CN117784027A - Electric lifting rotary radar seat platform - Google Patents

Abstract

The invention discloses an electric lifting rotary radar seat platform, which relates to the technical field of radar seat platforms and comprises a dust box, wherein a rotating base is arranged on the upper side of the dust box, a control box is fixedly connected to the upper side of the rotating base, a hydraulic push rod is fixedly connected to the upper side of the control box, a lifting platform is fixedly connected to the output end of the hydraulic push rod, a weight sensor is fixedly connected to the upper side of the lifting platform, radars are fixedly connected to the upper side of the weight sensor, guardrails are arranged on the front side and the rear side of the radars, the guardrails are fixedly connected with the lifting platform, sliding rails are arranged on the left side and the right side of the lifting platform, the weight of the radars are detected at regular time through the weight sensors, the radars are cleaned according to the weight values of the radars to different degrees, and the radars are air-dried through the rotation of motors after the cleaning, so that the radars do not need to be dismounted for manual cleaning, and the effects of automatic inspection and high cleaning efficiency are achieved.

Description

Electric lifting rotary radar seat platform

Technical Field

The invention relates to the technical field of radar seat platforms, in particular to an electric lifting rotary radar seat platform.

Background

Radar, i.e., a method of finding objects by radio and determining their spatial positions, is also called "radio positioning", and is an electronic device that detects objects by electromagnetic waves, which emit electromagnetic waves to irradiate the objects and receive echoes thereof, thereby obtaining information of the distance, the rate of change of the distance (radial velocity), the azimuth, the altitude, and the like of the objects to the point of emission of the electromagnetic waves.

The radar is generally installed above a fixed platform, and the radar needs to be maintained regularly, the radar is detached to clean dirt and dust on the surface, and excessive dust and oil dirt can influence the normal emission distance of the radar, so that the emission distance of the radar is shortened, and the detection efficiency is lowered.

The existing radar seat platform cannot move, and the radar above the radar seat needs to be manually checked periodically to judge whether the radar needs to be cleaned or not, the radar needs to be detached during cleaning, the radar is installed after the cleaning is finished, the operation steps are numerous, and errors are easy to occur, so that the design of the lifting radar seat platform which is convenient to move and automatically check and clean the radar is very necessary.

Disclosure of Invention

The invention aims to provide an electric lifting rotary radar seat platform so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an electric lift rotation radar seat platform, includes the dust proof case, the upside of dust proof case is equipped with rotating base, rotating base's upside fixedly connected with control box, the upside fixedly connected with hydraulic putter of control box, hydraulic putter's output fixedly connected with lift platform, lift platform's upside fixedly connected with weight sensor, weight sensor's upside fixedly connected with radar, both sides all are equipped with the guardrail around the radar, guardrail and lift platform fixed connection, lift platform's left and right sides all is equipped with the slide rail, slide rail and rotating base fixed connection, lift platform and slide rail sliding connection.

The utility model provides a water spray pipe, including guardrail, protection box, water collecting block's upside fixedly connected with electric putter, water collecting block's inside evenly is equipped with a plurality of first through-holes, water collecting block's inside sliding connection has the slider, the inside of slider evenly is equipped with a plurality of second through-holes, slider and electric putter output fixedly connected with, water collecting block's downside is equipped with the collecting tank, collecting tank and first through-hole pipe connection, collecting tank's inside fixedly connected with first level sensor, collecting tank's downside fixedly connected with first solenoid valve, the output fixedly connected with water purifier of first solenoid valve, water purifier's output fixedly connected with water purification tank, water purification tank's inside fixedly connected with second level sensor, water purification tank's downside fixedly connected with second solenoid valve, the output fixedly connected with first water pump of second solenoid valve, the downside fixedly connected with second solenoid valve, the equal reserve water spray pipe fixedly connected with second solenoid valve, the equal reserve water pump of reserve water pump, the equal reserve water pipe fixedly connected with second solenoid valve.

One side of the second spray pipe is fixedly connected with a dry powder spray pipe, a plurality of dry powders are stored in the dry powder spray pipe, and the output end of the dry powder spray pipe is fixedly connected with a fourth electromagnetic valve.

The inner wall fixedly connected with smoke transducer of guardrail, smoke transducer's inside is equipped with the siren.

The inside fixedly connected with motor of dust proof case, the rear side of motor is equipped with the speed reducer.

