CN117006748A - Evaporative condenser for evaporative cooling air conditioner host - Google Patents

Abstract

The invention discloses an evaporative condenser for an evaporative cooling air conditioner host machine, which relates to the field of evaporative condensers and comprises a condenser shell, wherein an exhaust fan is fixedly arranged on the top side of the condenser shell, a fan is arranged in the exhaust fan, a water pump is fixedly arranged on a cooling water pipe, a plurality of transducers are fixedly arranged on two sides of a spray box, ultrasonic wave generating rods are fixedly arranged on the transducers, and the ultrasonic wave generating rods are positioned between two layers of refrigerant pipelines. According to the invention, through the arrangement of the transducer and the ultrasonic wave generating rod, the spray box forms a closed container under the cooperation of the sealing plate and the movable drainage sealing plate, proper moisture is fully stored in the spray box, ultrasonic waves are generated by the transducer and the ultrasonic wave generating rod, the auxiliary shell on the refrigerant pipeline is cleaned by utilizing the explosion tiny bubbles generated by the ultrasonic waves, the sewage is easy to discharge, the disassembly and assembly of equipment are avoided, and the daily maintenance is convenient.

Description

Evaporative condenser for evaporative cooling air conditioner host

Technical Field

The invention relates to the technical field of evaporative condensers, in particular to an evaporative condenser for an evaporative cooling air conditioner host.

Background

The evaporative condenser is a main heat exchange device in a refrigerating system, and the function principle of the evaporative condenser is as follows: the overheated high-pressure refrigerant gas discharged by the compressor in the refrigerating system passes through the condensing calandria in the evaporative condenser, so that the high-temperature gaseous refrigerant exchanges heat with spray water and air outside the calandria, and is mainly applied to factory cooling.

In the prior art, when the evaporative condenser is used, cooling is needed through flowing evaporation of water, mineral substances and soluble impurities in the water and impurities in the air are fused in the use process, the impurities can be gradually accumulated on an evaporation pipe in use, so that shells with continuously increased thickness are formed, heat conduction can be seriously influenced by the shell attachments, the heat ring ratio of equipment is influenced, cleaning of chemical substances and flushing of high-pressure water flow are mainly adopted in the tradition, but the modes are time-consuming and labor-consuming to disassemble and assemble the equipment, damage is also caused to equipment hardware, and the service life of the equipment is influenced, so that the evaporative condenser for an evaporative cooling air conditioner host is needed to meet the demands of people.

Disclosure of Invention

The invention aims to provide an evaporative condenser for an evaporative cooling air conditioner host machine, which aims to solve the problems that the traditional cleaning mode proposed in the background technology is time-consuming and labor-consuming in equipment disassembly and assembly, and meanwhile, damage is caused to equipment hardware to influence the service life of equipment.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an evaporative condenser for evaporative cooling air conditioner host computer, includes the condenser casing, condenser casing's topside fixed mounting air discharge fan installs the fan in the air discharge fan, condenser casing's bottom side fixed mounting has the base, fixed mounting has the spray box in the condenser casing, fixed mounting has the refrigerant pipeline in the spray box, the input/output interface of refrigerant pipeline is fixed mounting respectively has refrigerant output tube and refrigerant input tube, spray box's topside fixed mounting has sealed baffle, sealed baffle is connected with condenser casing topside, fixed mounting has the cooling water shunt on the sealed baffle, the output of cooling water shunt extends to in the sealed baffle and fixed mounting has the shower, the input of transducer extends to outside the condenser casing and fixed mounting has the condenser pipe, the bottom of condenser pipe extends to condenser casing bottom and fixed mounting has the filter, fixed mounting has the water pump machine on the condenser pipe, the both sides fixed mounting of spray box has a plurality of transducers, all fixed mounting has the ultrasonic wave pole on a plurality of transducers, a plurality of ultrasonic wave generation poles all are located between two-layer refrigerant pipeline.

Preferably: the bottom side of spray box fixed mounting has a plurality of closing plates, has the interval between the closing plate, and the bottom side sliding of a plurality of closing plates installs movable drainage closing plate, and the specification of movable drainage closing plate is greater than the interval between the closing plate.

