CN219981254U - Sea defense type outdoor radar cabinet - Google Patents

Abstract

The utility model relates to the technical field of outdoor radars, and discloses a marine protection type outdoor radar cabinet, which comprises: the cabinet door, the side wall plate and the top cover enclose a sealed placing cavity, a plurality of first feeder interfaces are arranged on the top cover, the first feeder interfaces are suitable for being electrically connected with an antenna array surface, and a plurality of cabinets can be electrically connected and arranged through the second feeder interfaces. According to the utility model, the side wall plate, the top cover and the cabinet door which are made of metal materials are welded into the cabinet, so that the rigidity and the strength of the cabinet can be effectively increased, salt fog, mould, water vapor and the like outside the cabinet can be prevented from entering the cabinet, and the radar cabinet can be arranged outdoors with severe environment. The top cover of the cabinet is provided with a first feeder line interface, and the first feeder line interface is electrically connected with an antenna array surface arranged at the top of the cabinet, so that the transmission distance between the cabinet and the antenna array surface is minimized, further, the radar transmission loss is reduced, and the detection power of the radar is improved.

Description

Sea defense type outdoor radar cabinet

Technical Field

The utility model relates to the technical field of outdoor radars, in particular to a marine protection type outdoor radar cabinet.

Background

The radar is an electronic device for detecting targets by utilizing electromagnetic waves, and has the advantages of being capable of detecting remote targets in the daytime and at night, free of blocking by fog, cloud and rain, all-weather and all-day in time, and having certain penetrating capacity. And the radar cabinet is a carrier of electronic equipment and is also an important component of radar products.

In the prior art, in order to prevent the radar from being influenced by outdoor environments, particularly under coastal salt fog zones and ship decks, the radar antenna is prevented from being exposed to severe outdoor environments, and a radar cabinet is often selected to be arranged indoors, so that the radar transmission loss is increased, and the detection power of the radar is influenced.

Disclosure of Invention

In view of the above, the present utility model provides an outdoor radar cabinet for sea defense, so as to solve the problem of increased radar transmission loss.

The utility model provides a marine protection type outdoor radar cabinet, which comprises:

a plurality of side wall plates are welded and arranged, and the side wall plates are made of metal materials;

the top cover is welded on the top of the side wall plate and is made of metal;

the cabinet door is arranged on the side wall plate, the cabinet door is made of metal, the cabinet door, the side wall plate and the top cover are enclosed to form a sealed placing cavity, and a module assembly is suitable for being placed in the placing cavity;

the first feeder interfaces are hermetically arranged on the top cover, are electrically connected with the module assembly and are suitable for being electrically connected with an antenna array surface at the top of the cabinet;

and the plurality of cabinets are suitable for being electrically connected through the second feeder interfaces.

Through adopting the side wall board, top cap and the cabinet door welding of metal material to become the rack, not only can effectually increase the rigidity and the intensity of rack, can also prevent that rack outside salt fog, mould, steam etc. from getting into inside the rack, guarantee the inside normal operating of each subassembly of rack for the radar rack can set up in the abominable open air of environment. The top cover of the cabinet is provided with a first feeder interface, and the antenna array surface is arranged at the top of the cabinet through the first feeder interface, so that the transmission distance between the cabinet and the antenna array surface is minimized, further, the radar transmission loss is reduced, and the detection power of the radar is improved.

In an alternative embodiment, the adapter plate further comprises an adapter plate, wherein the adapter plate comprises a first adapter plate and a second adapter plate;

the first adapter plate is provided with a plurality of first feeder line interfaces, and the first adapter plate is fixedly arranged on the top cover in a sealing way;

and the second adapter plate is provided with a plurality of second feeder line interfaces, and is fixedly arranged on the side wall plate in a sealing way.

Through setting up a plurality of first feeder interfaces on first adapter plate, with first adapter plate and top cap sealing connection again, guarantee the leakproofness between first feeder interface and the rack, simultaneously to set up a plurality of first feeder interfaces on the rack. The plurality of second feeder interfaces are arranged on the second adapter plate, and the second adapter plate is connected with the side wall plate in a sealing way, so that the tightness between the second feeder interfaces and the cabinet is ensured, and the plurality of second feeder interfaces are conveniently installed on the cabinet.

