CN205124182U - Novel airtight heat dissipation radar every single move case - Google Patents

Abstract

The utility model relates to a novel airtight heat dissipation radar every single move case, its heat dissipation channel are located between airtight chamber and the lower airtight chamber, go up airtight intracavity and install feeder and transmitter, the bottom plate upper band radiating fin I of transmitter, radiating fin I passes airtight chamber bottom and stretches out heat dissipation channel, and radiating fin I seals with the juncture of last airtight chamber bottom, down receiver and receiving and dispatching power are installed to airtight intracavity, receiver bottom plate upper band radiating fin II, and the bottom plate upper band radiating fin III of receiving and dispatching power, radiating fin II and radiating fin III pass down airtight chamber upper portion and stretch out heat dissipation channel, and the juncture on radiating fin II, radiating fin III and lower airtight chamber upper portion seals. The utility model relates to a can effectively solve the heat dissipation problem of airtight radar every single move case, its simple structure, the design of being convenient for, production are favorable to reducing manufacturing cost, novel radar every single move case little, the light in weight of hot air duct size that looses, be convenient for installation and transportation.

Description

A kind of Novel closed heat radiation radar pitching case

Technical field

The utility model relates to a kind of radar pitching case, particularly relates to a kind of Novel closed heat radiation radar pitching case.

Background technology

The electronic equipments such as radar pitching case is for installing radar oxidising Fe equipment, and generally its top is used for fixing up an aerial wire, inner feed, transmitter, receiver and power supply for installing, protecting radar.Owing to being in outdoor open-air atmosphere when radar pitching case works, the electronic equipment of its inside only has and is isolated effectively could protects it with outside, and therefore, radar pitching case needs to make airtight structure.Because transmitter, receiver and power supply in radar pitching case have larger caloric value, airtight pitching case can make its internal heat assemble, thus makes pitching case inside produce higher temperature, finally produces harm to radar transmitter etc.General simple heat dissipating method is on radar pitching case, open an air inlet and an air outlet, air inlet adds blower fan blowing or air outlet adds blower fan exhausting, the heat in radar pitching case is made to discharge radar pitching case, this method can make rainwater and dust import in radar pitching case, thus makes the electronic equipments such as the transmitter in radar pitching case be subject to the infringement of rainwater and dust; And general complicated heat dissipating method is with inside and outside isolated environmental control system, as water-cooling system, air-conditioning system etc., this method good heat dissipation effect, but volume is large, cost is high, requires high to use occasion, is not too applicable to the vehicle-mounted pitching case that volume is little, lightweight, be applicable to pitching.

Utility model content

The Novel closed heat radiation radar pitching case that a kind of structure is little, cost is low, be convenient to installation and transport is provided in order to overcome the above problems the utility model.This pitching case can solve the airtight problem of radar pitching case can solve again radar pitching case heat dissipation problem.

For achieving the above object, the utility model provides following technical scheme:

A kind of Novel closed heat radiation radar pitching case, it is characterized in that: comprise closed chamber, lower closed chamber, heat dissipation channel, heat dissipation channel is between upper closed chamber and lower closed chamber, and heat dissipation channel is provided with air inlet, air outlet;

Described upper closed chamber by casing, upper spacer, air intake door closure, go out wind gate cover and form, air intake door closure, go out wind gate cover, faying face between upper spacer and casing and air intake door closure, go out the faying face of wind gate cover and upper spacer and all seal; Be provided with feeder line and transmitter in upper closed chamber, the base plate of transmitter be with radiating fin I, radiating fin I reaches heat dissipation channel through upper spacer, and the intersection of radiating fin I and upper spacer seals;

Described lower closed chamber by casing, lower clapboard, air intake door closure, go out wind gate cover and form, air intake door closure, go out wind gate cover, faying face between lower clapboard and casing and air intake door closure, go out the faying face of wind gate cover and lower clapboard and all seal; Receiver and transmitting-receiving power supply are installed in lower closed chamber, receiver base plate is with radiating fin II, the base plate of transmitting-receiving power supply is with radiating fin III, radiating fin II and radiating fin III reaches heat dissipation channel through lower clapboard, and the intersection of radiating fin II, radiating fin III and lower clapboard seals.

Described band radiating fin I, radiating fin II, radiating fin III are all heat loss through conduction sheets, and the heat of heat loss through conduction sheet takes pitching case out of by the wind in air channel.

Described upper spacer is provided with upward wiring folder, and upper spacer is provided with via hole, clamping fixed by upward wiring in the upper closed chamber of via hole turnover of cable on upper spacer, seals between the via hole on upper spacer and cable.