The output of motor and the input fixed connection of speed reducer, the output of speed reducer runs through the protective housing upper wall and with rotating base fixed connection.

The control box is internally provided with a timing module, a control module and a detection module, wherein the control module is in signal connection with the detection module, and the detection module is in signal connection with the timing module.

The control module is in signal connection with the motor, the radar, the first water pump, the second water pump, the first electromagnetic valve, the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve, the electric push rod, the hydraulic push rod and the alarm, and the detection module is in signal connection with the first liquid level sensor, the second liquid level sensor, the weight sensor and the smoke sensor.

Compared with the prior art, the invention has the following beneficial effects: the weight sensor detects the weight of the radar at regular time through the weight sensor, the radar is cleaned to different degrees according to the weight value of the radar, and the radar is air-dried through the rotation of the motor after the cleaning is finished, so that the radar does not need to be disassembled for manual cleaning, and the effects of automatic inspection cleaning and high cleaning efficiency are achieved;

the smoke concentration in the air is detected in real time through the smoke sensor, and different voice alarming and fire extinguishing are carried out according to the smoke concentration value in the air, so that radar fire can be controlled at the first time, workers can know the specific condition of the fire in real time, and the effect of high safety is achieved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the present invention of region A of FIG. 1;

FIG. 3 is a half cross-sectional view of the present invention;

FIG. 4 is an enlarged schematic view of region B of FIG. 3 in accordance with the present invention;

FIG. 5 is a partial cross-sectional view of the protective housing of the present invention;

in the figure: 1. a dust box; 2. a slide rail; 3. a smoke sensor; 4. guard bars; 5. a lifting platform; 6. a weight sensor; 7. a hydraulic push rod; 8. a rotating base; 9. a speed reducer; 10. a motor; 11. a water collecting block; 12. a slide block; 13. an electric push rod; 14. a spare water tank; 15. a first liquid level sensor; 16. a collecting water tank; 17. a water purifier; 18. a second liquid level sensor; 19. a first electromagnetic valve; 20. a second electromagnetic valve; 21. purifying the water tank; 22. a second water pump; 23. a third electromagnetic valve; 24. a first water pump; 25. a protective box; 26. a dry powder spray pipe; 27. a second water jet pipe; 28. a first water jet pipe; 29. a radar; 30. and a control box.

Detailed Description

The technical scheme of the present invention is further described in non-limiting detail below with reference to the preferred embodiments and the accompanying drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides an electric lift rotation radar seat platform, including dust-proof box 1, the upside of dust-proof box 1 is equipped with rotating base 8, rotating base 8's upside fixedly connected with control box 30, control box 30's upside fixedly connected with hydraulic push rod 7, hydraulic push rod 7's output fixedly connected with lift platform 5, lift platform 5's upside fixedly connected with weight sensor 6, weight sensor 6's upside fixedly connected with radar 29, radar 29's front and back both sides all are equipped with guardrail 4, guardrail 4 and lift platform 5 fixed connection, lift platform 5's left and right sides all is equipped with slide rail 2, slide rail 2 and rotating base 8 fixed connection, lift platform 5 and slide rail 2 sliding connection.

Specifically, the output end of the hydraulic push rod 7 stretches to drive the radar 29 to move up and down, and the weight sensor 6 is used for detecting the weight value of the radar 29 and converting the weight value into an electric signal to be sent to the control box 30.

The upside fixedly connected with protection box 25 of guardrail 4, the upside fixedly connected with collection water piece 11 of protection box 25, the front side fixedly connected with electric putter 13 of collection water piece 11, the inside of collection water piece 11 evenly is equipped with a plurality of first through-holes, the inside sliding connection of collection water piece 11 has slider 12, the inside of slider 12 evenly is equipped with a plurality of second through-holes, slider 12 and electric putter 13 output fixed connection, the downside of collection water piece 11 is equipped with collection water tank 16, collection water tank 16 and first through-hole pipe connection, the inside fixedly connected with first level sensor 15 of collection water tank 16, the downside fixedly connected with first solenoid valve 19 of collection water tank 16, the output fixedly connected with water purifier 17 of first solenoid valve 19, the output fixedly connected with water purifier 21 of water purifier 17, the inside fixedly connected with second level sensor 18 of water purifier 21, the downside fixedly connected with second water pump 22 of water purifier 21, the front side fixedly connected with second solenoid valve 20 of second solenoid valve 20, the output fixedly connected with first water pump 24 of second solenoid valve 20, the front side fixedly connected with first solenoid valve 14 of collection water tank 25 and the second solenoid valve 23, the first water sprayer pipe 23 of two equal fixedly connected with second water sprayer pipe 23, the first water sprayer 23 of two side fixedly connected with first solenoid valve 24 of water sprayer pipe connection.

