stores the electric energy, so that the stable operation of the related attitude adjusting component, lifting component and detection component can be ensured, the electric energy is prevented from being connected when the detection device is constructed on site, and the assembly difficulty of the detection device is simplified. The attitude adjusting assembly can adjust the attitude of the solar panel 2 according to the position of the sun, so that the energy conversion efficiency of solar energy can be effectively improved, the lifting assembly can drive the detecting assembly to stably lift, the detecting assembly can fully detect the air quality of different heights, and the accuracy of air real-time detection is improved.

When the solar energy atmospheric environment real-time detection device is installed on site, the solar energy atmospheric environment real-time detection device is usually assembled on a street lamp and an electric pole to detect the surrounding atmospheric environment in real time, and connecting brackets 13 are fixedly connected at the upper end and the lower end of the mounting bracket 1 in order to ensure that the mounting bracket 1 can be stably installed on the street lamp and the electric pole.

The upper connecting bracket 13 and the lower connecting bracket 13 are fixedly mounted to the specific height of the street lamp and the electric pole through the bolt assemblies, so that the rapid dismounting and mounting of the solar atmospheric environment real-time detection device can be completed, and the rapid construction and maintenance work of the detection device are facilitated.

In order to ensure that the first motor 43 can drive the adjusting screw 42 to stably rotate, the adjusting screw 42 drives the lifting seat 41 to stably lift in the lifting guide groove 12, and the detecting assembly detects components of the atmosphere at different heights, the following technical scheme is provided.

The storage battery 21 which is electrically connected with the solar panel 2 is fixedly installed in the installation box 11, the first motor 43 is in power connection with the storage battery 21, a first driving gear 431 is fixedly connected to a rotating shaft of the first motor 43, a first transmission gear 421 which is arranged in the installation box 11 is fixedly connected to the top end of the adjusting screw 42, and the first transmission gear 421 is in rotary connection with the first driving gear 431.

The solar panel 2 collects solar energy and converts the solar energy into electric energy to be stored in the storage battery 21, the storage battery 21 can drive the first motor 43 to stably operate, and then drive the first driving gear 431 and the first force transmission gear to stably rotate so as to drive the adjusting screw 42 to stably rotate and drive the lifting seat 41 to stably lift under the limiting effect of the lifting guide groove 12, and the lifting posture of the lifting seat 41 in the lifting guide groove 12 is controlled by adjusting the forward and backward rotation posture of the first motor 43.

To ensure that the first motor 43 can be stably mounted in the mounting box 11 and stably transmit power to the adjusting screw 42, the first driving gear 431 and the first transmitting gear 421 are both tapered gears so as to reduce the space occupied by the portion in the mounting box 11.

In order to ensure that the attitude adjusting assembly and the solar panel 2 can be stably installed, the attitude adjusting assembly can drive the solar panel 2 to stably rotate around a vertical axis, so that the solar panel 2 follows the rotation of the sun, and the following technical scheme is provided.

The gesture adjusting assembly comprises a rotating seat 31 and a second motor 32, the rotating seat 31 is rotatably arranged at the top of the installation box 11, the solar panel 2 is arranged above the rotating seat 31 in a matched mode, a second transmission gear 311 arranged at the inner side of the installation box 11 is fixedly connected to the bottom of the rotating seat 31, the second motor 32 is fixedly arranged in the installation box 11 and is electrically connected with the storage battery 21, a second driving gear 321 is fixedly connected to a rotating shaft of the second motor 32, and the second driving gear 321 is meshed with the second transmission gear 311.

The second motor 32 is powered by the storage battery 21 and drives the second driving gear 321 to stably rotate, so that the second transmission gear 311 and the rotating seat 31 fixedly connected with the second transmission gear 311 are driven to stably rotate, the solar panel 2 assembled on the rotating seat 31 is guaranteed to rotate along with the sun, and the conversion efficiency of the solar panel 2 can be improved.

On the basis of the technical scheme about the attitude adjusting assembly, in order to ensure that the attitude adjusting assembly can adjust the pitching angle of the solar panel 2, sunlight irradiates the solar panel 2 as vertically as possible, and the conversion efficiency of the solar panel 2 is improved, the following technical scheme is provided.

The bottom end of the solar panel 2 is hinged to the rotating seat 31, the gesture adjusting assembly further comprises an electric telescopic cylinder 33, a sliding plate 34, a lifting column 35, a first connecting rod 36 and a second connecting rod 37, the sliding plate 34 is slidably installed above the rotating seat 31 and is arranged in the horizontal direction, the lifting column 35 is slidably installed at the axis of the rotating seat 31 and is arranged in the vertical direction, the bottom end of the lifting column 35 is rotatably installed on the rotating disc 351, the electric telescopic cylinder 33 is arranged in the mounting box 11 and is communicated with the storage battery 21, two ends of the electric telescopic cylinder 33 are respectively hinged to the rotating disc 351 and the mounting box 11, two ends of the first connecting rod 36 are respectively hinged to the solar panel 2 and the sliding plate 34, and two ends of the second connecting rod 37 are respectively hinged to the top ends of the sliding plate 34 and the lifting column 35.

