CN116007073B - Intelligent central air conditioner for energy management - Google Patents

Abstract

The invention discloses an intelligent central air conditioner for energy management, which relates to the technical field of air conditioners and comprises a central air conditioner indoor main machine, wherein one end of a conveying pipeline is connected with an indoor extension, an installation rod is installed at the top position of the inner side of the indoor extension, an installation groove is formed at the position corresponding to a bearing on the inner side of the installation rod, a fixed rod is sleeved on the inner side of the bearing, a mute air outlet motor is installed on one side end surface of the installation rod, a rotating disc is sleeved on one end of the outer side of the bearing, an air shielding plate is installed on one side end surface of the rotating disc, two air shielding plates can rotate to an air outlet on one side of an air outlet filter screen, so that warm air is blown to the position of the air wall groove through acceleration of a speed changing plate, at the moment, the high-speed air can form an air blocking wall, people still in a room can not be affected by external cold and hot air, the temperature suitability in the room can be guaranteed, and external fresh air can be pumped into the position of the air outlet groove plate through a high-speed turbine fan, so that the oxygen content in the room is increased.

Description

Intelligent central air conditioner for energy management

Technical Field

The invention relates to the technical field of air conditioners, in particular to an intelligent central air conditioner for energy management.

Background

The central air conditioning system consists of one or more cold and heat source systems and a plurality of air conditioning systems, the system is different from the traditional refrigerant type air conditioner, air is intensively treated to meet comfort requirements, the liquid gasification refrigeration principle is adopted to provide required cold energy for the air conditioning system so as to offset the heat load of the indoor environment, the heating system provides required heat for the air conditioning system so as to offset the cold and warm load of the indoor environment, and the central air conditioning system has the characteristics of economy, high efficiency and rationality in operation, so that the central air conditioning system is gradually used for household use;

however, when the existing central air conditioner works, people cannot avoid entering and exiting the room, a large amount of cold and hot air is poured into the room, so that people are uncomfortable, and the cold and hot exchange work is required to be performed again, so that not only is the power consumption increased, but also the discomfort of users is increased, and in order to avoid the technical problems, it is necessary to provide an intelligent central air conditioner for energy management to overcome the defects in the prior art.

Disclosure of Invention

The invention provides an intelligent central air conditioner for energy management, which can effectively solve the problems that when the conventional central air conditioner provided in the background art works, people cannot enter a room, a large amount of cold and hot air can be filled into the room at the moment, so that people are uncomfortable, cold and hot exchange work is required to be carried out again, and therefore, the power consumption is increased, and the discomfort of users is increased.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intelligent central air conditioner for energy management, wherein a conveying pipeline is arranged on the back of an indoor host of the central air conditioner, and one end of the conveying pipeline is connected with an air energy-saving assembly;

the air energy-saving assembly comprises an indoor extension;

one end of the conveying pipeline is connected with an indoor extension, a bearing is embedded into the inner side end of a mounting rod on the inner side of the indoor extension, a fixing rod is sleeved on the inner side of the bearing, and an air outlet fan blade is welded at one end of the fixing rod;

a mute air outlet motor is arranged on one side end surface of the mounting rod, an air shielding plate is arranged on the outer side of the bearing through the end surface of the sleeved rotating disc, an air outlet groove is formed in the outer side of the air shielding plate, and a driven gear is arranged on one side end surface of the rotating disc;

an air inlet groove plate is arranged at one end of the inner side of the indoor extension, a high-speed turbine fan is arranged at the air outlet end of the air inlet groove plate through an air transmission pipeline, and an air outlet groove plate is arranged at the air outlet end of the high-speed turbine fan;

an air outlet filter screen is arranged on the positive end face of the indoor extension, an air deflector is arranged on the inner side of the indoor extension, and a variable speed air deflector is connected with one side end face of the air deflector;

the bottom of indoor extension has seted up the wind wall groove, infrared transmitter is installed to indoor extension's bottom, infrared transmitter bottom is provided with infrared refraction board, indoor extension's bottom and the corresponding position department of air inlet frid install the new trend baffle.

Preferably, a mounting rod is arranged at the top position of the inner side of the indoor extension set, a stabilizing block is arranged at the position of one side of the mounting rod on the inner side of the indoor extension set, and a servo motor is arranged on the inner side of the stabilizing block;

the inner side of the mounting rod is provided with a mounting groove at a position corresponding to the bearing, one end of the outer side of the bearing is sleeved with a rotating disc, and one side end face of the rotating disc is provided with a wind shielding plate;

an air outlet end of the air inlet groove plate is provided with an air conveying pipeline;

an air deflector is arranged at the position, corresponding to the air shielding plate, of the inner side of the indoor extension set, and an air wall groove is formed at the position, corresponding to the variable speed air deflector, of the bottom end of the indoor extension set;

a filter screen bottom plate is arranged at the bottom of the inner side of the indoor extension;

a servo motor is installed on the inner side of the indoor extension machine, and a driving gear is installed at the driving end of the servo motor.

