CN103457013B - Waveguide inflator - Google Patents

Abstract

The invention discloses a waveguide inflator. The waveguide inflator comprises an air inlet valve, an air compressor and a fist drying cylinder; a first heater is arranged in the first drying cylinder, a first air inlet is formed in one end of the first drying cylinder, and a first air outlet is formed in the other end of the first drying cylinder; an air output of the air compressor is connected with a first air port P1 of a first directional valve through a first air conveying pipe, a second air port A1 of the first directional valve is connected with the first air inlet through a second air conveying pipe, the first air outlet is connected with a third air conveying pipe, the first air conveying pipe is connected with a fourth air conveying pipe which is connected with a first air port P2 of a second directional valve, a second air port A2 of the second directional valve is connected with the first air outlet through a fifth air conveying pipe, the first air inlet is connected with a second air port A3 of a third directional valve through a sixth air conveying pipe, and a third air port B3 of the third directional valve is communicated with outside atmosphere. Under the circumstance that drying cylinders do not need to be dismounted, the waveguide inflator achieves dehumidification of air drying agents.

Description

A kind of waveguide aerator

Technical field

The invention belongs to air oxygen detrition technical field, be specifically related to a kind of waveguide aerator.

Background technology

The dry pressurized equipment of waveguide is referred to as waveguide aerator, its Main Function is antenna-feedback system inflation, make the dry air keeping certain pressure in feeder system, guarantee that external humidification air and moisture can not enter, prevent from causing excessive and other electric property of reflection power to decline because feeder line gets rusty or damaging the practical problem of transmission feeder, ensure that communication system normally works, it is the important corollary equipment of communication system.Waveguide aerator is widely used in the microwave station, broadcast and TV radiating station, satellite earth station, radar station etc. of the departments such as radio and television, electric power, communication, oil field, water conservancy, navigation channel transport, meteorology, aviation, geology, military affairs, plays an important role in national economy and information construction.

Current waveguide aerator mostly needs to change drier (cylinder), when after waveguide aerator work a period of time, drier variable color loses desiccation, must regularly change, to ensure the drying effect of waveguide aerator to air, but, change drying time need manually to operate, and due to the humidity difference of different regional airs larger, the cycle changed also is not quite similar, and this brings great inconvenience to the actual use of waveguide aerator.How developing a kind of when without the need to dismantling drying, can realize the dehumidification treatments to drying internal desiccant, is various equivalent modifications technical problem urgently to be resolved hurrily.

Summary of the invention

The object of the invention is to overcome above-mentioned deficiency of the prior art, a kind of waveguide aerator is provided.This waveguide aerator when without the need to removing drying, can realize the dehumidification treatments to air drying agent in drying, and its structure is simple, easy to use, the operating efficiency that improves waveguide aerator, is convenient to promote the use of.

For achieving the above object, the technical solution used in the present invention is: a kind of waveguide aerator, is characterized in that: comprise intake valve, air compressor and the first drying and the first reversal valve, the second reversal valve and the 3rd reversal valve, be loaded with air drying agent in described first drying, be provided with primary heater in described first drying, one end of described first drying offers the first gas input port, and the other end of described first drying offers the first gas delivery port, described intake valve is connected with the input port of air compressor, the delivery outlet of described air compressor is connected with the first gas port P1 of the first reversal valve by the first appendix, second gas port A1 of described first reversal valve is connected with the first gas input port by the second appendix, described first gas delivery port with for carrying the 3rd appendix of dry gas to be connected, described first appendix is connected with the 4th appendix, described 4th appendix is connected with the first gas port P2 of the second reversal valve, second gas port A2 of described second reversal valve is connected with described first gas delivery port by the 5th appendix, described first gas input port is connected with the second gas port A3 of the 3rd reversal valve by the 6th appendix, 3rd gas port B3 of described 3rd reversal valve is communicated with ambient atmosphere.

Above-mentioned a kind of waveguide aerator, it is characterized in that: comprise air drying agent dehumidification control system, described air drying agent dehumidification control system comprise for detect the first drying export gas dew point humidity the first dew point transducer and for receiving the first dew point transducer output signal and to the first reversal valve, second reversal valve and the 3rd reversal valve carry out the first controller controlled, the input of described first controller connects with the first dew point transducer, the output of described first controller and the first reversal valve, second reversal valve and the 3rd reversal valve connect, the output of described first controller is connected to the first relay, one end of described first relay connects with primary heater, the other end of described first relay connects with power supply.