In an optional implementation manner, the module assembly comprises a blind plugging backboard and a plugging box frame, the blind plugging backboard is fixedly arranged on one side of the plugging box frame, a plurality of transceiver assembly modules are suitable for being inserted into the plugging box frame, a first blind plugging connector is arranged on one side, which is attached to the blind plugging backboard, of the transceiver assembly modules, a second blind plugging connector is arranged on the blind plugging backboard corresponding to the first blind plugging connector, and the transceiver assembly modules are inserted into the plugging box frame and are electrically connected with the second blind plugging connector in a state that the transceiver assembly modules are abutted to the blind plugging backboard.

Through inserting transceiver module into the subrack frame for first blind connector on the transceiver module is connected with the second connector electricity on the blind backplate of inserting, so that the staff erects the radar fast, reduces the cable connection complexity in the rack, improves module assembly's connection efficiency, is convenient for maintain the module assembly in the rack, can realize module assembly's standardization and practice thrift rack inner space, improves module assembly's interchangeability and guarantee nature, shortens the erection test time of radar.

In an alternative embodiment, a plurality of guide rails are arranged on the plug box frame, and the guide rails are arranged in an extending manner along the insertion direction of the transceiver component module; the transceiver module is provided with a guide groove corresponding to the guide rail, and the guide groove is suitable for sliding along the guide rail direction. Under the direction of guide rail and guide slot for first blind connector on the transceiver module is connected with the blind connector electricity of inserting on the backplate of blindness, so that a plurality of transceiver modules of staff's quick installation improves transceiver module's installation effectiveness.

In an optional embodiment, a positioning pin is disposed at an abutting end of the transceiver module and the blind plugging backboard, and a positioning hole is formed in the blind plugging backboard corresponding to the positioning pin. The staff can ensure that the first blind-mate connector is inserted into the second blind-mate connector, and ensure that the first blind-mate connector is electrically connected with the second blind-mate connector.

In an optional implementation manner, the blind plugging backboard is provided with a fine tuning plate, the second blind plugging connector is fixedly arranged on the fine tuning plate, the fine tuning plate is provided with a plurality of waist-shaped holes, the blind plugging backboard is provided with mounting holes corresponding to the waist-shaped holes, and the waist-shaped holes are fixed on the mounting holes through fasteners. If the positions of the first blind-insert connector on the transceiver module and the second blind-insert connector on the blind-insert backboard are deviated, the first blind-insert connector and the second blind-insert connector cannot be electrically connected after the transceiver module is inserted in place, the position of the second blind-insert connector can be adjusted by adjusting the position of the fine adjustment plate on the blind-insert backboard, and then the first blind-insert connector and the second blind-insert connector can be electrically connected.

In an alternative embodiment, the side wall plate is provided with an air outlet and an air inlet which are communicated with the placing cavity, and the air outlet and the air inlet are suitable for being communicated with an air conditioning unit.

The cold air is blown in from the air inlet through the air conditioning unit, so that the module assembly can be effectively cooled and cleaned. The air outlet can be communicated with the air conditioning unit through the first ventilation pipe, and the air inlet can be communicated with the air conditioning unit through the second ventilation pipe. The module assembly inside the cabinet is cooled through the air conditioning unit, ventilation cooling holes such as air holes and shutters are not required to be formed in the surface of the cabinet, the tightness of the interior of the cabinet is further guaranteed, and water vapor and the like are prevented from entering the interior of the cabinet.

In an alternative embodiment, a partition is disposed in the placement cavity, a first end of the partition is connected to the module assembly, a second end of the partition is connected to the sidewall plate, the partition divides the placement cavity into a first static pressure area and a second static pressure area, the first static pressure area is communicated with the air outlet, and the second static pressure area is communicated with the air inlet.

Through set up the baffle in placing the cavity and will place the cavity and cut apart into first static pressure district and second static pressure district, can prevent effectively that the hot-blast backward flow in the cavity of placing.

In an alternative embodiment, a fan is disposed within the first hydrostatic region.

Through setting up the fan with the hot-blast acceleration in the first static pressure district from the air outlet discharge, further improve the radiating efficiency of the module subassembly in the rack.