Specifically, the expansion and contraction of the output end of the electric push rod 13 is used for driving the sliding block 12 to slide back and forth in the water collecting block 11, when the output end of the electric push rod 13 is completely extended, the first through hole of the water collecting block 11 is communicated with the second through hole of the sliding block 12, rainwater can flow into the water collecting tank 16 through the first through hole and the second through hole when falling, when the output end of the electric push rod 13 is completely retracted, the first through hole is blocked by the sliding block 12, rainwater can not flow into the water collecting tank 16 through the first through hole, the water purifier 17 is used for filtering unclean matters in the rainwater, thereby filtering the rainwater into clean water source to enter the purified water tank 21, the opening of the first electromagnetic valve 19 is used for controlling the water source in the water collecting tank 16 to flow into the water purifier 17, the standby water tank 14 is used for storing standby water source, the first water pump 24 is used for pumping the water source of the reserve water tank 14 into the purified water tank 21, the second electromagnetic valve 20 is opened for pumping the water source of the purified water tank 21 into the first water spraying pipe 28, the second water pump 22 is used for pumping the water source of the purified water tank 21 into the first water spraying pipe 28 and spraying the water from the output end of the first water spraying pipe 28, the third electromagnetic valve 23 is closed for preventing the water source of the first water spraying pipe 28 from flowing into the second water spraying pipe 27, the first liquid level sensor 15 is used for detecting the water source liquid level value in the collecting water tank 16 and converting the water source liquid level value into an electric signal to be sent to the control box 30, and the second liquid level sensor 18 is used for detecting the water source liquid level value in the purified water tank 21 and converting the water source liquid level value into the electric signal to be sent to the control box 30.

One side of the second spray pipe 27 is fixedly connected with a dry powder spray pipe 26, a plurality of dry powders are stored in the dry powder spray pipe 26, and the output end of the dry powder spray pipe 26 is fixedly connected with a fourth electromagnetic valve.

Specifically, when the fourth solenoid valve is opened, the dry powder in the dry powder nozzle 26 is ejected from the output end of the solenoid valve, and is thus ejected onto the radar 29.

The inner wall fixedly connected with smoke transducer 3 of guardrail 4, smoke transducer 3's inside is equipped with the siren.

Specifically, the smoke sensor 3 is configured to detect a concentration value of smoke, convert the concentration value into an electrical signal, and send the electrical signal to the control box 30, and when the smoke sensor 3 detects that the concentration of smoke reaches a previously set amount, the alarm sounds.

The inside of the dust box 1 is fixedly connected with a motor 10, and the rear side of the motor 10 is provided with a speed reducer 9.

The output end of the motor 10 is fixedly connected with the input end of the speed reducer 9, and the output end of the speed reducer 9 penetrates through the upper wall of the protective box 25 and is fixedly connected with the rotating base 8.

Specifically, the rotation of the output end of the motor 10 is used to control the output end of the speed reducer 9 to rotate, and the speed reducer 9 is used to adjust the rotation speed of the motor 10, so as to control the radar 29 to rotate.

The control box 30 is internally provided with a timing module, a control module and a detection module, wherein the control module is in signal connection with the detection module, and the detection module is in signal connection with the timing module.

The control module is in signal connection with the motor 10, the radar 29, the first water pump 24, the second water pump 22, the first electromagnetic valve 19, the second electromagnetic valve 20, the third electromagnetic valve 23, the fourth electromagnetic valve, the electric push rod 13, the hydraulic push rod 7 and the alarm, and the detection module is in signal connection with the first liquid level sensor 15, the second liquid level sensor 18, the weight sensor 6 and the smoke sensor 3.

