CN221175005U - Barometric weather monitoring equipment - Google Patents

Abstract

The utility model discloses an air pressure weather monitoring device, which comprises a control console, wherein a plurality of solar power supply assemblies are fixedly arranged on the inner wall of the control console, each solar power supply assembly comprises two telescopic bases, the inner walls of the two telescopic bases are fixedly connected with a second telescopic cylinder, the output end of each second telescopic cylinder is fixedly connected with a movable shaft, a solar power storage plate is fixedly connected between the outer walls of the two movable shafts, the inner walls of the solar power storage plates are fixedly connected with rotating rods, a plurality of air sensors, wind power sensors, rainfall sensors and humiture sensors are arranged in a layered mode, data can be analyzed and combined, detection is more accurate, the utilization rate is higher, an operation screen on the control console is used for controlling each detection instrument, a direct solar thermometer at the top of each temperature sensor can detect the direct solar temperature, an air thermometer at the bottom can detect the temperature and humidity in the air, and a rainwater flow rate detection assembly at the outer side can detect the rainwater flow rate.

Description

Barometric weather monitoring equipment

Technical Field

The utility model relates to the technical field of weather detection, in particular to air pressure weather monitoring equipment.

Background

The air pressure weather monitoring equipment is a multifunctional weather sensor, can collect various weather parameters such as wind speed, wind direction, rainfall, temperature, humidity, air pressure and the like, and the air pressure weather detection needs to meet the requirements of real-time, accurate and stable data collection.

The existing barometric weather detection equipment generally places sensors such as barometric pressure, wind speed, wind direction, temperature and the like in the same device, detects air at the same height, so that the device cannot accurately analyze and combine data when detecting, and the equipment is placed in the field for a long time, and a battery needs to be replaced frequently, which is troublesome.

Disclosure of utility model

The utility model aims to provide an air pressure weather monitoring device for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an atmospheric pressure weather monitoring facilities, includes the control cabinet, the inner wall fixed mounting of control cabinet has a plurality of solar energy power supply module, solar energy power supply module includes two flexible bases, two the equal fixedly connected with second flexible cylinder of inner wall of flexible base, the output fixedly connected with loose axle of second flexible cylinder, two fixedly connected with solar energy electric power storage panel between the outer wall of loose axle, the inner wall fixedly connected with dwang of solar energy electric power storage panel, the both ends of dwang are rotated with the inner wall of control cabinet and are connected, the outer wall of solar energy electric power storage panel and the second flexible cylinder overlap joint of all through setting up between the inner wall of two flexible bases.

The solar energy storage device has the advantages that the effect of providing the cruising and protecting device is achieved through the structure, when the weather is clear, the second telescopic cylinder can be started to push out the solar energy storage plate through the movable shaft, one end of the solar energy storage plate rotates in the control console through the rotating rod, so that solar energy is collected by the solar energy storage plate in a certain inclination angle, and when the weather rains, the solar energy storage plate can be lapped on the telescopic base to be embedded into the control console, and rain is avoided.

As a further preferable mode of the technical scheme, a signal transmission rod is fixedly arranged at the top of the control console, a temperature and humidity sensor is fixedly connected to the top of the signal transmission rod, and a rainwater detection component is fixedly connected to the outer wall of the temperature and humidity sensor.

As the further preferred of this technical scheme, rainwater detection subassembly includes the rainwater collection dish, rainwater collection dish fixed mounting is in temperature and humidity sensor's outer wall, catch basin and a plurality of opening have been seted up to the inner wall of rainwater collection dish, the inner wall fixedly connected with rivers detector of opening.

Through the structure, the effect of detecting the flow of the rainwater is achieved, the rainwater detection component outside the temperature and humidity sensor can detect the flow of the rainwater, when the rainwater falls into the water storage groove on the rainwater collection disc during raining, when the water storage groove is full of the rainwater, the rainwater overflows from all the openings to flow outwards, and the rainwater records data and is transmitted to the temperature and humidity sensor during the cavity of the water flow detector.

As a further preferable mode of the technical scheme, the top of the temperature and humidity sensor is fixedly provided with a direct solar radiation thermometer, and the bottom of the temperature and humidity sensor is fixedly connected with an air thermometer.