In an alternative embodiment, the sidewall plate, the cabinet door and the top cover are all made of stainless steel. The sealing performance of the interior of the cabinet is guaranteed, and meanwhile, the stainless steel material has good corrosion resistance and can prevent the cabinet from being corroded by external salt mist.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a marine protection type outdoor radar cabinet according to an embodiment of the present utility model;

fig. 2 is a front view of the marine-protected outdoor radar cabinet shown in fig. 1;

FIG. 3 is a top view of the marine-protected outdoor radar enclosure and antenna array connection shown in FIG. 1;

FIG. 4 is a schematic diagram of heat dissipation inside the cabinet of FIG. 1;

FIG. 5 is a schematic view of the internal structure of the cabinet in FIG. 1;

FIG. 6 is a top view of the enclosure of FIG. 1;

FIG. 7 is a schematic plan view of a modular assembly within the enclosure of FIG. 1;

FIG. 8 is an enlarged schematic view of a portion of the cage frame of FIG. 7;

fig. 9 is a schematic structural diagram of the transceiver module in fig. 7;

FIG. 10 is a schematic view of the structure of FIG. 9 at another angle;

FIG. 11 is a rear view of FIG. 7;

fig. 12 is an enlarged schematic view at a in fig. 11.

Reference numerals illustrate:

1. an air conditioning unit; 2. a cabinet; 201. a top cover; 202. a cabinet door; 203. a first feeder interface; 204. a second feeder interface; 205. an air outlet; 206. an air inlet; 207. a partition plate; 208. a first hydrostatic region; 209. a second hydrostatic region; 210. a blower; 211. a side wall panel; 3. a first ventilation pipe; 4. a second ventilation pipe; 5. an antenna array surface; 6. a module assembly; 601. a transceiver module; 6011. a handle; 6012. a guide groove; 6013. a positioning pin; 6014. a first blind mate connector; 602. an insert box frame; 6021. a guide rail; 603. a power divider; 604. a monitoring switch; 605. a power amplifier power supply; 606. controlling a power supply; 607. a blind plugging backboard; 608. a second blind mate connector; 6081. a mounting hole; 7. a fine tuning plate; 701. waist-shaped holes.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of 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, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. 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.

In the related art, the transmission loss of an antenna feed system is directly determined by the distance between a radar antenna and a radar cabinet, and the detection power of a radar is affected by the distance between the radar antenna and the radar cabinet.

Embodiments of the present utility model are described below with reference to fig. 1 to 12.

According to an embodiment of the present utility model, there is provided a marine-defense-type outdoor radar cabinet including: side wall panel 211, top cover 201, cabinet door 202, first feeder interface 203, and second feeder interface 204. The side wall plates 211 are welded, and the side wall plates 211 are made of metal. The top cover 201 is welded to the top of the side wall plate 211, and the top cover 201 is made of metal. The cabinet door 202 is arranged on the side wall plate 211, the cabinet door 202 is made of metal, and the cabinet door 202 can be arranged on the side wall plate 211 in an openable and closable manner. The cabinet door 202, the side wall panels 211 and the top cover 201 enclose a sealed placement cavity in which the module assembly 6 is adapted to be placed.

Specifically, the first feeder line interfaces 203 are provided with a plurality of first feeder line interfaces 203, the plurality of first feeder line interfaces 203 are disposed on the top cover 201, the first feeder line interfaces 203 are disposed in a sealing manner with the top cover 201, the first feeder line interfaces 203 are electrically connected with the module assembly 6, the top of the cabinet 2 can be provided with the antenna array surface 5, and the first feeder line interfaces 203 are suitable for being electrically connected with the antenna array surface 5.

Specifically, the second feeder interfaces 204 are provided in plural, the plural second feeder interfaces 204 are disposed on the side wall plate 211, the second feeder interfaces 204 are disposed in a sealed manner with the side wall plate 211, the second feeder interfaces 204 are electrically connected to the module assembly 6, and the plural cabinets 2 can be electrically connected and disposed through the second feeder interfaces 204.

This marine protection type outdoor radar cabinet 2 welds into cabinet 2 through the sidewall board 211 that adopts the metal material, top cap 201 and cabinet door 202, not only can effectual rigidity and the intensity that increase cabinet 2, can also prevent that cabinet 2 outside salt fog, mould, steam etc. from getting into cabinet 2 inside, guarantees the inside normal operating of each subassembly of cabinet 2 for radar cabinet 2 can set up in the abominable open air of environment. The first feeder line interface 203 is arranged on the top cover 201 of the cabinet 2, and the first feeder line interface 203 is electrically connected with the antenna array surface 5 arranged on the top of the cabinet 2, so that the transmission distance between the cabinet 2 and the antenna array surface 5 is minimized, further, the radar transmission loss is reduced, and the detection power of the radar is improved.

Specifically, the first feeder line interface 203 and the second feeder line interface 204 may adopt a marine protection type wall penetrating base with a higher waterproof level, so as to further ensure the bearing capacity of the cabinet 2 to outdoor corrosion environments such as snow, frost, hail, dense fog, acid rain, lightning and the like.