Above-mentioned a kind of waveguide aerator, it is characterized in that: comprise the second drying, air drying agent is loaded with in described second drying, secondary heater is provided with in described second drying, one end of described second drying offers the second gas input port, and the other end of described second drying offers the second gas delivery port; 3rd gas port B1 of described first reversal valve is connected with the second gas input port by the 7th appendix, described 3rd appendix is connected with shuttle valve, described second gas delivery port is connected with described shuttle valve by the 8th appendix, first gas port P3 of described 3rd reversal valve is connected with the 4th appendix, second gas port A3 of described 3rd reversal valve is connected with the second gas delivery port by the 9th appendix, described second gas input port is connected with the second gas port A2 of the second reversal valve by the tenth appendix, and the 3rd gas port B2 of described second reversal valve is communicated with ambient atmosphere.

Above-mentioned a kind of waveguide aerator, it is characterized in that: comprise air drying agent dehumidification control system, described air drying agent dehumidification control system comprises for detecting the first dew point transducer of the first drying output gas dew point humidity and exporting the second dew point transducer of gas dew point humidity for detecting the second drying, and for receive the first dew point transducer and the second dew point transducer output signal and to the first reversal valve, second reversal valve and the 3rd reversal valve carry out the second controller controlled, the input of described second controller connects with the first dew point transducer and the second dew point transducer, the output of described second controller and the first reversal valve, second reversal valve and the 3rd reversal valve connect, the output of described second controller is connected to the first relay and the second relay, one end of described first relay connects with primary heater, the other end of described first relay connects with power supply, one end of described second relay connects with secondary heater, the other end of described second relay connects with power supply.

Above-mentioned a kind of waveguide aerator, it is characterized in that: comprise the first temperature sensor for detecting temperature in the first drying and the second temperature sensor for detecting temperature in the second drying, described first temperature sensor and the second temperature sensor connect with the input of second controller.

Above-mentioned a kind of waveguide aerator, is characterized in that: described air drying agent is activated alumina particle.

Above-mentioned a kind of waveguide aerator, is characterized in that: described first appendix is provided with gas buffer tank.

Above-mentioned a kind of waveguide aerator, is characterized in that: described first appendix is provided with air-water separator between gas buffer tank and the first reversal valve.

Above-mentioned a kind of waveguide aerator, is characterized in that: the air inlet of described intake valve is connected with the first air cleaner, and described first appendix is provided with the second air cleaner between air compressor and gas buffer tank.

Above-mentioned a kind of waveguide aerator, it is characterized in that: described first appendix is provided with minimum pressure control valve between the second air cleaner and gas surge tank, described first appendix is connected with the 11 appendix, one end of described 11 appendix is connected with intake valve, and the other end of described 11 appendix and the tie point of the first appendix are between the second air cleaner and minimum pressure control valve.

The present invention compared with prior art has the following advantages:

1, structure of the present invention is simple, rationally novel in design, is easy to install.

2, the present invention carries out abundant drying by the air of air drying agent to input, the particular design of the first reversal valve, the second reversal valve, the 3rd reversal valve and the first drying wiring relation each other can also be passed through, achieve and dehumidification treatments is carried out to the first drying inner air drier, air drying agent is regenerated the adsorption capacity of moisture in air, avoids the first drying to disassemble and carry out independent dehumidification treatments.

3, the present invention is by arranging the first drying and the second drying two dryings, on the one hand air drying agent is regenerated to the adsorption capacity of moisture in air, avoids the first drying or the second drying to disassemble to carry out dehumidification treatments; On the other hand, the first drying and the second drying operationally, can switch mutually, a drying carries out normal dry process to air, another drying carries out dehumidification treatments, effectively ensure that this waveguide aerator can continuous firing, continual output dry air.

4, the present invention is by arranging the first temperature sensor and the second temperature sensor, can detect the temperature in the first drying and the temperature in the second drying respectively, and when heater can be avoided to heat drying on the one hand, temperature is too high, damages drying; On the other hand, primary heater can be detected in real time and whether secondary heater heats normally.

5, of the present invention to realize cost low, and result of use is good, is convenient to promote the use of.

In sum, structure of the present invention is simple, and rationally novel in design, functional reliability is high, long service life, improves the operating efficiency of waveguide aerator, is convenient to promote the use of.