Through the structure, the direct solar radiation temperature and the air temperature and humidity are detected, the direct solar radiation temperature detector at the top of the temperature and humidity sensor can detect the direct solar radiation temperature and transmit data to the temperature and humidity sensor, and the air temperature detector at the bottom of the temperature and humidity sensor can detect the temperature and humidity in the air and transmit the data to the temperature and humidity sensor.

As a further preferable mode of the technical scheme, the bottom of the control console is fixedly connected with a plurality of brackets and a first telescopic cylinder.

As a further preferable mode of the technical scheme, the output end of the first telescopic cylinder is fixedly connected with a soil detection needle, and the outer wall of the first telescopic cylinder is fixedly connected with a ground thermometer.

The structure has the advantages that the structure has the function of detecting the ground temperature and the soil humidity, the first telescopic cylinder at the bottom can insert the soil detection needle into the soil to detect the humidity of the soil, and meanwhile, the ground thermometer is attached to the ground to detect the ground temperature

As a further preferable mode of the technical scheme, the outer wall of the control console is fixedly connected with an operation screen, and the outer wall of the signal transmission rod is fixedly connected with an air pressure wind detector.

The structure has the functions of detecting wind power and transmitting data, the data in the temperature and humidity sensor are transmitted to the control console for storage through the signal transmission rod after being combined, and the air pressure and the wind power can be detected through the set air pressure wind power detector.

The utility model provides air pressure weather monitoring equipment, which has the following beneficial effects:

(1) According to the utility model, a plurality of air, wind power, rainfall and temperature and humidity sensors are arranged in a layered manner, data can be analyzed and combined, so that detection is more accurate, the utilization rate is higher, an operation screen on a control console is used for controlling each detection instrument, a direct solar radiation thermometer at the top of the temperature and humidity sensor can detect the temperature of direct solar radiation, an air thermometer at the bottom can detect the temperature and humidity in air, a rainwater detection component at the outer side can detect the flow of rainwater, when raining, the rainwater falls into a water storage tank on a rainwater collecting disc, when the water storage tank is full of rainwater, the rainwater overflows from each opening, the rainwater passes through a cavity of a water flow detector, data is recorded and transmitted, the air pressure and the wind power of air can be detected through the arranged air pressure and wind power detectors, a first telescopic cylinder at the bottom can insert a soil detection needle into soil to detect the humidity of the soil, and the ground temperature detector can be attached to the ground to detect the temperature of the ground.

(2) According to the solar energy power supply device, the solar energy power supply assembly is arranged, long-time cruising can be provided for the device, the solar energy power storage plate can be retracted into the control console, the service life of the device is prolonged, the cost is saved, when the weather is clear, the second telescopic cylinder can be started to push out the solar energy power storage plate through the movable shaft, one end of the solar energy power storage plate rotates in the control console through the rotating rod, so that the solar energy power storage plate is inclined for a certain angle to collect solar energy when the weather is raining, and the solar energy power storage plate can be lapped on the telescopic base to be embedded into the control console to avoid rain.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the air pressure wind detector of the present utility model;

FIG. 3 is a schematic view of an enlarged position of a rainwater detection component A according to the present utility model;

FIG. 4 is a schematic view of the structure of a solar energy storage plate according to the present utility model;

Fig. 5 is an enlarged schematic view of the structure of the solar power supply assembly B of the present utility model.

In the figure: 1. a console; 2. an operation screen; 3. a first telescopic cylinder; 4. a bracket; 5. a ground thermometer; 6. a soil detecting needle; 7. direct solar radiation thermometer; 8. a temperature and humidity sensor; 9. a rain water detection assembly; 901. a rain water collecting tray; 902. a water storage tank; 903. a notch; 904. a water flow detector; 10. an air thermometer; 11. an air pressure wind power detector; 12. a signal transmission rod; 13. a solar power supply assembly; 1301. a solar energy storage panel; 1302. a telescopic base; 1303. a rotating lever; 1304. the second telescopic cylinder; 1305. a movable shaft.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