In one embodiment, the cabinet 2 is further provided with an adapter plate, and the adapter plate includes a first adapter plate and a second adapter plate. The first adapter plate is provided with a plurality of first feeder interfaces 203, and the first adapter plate is fixedly arranged on the top cover 201 in a sealing way. A sealing ring or sealant may be disposed between the first adapter plate and the top cover 201 to ensure tightness between the first adapter plate and the top cover 201. By arranging the plurality of first feeder interfaces 203 on the first adapter plate and then sealing the first adapter plate with the top cover 201, the tightness between the first feeder interfaces 203 and the cabinet 2 is ensured, and meanwhile, the plurality of first feeder interfaces 203 are arranged on the cabinet 2 conveniently.

Specifically, the second adapter plate is provided with a plurality of second feeder interfaces 204, the second adapter plate is fixedly arranged on the side wall plate 211 of the cabinet 2 in a sealing manner, and a sealant or a sealing ring can be arranged between the second adapter plate and the side wall plate 211 to ensure the tightness between the second adapter plate and the side wall plate 211. By arranging the plurality of second feeder interfaces 204 on the second adapter plate and then sealing the second adapter plate with the side wall plate 211, tightness between the second feeder interfaces 204 and the cabinet 2 is ensured, and meanwhile, the plurality of second feeder interfaces 204 are conveniently installed on the cabinet 2.

In one embodiment, as shown in fig. 5 to 7, the module assembly 6 includes a blind plugging backboard 607 and a box frame 602, the blind plugging backboard 607 and the box frame 602 are fixedly disposed in the placement cavity, the blind plugging backboard 607 is disposed at one side of the box frame 602, a plurality of transceiver modules 601 are adapted to be placed in the box frame 602, a first blind plugging connector 6014 is disposed on the transceiver modules 601, and the first blind plugging connector 6014 is disposed at one side of the transceiver modules 601 attached to the blind plugging backboard 607. A second blind-mate connector 608 is provided on the blind-mate backplane 607 corresponding to the first blind-mate connector 6014, and the first blind-mate connector 6014 is electrically connected to the second blind-mate connector 608 when the transceiver module 601 is inserted into the cage frame 602 and the transceiver module 601 abuts against the blind-mate backplane 607; when the transceiver module 601 takes out the jack frame 602, the first blind mating connector 6014 on the transceiver module 601 and the second blind mating connector 608 on the blind mating backplane 607 are disconnected. Through inserting transceiver module 601 into subrack 602 for first blind connector 6014 on the transceiver module 601 is connected with the second connector electricity on the blind backplate 607, so that the staff erects the radar fast, reduces the cable connection complexity in the rack 2, improves the connection efficiency of module assembly 6, is convenient for maintain module assembly 6 in the rack 2, can realize module assembly 6's standardization and practice thrift rack 2 inner space, improves module assembly 6's interchangeability and guarantee nature, shortens the erection test time of radar.

Specifically, as shown in fig. 5, a power divider 603, a monitoring switch 604, a power amplifier source 605, a control power supply 606, and the like may also be disposed on the module assembly 6.

In one embodiment, as shown in fig. 8 and 9, a plurality of guide rails 6021 are disposed on the jack frame 602, the guide rails 6021 are disposed to extend along the insertion direction of the transceiver module 601, a guide groove 6012 is disposed on the transceiver module 601, the guide groove 6012 is disposed corresponding to the guide rail 6021, the guide groove 6012 is adapted to slide along the direction of the guide rail 6021, when the transceiver module 601 is installed, the guide groove 6012 of the transceiver module 601 is inserted into the guide rail 6021 of the jack frame 602, at this time, the transceiver module 601 can slide along the direction of the guide rail 6021, and under the guidance of the guide rail 6021 and the guide groove 6012, the first blind-insert connector 6014 on the transceiver module 601 is electrically connected with the second blind-insert connector 608 on the blind-insert back plate 607, so that a worker can install the plurality of transceiver modules 601 quickly, and the installation efficiency of the transceiver module 601 is improved.

Specifically, as shown in fig. 9, a handle 6011 may be disposed on the transceiver module 601, so that a worker pulls the transceiver module 601, and the handle 6011 may be disposed at an end of the transceiver module 601.