Below by drawings and Examples, technical scheme of the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention 1.

Fig. 2 is the schematic block circuit diagram of air drying agent dehumidification control system in the embodiment of the present invention 1.

Fig. 3 is the structural representation of the present invention first drying and the second drying.

Fig. 4 is the structural representation of the embodiment of the present invention 2.

Fig. 5 is the schematic block circuit diagram of air drying agent dehumidification control system in the embodiment of the present invention 2.

Description of reference numerals:

Embodiment

Embodiment 1

A kind of waveguide aerator as shown in figures 1 and 3, comprises intake valve 2, air compressor 3 and the first drying 13 and is the first reversal valve 24, second reversal valve 17 and the 3rd reversal valve 20 of two position switching valves, air drying agent is loaded with in described first drying 13, primary heater 13-6 is provided with in described first drying 13, one end of described first drying 13 offers the first gas input port 13-5, and the other end of described first drying 13 offers the first gas delivery port 13-8, described intake valve 2 is connected with the input port of air compressor 3, the delivery outlet of described air compressor 3 is connected with the first gas port P1 of the first reversal valve 24 by the first appendix 9, second gas port A1 of described first reversal valve 24 is connected with the first gas input port 13-5 by the second appendix 15, described first gas delivery port 13-8 with for carrying the 3rd appendix 16 of dry gas to be connected, described first appendix 9 is connected with the 4th appendix 21, described 4th appendix 21 is connected with the first gas port P2 of the second reversal valve 17, second gas port A2 of described second reversal valve 17 is connected with described first gas delivery port 13-8 by the 5th appendix 22, described first gas input port 13-5 is connected with the second gas port A3 of the 3rd reversal valve 20 by the 6th appendix 23, 3rd gas port B3 of described 3rd reversal valve 20 is communicated with ambient atmosphere.

As shown in Figure 2, this waveguide aerator also comprises air drying agent dehumidification control system, described air drying agent dehumidification control system comprises and exports the first dew point transducer 14 of gas dew point humidity for detecting the first drying 13 and to output signal and to the first reversal valve 24 for receiving the first dew point transducer 14, second reversal valve 17 and the 3rd reversal valve 20 carry out the first controller 35 controlled, the input of described first controller 35 connects with the first dew point transducer 14, the output of described first controller 35 and the first reversal valve 24, second reversal valve 17 and the 3rd reversal valve 20 connect, the output of described first controller 35 is connected to the first relay 36, one end of described first relay 36 connects with primary heater 13-6, the other end of described first relay 36 connects with power supply 37.In the present embodiment, described primary heater 13-6 is electric heater.

As shown in Figure 1, described 3rd appendix 16 is provided with gas diverter 19 away from one end of the first drying 13.Described first appendix 9 is provided with gas buffer tank 6.Described first appendix 9 is provided with air-water separator 7 between gas buffer tank 6 and the first reversal valve 24.The air inlet of described intake valve 2 is connected with the first air cleaner 1, described first appendix 9 is provided with the second air cleaner 4 between air compressor 3 and gas buffer tank 6, by the first air cleaner 1 and the second air cleaner 4, double-filtration is carried out to the air entered in the first drying 13.

As shown in Figure 1, described first appendix 9 is provided with minimum pressure control valve 5 between the second air cleaner 4 and gas surge tank 6, described first appendix 9 is connected with the 11 appendix 32, one end of described 11 appendix 32 is connected with intake valve 2, and the other end of described 11 appendix 32 and the tie point of the first appendix 9 are between the second air cleaner 4 and minimum pressure control valve 5.In the present embodiment, described air drying agent is activated alumina particle.Described first reversal valve 24 is two position two-way valve, and described second reversal valve 17 and the 3rd reversal valve 20 are two position three way directional control valve.Described first appendix 9 is provided with the pressure sensor 10 for detecting gas pressure.