Preferably: the outer wall fixed mounting of condenser casing has driving motor, rotates on the condenser casing and installs driving screw, and driving motor's output is connected with driving screw, has all offered the screw hole on the drive plate, and driving screw thread installation is at corresponding a plurality of screw holes.

Preferably: the inner wall of the condenser shell is fixedly provided with a screen plate, two sides of the screen plate are fixedly provided with side plates, a movable mounting frame is slidably arranged between the two side plates, a movable scraper is rotatably arranged on the movable mounting frame, and the bottom side of the movable scraper is contacted with the screen plate.

Preferably: two sliding grooves are formed in the side plates, rectangular sliding blocks are slidably mounted in the two sliding grooves, and the two rectangular sliding blocks are fixedly mounted at two ends of the movable mounting frame respectively.

Preferably: a plurality of movable grooves are formed in the movable scraping plate, movable blocks are rotatably arranged in the movable grooves, and the top ends of the movable blocks are fixedly arranged on the movable mounting frame.

Preferably: two mounting frames are fixedly mounted on the outer wall of the condenser shell, a rotating shaft is rotatably mounted between the two mounting frames, a control motor is fixedly mounted on one mounting frame, the output end of the control motor is connected with the rotating shaft, a driving block and a fixing block are fixedly mounted on the top sides of the screen plate and the movable mounting frame respectively, and the same traction rope is movably mounted on the rotating shaft, the driving block and the fixing block.

Preferably: the condenser is characterized in that a conveying pipeline is fixedly installed in the condenser shell, the top opening of the conveying pipeline is matched with the bottom end of the screen plate, a rotating rod is rotatably installed in the conveying pipeline, a spiral blade is fixedly installed on the rotating rod, a servo motor is fixedly installed on the outer wall of the condenser shell, the output end of the servo motor is connected with the rotating rod, a connecting pin is fixedly installed at one end, extending out of the condenser shell, of the conveying pipeline, a movable door is rotatably installed on the connecting pin, and a handle is fixedly installed on the movable door.

Preferably: an air inlet grating is arranged on the outer wall of the condenser shell, a fence is fixedly arranged in the air inlet grating, and a guide plate is fixedly arranged on part of the fence positioned at the bottom side.

Preferably: one end of an upper partition plate is fixedly arranged at the bottom side of the spray box, the other end of the upper partition plate is fixedly connected with the inner wall of the condenser shell, and a water level sensor is fixedly arranged on the inner wall of the spray box.

The beneficial effects of the invention are as follows:

according to the invention, through the arrangement of the transducer and the ultrasonic wave generating rod, the spray box forms a closed container under the cooperation of the sealing plate and the movable drainage sealing plate, proper moisture is fully stored in the spray box, ultrasonic waves are generated by the transducer and the ultrasonic wave generating rod, the auxiliary shell on the refrigerant pipeline is cleaned by utilizing the explosion tiny bubbles generated by the ultrasonic waves, the sewage is easy to discharge, the disassembly and assembly of equipment are avoided, and the daily maintenance is convenient.

According to the invention, the screen plate is arranged, so that the generated sewage is filtered by using the screen plate, the waste of water is reduced, meanwhile, the movable installation frame controls the movable scraping plate to slide on the screen plate, so that the stains on the surface are scraped, the influence of blockage of the screen plate on the filtering effect is avoided, and the effects of environmental protection and energy saving are realized.

According to the invention, the dirt filtered by the screen plate is concentrated in the conveying pipeline through the arrangement of the conveying pipeline, and the dirt can be conveyed out of the equipment through the rotating rod and the spiral blade in the conveying pipeline, so that the user can conveniently concentrate the dirt.

