CN211786091U - Rectification heat dissipation device of wind measuring radar and wind measuring radar - Google Patents

Abstract

The utility model provides a rectification heat dissipation device of a wind measuring radar and the wind measuring radar, wherein the rectification heat dissipation device comprises a case, a heat dissipation plate, a top cover and a base; machine case and hood are all installed on the base, and both ends are the opening setting around the hood, and machine case setting forms the rectification air flue at the intracavity that holds of hood, the lateral wall of machine case and the inside wall cooperation of hood, and the heating panel is located the rectification air flue, and the heating panel is installed on the lateral wall of machine case. The wind measuring radar applies the rectifying and heat dissipating device. Use the utility model discloses a wind measuring radar simple structure, maintenance convenience.

Description

Rectification heat dissipation device of wind measuring radar and wind measuring radar

Technical Field

The utility model relates to a rectification heat abstractor technical field of anemometry radar especially relates to a rectification heat abstractor of anemometry radar, still relates to the anemometry radar of using this rectification heat abstractor.

Background

At present, wind measuring radar equipment on the market mostly installs key electrical components in the cool and cool position outside a case, and the optical components are only installed inside the case, so that the external electrical components need to be connected by long cables and optical cables, the installation and maintenance are very inconvenient, and the performance of the equipment is reduced because the cables and the overlong optical cables can influence signal transmission. In addition, if not carrying out effectual heat dissipation to equipment, directly with electrical components installed in quick-witted incasement, the produced heat of heat and the sunshine irradiation that electrical components produced is last in time to be dispelled, will make electrical apparatus performance unstable, the big vice reduction in life-span, consequently, need carry out effectual heat dissipation to equipment, utilize outside air current to cool down, reduce the inside temperature of equipment.

Disclosure of Invention

The utility model aims at providing a simple structure, maintain convenient anemometry radar's rectification heat abstractor.

The second purpose of the utility model is to provide a simple structure, maintain convenient anemometry radar.

In order to achieve the first object, the utility model provides a rectification heat dissipation device of a wind measuring radar, which comprises a case, a heat dissipation plate, a top cover and a base; machine case and hood are all installed on the base, and both ends are the opening setting around the hood, and machine case setting forms the rectification air flue at the intracavity that holds of hood, the lateral wall of machine case and the inside wall cooperation of hood, and the heating panel is located the rectification air flue, and the heating panel is installed on the lateral wall of machine case.

According to the above technical scheme, the utility model discloses a rectification heat abstractor of anemometry radar can not only form the rectification air flue with quick-witted case through the overhead guard of installation, utilizes external air current to dispel the heat the heating panel, can also effectively block shining of outside sunshine, stays the heat on the overhead guard to avoid the equipment temperature of quick-witted case to rise, make equipment remain throughout under the lower temperature, thereby improved the stability and the life-span of equipment, and the installation is simple, and it is convenient to maintain.

In a further scheme, a front face shield is installed at the front end of the case, the middle of the front face shield is convex, and two sides of the front face shield incline towards the direction of the rectifying air passage provided with the heat dissipation plate.

Therefore, by arranging the front mask, when the airflow blows to the front mask, the front mask can collect the airflow to the rectifying air passages on two sides, the airflow flowing of the rectifying air passages is accelerated, and therefore heat is better taken away.

In a further scheme, the front cover is provided with four lens holes, and the four lens holes are uniformly distributed on the front cover.

Therefore, the front face cover is provided with four lens holes, and can be used for installing the filter lens, so that the utilization rate of the front face cover is improved.

In a further scheme, four end corners of the top of the case are respectively provided with a support column, and the support columns are detachably connected with the top cover.

Therefore, the supporting columns are arranged at the four end corners of the top of the case respectively and detachably connected with the top cover, so that a gap is formed between the top of the case and the top cover, and further heat insulation is realized.

In a further scheme, an antenna is installed at the top of the case, an antenna hole is formed in the top of the top cover, and the antenna is inserted into the antenna hole.