The method comprises the following steps:

s1: according to the working requirement, a worker controls the radar 29 to rotate through the motor 10, and controls the radar 29 to ascend or descend through the hydraulic push rod 7;

s2: judging whether rainwater needs to be collected or not through the liquid level value detected by the first liquid level sensor 15;

specifically, when the collection in the collection water tank 16 reaches the limit value, the liquid level value detected by the first liquid level sensor 15 is q, when the liquid level value detected by the first liquid level sensor 15 is less than q, the control box 30 controls the output end of the electric push rod 13 to extend completely, the first through hole and the second through hole are communicated, during raining, rainwater flows into the collection water tank 16 through the first through hole and the second through hole, then flows into the purification water tank 21 through the purification water tank 17 for purification, until the liquid level value detected by the first liquid level sensor 15 to the collection water tank 16 reaches q, the control box 30 controls the output end of the electric push rod 13 to retract completely, at the moment, the first through hole is blocked, rainwater cannot flow into the collection water tank 16 through the first through hole, the liquid level value in the collection water tank 16 is detected by the first liquid level sensor 15, so that the output end of the electric push rod 13 is controlled to extend or retract, and then the first through hole is opened to collect rainwater or close the first through hole to prevent water source from vaporizing and flowing out, and thus the energy-saving effect is achieved.

S3: the weight sensor 6 detects the weight of the radar 29 at regular time, and performs cleaning with different degrees according to the weight value of the radar 29, and the radar 29 is rotated by the motor 10 to perform air drying after the cleaning is finished;

specifically, because the dust and the dirt have weight, when the dust and the dirt are attached to the radar 29, the weight of the radar 29 can rise, the normal weight of the radar 29 is 50kg, the timing module is set to automatically perform cleaning detection on the last day of each month, when the weight sensor 6 detects that the weight value of the radar 29 is more than 50kg and less than 50.1kg, the weight value is little, which means that the dust and the dirt attached to the surface of the radar 29 are not much at the moment, the control module controls the second water pump 22 to be turned on at low power, a small amount of water source is extracted inside the cleaning water tank 21, the water source is emitted from the output end of the first water spraying pipe 28, the radar 29 is irradiated on the surface of the radar 29 for cleaning dust and the dirt, low-efficiency cleaning is performed, when the second liquid level sensor 18 detects that the liquid level value of the cleaning water tank 21 is 0, the control box 30 controls the second electromagnetic valve 20 to be turned on, the first water pump 24 is turned on, the water source of the standby water tank 14 is extracted inside the cleaning water tank 21 until the cleaning is finished, the control box 30 controls the motor 10 to be turned on, the rotation speed of the radar 29 is quickly changed through the speed reducer 9, and the air drying is quickly performed;

when the weight sensor 6 detects that dust and oil stains on the surface of the radar 29 are more than or equal to 50.1kg, the weight value is increased to be more, the control module controls the second water pump 22 to be opened with high power, the third electromagnetic valve 23 is opened, the second water pump 22 extracts a large amount of water sources inside the purified water tank 21, the large amount of water sources are ejected from the output ends of the first water spraying pipe 28 and the second water spraying pipe 27, dust and dirt are cleaned on the surface of the radar 29, high-efficiency cleaning is performed, when the second liquid level sensor 18 detects that the liquid level value of the purified water tank 21 is 0, the control box 30 controls the second electromagnetic valve 20 to be opened, the first water pump 24 pumps the water source of the spare water tank 14 into the purified water tank 21 until the cleaning is finished, the control box 30 controls the motor 10 to be opened, and the speed reducer 9 is adjusted to quickly dry the radar 29 in air;

the weight of the radar 29 is detected by the weight sensor 6 and the weight sensor 6 regularly, cleaning with different degrees is carried out according to the weight value of the radar 29, and after the cleaning is finished, the radar 29 is rotated by the motor 10 to be air-dried, so that the radar 29 does not need to be disassembled for manual cleaning, and the effects of automatic inspection cleaning and high cleaning efficiency are achieved.

S4: the smoke sensor 3 detects the smoke concentration in the air in real time, and carries out different voice alarming and fire extinguishing according to the smoke concentration value in the air.