In one embodiment, as shown in fig. 10, a positioning pin 6013 is disposed on the transceiver module 601, the positioning pin 6013 is disposed at an abutting end of the transceiver module 601 and the blind plugging backboard 607, a positioning hole is formed on the blind plugging backboard 607 corresponding to the positioning pin 6013, and when the positioning pin 6013 of the transceiver module 601 is inserted into the positioning hole, a worker can ensure that the first blind plugging connector 6014 is inserted into the second blind plugging connector 608, and ensure that the first blind plugging connector is electrically connected with the second blind plugging connector.

Specifically, a plurality of positioning pins 6013 may be provided, and a plurality of positioning holes may be provided corresponding to the positioning pins 6013.

In one embodiment, as shown in fig. 11 and 12, a fine adjustment plate 7 is disposed on the blind plugging backboard 607, the fine adjustment plate 7 is suitable for moving and fine adjusting on the blind plugging backboard 607, the second blind plugging connector 608 is fixed on the fine adjustment plate 7, a plurality of waist-shaped holes 701 are disposed on the fine adjustment plate 7, mounting holes 6081 are disposed on the blind plugging backboard 607 corresponding to the waist-shaped holes 701, the waist-shaped holes 701 are fixed on the mounting holes 6081 through fasteners, if the positions of the first blind plugging connector 6014 on the transceiver module 601 and the second blind plugging connector 608 on the blind plugging backboard 607 deviate, the transceiver module 601 is caused to be in electrical connection with the first blind plugging connector 6014 and the second blind plugging connector 608 after the transceiver module 601 is inserted in place, and the position of the second blind plugging connector 608 can be adjusted by adjusting the position of the fine adjustment plate 7 on the blind plugging backboard 607, so that the first blind plugging connector 6014 and the second blind plugging connector 608 can be electrically connected.

In one embodiment, as shown in fig. 4, the side wall plate 211 is provided with an air outlet 205 and an air inlet 206, and the air outlet 205 and the air inlet 206 are both in communication with the placement cavity, as shown in fig. 2, and the air outlet 205 and the air inlet 206 are adapted to be in communication with the air conditioning unit 1. By blowing cold air from the air inlet 206 through the air conditioning unit 1, the module 6 can be effectively cooled and cleaned. As shown in fig. 2, the air outlet 205 may communicate with the air conditioning unit 1 through the first ventilation duct 3, and the air inlet 206 may communicate with the air conditioning unit 1 through the second ventilation duct 4. The module assembly 6 inside the cabinet 2 is radiated through the air conditioning unit 1, ventilation radiating holes such as air holes and shutters are not required to be formed in the surface of the cabinet 2, the tightness inside the cabinet 2 is further ensured, and water vapor and the like are prevented from entering the cabinet 2.

In one embodiment, as shown in fig. 4, a partition 207 is further disposed in the placement cavity, a first end of the partition 207 is connected to the module assembly 6, a second end of the partition 207 is connected to a side wall plate 211, the partition 207 divides the placement cavity into a first static pressure zone 208 and a second static pressure zone 209, the first static pressure zone 208 being located at a top portion of the cabinet 2, and the second static pressure zone 209 being located at a bottom portion of the cabinet 2. The partition 207 is arranged in the placing cavity to divide the placing cavity into the first static pressure area 208 and the second static pressure area 209, so that cold air of the air conditioning unit 1 enters the second static pressure area 209 from the air inlet 206, the cold air cools the module assembly 6 in the placing cavity, cooled hot air enters the first static pressure area 208 and flows out from the air outlet 205, the heat dissipation efficiency of the module assembly 6 in the cabinet 2 is ensured, and ideal temperature and humidity in the cabinet 2 are further ensured. By providing the partition 207 in the placement cavity to divide the placement cavity into the first static pressure area 208 and the second static pressure area 209, the backflow of hot air in the placement cavity can be effectively prevented.

In one embodiment, as shown in fig. 4, a fan 210 is disposed in the first static pressure area 208, and the fan 210 is disposed to accelerate the discharge of the hot air in the first static pressure area 208 from the air outlet 205, so as to further improve the heat dissipation efficiency of the module assembly 6 in the cabinet 2.