When the present embodiment uses, air is after the first air cleaner 1 filters, enter intake valve 2, and enter in air compressor 3 from intake valve 2, enter in the first appendix 9 from air compressor 3 again, and successively through the second air cleaner 4 on the first appendix 9, minimum pressure control valve 5, one-way throttle valve 8, air-water separator 7, the first gas port P1 of the first reversal valve 24 is entered after first unidirectional valve 11 and switch valve 12, air enters the first gas input port 13-5 from the second gas port A1 of the first reversal valve 24 through the second appendix 15 again, the air entered in the first drying 13 carries out drying process through activated alumina particle, air after drying process inputs to the 3rd appendix 16 through the first gas delivery port 13-8, and be delivered to gas diverter 19 through the second unidirectional valve 18, feeder system is delivered to by gas diverter 19, in use, the dewpoint humidity that the first drying 13 exports gas is detected by the first dew point transducer 14, when dewpoint humidity is higher than preset value, first controller 35 controls the first reversal valve 24 and switches to the working position that the first appendix 9 and the first gas input port 13-5 are cut off, simultaneously, first controller 35 connects power supply 37 and primary heater 13-6 by the first relay 36, primary heater 13-6 is the air drying agent heating in the first drying 13, make moisture evaporation in air drying agent out, first controller 35 controls the second reversal valve 17, the second reversal valve 17 is made to switch to its first gas port P2 and its second gas port A2 connects, first controller 35 controls the 3rd reversal valve 20, the 3rd reversal valve 20 is made to switch to its second gas port A3 and its 3rd gas port B3 connects, the air exported from the 4th appendix 21 is made to enter the first gas port P2 of the second reversal valve 17, and enter the first gas delivery port 13-8 of the first drying 13 through the 5th appendix 22 from the second gas port A2 of the second reversal valve 17, the steam evaporated after primary heater 13-6 heats in first cylindrical shell 13-1 is blown out from the first gas input port 13-5 of the first drying 13, and the second gas port A3 of the 3rd reversal valve 20 is delivered to by the 6th appendix 23, air is drained into again from the 3rd gas port B3 of the 3rd reversal valve 20.

The present embodiment carries out abundant drying by the air of air drying agent to input, and pass through the first reversal valve 24, second reversal valve 17, the particular design of the 3rd reversal valve 20 and the first drying 13 wiring relation each other, can by the first controller 35 to the first reversal valve 24, the control of the second reversal valve 17 and the 3rd reversal valve 20, achieve the normal dry processing operation of the first drying 13 pairs of air on the one hand, another reverse side can also when in the first drying 13, air drying agent adsorbs too much moisture, by heating air drying agent, make to be adsorbed on moisture evaporation on air drying agent out, and blown out from the first gas input port 13-5 by the steam that air drying agent evaporates by the air inputted from the first gas delivery port 13-8, achieve and dehumidification treatments is carried out to the first drying 13 inner air drier, air drying agent is regenerated the adsorption capacity of moisture in air, avoid the first drying 13 to disassemble and carry out independent dehumidification treatments.

Embodiment 2

As shown in Figure 3 and Figure 4, the difference of the present embodiment and embodiment 1 is only: this waveguide aerator also comprises the second drying 28, air drying agent is loaded with in described second drying 28, secondary heater 28-6 is provided with in described second drying 28, one end of described second drying 28 offers the second gas input port 28-5, and the other end of described second drying 28 offers the second gas delivery port 28-8, 3rd gas port B1 of described first reversal valve 24 is connected with the second gas input port 28-5 by the 7th appendix 31, described 3rd appendix 16 is connected with shuttle valve 25, described second gas delivery port 28-8 is connected with described shuttle valve 25 by the 8th appendix 26, first gas port P3 of described 3rd reversal valve 20 is connected with the 4th appendix 21, second gas port A3 of described 3rd reversal valve 20 is connected with the second gas delivery port 28-8 by the 9th appendix 29, described second gas input port 28-5 is connected with the second gas port A2 of the second reversal valve 17 by the tenth appendix 30, 3rd gas port B2 of described second reversal valve 17 is communicated with ambient atmosphere.In the present embodiment, described first reversal valve 24, second reversal valve 17 and the 3rd reversal valve 20 are two position three way directional control valve.

As shown in Figure 5, this waveguide aerator also comprises air drying agent dehumidification control system, described air drying agent dehumidification control system comprises and exports the first dew point transducer 14 of gas dew point humidity for detecting the first drying 13 and export the second dew point transducer 27 of gas dew point humidity for detecting the second drying 28, and to output signal and to the first reversal valve 24 for receiving the first dew point transducer 14 and the second dew point transducer 27, second reversal valve 17 and the 3rd reversal valve 20 carry out the second controller 39 controlled, the input of described second controller 39 connects with the first dew point transducer 14 and the second dew point transducer 27, the output of described second controller 39 and the first reversal valve 24, second reversal valve 17 and the 3rd reversal valve 20 connect, the output of described second controller 39 is connected to the first relay 36 and the second relay 40, one end of described first relay 36 connects with primary heater 13-6, the other end of described first relay 36 connects with power supply 37, one end of described second relay 40 connects with secondary heater 28-6, the other end of described second relay 40 connects with power supply 37.

