CN221039467U - Integrated ultrasonic meteorological environment monitoring device - Google Patents

Abstract

The utility model discloses an integrated ultrasonic weather environment monitoring device, which comprises a mounting seat, wherein a cover body and a shield are sequentially arranged above the mounting seat, and two groups of ultrasonic probes which are oppositely arranged are arranged between the cover body and the shield; the inside of the mounting seat is provided with a cavity, the bottom of the mounting seat is provided with a plurality of air inlets at equal intervals along the circumferential direction, and the air inlets are communicated with the inner cavity of the mounting seat; the upper part of the inner cavity of the mounting seat is fixedly provided with a supporting cylinder, and the bottom end of the supporting cylinder is positioned above the air inlet hole; the support cylinder is internally provided with a step hole which is penetrated, a negative pressure fan is arranged in the lower hole section of the step hole, and an electric heating module is arranged in the upper hole section of the step hole; the central position of the cover body is embedded with an air outlet plate, the air outlet plate is positioned right above the electric heating module, and honeycomb air outlet holes are uniformly distributed on the air outlet plate. The utility model can effectively solve the problem that snow, ice or water drops can influence the normal emission and receiving of ultrasonic waves, and ensure the accuracy of monitoring.

Description

Integrated ultrasonic meteorological environment monitoring device

Technical Field

The utility model relates to an integrated ultrasonic meteorological environment monitoring device, and belongs to the technical field of meteorological environment monitoring.

Background

With the development of economy and society, the effect of weather service is more and more prominent, and the development of different fields is more and more relevant. As one of the instruments commonly used in the meteorological monitoring work, the integrated ultrasonic meteorological monitoring station can monitor various meteorological elements (such as wind speed, wind direction, temperature and humidity, air pressure rainfall and the like) in real time, and is applied to the meteorological monitoring work in various fields.

The integrated ultrasonic weather monitoring device in the prior art is various in variety, such as an ultrasonic all-in-one weather instrument disclosed in patent number CN202122969706.7 and a comprehensive weather monitoring instrument disclosed in CN 201420170683.0. The monitoring is realized by arranging two groups of ultrasonic probes which are oppositely arranged, and the ultrasonic probes can receive ultrasonic signals sent out by each other.

However, the above monitoring device still has the following disadvantages in a specific use process: if when encountering inclement rain and snow weather, snow and ice are easy to exist in the installation area of the ultrasonic probe, water drops can be attached to the surface of the ultrasonic probe, and the factors can influence the normal transmission and the reception of ultrasonic waves, so that the monitoring accuracy of the ultrasonic probe is reduced. There is currently no good solution to this problem.

Disclosure of utility model

Aiming at the defects in the background technology, the utility model provides an integrated ultrasonic meteorological environment monitoring device, which can effectively solve the problem that snow, ice or water drops can influence the normal emission and the receiving of ultrasonic waves, and ensure the monitoring accuracy.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The integrated ultrasonic meteorological environment monitoring device comprises a mounting seat, a cover body and a shield are sequentially arranged above the mounting seat, and two groups of ultrasonic probes which are oppositely arranged are arranged between the cover body and the shield; the inside of the mounting seat is provided with a cavity, the bottom of the mounting seat is provided with a plurality of air inlets at equal intervals along the circumferential direction, and the air inlets are communicated with the inner cavity of the mounting seat; the upper part of the inner cavity of the mounting seat is fixedly provided with a supporting cylinder, and the bottom end of the supporting cylinder is positioned above the air inlet hole; the support cylinder is internally provided with a step hole which is penetrated, a negative pressure fan is arranged in the lower hole section of the step hole, and an electric heating module is arranged in the upper hole section of the step hole; the central position department of lid inlays and is equipped with the aerofoil, and the aerofoil is located electric heating module directly over, has the cellular venthole of equipartition on the aerofoil, and the axis of venthole sets up along vertical direction.

Further, a shutter box and a fixing rod are sequentially arranged below the mounting seat.

Further, the ultrasonic probe is installed between the cover and the shield through the support rod.

Further, the bottom of the inner cavity of the mounting seat is provided with a threading hole, and the center line of the threading hole and the axis of the mounting seat are arranged in a collinear way.