The utility model provides the technical scheme that: as shown in fig. 4 and 5, in this embodiment, an air pressure weather monitoring device includes a console 1, a plurality of solar power supply assemblies 13 are fixedly installed on the inner wall of the console 1, each solar power supply assembly 13 includes two telescopic bases 1302, the inner walls of the two telescopic bases 1302 are fixedly connected with second telescopic cylinders 1304, the output ends of the second telescopic cylinders 1304 are fixedly connected with movable shafts 1305, a solar energy storage plate 1301 is fixedly connected between the outer walls of the two movable shafts 1305, a rotating rod 1303 is fixedly connected with the inner wall of the solar energy storage plate 1301, two ends of the rotating rod 1303 are rotatably connected with the inner wall of the console 1, and the outer walls of the solar energy storage plate 1301 and the inner walls of the two telescopic bases 1302 are overlapped by the second telescopic cylinders 1304.

When the weather is clear, the second telescopic cylinder 1304 can be started to push out the solar energy storage plate 1301 through the movable shaft 1305, one end of the solar energy storage plate 1301 rotates in the console 1 through the rotating rod 1303, so that the solar energy storage plate 1301 is inclined at a certain angle to collect solar energy when the weather is clear, and when the weather is rainy, the solar energy storage plate 1301 can be lapped on the telescopic base 1302 to be embedded in the console 1 to avoid rain, and the effect of providing a cruising and protecting device is achieved.

As shown in fig. 2 and 3, the top fixed mounting of control cabinet 1 has signal transmission pole 12, and signal transmission pole 12's top fixedly connected with temperature and humidity sensor 8, the outer wall fixedly connected with rainwater detection component 9 of temperature and humidity sensor 8, rainwater detection component 9 include rainwater collection dish 901, and rainwater collection dish 901 fixed mounting is in the outer wall of temperature and humidity sensor 8, and catch basin 902 and a plurality of opening 903 have been seted up to the inner wall of rainwater collection dish 901, and the inner wall fixedly connected with rivers detector 904 of opening 903.

The rainwater detection component 9 outside the temperature and humidity sensor 8 can check the flow of rainwater, and when raining, the rainwater falls in the catch basin 902 on the rainwater collection tray 901, and when the catch basin 902 is full of rainwater, the rainwater overflows and flows from each opening 903, and the rainwater records data and transmits to the temperature and humidity sensor 8 when passing through the cavity of the water flow detector 904, has played the effect to rainwater flow detection.

As shown in fig. 1, a direct solar radiation thermometer 7 is fixedly arranged at the top of a temperature and humidity sensor 8, and an air thermometer 10 is fixedly connected to the bottom of the temperature and humidity sensor 8.

The direct solar radiation thermometer 7 at the top of the temperature and humidity sensor 8 can detect the direct solar radiation temperature and transmit data to the temperature and humidity sensor 8, and the air thermometer 10 at the bottom of the temperature and humidity sensor 8 can detect the temperature and humidity in the air and transmit data to the temperature and humidity sensor 8, so that the direct solar radiation temperature and the air temperature and humidity are detected.

As shown in fig. 1, the bottom of the console 1 is fixedly connected with a plurality of brackets 4 and a first telescopic cylinder 3, the output end of the first telescopic cylinder 3 is fixedly connected with a soil detection needle 6, and the outer wall of the first telescopic cylinder 3 is fixedly connected with a ground thermometer 5.

The first telescopic cylinder 3 of bottom can insert earth detection needle 6 in the earth and detect the humidity of earth, and the temperature that ground thermoscope 5 subsides can detect ground simultaneously subaerial, has played the effect that detects ground temperature and earth humidity.

As shown in fig. 1, the outer wall of the console 1 is fixedly connected with an operation screen 2, and the outer wall of the signal transmission rod 12 is fixedly connected with an air pressure wind detector 11.

The data in the temperature and humidity sensor 8 are combined and then transmitted to the console 1 for storage through the signal transmission rod 12, and the air pressure and the wind power of the air can be detected through the set air pressure wind power detector 11, so that the effects of detecting the wind power and transmitting the data are achieved.