The present embodiment in use, the dewpoint humidity that the first drying 13 exports gas is detected by the first dew point transducer 14, when dewpoint humidity is higher than preset value, second controller 39 controls the first reversal valve 24 and switches to the first gas port P1 of the first reversal valve 24 and the second gas port A1 of the first reversal valve 24 is cut off, and the first gas port P1 of the first reversal valve 24 and the 3rd gas port B1 of the first reversal valve 24 is connected, now, air enters the second drying 28 and carries out drying process, and due to the effect of shuttle valve 25, 3rd appendix 16 and the first gas delivery port 13-8 cut off, 3rd appendix 16 and the second gas delivery port 28-8 connect, simultaneously, second controller 39 connects power supply 37 and primary heater 13-6 by the first relay 36, first controller 35 controls the second reversal valve 17, the second reversal valve 17 is made to switch to its first gas port P2 and its second gas port A2 connects, first controller 35 controls the 3rd reversal valve 20, the 3rd reversal valve 20 is made to switch to its second gas port A3 and its 3rd gas port B3 connects, the air exported from the 4th appendix 21 is made to enter the first gas port P2 of the second reversal valve 17, and enter the first gas delivery port 13-8 of the first drying 13 through the 5th appendix 22 from the second gas port A2 of the second reversal valve 17, the steam evaporated after primary heater 13-6 heats in first cylindrical shell 13-1 is blown out from the first gas input port 13-5 of the first drying 13, and the second gas port A3 of the 3rd reversal valve 20 is delivered to by the 6th appendix 23, air is drained into again from the 3rd gas port B3 of the 3rd reversal valve 20, while dehumidification treatments is carried out to the air drying agent in the first drying 13, the air of the second drying 28 to input carries out normal drying operation, in like manner, the dewpoint humidity that the second drying 28 exports gas is detected by the second dew point transducer 27, when described dewpoint humidity is higher than preset value, second controller 39 controls the first reversal valve 24 and switches to the first gas port P1 of the first reversal valve 24 and the 3rd gas port B1 of the first reversal valve 24 is cut off, and the first gas port P1 of the first reversal valve 24 and the second gas port A1 of the first reversal valve 24 is connected, now, air enters the first drying 13 and carries out drying process, and due to the effect of shuttle valve 25, 3rd appendix 16 and the first gas delivery port 13-8 connect, 3rd appendix 16 and the second gas delivery port 28-8 cut off, second controller 39 connects power supply 37 and secondary heater 28-6 by the second relay 40, secondary heater 28-6 is the air drying agent heating in the second drying 28, make moisture evaporation in air drying agent out, second controller 39 controls the second reversal valve 17, the second reversal valve 17 is made to switch to its 3rd gas port B2 and its second gas port A2 connects, 3rd controller 39 controls the 3rd reversal valve 20, the 3rd reversal valve 20 is made to switch to its second gas port A3 and its first gas port P3 connects, the air exported from the 4th appendix 21 is made to enter the first gas port P3 of the 3rd reversal valve 20, and enter the first gas delivery port 28-8 of the second drying 28 through the 9th appendix 29 from the second gas port A3 of the 3rd reversal valve 20, the steam evaporated after secondary heater 28-6 heats in first cylindrical shell 28-1 is blown out from the first gas input port 13-5 of the first drying 13, and the second gas port A2 of the second reversal valve 17 is delivered to by the tenth appendix 30, air is drained into again from the 3rd gas port B2 of the second reversal valve 17.

In the present embodiment, by arranging the first drying 13 and the second drying 28, when the first drying 13 pairs of input airs carry out drying process, dehumidification treatments is carried out to the air drying agent in the second drying 28, in like manner, when the second drying 28 pairs of input airs carry out drying process, dehumidification treatments is carried out to the air drying agent in the first drying 13, on the one hand air drying agent is regenerated the adsorption capacity of moisture in air, avoid the first drying 13 or the second drying 28 to disassemble and carry out independent dehumidification treatments; On the other hand, the first drying 13 and the second drying 28 operationally, switch mutually, ensure that this waveguide aerator can continuous firing, can continual output dry air.