Preferably, two mounting rods are arranged, the two mounting rods are symmetrically arranged at the inner side of the indoor extension machine, and the driving gear is meshed with the driven gear.

Preferably, two variable-speed air plates are arranged, the two variable-speed air plates are symmetrically arranged at the bottom positions of the air outlet fan blades, and fresh air grooves are formed in the positions, corresponding to the air inlet groove plates, of the bottom ends of the indoor extensions.

Preferably, the infrared refraction plate is arranged at the position of the top of the indoor door plate corresponding to the infrared emitter, and the input ends of the mute air outlet motor, the servo motor, the high-speed turbine fan and the infrared emitter are all connected with the output end of the internal controller.

Preferably, a synergistic component is arranged on one side of the indoor host of the central air conditioner;

the synergistic component comprises an air conditioner external cabinet, a heat dissipation cavity, an electric sliding rail, a jet pipe, an atomization nozzle, a supercharger, an air inlet pipe, an air outlet tee joint, a gas transmission hose, a water suction pump, an water outlet pipe, an air suction filter screen column, a filter barrel, a waste water pipe, an activated carbon sponge, a filter screen, a cooling water pipe, an electromagnetic valve and a branch flow pipe;

the utility model discloses a novel air conditioner, including central air conditioning indoor main machine, air conditioning indoor main machine's one side is provided with the outer cabinet machine of air conditioner, the heat dissipation chamber's inboard has been seted up the heat dissipation chamber, electronic slide rail is installed to the inboard in heat dissipation chamber, the injection pipe is installed to the removal end of electronic slide rail, atomizer is installed in the outside of injection pipe, the booster compressor is installed to the inboard top position department in heat dissipation chamber, the intake pipe is installed to the inlet end of booster compressor, the outlet duct is connected with the outlet duct, the tee bend of giving vent to anger is installed to the one end of outlet duct, the suction pump is installed to the inboard bottom position department in heat dissipation chamber, the outlet end of suction pump is connected with the outlet pipe, the outside of intake pipe has cup jointed the filter screen post of breathing in, the filter vat is installed to the bottom of air conditioning outdoor cabinet machine, the inlet end of filter vat is connected with the waste water pipe, the inboard embedding of filter vat has the active carbon sponge, the filter screen is installed to the inboard of filter vat, the outlet end of filter vat is connected with the condenser tube, the one end of filter vat is located the bottom position of filter vat and is installed the solenoid valve.

Preferably, one end of the water outlet pipe is connected with the air outlet tee joint, a plurality of atomizing nozzles are arranged, and the atomizing nozzles are equidistantly arranged at the outer side of the injection pipe.

Preferably, the air outlet end of the air delivery hose is connected with the injection pipe, and the input ends of the electric sliding rail, the water suction pump, the booster and the electromagnetic valve are electrically connected with the output end of the internal controller.

Preferably, the top end of the indoor host of the central air conditioner is provided with a mounting component;

the mounting assembly comprises a limiting plate, a limiting mounting screw hole, a limiting sleeve, a limiting slide bar, a limiting groove plate, an arc-shaped slide block, a limiting spring, a stirring piece slide groove, a positioning clamping groove, an outer wall mounting groove plate, a positioning slide block, a roller, an outer wall mounting screw hole, a positioning rod and a positioning hole;

the top of the indoor host of the central air conditioner is provided with a limiting plate, the inner side of the limiting plate is provided with a limiting installation screw hole, the bottom of the limiting plate is provided with a limiting sleeve, the inner side of the limiting sleeve is connected with a limiting slide rod in a sliding manner, the top of the indoor host of the central air conditioner is provided with a limiting groove plate, the inner side of the limiting groove plate is connected with an arc-shaped sliding block in a sliding manner, one end of the arc-shaped sliding block is welded with a limiting spring, the top of the arc-shaped sliding block is provided with a stirring sheet, the top of spacing frid corresponds position department with the stirring piece and has seted up the stirring piece spout, the location joint groove has been seted up to the bottom of arc slider, the back of air conditioner cabinet-air conditioner is provided with outer wall installation frid, the inboard sliding connection of outer wall installation frid has the location slider, the gyro wheel is installed to one side terminal surface of location slider, outer wall installation screw has been seted up to the inboard of outer wall installation frid, the locating lever is installed to one side terminal surface of location slider, the locating hole has been seted up to the inboard of locating lever.