Drawings

Fig. 1 is a schematic perspective view of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 2 is a schematic side view of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 3 is a schematic view illustrating the structure of an interior bottom view of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 4 is a schematic structural diagram of a cross-sectional portion of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 5 is a schematic diagram illustrating the structure of an inner top view part of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

FIG. 6 is a schematic diagram of a cross-sectional deflection section of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 7 is a schematic diagram of a filtering portion of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 8 is a schematic structural diagram of a portion 700 of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 9 is a schematic diagram illustrating a bottom view of a portion 200 of an evaporative condenser for an evaporative cooling air conditioner host according to the present invention;

fig. 10 is a schematic diagram illustrating a top view of a portion 200 of an evaporative condenser for an evaporative cooling air conditioner according to the present invention.

In the figure: 100. a condenser housing; 101. an exhaust fan; 1011. a blower; 102. a base; 103. a cooling water pipe; 104. a water pump; 105. cooling water shunt; 106. a shower pipe; 107. a filter; 200. a spray box; 201. a sealing separator; 202. a refrigerant output pipe; 203. a refrigerant input pipe; 204. a refrigerant pipe; 205. a transducer; 206. an ultrasonic wave generating rod; 207. a water level sensor; 208. an upper partition plate; 300. a sealing plate; 301. a movable drainage sealing plate; 302. a driving plate; 303. a threaded hole; 304. driving a screw rod; 305. a driving motor; 400. a screen plate; 401. a side plate; 402. a flexible mounting rack; 403. a movable scraper; 404. a movable groove; 405. a movable block; 406. a chute; 407. a rectangular slide block; 500. a delivery conduit; 501. a rotating lever; 502. a helical blade; 503. a servo motor; 504. a connecting pin; 505. a movable door; 506. a handle; 600. a mounting frame; 601. a rotating shaft; 602. a driving block; 603. a fixed block; 604. controlling a motor; 605. a traction cable; 700. an air inlet grid; 701. a fence; 702. and a deflector.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-10, an evaporative condenser for an evaporative cooling air conditioner host machine comprises a condenser shell 100, wherein an exhaust fan 101 is fixedly arranged on the top side of the condenser shell 100, a fan 1011 is arranged in the exhaust fan 101, a base 102 is fixedly arranged on the bottom side of the condenser shell 100, a spray box 200 is fixedly arranged in the condenser shell 100, a refrigerant pipeline 204 is fixedly arranged in the spray box 200, a refrigerant output pipe 202 and a refrigerant input pipe 203 are respectively and fixedly arranged at input and output interfaces of the refrigerant pipeline 204, a sealing baffle 201 is fixedly arranged on the top side of the spray box 200, the sealing baffle 201 is connected with the top side of the condenser shell 100, a cooling water shunt 105 is fixedly arranged on the sealing baffle 201, the output end of the cooling water shunt 105 extends into the sealing baffle 201 and is fixedly provided with a spray pipe 106, the input end of the transducer 205 extends out of the condenser shell 100 and is fixedly provided with a cooling water pipe 103, the bottom end of the cooling water pipe 103 extends to the bottom of the condenser shell 100 and is fixedly provided with a filter 107, the cooling water pipe 103 is fixedly provided with a water pump 104, two sides of the spray box 200 are fixedly provided with a plurality of transducers 205, the transducers 205 are fixedly provided with ultrasonic wave generating rods 206, the ultrasonic wave generating rods 206 are positioned between two layers of refrigerant pipelines 204, the spray box forms a closed container under the cooperation of a sealing plate and a movable drainage sealing plate, the spray box is filled with proper moisture, ultrasonic waves are generated by the transducers and the ultrasonic wave generating rods, the auxiliary shell on the refrigerant pipeline is cleaned by explosion tiny bubbles generated by the ultrasonic waves, the sewage is easy to discharge, the disassembly and the assembly of equipment are avoided, the daily maintenance is convenient, the generated sewage is filtered by the screen plate, the waste of moisture is reduced, flexible mounting frame control activity scraper blade slides on the screen plate simultaneously, scrape the spot on surface, avoid the screen plate to produce and block up and influence the filter effect, realize environmental protection and energy saving water's effect, concentrate the spot that filters out the screen plate in pipeline, can carry out the inside of equipment with the spot through conveyer pipe inside dwang and helical blade, the centralized processing of user to the spot, when using this equipment, at first, need start the water pump 104, and then water pump income condenser casing 100 inner bottom's moisture pump cooling water pipe 103 through the water pump 104, then spray the inside at spray box 200 through cooling water flow pipe 105 and shower 106, this partial moisture can be filtered through filter 107, thereby avoid having impurity to block up cooling water pipe 103, circulate the refrigerant in the inside refrigerant pipeline 204 of spray box 200 through refrigerant output tube 202 and refrigerant input tube 203, make the moisture that shower 106 sprayed can even drench at the surface of refrigerant pipeline 204, produce the bottom-up air current on the surface of refrigerant pipeline 204 through the fan 1011, realize that the air current is in the water pump 204 surface's the fence is evaporating effect, the inside the fan is realized in the water pump casing is realized under the effect of steam evaporation and the air current flow channel's the effect is realized, the inside the cooling water pump is guaranteed to have the air current flow direction of the air flow channel 305 to be changed when the inside the air cooler is required to be cooled down at the position of the air flow channel is at the position of the air conditioner is at the place of the air conditioner, and can be cooled down at the position of the air flow filter is cooled down. The output end of the driving motor 305 drives the driving screw rod 304 to rotate, and then the rotating driving screw rod 304 drives the driving plate 302 to move through the threaded hole 303, so that the effect of controlling the movable drain sealing plate 301 to move at the bottom side of the sealing plate 300 is achieved, the space between the sealing plates 300 is sealed by the movable drain sealing plate 301, the bottom side of the spray box 200 is sealed, moisture generated by the spray pipe 106 can be concentrated at the moment, after the water level triggers the water level sensor 207, water supply is stopped, the transducer 205 and the ultrasonic wave generating rod 206 are started, ultrasonic waves are generated in the spray box 200, a large number of tiny explosion bubbles are generated in the water by the ultrasonic waves, and the stain and outer shell attached to the surface of the refrigerant pipeline 204 can be removed by utilizing the explosion bubbles.