Specifically, when the smoke sensor 3 detects that the smoke concentration in the air around the radar 29 is greater than 5%, it indicates that the radar 29 circuit is short-circuited, so as to cause a fire to generate smoke, the control box 30 controls the fourth electromagnetic valve to open, a large amount of dry powder is shot on the surface of the radar 29 through the fourth electromagnetic valve to extinguish the fire, the alarm sends out voice "the radar 29 is short-circuited for ignition", when the smoke sensor 3 detects that the smoke concentration value in the air around the radar 29 is less than 1% in the fire extinguishment, it indicates that the fire gradually becomes smaller, the alarm sends out voice "the radar 29 fire is controlled", when the smoke sensor 3 detects that the smoke concentration value in the air around the radar 29 is still continuously rising in the fire extinguishment, it indicates that the fire gradually becomes larger, the alarm sends out voice "the radar 29 fire cannot be controlled, the fire needs to be extinguished manually", the smoke concentration in the air is detected in real time through the sensor 3, and different voice alarms and the fire extinguishment are performed according to the smoke concentration value in the air, so that the radar 29 can be controlled in the first time, and the specific working condition of fire can be known, and the safety performance of a fire is achieved.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Finally, it should be pointed out that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting. Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may be modified or some technical features may be equivalently replaced, and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. An electric lifting rotary radar seat platform, which is characterized in that: including dust proof case (1), the upside of dust proof case (1) is equipped with rotating base (8), the upside fixedly connected with control box (30) of rotating base (8), the upside fixedly connected with hydraulic pressure push rod (7) of control box (30), the output fixedly connected with lift platform (5) of hydraulic pressure push rod (7), the upside fixedly connected with weight sensor (6) of lift platform (5), the upside fixedly connected with radar (29) of weight sensor (6), both sides all are equipped with guardrail (4) around radar (29), guardrail (4) and lift platform (5) fixed connection, the left and right sides of lift platform (5) all is equipped with slide rail (2), slide rail (2) and rotating base (8) fixed connection, lift platform (5) and slide rail (2) sliding connection.

The utility model discloses a guardrail (4) comprising a guardrail (4) and a water collecting block (11) fixedly connected with the upside of guardrail (4), the upside fixedly connected with water collecting block (11) of guardrail (25), the front side fixedly connected with electric putter (13) of water collecting block (11), the inside of water collecting block (11) evenly is equipped with a plurality of first through-holes, the inside sliding connection of water collecting block (11) has slider (12), the inside of slider (12) evenly is equipped with a plurality of second through-holes, slider (12) and electric putter (13) output fixed connection, the downside of water collecting block (11) is equipped with collection water tank (16), collection water tank (16) and first through-hole pipe connection, the inside fixedly connected with first level sensor (15) of collection water tank (16), the downside fixedly connected with first solenoid valve (19) of collection water tank (16), the output fixedly connected with water purifier (17) of first solenoid valve (19), the output fixedly connected with purifying water tank (21) of slider (12), the inside water tank (21) fixedly connected with second solenoid valve (21) and water tank (21) fixedly connected with second water tank (20), the output of second solenoid valve (20) fixedly connected with first water pump (24), the front side fixedly connected with reserve water tank (14) of protective housing (25), reserve water tank (14) and the input pipe connection of first water pump (24), the output of second water pump (22) runs through protective housing (25) and fixedly connected with first spray pipe (28), both sides all fixedly connected with third solenoid valve (23) around first spray pipe (28), two the equal fixedly connected with second spray pipe (27) of output of third solenoid valve (23).

2. The motorized lift and lower swing radar base platform of claim 1, wherein: one side of the second spray pipe (27) is fixedly connected with a dry powder spray pipe (26), a plurality of dry powders are stored in the dry powder spray pipe (26), and the output end of the dry powder spray pipe (26) is fixedly connected with a fourth electromagnetic valve.

3. The motorized lift and lower swing radar base platform of claim 2, wherein: the inner wall fixedly connected with smoke transducer (3) of guardrail (4), the inside of smoke transducer (3) is equipped with the siren.

4. A motorized lift and lower swing radar stand platform according to claim 3, wherein: the inside fixedly connected with motor (10) of dust proof case (1), the rear side of motor (10) is equipped with speed reducer (9).

5. The motorized lift and lower swing radar stand platform of claim 4, wherein: the output end of the motor (10) is fixedly connected with the input end of the speed reducer (9), and the output end of the speed reducer (9) penetrates through the upper wall of the protective box (25) and is fixedly connected with the rotating base (8).

6. The motorized lift and lower swing radar base platform of claim 5, wherein: the inside of control box (30) is equipped with timing module, control module and detection module signal connection, detection module and timing module signal connection.