Preferably, the idler wheels are provided with a plurality of idler wheels which are equidistantly arranged on one side end face of the positioning sliding block.

Preferably, the outer wall mounting screw holes are formed in a plurality of, and the outer wall mounting screw holes are formed in the end face of one side of the outer wall mounting groove plate at equal intervals.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the air energy-saving assembly is arranged, when people need to open the door and come in and go out of a room, the infrared emitter cannot receive light signals reflected by the infrared refraction plate, the servo motor can drive the rotating disk to rotate, at the moment, the two air shielding plates can rotate to the air outlet on one side of the air outlet filter screen, so that warm air is blown to the position of the air wall groove through the acceleration of the variable speed air plate, at the moment, the high-speed air can form an air blocking wall, people in the room can be prevented from being affected by external cold and hot air, the temperature suitability in the room is guaranteed, external fresh air is pumped into the position of the air outlet groove plate through the high-speed turbine fan, the oxygen content in the room is increased, the situation that people expect to feel uncomfortable due to oxygen deficiency in the air conditioning room is prevented, and the air can be filtered by the filter screen bottom plate when entering, so that the indoor air is fresh and clean are guaranteed, and the comfort of people in using the air conditioning is further increased.

2. The air conditioner is provided with a synergy component, mixed gas mixed with certain moisture through the air outlet pipe can enter the inner side of the jet pipe, then atomized spraying through a plurality of atomized spray heads towards the radiating fin of the air conditioner, dust and impurities on the surface of the radiating fin are washed away under high pressure, the electric sliding rail is opened, the jet pipe is driven to move on one side of the electric sliding rail, the whole radiating fin is evenly sprayed, the dust on the surface of the radiating fin is quickly and evenly removed, the radiating efficiency of the radiating fin is improved, the heating effect of the air conditioner is directly improved, the energy consumption is reduced, a large amount of distilled water generated during the working process of the air conditioner is washed towards the type of the radiating fin through the filtration of the activated carbon sponge and the washing filter screen, thereby a water source is saved, and the electromagnetic valve is opened at one end time so that redundant waste water is discharged through the branch pipe, the waste water is prevented from accumulating and damaging the air conditioner, and resources are further saved.

3. The installation component is arranged, the inner side of the shifting piece sliding groove is used for shifting the shifting piece, thereby overcoming the elasticity of the limiting spring, relieving the clamping limit of the positioning clamping groove on the limiting sliding rod, then taking out the limiting sliding rod from the inner side of the limiting groove plate, then rapidly detaching the central air conditioner indoor main unit for inspection or replacement, only needing to fix the outer wall installation groove plate on the outer wall to enter the room, then lifting the air conditioner external cabinet, inserting the positioning sliding block and the idler wheel into the inner side of the outer wall installation groove plate, then aligning the positioning hole on the positioning rod with one of the outer wall installation screw holes, installing and fixing the air conditioner external cabinet, reducing the overhead working time of an installer, further improving the installation safety and the installation efficiency.

In summary, through the change of the position of rolling disc and air shielding plate, thereby can control the different directions that make the gas blow to room inside, thereby reduce the temperature loss, reduce the operating time of air conditioner, the power saving is carried out to the step just, then carry out self-cleaning to the fin, thereby increase the heating efficiency of air conditioner, prevent that the air conditioner from lasting high power output further increases the work efficiency of air conditioner and reduce energy consumption, thereby further the energy is saved and finally comprehensive utilization is carried out the further resources of saving to air conditioner waste water, reduce air conditioner use cost, thereby the economic nature of air conditioner has been promoted to the all-round.

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 perspective view of the present invention;

FIG. 2 is a schematic view of the air energy conservation component of the present invention;

FIG. 3 is a schematic view of the mounting structure of the driven gear of the present invention;

FIG. 4 is a schematic view of the mounting structure of the suction filter screen column of the present invention;

fig. 5 is a schematic view of the mounting structure of the supercharger of the present invention;

FIG. 6 is a schematic structural view of the synergistic assembly of the present invention;

FIG. 7 is a schematic view of the construction of the mounting assembly of the present invention;

FIG. 8 is a schematic view of the mounting structure of the positioning rod of the present invention;

reference numerals in the drawings: 1. indoor host of central air conditioner; 2. a delivery conduit;