Described lower clapboard is provided with downward cabling folder, and lower clapboard is provided with via hole, clamping fixed by downward cabling in the upper closed chamber of via hole turnover of cable on lower clapboard, seals between the via hole on lower clapboard and cable.

Improve as one of the present utility model, air duct board is provided with in the middle of described heat dissipation channel, heat dissipation channel is divided into upper air duct and lower air duct, the radiating fin I through upper spacer is positioned at upper air duct, and radiating fin II, radiating fin III through lower clapboard are positioned at lower air duct.Such cold wind just focuses on radiating fin I, radiating fin II, radiating fin III place, the heat on fin is blown to downstream, air channel, thus improves radiating effect.

Improve as one of the present utility model, described air inlet is the aperture that shutter covers corresponding air channel import department; Air outlet is the aperture corresponding ducting outlet place on wind gate cover.Be arranged on like this while forming airtight cavity and need not be additionally provided with air inlet and air outlet, manufacture craft is simpler, and cost is lower.

Improve as one of the present utility model, be provided with the blower fan of air intake in air inlet, effectively realize forced air cooling heat radiation further.

Improve as one of the present utility model, be respectively equipped with air inlet cover and air-out mouth mask at air inlet and air outlet, below preferably the air inlet of air inlet cover and the air outlet of air-out mouth mask are all arranged on.Effectively prevent rainwater from directly entering in heat dissipation channel.

The utility model design effectively can solve the heat dissipation problem of airtight radar pitching case; Its structure is simple, is convenient to design, produces, and is conducive to reducing manufacturing cost; New Type Radar pitching case heat dissipation wind channel size is little, lightweight, is convenient to install and transport.

Accompanying drawing explanation

Fig. 1 is the structural representation of Novel closed heat radiation radar pitching case.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in more detail.

As shown in Figure 1, the utility model provides a kind of Novel closed heat radiation radar pitching case, comprise closed chamber 1, lower closed chamber 2, heat dissipation channel 3, heat dissipation channel 3 is between upper closed chamber 1 and lower closed chamber 2, and heat dissipation channel 3 is provided with air inlet 12, air outlet 15;

Described upper closed chamber 1 by casing 4, upper spacer 5, air intake door closure 7, go out wind gate cover 8 and form, air intake door closure 7, go out wind gate cover 8, faying face and air intake door closure 7 between upper spacer 5 and casing 4, go out wind gate cover 8 and all seal with the faying face of upper spacer 5; Be provided with feeder line 20 and transmitter 21 in upper closed chamber 1, the base plate of transmitter 21 be with radiating fin I18, radiating fin I18 reaches heat dissipation channel 3 through upper spacer 5, and the intersection of radiating fin I18 and upper spacer 5 seals; Upper spacer 5 is provided with upward wiring folder 24, upper spacer 5 is provided with via hole, the via hole of cable on upper spacer 5 passes in and out to go up in closed chamber 1 and press from both sides 24 by upward wiring and fixes, and seals between the via hole on upper spacer 5 and cable.；

Described lower closed chamber 2 by casing 4, lower clapboard 6, air intake door closure 7, go out wind gate cover 8 and form, air intake door closure 7, go out wind gate cover 8, faying face and air intake door closure 7 between lower clapboard 6 and casing 4, go out wind gate cover 8 and all seal with the faying face of lower clapboard 6; Receiver 22 and transmitting-receiving power supply 23 are installed in lower closed chamber 2, receiver 22 base plate is with radiating fin II17, the base plate of transmitting-receiving power supply 23 is with radiating fin III16, radiating fin II17 and radiating fin III16 reaches heat dissipation channel 3 through lower clapboard 6, and the intersection of radiating fin II17, radiating fin III16 and lower clapboard 6 seals; Lower clapboard 6 is provided with downward cabling folder 25, lower clapboard 6 is provided with via hole, fixed by downward cabling folder 25 in the lower closed chamber 2 of via hole turnover of cable on lower clapboard 6, seal between the via hole on lower clapboard 6 and cable.