In windy weather, in order to ensure that the posture of the solar panel 2 is in a horizontal state and to ensure the storage stability, the solar panel 2 needs to be lowered into the rotating seat 31, and therefore, a storage sink 312 is formed above the rotating seat 31, and the solar panel 2 can be lowered into the storage sink 312.

In order to ensure that the sliding plate 34 can stably slide on the rotating seat 31, a sliding guide groove 313 is formed at the bottom of the storage sink 312, and the sliding plate 34 is slidably mounted in the sliding guide groove 313, so that the sliding plate 34 can stably slide on the rotating seat 31. In order to ensure that the lifting column 35 stably lifts at the axis of the rotating seat 31, a lifting through hole 314 is formed in the axial position of the rotating seat 31, the lifting column 35 is slidably mounted in the lifting through hole 314, and in order to avoid spatial interference with the rotating seat 31 during the movement of the second connecting rod 37, a transition groove 315 communicated with the sliding guide groove 313 and the lifting through hole 314 is formed in the arrangement position of the second connecting rod 37.

When the storage battery 21 drives the electric telescopic cylinder 33 to work, the lifting column 35 and the second connecting rod 37 can drive the sliding plate 34 to stably slide in the sliding guide groove 313, and then the first connecting rod 36 drives the solar panel 2 to turn up and down, so that solar energy can vertically irradiate on the solar panel 2.

The storage battery 21 can also supply power to the fan 51 and the atmosphere detection sensor 52 in the detection assembly, so that the continuous normal operation of the detection assembly is ensured.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (5)

1. The utility model provides a solar energy atmospheric environment real-time detection device which characterized in that: the solar panel lifting device comprises a mounting bracket (1) and a solar panel (2), an attitude adjusting assembly, a lifting assembly and a detecting assembly, wherein the top end of the mounting bracket (1) is fixedly connected with a mounting box (11), a vertically arranged lifting guide groove (12) is formed in the side wall of the mounting bracket (1), the attitude adjusting assembly is mounted on the mounting box (11) in a matching manner and is linked with the solar panel (2), and the attitude adjusting assembly is used for adjusting the orientation angle of the solar panel (2); the lifting assembly comprises a lifting seat (41), an adjusting screw rod (42) and a first motor (43), wherein the adjusting screw rod (42) is rotatably installed in the lifting guide groove (12), the lifting seat (41) is slidably installed in the lifting guide groove (12) and is in rotary connection with the adjusting screw rod (42), and the first motor (43) is fixedly installed in the installation box (11) and is in power connection with the adjusting screw rod (42); the lifting seat (41) is internally provided with a detection cavity (411), the bottom and the side wall of the detection cavity (411) are respectively provided with an air inlet (412) and an air outlet (413), and the detection assembly comprises a fan (51) assembled at the air inlet (412) and an atmosphere detection sensor (52) assembled in the detection cavity (411).

2. The solar atmospheric environment real-time detection device according to claim 1, wherein: the upper end and the lower end of the mounting bracket (1) are fixedly connected with connecting brackets (13).

3. The solar atmospheric environment real-time detection device according to claim 1, wherein: the solar energy power generation device is characterized in that a storage battery (21) which is electrically connected with the solar panel (2) is fixedly installed in the installation box (11), the first motor (43) is in power connection with the storage battery (21), a first driving gear (431) is fixedly connected to a rotating shaft of the first motor (43), a first transmission gear (421) which is arranged in the installation box (11) is fixedly connected to the top end of the adjusting screw (42), and the first transmission gear (421) is in rotary connection with the first driving gear (431).

4. A solar atmospheric environment real-time detection device according to claim 3, wherein: the gesture adjustment assembly comprises a rotating seat (31) and a second motor (32), wherein the rotating seat (31) is rotationally installed at the top of the installation box (11), the solar panel (2) is installed above the rotating seat (31) in a matched mode, a second transmission gear (311) arranged on the inner side of the installation box (11) is fixedly connected to the bottom of the rotating seat (31), the second motor (32) is fixedly installed in the installation box (11) and is electrically connected with the storage battery (21), a second driving gear (321) is fixedly connected to a rotating shaft of the second motor (32), and the second driving gear (321) is meshed with the second transmission gear (311).

5. The solar atmospheric environment real-time detection device according to claim 4, wherein: the bottom of solar panel (2) articulates to on rotating seat (31), gesture adjustment subassembly still includes electric telescopic jar (33), sliding plate (34), lifting column (35), head rod (36), second connecting rod (37), sliding plate (34) slidable mounting is in the top of rotating seat (31) and along the horizontal direction arranging, lifting column (35) slidable mounting is in rotating seat (31) axle center department and along vertical direction arranging, lifting column (35) bottom rotation is installed in rolling disc (351), electric telescopic jar (33) are arranged in mounting box (11) and with battery (21) keep the intercommunication, and electric telescopic jar (33) both ends keep articulated with rolling disc (351), mounting box (11) respectively, the both ends of head rod (36) keep articulated with solar panel (2), sliding plate (34) respectively, the both ends of second connecting rod (37) keep articulated with sliding plate (34), lifting column (35) top respectively.