3. an air energy conservation component; 301. indoor extension; 302. a mounting rod; 303. a bearing; 304. a mounting groove; 305. a fixed rod; 306. air outlet fan blades; 307. a mute air outlet motor; 308. a rotating disc; 309. a wind shielding plate; 310. an air outlet groove; 311. a stabilizing block; 312. a servo motor; 313. a drive gear; 314. a driven gear; 315. an air inlet groove plate; 316. an air delivery pipeline; 317. a high-speed turbine fan; 318. an air outlet groove plate; 319. an air outlet filter screen; 320. an air deflector; 321. a variable speed wind plate; 322. a wind wall groove; 323. a filter screen bottom plate; 324. an infrared emitter; 325. an infrared refraction plate; 326. a fresh air guide plate;

4. a synergy component; 401. an air conditioner cabinet; 402. a heat dissipation cavity; 403. an electric slide rail; 404. a jet pipe; 405. an atomizing nozzle; 406. a supercharger; 407. an air inlet pipe; 408. an air outlet pipe; 409. a gas outlet tee joint; 410. a gas hose; 411. a water suction pump; 412. a water outlet pipe; 413. an air suction filter screen column; 414. a filter vat; 415. a waste pipe; 416. an activated carbon sponge; 417. washing a filter screen; 418. a cooling water pipe; 419. an electromagnetic valve; 420. a branch flow pipe;

5. a mounting assembly; 501. a limiting plate; 502. limiting and installing screw holes; 503. a limit sleeve; 504. a limit slide bar; 505. limiting groove plates; 506. an arc-shaped sliding block; 507. a limit spring; 508. a driving plate; 509. a shifting piece chute; 510. positioning and clamping grooves; 511. installing a groove plate on the outer wall; 512. positioning a sliding block; 513. a roller; 514. the outer wall is provided with screw holes; 515. a positioning rod; 516. and positioning holes.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-8, the invention provides a technical scheme, an intelligent central air conditioner for energy management, which comprises a central air conditioner indoor host 1, wherein a conveying pipeline 2 is arranged on the back surface of the central air conditioner indoor host 1, and one end of the conveying pipeline 2 is connected with an air energy-saving assembly 3;

the air energy saving assembly 3 comprises an indoor extension 301, a mounting rod 302, a bearing 303, a mounting groove 304, a fixing rod 305, an air outlet fan blade 306, a mute air outlet motor 307, a rotating disk 308, an air shielding plate 309, an air outlet groove 310, a stabilizing block 311, a servo motor 312, a driving gear 313, a driven gear 314, an air inlet groove plate 315, an air delivery pipeline 316, a high-speed turbine fan 317, an air outlet groove plate 318, an air outlet filter 319, an air deflector 320, a variable speed air deflector 321, an air wall groove 322, a filter screen bottom plate 323, an infrared emitter 324, an infrared refraction plate 325 and a fresh air guide plate 326;

an indoor extension 301 is connected to one end of a conveying pipeline 2, a mounting rod 302 is mounted at the top position of the inner side of the indoor extension 301, a bearing 303 is embedded into the inner side of the mounting rod 302, a mounting groove 304 is formed in the position, corresponding to the bearing 303, of the inner side of the mounting rod 302, a fixing rod 305 is sleeved on the inner side of the bearing 303, an air outlet fan blade 306 is welded at one end of the fixing rod 305, a mute air outlet motor 307 is mounted on one side end face of the mounting rod 302, a rotating disc 308 is sleeved on one end of the outer side of the bearing 303, an air shielding plate 309 is mounted on one side end face of the rotating disc 308, an air outlet groove 310 is formed in the outer side of the air shielding plate 309, a stabilizing block 311 is mounted on the inner side of the indoor extension 301, a servo motor 312 is mounted on the driving end of the servo motor 312, a driving gear 313 is mounted on one side end face of the rotating disc 308, the two mounting rods 302 are symmetrically arranged at the inner side of the indoor extension 301, the driving gear 313 is meshed with the driven gear 314, the rotating disc 308 is convenient to drive, an air inlet groove plate 315 is arranged at one end of the inner side of the indoor extension 301, an air delivery pipeline 316 is arranged at the air outlet end of the air inlet groove plate 315, a high-speed turbofan 317 is arranged at one end of the air delivery pipeline 316, an air outlet groove plate 318 is arranged at the air outlet end of the high-speed turbofan 317, an air outlet filter 319 is arranged at the positive end surface of the indoor extension 301, the air outlet filter 319 is a common sponge dustproof filter for resisting dust, an air deflector 320 is arranged at the position corresponding to the position of the inner side of the indoor extension 301 and the air shielding plate 309, one side end surface of the air deflector 320 is connected with a speed change air deflector 321, the speed change air deflector 321 is provided with two speed change air deflectors 321, the two speed change air deflector 321 are symmetrically arranged at the bottom position of the air outlet fan blade 306, fresh air grooves are formed in the positions, corresponding to the air inlet groove plates 315, of the bottom ends of the indoor extensions 301, air wall grooves 322 are formed in the positions, corresponding to the speed change air plates 321, of the bottom ends of the indoor extensions 301, filter screen bottom plates 323 are arranged at the positions, corresponding to the inner side bottoms of the indoor extensions 301, of the filter screen bottom plates 323, the filter screen bottom plates 323 are made of activated carbon sponge filter screens, after the air outlet filter screen 319 is detached, the filter screen bottom plates 323 can be detached and replaced, infrared emitters 324 are arranged at the bottom ends of the indoor extensions 301, infrared refraction plates 325 are arranged at the positions, corresponding to the infrared emitters 324, of the top of an indoor door plate, the servo motor 312 is conveniently started, fresh air guide plates 326 are arranged at the positions, corresponding to the air inlet groove plates 315, of the bottom ends of the indoor extensions 301, of the mute air outlet motor 307, the servo motor 312, the high-speed turbine fan 317 and the input ends of the infrared emitters 324 are all connected with the output ends of an internal controller.