Air duct board 11 is provided with in the middle of described heat dissipation channel 3, heat dissipation channel 3 is divided into upper air duct 13 and lower air duct 14, radiating fin I18 through upper spacer 5 is positioned at upper air duct 13, and radiating fin II17, radiating fin III16 through lower clapboard 6 are positioned at lower air duct 14.Air inlet 12 is apertures of corresponding air channel import department on air intake door closure 7; Air outlet 15 is the apertures corresponding ducting outlet place on wind gate cover 8.The blower fan 19 of air intake is provided with at air inlet 12 place.Air inlet cover 9 and air-out mouth mask 10 is respectively equipped with, below the air inlet of air inlet cover 9 and the air outlet of air-out mouth mask 10 are all arranged at air inlet 12 and air outlet 15.

The foregoing is only preferred embodiment of the present utility model, be not restricted to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within right of the present utility model.

Claims (10)

1. a Novel closed heat radiation radar pitching case, it is characterized in that: comprise closed chamber (1), lower closed chamber (2), heat dissipation channel (3), heat dissipation channel (3) is positioned between closed chamber (1) and lower closed chamber (2), and heat dissipation channel (3) is provided with air inlet (12), air outlet (15);

Feeder line (20) and transmitter (21) are installed in upper closed chamber (1), the base plate of transmitter (21) is with radiating fin I (18), radiating fin I (18) reaches heat dissipation channel (3) through upper closed chamber (1) bottom, and radiating fin I (18) seals with the intersection of upper closed chamber (1) bottom;

Receiver (22) and transmitting-receiving power supply (23) are installed in lower closed chamber (2), receiver (22) base plate is with radiating fin II (17), the base plate of transmitting-receiving power supply (23) is with radiating fin III (16), radiating fin II (17) and radiating fin III (16) reaches heat dissipation channel (3) through lower closed chamber (2) top, and radiating fin II (17), radiating fin III (16) seal with the intersection on lower closed chamber (2) top.

2. a kind of Novel closed heat radiation radar pitching case according to claim 1, it is characterized in that: described upper closed chamber (1) by casing (4), upper spacer (5), air intake door closure (7), go out wind gate cover (8) and form, air intake door closure (7), go out wind gate cover (8), faying face and air intake door closure (7) between upper spacer (5) and casing (4), go out wind gate cover (8) and all seal with the faying face of upper spacer (5); Described upper closed chamber (1) bottom is upper spacer (5).

3. a kind of Novel closed heat radiation radar pitching case according to claim 1, it is characterized in that: described lower closed chamber (2) by casing (4), lower clapboard (6), air intake door closure (7), go out wind gate cover (8) and form, air intake door closure (7), go out wind gate cover (8), faying face and air intake door closure (7) between lower clapboard (6) and casing (4), go out wind gate cover (8) and all seal with the faying face of lower clapboard (6); Described lower closed chamber (2) top is lower clapboard (6).

4. a kind of Novel closed heat radiation radar pitching case according to claim 2, it is characterized in that: on upper spacer (5), be provided with upward wiring folder (24), upper spacer (5) is provided with via hole, the via hole of cable on upper spacer (5) passes in and out to go up in closed chamber (1) and press from both sides (24) by upward wiring and fixes, and seals between the via hole on upper spacer (5) and cable.

5. a kind of Novel closed heat radiation radar pitching case according to claim 3, it is characterized in that: on lower clapboard (6), be provided with downward cabling folder (25), lower clapboard (6) is provided with via hole, in the lower closed chamber (2) of via hole turnover of cable on lower clapboard (6) and by downward cabling press from both sides (25) fixing, seal between the via hole on lower clapboard (6) and cable.

6. a kind of Novel closed heat radiation radar pitching case according to claim 1, it is characterized in that: in the middle of described heat dissipation channel (3), be provided with air duct board (11), heat dissipation channel (3) is divided into upper air duct (13) and lower air duct (14), radiating fin I (18) is positioned at upper air duct (13), and radiating fin II (17), radiating fin III (16) are positioned at lower air duct (14).

7. a kind of Novel closed heat radiation radar pitching case according to Claims 2 or 3, is characterized in that: the aperture of the upper corresponding air channel import department of air intake door closure (7) is air inlet (12); The aperture going out the upper corresponding ducting outlet place of wind gate cover (8) is air outlet (15).

8. a kind of Novel closed heat radiation radar pitching case according to claim 1, is characterized in that: the blower fan (19) being provided with air intake at air inlet (12) place.

9. a kind of Novel closed heat radiation radar pitching case according to claim 1, is characterized in that: be respectively equipped with air inlet cover (9) and air-out mouth mask (10) at air inlet (12) and air outlet (15).

10. a kind of Novel closed heat radiation radar pitching case according to claim 9, is characterized in that: below the air inlet of air inlet cover (9) and the air outlet of air-out mouth mask (10) are all arranged on.