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Integrated observation vehicle of walking observation

A car-based, wind-measuring radar technology, applied in the field of comprehensive observation vehicles, can solve problems such as the impact of service life, high temperature, and the performance stability of internal observation devices, and achieve the effect of maintaining stability and accelerating loss

Inactive Publication Date: 2018-11-27
合肥中科光博量子科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The existing comprehensive observation vehicle is equipped with a generator. However, during the operation of the generator, due to the limited space in the vehicle, the heat generated by the generator cannot be effectively dissipated. As a result, the temperature inside the vehicle is higher than the outside temperature, which affects the internal observation device. performance stability, and has a certain impact on its service life

Method used

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  • Integrated observation vehicle of walking observation

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] Such as figure 1 As shown, a comprehensive observation vehicle for walking observation includes a vehicle body, a generator compartment 9 located at the rear of the vehicle, and an observation compartment 8 located at the front of the vehicle are arranged in the vehicle body, and a generator is arranged in the generator compartment 9 to generate electricity. A wind-measuring radar is installed on the top of the machine, and a dust-proof and rain-proof cover is installed on the top of the wind-measuring radar. The first display, the second display, and the airgel lidar are installed in the observation cabin 8, and the light output corresponding to the wind-measuring radar is set on the top of the car body. A three-dimensional rotatable scanning device is installed at the through hole, and the three-dimensional rotatable scanning device is connected to the aerosol laser radar. A partition is arranged between the generator compartment 9 and the observation compartment 8. T...

Embodiment 2

[0023] Such as figure 1 As shown, similar to Embodiment 1, the tail side wall of the generator compartment 9 is provided as an interlayer, and the tail side wall includes the first layer 1 and the second layer 3 arranged therein, between the first layer 1 and the second layer 3 It has a mezzanine space, and a plurality of first cavities 2 arranged at intervals are arranged in the mezzanine space. The first cavities 2 are trumpet-shaped openings facing the warehouse body, and the second layer 3 is a multi-layer trumpet-shaped cavity structure. One layer 1 is provided with a plurality of honeycomb holes 4, the honeycomb holes 4 open towards the direction of the warehouse body and the diameter gradually increases towards the direction of the warehouse body, the fan 13 facing the side wall is suspended under the top, the tail side wall and Fan 13 is opposite. The present invention accelerates the flow of the airflow by arranging the fan 13, and accelerates the dissipation of heat...

Embodiment 3

[0025] Similar to Embodiment 2, the difference is that the inner wall of the first cavity 2 is a geometric surface formed by connecting polygons.

[0026] Each horn-shaped inner wall of the second cavity is a geometric surface formed by connecting polygons.

[0027] A second interlayer is arranged in the base 5, and a plurality of springs are arranged in parallel at intervals in the second interlayer.

[0028] The heat insulation layer 7 includes a base layer arranged near the observation chamber 8, a heat reflection layer arranged near the heat dissipation chamber 6, and a hollow ceramic microsphere heat insulation layer 7 between the base layer and the heat reflection layer.

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Abstract

The invention discloses an integrated observation vehicle of walking observation. The observation vehicle comprises a vehicle body, a generator chamber positioned in the tail portion of a vehicle andan observation chamber positioned in the front portion of the vehicle are arranged in the vehicle body, a separator plate is arranged between the generator chamber and the observation chamber, and comprises a heat radiation cavity and a thermal insulation layer, the heat radiation cavity is arranged close to the generator chamber and provided with an opening towards the generator chamber, the thermal insulation layer is arranged close to the observation chamber, the two inner sides of the heat radiation cavity are provided with flow deflectors respectively, the right side of each flow deflector includes an arc surface, an air flow inlet is arranged between the two flow deflectors, the two sizes of the heat radiation cavity are provided with air flow outlets respectively, and a gap exists between the heat radiation cavity and the power generator chamber. Thus, heat can be taken away effectively, heat radiation of the narrow and small generator chamber is accelerated, the internal temperature of the observation chamber can be kept within a proper range, and performance of instruments in the observation chamber is kept stable.

Description

technical field [0001] The invention relates to the field of meteorological environment monitoring and observation vehicles, in particular to a comprehensive observation vehicle for walking observation. Background technique [0002] With the ever-expanding field of environmental protection, the rapid increase of environmental monitoring tasks and the continuous improvement of environmental management requirements, it is imminent to promote the socialization of environmental monitoring services. At present, some domestic laser radar, wind radar and other equipment are fixed-point monitoring, the monitoring range is limited, and the cost of equipment is relatively high. It is impossible for a city to invest in many fixed-point monitoring equipment. In order to realize the environmental monitoring of the whole city, the research and development of the atmospheric environment three-dimensional navigation observation vehicle is very meaningful. At the same time, it can also be us...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01W1/02H02K9/14
CPCG01W1/02H02K9/14
Inventor 张帅施奇兵朱宝平徐纬煜史元洋
Owner 合肥中科光博量子科技有限公司