Further, the air inlet holes are waist-shaped holes which are transversely arranged.

Further, the top end of the supporting cylinder body is flush with the top end of the mounting seat.

Further, the diameter of the lower hole section of the stepped hole is larger than the diameter of the upper hole section.

Further, an air circulation channel is arranged between the electric heating module and the inner wall surface of the stepped hole.

Further, a groove with an annular structure is formed in the outer ring of the supporting cylinder, a mounting space is arranged between the groove and the inner wall of the mounting seat in a sealing mode, and a circuit board is mounted in the mounting space.

Further, the cover body is fixedly arranged at the top end of the mounting seat, and the diameter of the cover body is the same as that of the mounting seat.

After the technical scheme is adopted, compared with the prior art, the utility model has the following advantages:

When encountering inclement rain and snow weather, negative pressure fan and electric heating module all switch on work, electric heating module circular telegram produces heat, and negative pressure fan drives the air flow, and the air gets into the inner chamber bottom of mount pad by the inlet port, then blows through electric heating module, blows away the heat that electric heating module produced, and simultaneously air realization intensifies, and the air after the intensification blows to between lid and the guard shield through going out the aviation baffle, freezes snow between lid and the guard shield, perhaps clears away the drop of attaching on the ultrasonic probe, ensures the normal emission and the receipt of ultrasonic wave, and then guarantees the precision of monitoring.

The utility model will now be described in detail with reference to the drawings and examples.

Drawings

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

Fig. 2 is a cross-sectional view of the structure of the present utility model.

In the figure, a mounting seat, a 2-shutter box, a 3-fixing rod, a 4-cover body, a 5-ultrasonic probe, a 6-supporting rod, a 7-shield, an 8-threading hole, a 9-air inlet hole, a 10-supporting cylinder body, an 11-negative pressure fan, a 12-electric heating module, a 13-circuit board and a 14-air outlet plate.

Detailed Description

For a clearer understanding of technical features, objects, and effects of the present utility model, a specific embodiment of the present utility model will be described with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2 together, the utility model provides an integrated ultrasonic weather environment monitoring device, which comprises a mounting seat 1, wherein a shutter box 2 and a fixed rod 3 are sequentially arranged below the mounting seat 1, and a cover body 4 and a shield 7 are sequentially arranged above the mounting seat 1.

Two groups of ultrasonic probes 5 which are arranged oppositely are arranged between the cover body 4 and the protective cover 7, and the ultrasonic probes 5 can receive ultrasonic signals sent by the ultrasonic probes, so that the wind speed and the wind direction can be monitored.

The ultrasonic probe 5 is mounted between the cover 4 and the hood 7 via a support rod 6.

The inside cavity that is equipped with of mount pad 1, cavity bottom are equipped with through wires hole 8, and the central line of through wires hole 8 is the collineation setting with the axis of mount pad 1.

A plurality of air inlets 9 are arranged at the bottom of the mounting seat 1 at equal intervals along the circumferential direction, and the air inlets 9 are communicated with the inner cavity of the mounting seat 1.

The air inlet hole 9 is a waist-shaped hole which is transversely arranged.

The upper part of the inner cavity of the mounting seat 1 is fixedly provided with a supporting cylinder body 10, the top end of the supporting cylinder body 10 is flush with the top end of the mounting seat 1, and the bottom end of the supporting cylinder body 10 is positioned above the air inlet hole 9.

The support cylinder 10 is internally provided with a step hole which is penetrated and arranged, and the diameter of the lower hole section of the step hole is larger than that of the upper hole section.

A negative pressure fan 11 is arranged in the lower hole section of the step hole, an electric heating module 12 is arranged in the upper hole section of the step hole, and an air circulation channel is arranged between the electric heating module 12 and the inner wall surface of the step hole.

The electric heating module 12 is electrified to generate heat, and the negative pressure fan 11 blows air to the electric heating module 12 to blow away the heat generated by the electric heating module.

The outer ring of the supporting cylinder body 10 is provided with a groove with an annular structure, a mounting space is arranged between the groove and the inner wall of the mounting seat 1 in a sealing way, a circuit board 13 is mounted in the mounting space, and the circuit board 13 is protected through the sealing way.