Therefore, the antenna is installed at the top of the case, the communication quality of the internal circuit of the case and external equipment can be improved, and meanwhile, the antenna hole is formed in the top of the top cover, so that the antenna is convenient to install.

In a further scheme, two side walls of the top cover are provided with heat dissipation meshes, and the heat dissipation meshes are arranged opposite to the heat dissipation plate.

Therefore, the side face of the top cover is provided with the heat dissipation meshes, the heat dissipation meshes are opposite to the heat dissipation plate, when no air flow flows, the heat of the heat dissipation plate can be dissipated through the meshes, and heat dissipation of equipment is guaranteed.

In a further scheme, the base comprises an upper adjusting plate and a lower adjusting plate, and the first end of the upper adjusting plate is connected with the first end of the lower adjusting plate through a shaft rod; the second end of the upper adjusting plate is provided with a first kidney-shaped groove, the second end of the lower adjusting plate is provided with a second kidney-shaped groove, and the first kidney-shaped groove is in adjustable connection with the second kidney-shaped groove.

Therefore, the first end of the upper adjusting plate is connected with the first end of the lower adjusting plate through the shaft rod, the first kidney-shaped groove is connected with the second kidney-shaped groove in an adjustable mode, the installation angle of the case on the upper adjusting plate can be adjusted, and the installation angle of the case is optimized.

In order to realize above-mentioned second purpose, the utility model provides a wind measuring radar is provided with rectification heat abstractor, and foretell rectification heat abstractor is used to rectification heat abstractor.

Drawings

Fig. 1 is a structural diagram of a rectifying and heat dissipating device in an embodiment of the wind-measuring radar of the present invention.

Fig. 2 is an exploded view of the rectifying and heat dissipating device in the embodiment of the wind-measuring radar of the present invention.

Fig. 3 is a structural diagram of the case in the embodiment of the wind-measuring radar of the present invention.

Fig. 4 is a structural diagram of a top cover in an embodiment of the wind-measuring radar of the present invention.

Fig. 5 is a structural diagram of the base in the embodiment of the wind-measuring radar of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

As shown in fig. 1 and 2, the wind radar of the present embodiment is provided with a rectifying and heat dissipating device, which includes a case 1, a heat dissipating plate 2, a top cover 3, and a base 4. Case 1 and hood 3 are all installed on base 4, and both ends are the opening setting around the hood 3, and case 1 sets up in the chamber 31 that holds of hood 3, and the lateral wall of case 1 forms rectification air flue 5 with the inside wall cooperation of hood 3, and heating panel 2 is located rectification air flue 5, and heating panel 2 installs on the lateral wall of case 1. In this embodiment, the heat dissipation plate 2 is mounted on both side walls of the cabinet 1 by long studs 6.

In this embodiment, the case 1 is used to mount optical components and circuit devices required by the wind radar. Referring to fig. 3, a front cover 11 is installed at the front end of the cabinet 1, and the middle of the front cover 11 protrudes and inclines toward the rectifying air duct 5 where the heat dissipation plate 2 is installed. When the airflow blows towards the front cover 11, the front cover 11 can collect the airflow to the rectifying air ducts 5 on the two sides, and the airflow of the rectifying air ducts 5 is accelerated so as to better take away the heat of the heat dissipation plate 2. The front cover 11 is provided with four lens holes 111, and the four lens holes 111 are uniformly distributed on the front cover 11. Four end corners at the top of the case 1 are respectively provided with a support column 12, and the support columns 12 are detachably connected with the top cover 3.

Referring to fig. 4, the top cover 3 is arranged in a "C" shape. The side wall 32 of the top cover 3 is provided with heat dissipation meshes 321, the side wall 33 of the top cover 3 is provided with heat dissipation meshes 331, and the heat dissipation meshes 321 and the heat dissipation meshes 331 are respectively arranged opposite to the heat dissipation plates 2 on the two side walls of the case 1. The top of the top cover 3 is provided with an antenna hole 34, the top of the case 1 is also provided with an antenna 13, and the antenna 13 is inserted in the antenna hole 34.