As shown in Figure 5, this air drying agent dehumidification control system comprises the first temperature sensor 34 for detecting temperature in the first drying 13 and the second temperature sensor 38 for detecting temperature in the second drying 28, and described first temperature sensor 34 and the second temperature sensor 38 connect with the input of second controller 39.In the present embodiment, by arranging the first temperature sensor 34 and the second temperature sensor 38, the temperature in the first drying 13 and the temperature in the second drying 28 can be detected respectively, when heater can be avoided to heat drying on the one hand, temperature is too high, damages drying; On the other hand, primary heater 13-6 can be detected in real time and whether secondary heater 28-6 heats normally.

As shown in Figure 3, described first drying 13 comprises the first cylindrical shell 13-1, air drying agent is loaded with in described first cylindrical shell 13-1, one end of described first cylindrical shell 13-1 is provided with the first cover plate 13-2, the other end of described first cylindrical shell 13-1 is provided with the second cover plate 13-9, primary heater 13-6 is provided with in described first cylindrical shell 13-1, described first cover plate 13-2 offers the first gas input port 13-5, described second cover plate 13-9 offers the first gas delivery port 13-8, described primary heater 13-6 is electric heater, one end of described primary heater 13-6 is fixedly mounted on the first cover plate 13-2, the other end of described primary heater 13-6 is connected with the first screw rod 13-7, described first screw rod 13-7 matches with the first screwed hole 13-10 on the second cover plate 13-9, described first cover plate 13-2 is provided with the second terminals 13-4 be electrically connected with primary heater 13-6.Described second drying 28 comprises the second cylindrical shell 28-1, air drying agent is loaded with in described second cylindrical shell 28-1, one end of described second cylindrical shell 28-1 is provided with the 3rd cover plate 28-2, the other end of described second cylindrical shell 28-1 is provided with the 4th cover plate 28-9, secondary heater 28-6 is provided with in described second cylindrical shell 28-1, described 3rd cover plate 28-2 offers the second gas input port 28-5, described 4th cover plate 28-9 offers the second gas delivery port 28-8, described secondary heater 28-6 is electric heater, one end of described secondary heater 28-6 is fixedly mounted on the 3rd cover plate 28-2, the other end of described secondary heater 28-6 is connected with the second screw rod 28-7, described second screw rod 28-7 matches with the second screwed hole 28-10 on the 4th cover plate 28-9, described 3rd cover plate 28-2 is provided with the 4th terminals 28-4 be electrically connected with secondary heater 28-6, because described first temperature sensor 34 is arranged on the inwall of the first cylindrical shell 13-1, described second temperature sensor 38 is arranged on the inwall of the second cylindrical shell 28-1, described first cover plate 13-2 is provided with the first terminals 13-3 connected with the first temperature sensor 34, described 3rd cover plate 28-2 is provided with the 3rd terminals 28-3 connected with the second temperature sensor 38.

The above; it is only preferred embodiment of the present invention; not the present invention is imposed any restrictions, every above embodiment is done according to the technology of the present invention essence any simple modification, change and equivalent structure transformation, all still belong in the protection range of technical solution of the present invention.

Claims (7)

1. a waveguide aerator, is characterized in that: comprise intake valve (2), air compressor (3) and the first drying (13) and the first reversal valve (24), the second reversal valve (17) and the 3rd reversal valve (20); Air drying agent is loaded with in described first drying (13), primary heater (13-6) is provided with in described first drying (13), one end of described first drying (13) offers the first gas input port (13-5), and the other end of described first drying (13) offers the first gas delivery port (13-8); described intake valve (2) is connected with the input port of air compressor (3), the delivery outlet of described air compressor (3) is connected with the first gas port P1 of the first reversal valve (24) by the first appendix (9), second gas port A1 of described first reversal valve (24) is connected with the first gas input port (13-5) by the second appendix (15), described first gas delivery port (13-8) with for carrying the 3rd appendix (16) of dry gas to be connected, described first appendix (9) is connected with the 4th appendix (21), described 4th appendix (21) is connected with the first gas port P2 of the second reversal valve (17), second gas port A2 of described second reversal valve (17) is connected with described first gas delivery port (13-8) by the 5th appendix (22), described first gas input port (13-5) is connected by the second gas port A3 of the 6th appendix (23) with the 3rd reversal valve (20), 3rd gas port B3 of described 3rd reversal valve (20) is communicated with ambient atmosphere, described first appendix (9) is provided with gas buffer tank (6), described first appendix (9) is gone up and is positioned between gas buffer tank (6) and the first reversal valve (24) and is provided with air-water separator (7), the air inlet of described intake valve (2) is connected with the first air cleaner (1), and described first appendix (9) is gone up and is positioned between air compressor (3) and gas buffer tank (6) and is provided with the second air cleaner (4).