A synergy component 4 is arranged on one side of the indoor host 1 of the central air conditioner;

the synergistic assembly 4 comprises an air conditioner cabinet 401, a heat dissipation cavity 402, an electric sliding rail 403, a spray pipe 404, an atomization nozzle 405, a booster 406, an air inlet pipe 407, an air outlet pipe 408, an air outlet tee 409, an air transmission hose 410, a water suction pump 411, an water outlet pipe 412, an air suction filter screen column 413, a filter vat 414, a waste water pipe 415, an activated carbon sponge 416, a washing filter screen 417, a cooling water pipe 418, an electromagnetic valve 419 and a tributary pipe 420;

the indoor host 1 of central air conditioning one side is provided with cabinet-out air conditioner 401, the inboard of cabinet-out air conditioner 401 has seted up heat dissipation chamber 402, electric slide rail 403 is installed to the inboard of heat dissipation chamber 402, spray pipe 404 is installed to the mobile end of electric slide rail 403, atomizer 405 is installed in the outside of spray pipe 404, booster 406 is installed in inboard top position department of heat dissipation chamber 402, intake pipe 407 is installed to the inlet end of booster 406, the outlet end of booster 406 is connected with outlet duct 408, outlet tee bend 409 is installed to the one end of outlet duct 408, air hose 410 is installed to the one end of outlet tee bend 409, the end of air hose 410 is connected with spray pipe 404, be favorable to carrying high-pressure gas, suction pump 411 is installed in the inboard bottom position department of heat dissipation chamber 402, the outlet end of suction pump 411 is connected with outlet pipe 412, the one end of outlet tee bend 409 is connected, atomizer 405 is provided with a plurality of atomizer 405 equidistance and installs in the outside position of spray pipe 404, the convenience water-gas mixture, the outside of intake pipe 407 has cup jointed air suction filter mesh 413, the bottom end 414 of outer cabinet 401 is installed in filter 414, filter cylinder 414 is connected with filter screen 414, filter screen 414 is connected with filter screen 414, the filter screen is connected with filter screen 416, the filter screen is connected with filter screen 420, the filter screen is connected with filter screen is equipped with filter tube is equipped with filter aid of filter tube.

The top end of the indoor host 1 of the central air conditioner is provided with an installation component 5;

the mounting assembly 5 comprises a limiting plate 501, a limiting mounting screw hole 502, a limiting sleeve 503, a limiting slide bar 504, a limiting groove plate 505, an arc-shaped sliding block 506, a limiting spring 507, a poking piece 508, a poking piece sliding groove 509, a positioning clamping groove 510, an outer wall mounting groove plate 511, a positioning sliding block 512, a roller 513, an outer wall mounting screw hole 514, a positioning rod 515 and a positioning hole 516;

the top of the indoor host 1 of the central air conditioner is provided with a limiting plate 501, a limiting mounting screw hole 502 is formed in the inner side of the limiting plate 501, a limiting sleeve 503 is mounted at the bottom end of the limiting plate 501, a limiting slide rod 504 is connected to the inner side of the limiting sleeve 503 in a sliding mode, a limiting groove plate 505 is mounted at the top end of the indoor host 1 of the central air conditioner, an arc-shaped slide block 506 is connected to the inner side of the limiting groove plate 505 in a sliding mode, a limiting spring 507 is welded to one end of the arc-shaped slide block 506, a stirring sheet 508 is mounted at the top end of the arc-shaped slide block 506, a stirring sheet sliding groove 509 is formed in the position of the top end of the limiting groove plate 505 corresponding to the stirring sheet 508, a positioning clamping groove 510 is formed in the bottom end of the arc-shaped slide block 506, an outer wall mounting groove plate 511 is arranged at the back of the air conditioner outer cabinet 401, a plurality of rollers 513 are arranged on the inner side of the outer wall mounting groove plate 511 in a sliding mode, a plurality of rollers 513 are mounted on one side end face of the positioning slide block 512 in an equidistant mode, the plurality of rollers 513 are mounted on one side face of the positioning slide block 512, the plurality of rollers 514 are arranged on one side face of the positioning slide block 512, the positioning screw holes 514 are conveniently pushed on the inner side of the outer wall mounting groove plate 511, a plurality of the outer wall mounting screw holes 514 are formed in the inner side of the positioning slide plate is arranged on the side of the positioning slide plate, and the positioning rod 512 is arranged on the side of the positioning rod 512, and the positioning rod is beneficial to be mounted on the inner side of the positioning rod side of the air conditioner.