In one embodiment, the side wall plate 211, the cabinet door 202 and the top cover 201 are made of stainless steel, so that the sealing performance of the interior of the cabinet 2 is guaranteed, and meanwhile, the stainless steel has good corrosion resistance and prevents the cabinet 2 from being corroded by external salt mist.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (10)

1. An outdoor radar cabinet of marine protection type, characterized by comprising:

a side wall plate (211), wherein a plurality of the side wall plates (211) are welded, and the side wall plates (211) are made of metal;

a top cover (201) welded on top of the side wall plate (211), wherein the top cover (201) is made of metal;

the cabinet door (202) is arranged on the side wall plate (211), the cabinet door (202) is made of metal, the cabinet door (202), the side wall plate (211) and the top cover (201) are enclosed to form a sealed placing cavity, and a module assembly (6) is suitable for being placed in the placing cavity;

the first feeder line interfaces (203) are arranged on the top cover (201) in a sealing mode, the first feeder line interfaces (203) are electrically connected with the module assembly (6), and the first feeder line interfaces (203) are suitable for being electrically connected with an antenna array surface (5) at the top of the cabinet (2);

-a second feeder interface (204), a plurality of said second feeder interfaces (204) being sealingly arranged on said side wall plate (211), said second feeder interfaces (204) being electrically connected to said module assembly (6), a plurality of said cabinets (2) being adapted to be electrically connected via said second feeder interfaces (204).

2. The marine-protection type outdoor radar cabinet of claim 1, further comprising an adapter plate comprising a first adapter plate and a second adapter plate;

the first adapter plate is provided with a plurality of first feeder line interfaces (203), and the first adapter plate is fixedly arranged on the top cover (201) in a sealing way;

and a plurality of second feeder line interfaces (204) are arranged on the second adapter plate, and the second adapter plate is fixedly arranged on the side wall plate (211) in a sealing way.

3. The marine protection type outdoor radar cabinet according to claim 2, wherein the module assembly (6) comprises a blind plugging backboard (607) and a box frame (602), the blind plugging backboard (607) is fixedly arranged on one side of the box frame (602), a plurality of transceiver assembly modules (601) are suitable for being plugged into the box frame (602), a first blind plugging connector (6014) is arranged on one side, which is attached to the blind plugging backboard (607), of the transceiver assembly modules (601), a second blind plugging connector (608) is arranged on the blind plugging backboard (607) corresponding to the first blind plugging connector (6014), and the first blind plugging connector (6014) is electrically connected with the second blind plugging connector (608) in a state that the transceiver assembly modules (601) are plugged into the box frame (602) and the transceiver assembly modules (601) are abutted to the blind plugging backboard (607).

4. A marine-protection-type outdoor radar cabinet according to claim 3, wherein the jack-box frame (602) is provided with a plurality of guide rails (6021), and the guide rails (6021) are arranged in an extending manner along the insertion direction of the transceiver module (601); the transceiver module (601) is provided with a guide groove (6012) corresponding to the guide rail (6021), and the guide groove (6012) is suitable for sliding along the direction of the guide rail (6021).

5. The marine protection type outdoor radar cabinet according to claim 4, wherein a positioning pin (6013) is arranged at the abutting end of the transceiver module (601) and the blind plugging backboard (607), and a positioning hole is formed in the blind plugging backboard (607) corresponding to the positioning pin (6013).

6. The marine protection type outdoor radar cabinet according to claim 5, wherein the blind plugging backboard (607) is provided with a fine tuning plate (7), the second blind plugging connector (608) is fixedly arranged on the fine tuning plate (7), the fine tuning plate (7) is provided with a plurality of waist-shaped holes (701), the blind plugging backboard (607) is provided with mounting holes (6081) corresponding to the waist-shaped holes (701), and the waist-shaped holes (701) are fixed on the mounting holes (6081) through fasteners.

7. The marine-protection type outdoor radar cabinet according to any one of claims 1 to 6, wherein an air outlet (205) and an air inlet (206) which are communicated with the placing cavity are formed in the side wall plate (211), and the air outlet (205) and the air inlet (206) are suitable for being communicated with an air conditioning unit (1).

8. The marine-protection type outdoor radar cabinet according to claim 7, wherein a partition plate (207) is arranged in the placement cavity, a first end of the partition plate (207) is connected with the module assembly (6), a second end of the partition plate (207) is connected with the side wall plate (211), the partition plate (207) divides the placement cavity into a first static pressure area (208) and a second static pressure area (209), the first static pressure area (208) is communicated with the air outlet (205), and the second static pressure area (209) is communicated with the air inlet (206).

9. The marine-protection-type outdoor radar cabinet of claim 8, wherein a fan (210) is disposed within the first static pressure zone (208).

10. The marine-protection type outdoor radar cabinet of any one of claims 1 to 6, wherein the side wall plate (211), the cabinet door (202) and the top cover (201) are all made of stainless steel.