Referring to fig. 9-10, a plurality of sealing plates 300 are fixedly mounted on the bottom side of the spray box 200, a space exists between the sealing plates 300, the effect of the movable drainage sealing plates 301 on the movable positions of the bottom sides of the sealing plates 300 is controlled, the space between the sealing plates 300 is sealed by utilizing the movable drainage sealing plates 301, the movable drainage sealing plates 301 are mounted on the bottom sides of the plurality of sealing plates 300 in a sliding manner, the specification of the movable drainage sealing plates 301 is larger than that of the space between the sealing plates 300, so that the bottom side of the spray box 200 is sealed, and at the moment, the water generated by the spray pipes 106 can be concentrated.

Referring to fig. 9, a driving motor 305 is fixedly installed on the outer wall of the condenser housing 100, a driving screw rod 304 is rotatably installed on the condenser housing 100, the output end of the driving motor 305 drives the driving screw rod 304 to rotate, the output end of the driving motor 305 is connected with the driving screw rod 304, the rotating driving screw rod 304 drives a driving plate 302 to move through a threaded hole 303, the effect of controlling the movable position of the movable drainage sealing plate 301 at the bottom side of the sealing plate 300 is achieved, threaded holes 303 are formed in the driving plate 302, and the driving screw rod 304 is installed in a plurality of corresponding threaded holes 303 in a threaded mode.

Referring to fig. 7, a screen plate 400 is fixedly mounted on the inner wall of the condenser housing 100, side plates 401 are fixedly mounted on two sides of the screen plate 400, a movable mounting frame 402 is slidably mounted between the two side plates 401, a movable scraper 403 is rotatably mounted on the movable mounting frame 402, the bottom side of the movable scraper 403 is in contact with the screen plate 400, and the movable mounting frame 402 drives the movable scraper 403 to move on the screen plate 400, so that accumulated impurities are pushed into the conveying pipeline 500.