7. The motorized lift and lower swing radar base platform of claim 6, wherein: the control module is in signal connection with the motor (10), the radar (29), the first water pump (24), the second water pump (22), the first electromagnetic valve (19), the second electromagnetic valve (20), the third electromagnetic valve (23), the fourth electromagnetic valve, the electric push rod (13), the hydraulic push rod (7) and the alarm, and the detection module is in signal connection with the first liquid level sensor (15), the second liquid level sensor (18), the weight sensor (6) and the smoke sensor (3).

8. The method for using the electric lifting rotary radar base platform according to claim 7, wherein:

the method comprises the following steps:

s1: according to the working requirement, a worker controls the radar (29) to rotate through the motor (10), and controls the radar (29) to ascend or descend through the hydraulic push rod (7);

s2: judging whether rainwater needs to be collected or not through a liquid level value detected by a first liquid level sensor (15);

s3: the weight sensor (6) detects the weight of the radar (29) at fixed time, and performs cleaning with different degrees according to the weight value of the radar (29), and the radar (29) is rotated by the motor (10) to perform air drying after the cleaning is finished;

s4: the smoke sensor (3) detects the smoke concentration in the air in real time, and carries out different voice alarming and fire extinguishing according to the smoke concentration value in the air.

9. The method for using the electric lifting rotary radar base platform according to claim 8, wherein:

when the weight of the radar (29) is 50kg, the normal weight of the radar (29) is set to be 50kg, the timing module is set to automatically perform cleaning detection on the last day of each month, when the weight sensor (6) detects that the weight value of the radar (29) is more than 50kg and less than 50.1kg, the weight value is little, which means that the dust and the dirt attached to the surface of the radar (29) are not much, the control module controls the second water pump (22) to be opened with low power, a small amount of water source is extracted inside the cleaning water tank (21), the water source is emitted from the output end of the first water spraying pipe (28) and is sprayed on the surface of the radar (29) for cleaning dust and dirt, low-efficiency cleaning is performed, when the second liquid level sensor (18) detects that the liquid level value of the cleaning water tank (21) is 0, the control box (30) controls the second electromagnetic valve (20) to be opened, the first water pump (24) pumps the water source of the standby water tank (14) into the cleaning water tank (21) until the cleaning water tank (21) is finished, and the control box (30) is controlled to be opened, and the speed of the radar (29) is quickly dried by the speed reducer (9) is controlled to be opened;

when the weight sensor (6) detects that dust and greasy dirt on the surface of the radar (29) are more than or equal to 50.1kg, the weight value is increased, the condition that the dust and greasy dirt attached to the surface of the radar (29) are excessive at the moment is described, the control module controls the second water pump (22) to be opened with high power, the third electromagnetic valve (23) is opened, the second water pump (22) extracts a large amount of water sources inside the clean water tank (21), the large amount of water sources are ejected from the output ends of the first water spraying pipe (28) and the second water spraying pipe (27), dust and dirty are cleaned on the surface of the radar (29) for high-efficiency cleaning, when the second liquid level sensor (18) detects that the liquid level value of the clean water tank (21) is 0, the control box (30) controls the second electromagnetic valve (20) to be opened, the first water pump (24) pumps the water sources of the standby water tank (14) into the clean water tank (21) until the cleaning is finished, the control box (30) controls the motor (10) to be opened, and the rotating speed of the radar (29) is quickly air-dried through adjusting the speed reducer (9).

10. The method for using the electric lifting rotary radar base platform according to claim 9, wherein:

when the smoke sensor (3) detects that the smoke concentration in the air around the radar (29) is more than 5%, the short circuit of a radar (29) circuit is indicated, so that smoke is generated by a fire disaster, the control box (30) controls the fourth electromagnetic valve to open, a large amount of dry powder is shot on the surface of the radar (29) through the fourth electromagnetic valve to extinguish the fire, when the smoke sensor (3) detects that the smoke concentration value in the air around the radar (29) is less than 1%, the fire is indicated to be gradually reduced, and when the smoke sensor (3) detects that the smoke concentration value in the air around the radar (29) is still continuously rising in the fire extinguishment, the fire is indicated to be gradually increased, and the alarm alarms in corresponding problems and gives corresponding voices to prompt.