The working principle and the using flow of the invention are as follows: firstly, when an air conditioner extension is used in a horizontal type room, an infrared refraction plate 325 is arranged at the position corresponding to an infrared emitter 324 on the top of a door plate, during normal refrigeration or heating, two air shielding plates 309 can block the top openings of two air guiding plates 320 on the bottom side, so that a mute air outlet motor 307 drives an air outlet fan blade 306 on one side of an installation rod 302 to rotate, the air-producing gas in the indoor extension 301 is discharged into the room through an air outlet filter screen 319, the indoor air temperature can be quickly changed at the moment, then when people need to open the door to enter and exit the room, the outside air can be quickly poured into the room, at the moment, after the infrared emitter 324 receives the light signals reflected by the infrared refraction plate 325, the servo motor 312 is controlled to rotate through a controller, at the moment, the servo motor 312 can drive a rotating disc 308 to rotate, at the moment, the two air shielding plates 309 can rotate to the air outlet on one side of the air outlet filter screen 319, the air temperature control air in the indoor extension 301 is blown to the position of the air wall groove 322 through the acceleration of the speed change air plate 321, at the moment, the high-speed air forms an air blocking wall, the indoor and outdoor air is separated, at the moment, cold and hot air outside the room can be prevented from entering the room, the condition that people in the room cannot be affected by the cold and hot air outside the room can be guaranteed, the temperature suitability in the room can be guaranteed, the room temperature is prevented from being lost too fast, the working time of the indoor extension 301 for keeping the temperature again is shortened, the energy consumption is reduced, the purpose of saving electricity is achieved, at the moment of opening the door, the high-speed turbine fan 317 starts to work, the external fresh air is pumped into the position of the air outlet groove plate 318 through the air conveying pipeline 316 and the fresh air guide plate 326, and then is conveyed into the room through the air outlet groove plate 318, thereby increasing the oxygen content in the room, preventing people from expecting oxygen deficiency in the air-conditioning room to cause uncomfortable body, and the air can be filtered by the filter screen soleplate 323 when entering, so as to ensure the fresh and clean indoor air, and further increase the comfort of people when using the air-conditioning;

then, after the air conditioner is used for a long time, a large amount of dust and sundries are accumulated on the radiator inside the air conditioner cabinet 401, the radiating efficiency is affected, the power consumption of the central air conditioner is increased, the advantages of the central air conditioner are reduced, at the moment, the booster 406 can be opened to suck external air into the air inlet pipe 407 through the filtration of the air suction filter screen column 413, then the external air enters the air outlet tee 409 through the air outlet pipe 408, at the moment, if the suction pump 411 is opened in summer, the water in the filter vat 414 is pumped out through the cooling water pipe 418, and then the air conditioner cabinet 401 is conveyed to the air outlet tee 409 through the water outlet pipe 412 for preliminary, at the moment, mixed gas mixed with a certain moisture enters the inner side of the spray pipe 404, and then the air conditioner radiating fins are sprayed through the atomization of the plurality of atomization spray heads 405, the dust and the impurities on the surfaces of the radiating fins are washed away under high pressure, and when the air conditioner is washed, the spray pipe 404 is driven to move on one side of the electric slide rail 403, the whole radiating fins are uniformly sprayed, the dust on the surfaces of the radiating fins are quickly and evenly is removed, the radiating fins on the radiating fins are directly lifted through the cooling water pipe 418, the radiating efficiency of the lifting fins is directly, the radiating effect of the air conditioner is further improved, the waste water is further reduced, and the waste water is discharged through the air conditioner cabinet air conditioner is discharged through the air conditioner cabinet 416, and the waste water is further discharged through the air conditioner, and the filter screen 416, and the waste water is further broken, and the waste water is discharged through the filter effect is discharged through the air conditioner valve, and the air conditioner is discharged through the air conditioner valve, and can be further saved by the air filter pipe after the filter pipe;