Referring to fig. 7, two side plates 401 are provided with sliding grooves 406, two sliding grooves 406 are provided with rectangular sliding blocks 407 in a sliding manner, the two rectangular sliding blocks 407 are respectively and fixedly installed at two ends of a movable mounting frame 402, the movable mounting frame 402 is limited by the sliding grooves 406 and the rectangular sliding blocks 407, and can only move in a fixed range, and the movable mounting frame 402 drives the movable scraping plate 403 to move on the screen plate 400, so that accumulated impurities are pushed into the conveying pipeline 500.

Referring to fig. 7, the movable scraper 403 is provided with a plurality of movable grooves 404, the movable blocks 405 are rotatably mounted in the plurality of movable grooves 404, the movable scraper 403 is affected by the movable grooves 404 and the movable blocks 405 and can rotate on the movable mounting frame 402, the top ends of the plurality of movable blocks 405 are fixedly mounted on the movable mounting frame 402, and when the movable mounting frame 402 resets, the movable scraper 403 can naturally tilt to avoid carrying impurities towards the corner positions.

Referring to fig. 7, two mounting frames 600 are fixedly mounted on the outer wall of the condenser housing 100, a rotating shaft 601 is rotatably mounted between the two mounting frames 600, a control motor 604 is fixedly mounted on one mounting frame 600, the output end of the control motor 604 is connected with the rotating shaft 601, a driving block 602 and a fixing block 603 are fixedly mounted on the top sides of the screen plate 400 and the movable mounting frame 402 respectively, the same traction cable 605 is movably mounted on the rotating shaft 601, the driving block 602 and the fixing block 603, the rotating shaft 601 drives the rotating shaft 601 to rotate through the control motor 604, the traction cable 605 on the rotating shaft is movably driven, the traction cable 605 can slide in two through holes on the fixing block 603, and only one through hole can slide on the driving block 602, and one traction cable 605 drives the driving block 602 to move.

Referring to fig. 6-7, a conveying pipe 500 is fixedly installed in the condenser housing 100, a top opening of the conveying pipe 500 is adapted to the bottom end of the screen plate 400, a rotating rod 501 is rotatably installed in the conveying pipe 500, a spiral blade 502 is fixedly installed on the rotating rod 501, a servo motor 503 is fixedly installed on the outer wall of the condenser housing 100, an output end of the servo motor 503 is connected with the rotating rod 501, a connecting pin 504 is fixedly installed at one end, extending out of the condenser housing 100, of the conveying pipe 500, a movable door 505 is rotatably installed on the connecting pin 504, a handle 506 is fixedly installed on the movable door 505, impurities accumulated in the conveying pipe 500 can be discharged to the outside of the device through the rotating rod 501 and the spiral blade 502 driven by the servo motor 503, and the movable door 505 is only required to be opened through the mutual cooperation of the connecting pin 504 and the handle 506.

Referring to fig. 8, an air inlet grating 700 is provided on the outer wall of the condenser casing 100, a fence 701 is fixedly installed in the air inlet grating 700, a baffle 702 is fixedly installed on a portion of the fence 701 located at the bottom side, and the baffle 702 on the fence 701 has the function of changing the initial direction of the airflow, so that a proper airflow can pass through the center position inside the condenser casing 100.

Further, one end of an upper partition plate 208 is fixedly installed at the bottom side of the spray tank 200, the other end of the upper partition plate 208 is fixedly connected with the inner wall of the condenser housing 100, and a water level sensor 207 is fixedly installed on the inner wall of the spray tank 200, and it should be noted that the upper partition plate 208 and the sealing partition plate 201 can isolate part of the space to prevent water from moving to the outside of the limited area, so that corrosion of equipment is caused.