The supporting cylinder 10 is made of heat insulation materials, so that heat generated by the electric heating module 12 is prevented from being transferred to the circuit board 13, and the circuit board 13 is prevented from being damaged by heating.

The cover body 4 is fixedly arranged at the top end of the mounting seat 1, and the diameter of the cover body 4 is the same as that of the mounting seat 1.

The central position of the cover body 4 is embedded with an air outlet plate 14, the air outlet plate 14 is positioned right above the electric heating module 12, honeycomb air outlet holes are uniformly distributed on the air outlet plate 14, and the axes of the air outlet holes are arranged along the vertical direction.

The specific working principle of the utility model is as follows:

According to the utility model, through the two groups of ultrasonic probes 5 which are oppositely arranged, the ultrasonic probes 5 can receive ultrasonic signals sent by each other, so that the monitoring of wind speed and wind direction is realized; in the monitoring process, if severe rain and snow weather is met, the negative pressure fan 11 and the electric heating module 12 are all electrified to work, the electric heating module 12 is electrified to generate heat, the negative pressure fan 11 drives air to flow, the air enters the bottom of the inner cavity of the mounting seat 1 through the air inlet hole 9 and then blows through the electric heating module 12, the heat generated by the electric heating module 12 is blown away, meanwhile, the air is heated, the heated air is blown between the cover body 4 and the shield 7 through the air outlet plate 14, snow and ice between the cover body 4 and the shield 7 are formed, or water drops attached to the ultrasonic probe 5 are removed, and the monitoring accuracy is ensured.

The foregoing is illustrative of the best mode of carrying out the utility model, and is not presented in any detail as is known to those of ordinary skill in the art. The protection scope of the utility model is defined by the claims, and any equivalent transformation based on the technical teaching of the utility model is also within the protection scope of the utility model.

Claims (10)

1. The integrated ultrasonic meteorological environment monitoring device comprises a mounting seat (1), a cover body (4) and a shield (7) are sequentially arranged above the mounting seat (1), and two groups of ultrasonic probes (5) which are oppositely arranged are arranged between the cover body (4) and the shield (7); the method is characterized in that: a cavity is formed in the mounting seat (1), a plurality of air inlets (9) are formed in the bottom of the mounting seat (1) at equal intervals along the circumferential direction, and the air inlets (9) are communicated with the inner cavity of the mounting seat (1); the upper part of the inner cavity of the mounting seat (1) is fixedly provided with a supporting cylinder body (10), and the bottom end of the supporting cylinder body (10) is positioned above the air inlet hole (9); a step hole penetrating through the support cylinder body (10) is formed in the support cylinder body, a negative pressure fan (11) is arranged in the lower hole section of the step hole, and an electric heating module (12) is arranged in the upper hole section of the step hole; the central position department of lid (4) inlays and is equipped with air-out board (14), and air-out board (14) are located directly over electric heating module (12), and the equipartition has cellular venthole on air-out board (14), and the axis of venthole sets up along vertical direction.

2. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the lower part of the mounting seat (1) is sequentially provided with a shutter box (2) and a fixing rod (3).

3. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the ultrasonic probe (5) is arranged between the cover body (4) and the shield (7) through the supporting rod (6).

4. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the bottom of the inner cavity of the mounting seat (1) is provided with a threading hole (8), and the central line of the threading hole (8) and the axis of the mounting seat (1) are arranged in a collinear way.

5. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the air inlet hole (9) is a waist-shaped hole which is transversely arranged.

6. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the top end of the supporting cylinder body (10) is flush with the top end of the mounting seat (1).

7. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the diameter of the lower hole section of the step hole is larger than that of the upper hole section.

8. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: an air circulation channel is arranged between the electric heating module (12) and the inner wall surface of the step hole.

9. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the outer ring of the supporting cylinder body (10) is provided with a groove with an annular structure, a mounting space which is arranged in a sealing way is arranged between the groove and the inner wall of the mounting seat (1), and a circuit board (13) is mounted in the mounting space.

10. The integrated ultrasonic weather environment monitoring device of claim 1, wherein: the cover body (4) is fixedly arranged at the top end of the mounting seat (1), and the diameter of the cover body (4) is the same as that of the mounting seat (1).