finally, when the air conditioner is damaged or needs to be replaced, when the indoor host 1 of the central air conditioner is damaged, the shifting piece 508 is shifted at the inner side of the shifting piece sliding groove 509, so that the elastic force of the limiting spring 507 is overcome, the clamping limit of the positioning clamping groove 510 to the limiting sliding rod 504 is released, then the limiting sliding rod 504 can be taken out from the inner side of the limiting groove plate 505, then the indoor host 1 of the central air conditioner can be quickly detached for inspection or replacement, and when the indoor host 1 of the central air conditioner is installed, the limiting sliding rod 504 can slide at the inner side of the limiting sleeve 503 according to the indoor height, so that the indoor installation height of the indoor host 1 of the central air conditioner can be quickly adjusted, then the indoor host 1 of the central air conditioner can be quickly installed, and when the outdoor cabinet 401 of some old communities is installed, an installer only needs to fix the outdoor cabinet 401 at the outer wall installation groove plate 511 into the indoor space, then the outdoor cabinet 401 is lifted, the positioning sliding block 512 and the roller 513 are inserted into the inner side of the outer wall installation groove plate 511, then the positioning hole 516 on the positioning rod is aligned with one of the outer wall installation screw holes 514, thus the installation efficiency of the outdoor cabinet 401 can be further improved, and the installation time of the outdoor cabinet 401 can be further fixed, and the installation efficiency can be further improved, and the installation time is further.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an intelligent central air conditioner of energy management, includes central air conditioning indoor host computer (1), its characterized in that: the back of the central air-conditioning indoor host machine (1) is provided with a conveying pipeline (2), and one end of the conveying pipeline (2) is connected with an air energy-saving assembly (3);

the air energy-saving assembly (3) comprises an indoor extension (301);

one end of the conveying pipeline (2) is connected with an indoor extension (301), a bearing (303) is embedded into the inner side end of an installation rod (302) on the inner side of the indoor extension (301), a fixing rod (305) is sleeved on the inner side of the bearing (303), and an air outlet fan blade (306) is welded at one end of the fixing rod (305);

a mute air outlet motor (307) is arranged on one side end surface of the mounting rod (302), an air shielding plate (309) is arranged on the outer side of the bearing (303) through the end surface of the sleeved rotating disc (308), an air outlet groove (310) is formed in the outer side of the air shielding plate (309), and a driven gear (314) is arranged on one side end surface of the rotating disc (308);

an air inlet groove plate (315) is arranged at one end of the inner side of the indoor extension machine (301), a high-speed turbine fan (317) is arranged at the air outlet end of the air inlet groove plate (315) through an air conveying pipeline (316), and an air outlet groove plate (318) is arranged at the air outlet end of the high-speed turbine fan (317);

an air outlet filter screen (319) is arranged on the positive end face of the indoor extension (301), an air deflector (320) is arranged on the inner side of the indoor extension (301), and a speed-changing air deflector (321) is connected with one side end face of the air deflector (320);

an air wall groove (322) is formed in the bottom end of the indoor extension (301), an infrared emitter (324) is arranged at the bottom end of the indoor extension (301), an infrared refraction plate (325) is arranged at the bottom of the infrared emitter (324), and a fresh air guide plate (326) is arranged at the position, corresponding to the air inlet groove plate (315), of the bottom end of the indoor extension (301);

a mounting rod (302) is arranged at the top position of the inner side of the indoor extension set (301), a stabilizing block (311) is arranged at the position of one side of the mounting rod (302) on the inner side of the indoor extension set (301), and a servo motor (312) is arranged on the inner side of the stabilizing block (311);

a mounting groove (304) is formed in the position, corresponding to the bearing (303), of the inner side of the mounting rod (302), a rotating disc (308) is sleeved at one end of the outer side of the bearing (303), and a wind shielding plate (309) is mounted on one side end surface of the rotating disc (308);

an air outlet end of the air inlet groove plate (315) is provided with an air delivery pipeline (316);

an air deflector (320) is arranged at the position, corresponding to the air shielding plate (309), of the inner side of the indoor extension (301), and an air wall groove (322) is formed at the position, corresponding to the speed-changing air deflector (321), of the bottom end of the indoor extension (301);

a filter screen bottom plate (323) is arranged at the bottom position of the inner side of the indoor extension (301);

a servo motor (312) is arranged on the inner side of the indoor extension machine (301), and a driving gear (313) is arranged at the transmission end of the servo motor (312);

two mounting rods (302) are arranged, the two mounting rods (302) are symmetrically arranged at the inner side of the indoor extension (301), and the driving gear (313) is meshed with the driven gear (314);

the two variable-speed air plates (321) are symmetrically arranged at the bottom positions of the air outlet fan blades (306), and fresh air grooves are formed in the positions, corresponding to the air inlet groove plates (315), of the bottom ends of the indoor extensions (301);

the infrared refraction plate (325) is installed at the position corresponding to the infrared emitter (324) at the top of the indoor door plate, and the input ends of the mute air outlet motor (307), the servo motor (312), the high-speed turbine fan (317) and the infrared emitter (324) are connected with the output end of the internal controller.