The working principle of the invention is as follows:

when the device is used, the water pump 104 is started, then water at the bottom in the condenser shell 100 is pumped into the cooling water pipe 103 through the water pump 104, then the water is sprayed into the spray box 200 through the cooling water diversion pipe 105 and the spray pipe 106, the water at the part is filtered through the filter 107, so that the cooling water pipe 103 is prevented from being blocked by impurities, the refrigerant is circulated in the refrigerant pipeline 204 in the spray box 200 through the refrigerant output pipe 202 and the refrigerant input pipe 203, the water sprayed by the spray pipe 106 can be uniformly sprayed on the surface of the refrigerant pipeline 204, the air flow generated by the fan 1011 in the exhaust fan 101 flows on the water on the surface of the refrigerant pipeline 204, the cooling effect of the refrigerant in the refrigerant pipeline 204 is realized under the action of water vapor evaporation, the guide plate 702 on the fence 701 has the effect of changing the initial direction of the air flow, the center position in the condenser shell 100 can be ensured to have proper air flow through, and when cleaning is required, the driving motor 305 is started. The output end of the driving motor 305 drives the driving screw rod 304 to rotate, and then the rotating driving screw rod 304 drives the driving plate 302 to move through the threaded hole 303, so that the effect of controlling the movable drain sealing plate 301 to move at the bottom side of the sealing plate 300 is achieved, the space between the sealing plates 300 is sealed by the movable drain sealing plate 301, the bottom side of the spray box 200 is sealed, moisture generated by the spray pipe 106 can be concentrated at the moment, after the water level triggers the water level sensor 207, water supply is stopped, the transducer 205 and the ultrasonic wave generating rod 206 are started, ultrasonic waves are generated in the spray box 200, a large number of tiny explosion bubbles are generated in the water by the ultrasonic waves, and the stain and outer shell attached to the surface of the refrigerant pipeline 204 can be removed by the explosion bubbles;

when cleaning is completed, the movable drainage sealing plate 301 can be reset, moisture is slowly released through the specification of the control gap, the moisture can be left on the surface of the screen plate 400 through substances, at this time, the control motor 604 is required to be started, the rotating shaft 601 is driven to rotate through the control motor 604, the rotating shaft 601 drives the traction cable 605 on the rotating shaft to move, the traction cable 605 can slide in two through holes on the fixed block 603, the driving block 602 can slide in one through hole only, one traction cable 605 drives the driving block 602 to move, the movable driving block 602 drives the movable mounting frame 402 to slide between the side plates 401, the movable mounting frame 402 is limited by the sliding grooves 406 and the rectangular sliding blocks 407, the movable mounting frame 402 can only move in a fixed range, the movable mounting frame 402 drives the movable scraping plate 403 to move on the screen plate 400, accumulated impurities are pushed into the conveying pipeline 500, the movable scraping plate 403 can rotate on the movable mounting frame 402 under the influence of the movable grooves 404 and the movable mounting frame 405, therefore when the movable mounting frame 402 is reset, the movable scraping plate 403 can naturally tilt up, the impurities can be prevented from moving towards the motor to the conveying position, the impurities carried by the movable scraping plate 402 can be driven by the movable scraping plate 403 to the movable scraping plate 403, and the impurities in the movable mounting frame 500, the movable mounting frame can be driven by the movable mounting frame 500 to the movable mounting frame 500 through the movable blade to the movable blade 500 through the movable blade, and the movable blade 501 through the driving blade and the driving device to be matched with the movable door 500 through the driving device to the driving device.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. An evaporative condenser for an evaporative cooling air conditioner host, comprising a condenser housing (100), characterized in that: the top side of the condenser shell (100) is fixedly provided with an exhaust fan (101), the exhaust fan (101) is internally provided with a fan (1011), the bottom side of the condenser shell (100) is fixedly provided with a base (102), the interior of the condenser shell (100) is fixedly provided with a spray box (200), the interior of the spray box (200) is fixedly provided with a refrigerant pipeline (204), the input and output interfaces of the refrigerant pipeline (204) are respectively fixedly provided with a refrigerant output pipe (202) and a refrigerant input pipe (203), the top side of the spray box (200) is fixedly provided with a sealing baffle plate (201), the sealing baffle plate (201) is connected with the top side of the condenser shell (100), the sealing baffle plate (201) is fixedly provided with a cooling water diversion pipe (105), the output end of the cooling water diversion pipe (105) extends into the sealing baffle plate (201) and is fixedly provided with a spray pipe (106), the input end of the transducer (205) extends out of the condenser shell (100) and is fixedly provided with a cooling water pipe (103), the bottom end of the cooling water pipe (103) extends into the bottom of the condenser shell (100) and is fixedly provided with a filter (107), the cooling water pipe (205) is fixedly provided with a plurality of transducers (206) are fixedly provided with a plurality of transducers (200), the plurality of ultrasonic wave generating rods (206) are positioned between the two layers of refrigerant pipelines (204).

2. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: a plurality of sealing plates (300) are fixedly arranged on the bottom side of the spray box (200), gaps exist among the sealing plates (300), a movable drainage sealing plate (301) is arranged on the bottom side of the sealing plates (300) in a sliding mode, and the specification of the movable drainage sealing plate (301) is larger than the gaps among the sealing plates (300).

3. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: the outer wall fixed mounting of condenser casing (100) has driving motor (305), and drive lead screw (304) are installed in the rotation on condenser casing (100), and the output of driving motor (305) is connected with drive lead screw (304), all has offered screw hole (303) on driving plate (302), and drive lead screw (304) screw thread installation is in corresponding a plurality of screw holes (303).

4. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: the condenser is characterized in that a screen plate (400) is fixedly installed on the inner wall of the condenser shell (100), side plates (401) are fixedly installed on two sides of the screen plate (400), a movable installation frame (402) is slidably installed between the two side plates (401), a movable scraper (403) is rotatably installed on the movable installation frame (402), and the bottom side of the movable scraper (403) is in contact with the screen plate (400).

5. The evaporative condenser for evaporative cooling air conditioner host machine as defined in claim 4, wherein: the two side plates (401) are provided with sliding grooves (406), rectangular sliding blocks (407) are slidably arranged in the two sliding grooves (406), and the two rectangular sliding blocks (407) are fixedly arranged at two ends of the movable mounting frame (402) respectively.

6. The evaporative condenser for evaporative cooling air conditioner host machine as defined in claim 4, wherein: a plurality of movable grooves (404) are formed in the movable scraping plate (403), movable blocks (405) are rotatably arranged in the plurality of movable grooves (404), and the top ends of the plurality of movable blocks (405) are fixedly arranged on the movable mounting frame (402).

7. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: two mounting frames (600) are fixedly mounted on the outer wall of the condenser shell (100), a rotating shaft (601) is rotatably mounted between the two mounting frames (600), a control motor (604) is fixedly mounted on one mounting frame (600), the output end of the control motor (604) is connected with the rotating shaft (601), a driving block (602) and a fixing block (603) are fixedly mounted on the top sides of the screen plate (400) and the movable mounting frame (402), and the same traction rope (605) is movably mounted on the rotating shaft (601), the driving block (602) and the fixing block (603).

8. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: the condenser is characterized in that a conveying pipeline (500) is fixedly installed in the condenser shell (100), the top opening of the conveying pipeline (500) is matched with the bottom end of the screen plate (400), a rotating rod (501) is rotatably installed in the conveying pipeline (500), a spiral blade (502) is fixedly installed on the rotating rod (501), a servo motor (503) is fixedly installed on the outer wall of the condenser shell (100), the output end of the servo motor (503) is connected with the rotating rod (501), a connecting pin (504) is fixedly installed at one end, extending out of the condenser shell (100), of the conveying pipeline (500), a movable door (505) is rotatably installed on the connecting pin (504), and a handle (506) is fixedly installed on the movable door (505).

9. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: an air inlet grid (700) is arranged on the outer wall of the condenser shell (100), a fence (701) is fixedly arranged in the air inlet grid (700), and a guide plate (702) is fixedly arranged on a part of the fence (701) positioned at the bottom side.

10. The evaporative condenser for evaporative cooling air conditioner host machine as set forth in claim 1, wherein: one end of an upper partition plate (208) is fixedly arranged on the bottom side of the spray tank (200), the other end of the upper partition plate (208) is fixedly connected with the inner wall of the condenser shell (100), and a water level sensor (207) is fixedly arranged on the inner wall of the spray tank (200).