Referring to fig. 5, the base 4 includes an upper adjustment plate 41 and a lower adjustment plate 42, and a first end of the upper adjustment plate 41 is connected to a first end of the lower adjustment plate 42 by a shaft 43. The second end of the upper adjusting plate 41 is provided with a first kidney-shaped slot 412, the second end of the lower adjusting plate 42 is provided with a second kidney-shaped slot 422, and the first kidney-shaped slot 412 is adjustably connected with the second kidney-shaped slot 422. In this embodiment, the upper adjustment plate 41 and the lower adjustment plate 42 use the shaft rod 43 as a rotating shaft, and the distance between the second end of the upper adjustment plate 41 and the second end of the lower adjustment plate 42 can be adjusted, so as to adjust the included angle between the upper adjustment plate 41 and the lower adjustment plate 42, and when an appropriate angle is adjusted, the upper adjustment plate is fixed by using the bolt 44, so as to adjust the installation angle of the chassis on the upper adjustment plate.

According to the above, the utility model discloses a rectification heat abstractor of anemometry radar can not only form the rectification air flue with quick-witted case through the overhead guard of installation, utilizes external air current to dispel the heat the heating panel, can also effectively block shining of outside sunshine, stays the heat on the overhead guard to avoid the equipment temperature of quick-witted case to rise, make equipment remain throughout under imitating low temperature, thereby improved the stability and the life-span of equipment, and the installation is simple, and it is convenient to maintain.

It should be noted that the above is only a preferred embodiment of the present invention, but the design concept of the present invention is not limited thereto, and all insubstantial modifications made by using the design concept of the present invention also fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides a rectification heat abstractor of anemometry radar which characterized in that: comprises a case, a heat dissipation plate, a top cover and a base; the machine case with the hood is all installed on the base, both ends are the opening setting around the hood, the machine case sets up the intracavity that holds of hood, the lateral wall of machine case with the inside wall cooperation of hood forms the rectification air flue, the heating panel is located in the rectification air flue, the heating panel is installed the machine case on the lateral wall.

2. The rectifying and heat dissipating device for a wind radar according to claim 1, wherein:

the front end of the case is provided with a front cover, the middle of the front cover is raised, and the two sides of the front cover incline towards the direction of the rectifying air passage provided with the heat dissipation plate.

3. The rectifying and heat dissipating device for a wind radar according to claim 2, wherein:

the front face cover is provided with four lens holes, and the four lens holes are uniformly distributed on the front face cover.

4. The rectifying and heat dissipating device for a wind radar according to claim 1, wherein:

four end corners at the top of the case are respectively provided with a support column, and the support columns are detachably connected with the top cover.

5. The rectifying and heat dissipating device for a wind radar according to claim 1, wherein:

the top of the case is provided with an antenna, the top of the top cover is provided with an antenna hole, and the antenna is inserted into the antenna hole.

6. The rectifying and heat dissipating device for a wind radar according to any one of claims 1 to 5, wherein:

the top cover is provided with heat dissipation meshes, and the heat dissipation meshes and the heat dissipation plate are arranged oppositely.

7. The rectifying and heat dissipating device for a wind radar according to any one of claims 1 to 5, wherein:

the base comprises an upper adjusting plate and a lower adjusting plate, and the first end of the upper adjusting plate is connected with the first end of the lower adjusting plate through a shaft rod;

the second end of going up the regulating plate is provided with first kidney slot, the second end of regulating plate is provided with the second kidney slot down, first kidney slot with second kidney slot adjustable connection.

8. The utility model provides a wind measuring radar is provided with rectification heat abstractor which characterized in that: the heat sink fairing device as recited in any one of claims 1 to 7 is applied.

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