2. a kind of waveguide aerator according to claim 1, it is characterized in that: comprise air drying agent dehumidification control system, described air drying agent dehumidification control system comprise for detect the first drying (13) export gas dew point humidity the first dew point transducer (14) and for receiving the first dew point transducer (14) output signal and to the first reversal valve (24), second reversal valve (17) and the 3rd reversal valve (20) carry out the first controller (35) controlled, the input of described first controller (35) connects with the first dew point transducer (14), the output of described first controller (35) and the first reversal valve (24), second reversal valve (17) and the 3rd reversal valve (20) connect, the output of described first controller (35) is connected to the first relay (36), one end of described first relay (36) connects with primary heater (13-6), the other end of described first relay (36) connects with power supply (37).

3. a kind of waveguide aerator according to claim 1, it is characterized in that: comprise the second drying (28), air drying agent is loaded with in described second drying (28), secondary heater (28-6) is provided with in described second drying (28), one end of described second drying (28) offers the second gas input port (28-5), and the other end of described second drying (28) offers the second gas delivery port (28-8), 3rd gas port B1 of described first reversal valve (24) is connected with the second gas input port (28-5) by the 7th appendix (31), described 3rd appendix (16) is connected with shuttle valve (25), described second gas delivery port (28-8) is connected with described shuttle valve (25) by the 8th appendix (26), first gas port P3 of described 3rd reversal valve (20) is connected with the 4th appendix (21), second gas port A3 of described 3rd reversal valve (20) is connected with the second gas delivery port (28-8) by the 9th appendix (29), described second gas input port (28-5) is connected with the second gas port A2 of the second reversal valve (17) by the tenth appendix (30), 3rd gas port B2 of described second reversal valve (17) is communicated with ambient atmosphere.

4. a kind of waveguide aerator according to claim 3, it is characterized in that: comprise air drying agent dehumidification control system, described air drying agent dehumidification control system comprises for detecting first dew point transducer (14) of the first drying (13) output gas dew point humidity and exporting second dew point transducer (27) of gas dew point humidity for detecting the second drying (28), and for receive the first dew point transducer (14) and the second dew point transducer (27) output signal and to the first reversal valve (24), second reversal valve (17) and the 3rd reversal valve (20) carry out the second controller (39) controlled, the input of described second controller (39) connects with the first dew point transducer (14) and the second dew point transducer (27), the output of described second controller (39) and the first reversal valve (24), second reversal valve (17) and the 3rd reversal valve (20) connect, the output of described second controller (39) is connected to the first relay (36) and the second relay (40), one end of described first relay (36) connects with primary heater (13-6), the other end of described first relay (36) connects with power supply (37), one end of described second relay (40) connects with secondary heater (28-6), the other end of described second relay (40) connects with power supply (37).

5. a kind of waveguide aerator according to claim 4, it is characterized in that: comprise the first temperature sensor (34) for detecting the first drying (13) interior temperature and the second temperature sensor (38) for detecting the second drying (28) interior temperature, described first temperature sensor (34) and the second temperature sensor (38) all connect with the input of second controller (39).

6. a kind of waveguide aerator according to claim 1 or 3, is characterized in that: described air drying agent is activated alumina particle.

7. a kind of waveguide aerator according to claim 1, it is characterized in that: described first appendix (9) is gone up and is positioned between the second air cleaner (4) and gas surge tank (6) and is provided with minimum pressure control valve (5), described first appendix (9) is connected with the 11 appendix (32), one end of described 11 appendix (32) is connected with intake valve (2), the described other end of the 11 appendix (32) and the tie point of the first appendix (9) are positioned between the second air cleaner (4) and minimum pressure control valve (5).