The utility model provides air pressure weather monitoring equipment, which has the following specific working principle:

During operation, the device is transported to a position to be detected, the device is supported and fixed on the ground by using a plurality of brackets 4, the control of each detection instrument is performed by using an operation screen 2 on a console 1, a direct solar thermometer 7 at the top of a temperature and humidity sensor 8 can detect the temperature of direct solar sunlight and transmit the data to the temperature and humidity sensor 8, an air thermometer 10 at the bottom of the temperature and humidity sensor 8 can detect the temperature and humidity in air and transmit the data to the temperature and humidity sensor 8, a rainwater detection component 9 at the outer side of the temperature and humidity sensor 8 can detect the flow of rainwater, when raining, the rainwater falls into a water storage tank 902 on a rainwater collection tray 901, when the water storage tank 902 is full of rainwater, the rainwater overflows from each opening 903, the rainwater passes through a cavity of a water flow detector 904 and records the data and transmits the data to the temperature and humidity sensor 8, and the data in the temperature and humidity sensor 8 are combined and then transmitted to the console 1 through a signal transmission rod 12 for storage; the air pressure and the wind force of the air can be detected through the air pressure wind force detector 11, the first telescopic cylinder 3 at the bottom can insert the soil detection needle 6 into the soil to detect the humidity of the soil, and meanwhile, the ground temperature detector 5 is attached to the ground to detect the temperature of the ground; when the weather is clear, the second telescopic cylinder 1304 can be started to push out the solar energy storage plate 1301 through the movable shaft 1305, one end of the solar energy storage plate 1301 rotates in the control console 1 through the rotating rod 1303, so that the solar energy storage plate 1301 is inclined at a certain angle to collect solar energy when the weather is clear, and when the weather is rainy, the solar energy storage plate 1301 can be lapped on the telescopic base 1302 to be embedded in the control console 1 to avoid rain.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Barometric weather monitoring equipment, comprising a console (1), characterized in that: the solar energy power supply system is characterized in that a plurality of solar energy power supply assemblies (13) are fixedly mounted on the inner wall of the control console (1), each solar energy power supply assembly (13) comprises two telescopic bases (1302), two telescopic cylinders (1304) are fixedly connected to the inner walls of the telescopic bases (1302), a movable shaft (1305) is fixedly connected to the output end of each second telescopic cylinder (1304), a solar energy power storage plate (1301) is fixedly connected to the outer wall of each movable shaft (1305), rotating rods (1303) are fixedly connected to the inner wall of each solar energy power storage plate (1301), two ends of each rotating rod (1303) are connected with the inner wall of the control console (1) in a rotating mode, and the outer walls of the solar energy power storage plates (1301) are overlapped with the inner walls of the two telescopic bases (1302) through the arranged second telescopic cylinders (1304).

2. An barometric weather monitoring device according to claim 1, wherein: the intelligent control system is characterized in that a signal transmission rod (12) is fixedly arranged at the top of the control console (1), a temperature and humidity sensor (8) is fixedly connected to the top of the signal transmission rod (12), and a rainwater detection assembly (9) is fixedly connected to the outer wall of the temperature and humidity sensor (8).

3. An barometric weather monitoring device according to claim 2, wherein: rainwater detection component (9) are including rainwater collection dish (901), rainwater collection dish (901) fixed mounting is in the outer wall of temperature and humidity sensor (8), catch basin (902) and a plurality of opening (903) have been seted up to the inner wall of rainwater collection dish (901), the inner wall fixedly connected with rivers detector (904) of opening (903).

4. An barometric weather monitoring device according to claim 2, wherein: the solar direct radiation thermometer is characterized in that the top of the temperature and humidity sensor (8) is fixedly provided with a solar direct radiation thermometer (7), and the bottom of the temperature and humidity sensor (8) is fixedly connected with an air thermometer (10).

5. An barometric weather monitoring device according to claim 1, wherein: the bottom of the control console (1) is fixedly connected with a plurality of brackets (4) and a first telescopic cylinder (3).

6. The barometric weather monitoring apparatus of claim 5, wherein: the output end of the first telescopic cylinder (3) is fixedly connected with a soil detection needle (6), and the outer wall of the first telescopic cylinder (3) is fixedly connected with a ground thermometer (5).

7. An barometric weather monitoring device according to claim 2, wherein: the outer wall fixedly connected with operation screen (2) of control cabinet (1), the outer wall fixedly connected with atmospheric pressure wind-force detector (11) of signal transmission pole (12).