2. An intelligent central air conditioner for energy management according to claim 1, wherein: one side of the central air-conditioning indoor host machine (1) is provided with a synergy component (4);

the synergy component (4) comprises an air conditioner cabinet (401);

an air conditioner cabinet (401) is arranged on one side of an indoor host (1) of a central air conditioner, a heat dissipation cavity (402) is formed in the inner side of the air conditioner cabinet (401), an electric sliding rail (403) is arranged in the inner side of the heat dissipation cavity (402), an injection pipe (404) is arranged at the movable end of the electric sliding rail (403), an atomizing nozzle (405) is arranged on the outer side of the injection pipe (404), a supercharger (406) is arranged at the position of the inner side top of the heat dissipation cavity (402), an air inlet pipe (407) is arranged at the air inlet end of the supercharger (406), an air outlet pipe (408) is connected with the air outlet end of the supercharger (406), an air outlet tee joint (409) is arranged at one end of the air outlet pipe (408), an air suction pump (411) is arranged at the position of the inner side bottom of the heat dissipation cavity (402), an air outlet end of the water suction pump (411) is connected with an outlet pipe (412), an air suction filter screen column (413) is sleeved on the outer side of the air inlet pipe (407), a filter drum (414) is connected with an active carbon filter drum (416), a filter drum (416) is connected with the active carbon filter drum (416), the filter screen (417) is installed to the inboard of filter vat (414), the play water end of filter vat (414) is connected with condenser tube (418), solenoid valve (419) are installed to the one end bottom position department of filter vat (414), the play water end of solenoid valve (419) is connected with tributary pipe (420).

3. An intelligent central air conditioner for energy management according to claim 2, wherein: one end of the water outlet pipe (412) is connected with the air outlet tee joint (409), a plurality of atomizing nozzles (405) are arranged, and the atomizing nozzles (405) are equidistantly arranged at the outer side position of the injection pipe (404).

4. An intelligent central air conditioner for energy management according to claim 2, wherein: the air outlet end of the air hose (410) is connected with the injection pipe (404), and the input ends of the electric sliding rail (403), the water suction pump (411), the booster (406) and the electromagnetic valve (419) are electrically connected with the output end of the internal controller.

5. An intelligent central air conditioner for energy management according to claim 2, wherein: the top end of the central air-conditioning indoor host machine (1) is provided with a mounting component (5);

the mounting assembly (5) comprises a limiting plate (501);

limiting plates (501) are arranged at the top ends of indoor main units (1) of central air conditioners, limiting installation screw holes (502) are formed in the inner sides of the limiting plates (501), limiting sleeves (503) are arranged at the bottom ends of the limiting plates (501), limiting slide rods (504) are connected with the inner sides of the limiting sleeves (503) in a sliding mode, limiting groove plates (505) are arranged at the top ends of the indoor main units (1) of the central air conditioners, arc-shaped sliding blocks (506) are connected with the inner sides of the limiting groove plates (505) in a sliding mode, limiting springs (507) are welded at one ends of the arc-shaped sliding blocks (506), poking plates (508) are arranged at the top ends of the arc-shaped sliding blocks (506), poking plate sliding grooves (509) are formed in the positions, corresponding to the poking plates (508), positioning clamping grooves (510) are formed in the bottom ends of the arc-shaped sliding blocks (506), positioning sliding blocks (512) are arranged on the back portions of outer cabinet machines (401), positioning sliding blocks (512) are connected with the inner sides of the outer wall installation groove plates (511), one side end faces of the positioning sliding blocks (512), one side of each positioning sliding block (512) is provided with a poking plate (508), a positioning hole (516) is formed in the inner side of the positioning rod (515).

6. An intelligent central air conditioner for energy management according to claim 5, wherein: the rollers (513) are arranged in a plurality, and the rollers (513) are equidistantly arranged on one side end face of the positioning sliding block (512).

7. An intelligent central air conditioner for energy management according to claim 5, wherein: the outer wall mounting screw holes (514) are formed in a plurality of, and the outer wall mounting screw holes (514) are formed in the end face of one side of the outer wall mounting groove plate (511) at equal intervals.

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