CN115111644A

CN115111644A - Constant-temperature and constant-humidity air conditioner energy-saving system and method

Info

Publication number: CN115111644A
Application number: CN202210548323.9A
Authority: CN
Inventors: 张高辉
Original assignee: Guangdong Nuoxin Air Conditioning Co ltd
Current assignee: Guangdong Nuoxin Air Conditioning Co ltd
Priority date: 2022-05-19
Filing date: 2022-05-19
Publication date: 2022-09-27
Anticipated expiration: 2042-05-19
Also published as: CN115111644B

Abstract

The invention discloses a constant temperature and humidity air-conditioning energy-saving system and method, which comprises an air-conditioning main body and an air outlet main body at the top of the air-conditioning main body, wherein three identical fan-shaped grids are arranged on four outer walls of the air outlet main body, a main output air channel communicated with each fan-shaped grid is arranged inside the air outlet main body, a third notch communicated with the main output air channel is arranged on the inner wall of the air outlet main body, the third notch comprises three channels arranged at equal intervals, four mounting cylinders are fixedly connected inside the air outlet main body, second through grooves corresponding to the third notches in a one-to-one correspondence mode are arranged on the mounting cylinders, rotatable rotary cylinders are arranged inside the mounting cylinders, the constant temperature and humidity air-conditioning energy-saving system also comprises air pipe mechanisms for supplying air to the inside of the rotary cylinders, the invention can independently change the use state of the air outlet assembly on each surface, can save energy and reduce consumption, meanwhile, the industrial air conditioner is not limited by the use environment any more, and the environment of workers is not sacrificed to ensure the normal use of the machine.

Description

Constant-temperature and constant-humidity air conditioner energy-saving system and method

Technical Field

The invention relates to the technical field of industrial air conditioners, in particular to a constant-temperature constant-humidity air conditioner energy-saving system and method.

Background

The design of the industrial air conditioner aims at guaranteeing the process requirements, provides constant-temperature and constant-humidity industrial equipment for industrial manufacturing and production, and has larger power consumption.

The air outlet of the industrial air conditioner is fixed when being installed in a factory, but the air outlet of the industrial air conditioner is generally single-sided output, the air outlet range of the industrial air conditioner cannot be changed when the industrial air conditioner is output, even direct-blowing workers or sensitive machines are blown out, the working environment of the workers is sacrificed to guarantee the normal operation of the machines, and the health work of the workers is threatened.

Disclosure of Invention

The invention aims to provide a constant-temperature and constant-humidity air conditioner energy-saving system and method, which can independently change the use state of an air outlet assembly on each surface, have the advantages of saving energy, reducing consumption, and simultaneously enable an industrial air conditioner not to be limited by the use environment any more.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a constant temperature and humidity air conditioner economizer system, includes the air-out main part at air conditioner main part and top, three fan-shaped grid that equates is all installed to four outer walls of air-out main part, the main output wind channel that is linked together with every fan-shaped grid is seted up to the inside of air-out main part, the third notch with main output wind channel intercommunication is seted up to the inner wall of air-out main part, the third notch includes the passageway that three equidistant setting, four installation sections of thick bamboo of inside fixedly connected with of air-out main part, all set up on the installation section of thick bamboo and lead to the groove with the second of third notch one-to-one, the inside of installation section of thick bamboo all is provided with rotatable rotary drum.

The constant-temperature and constant-humidity air-conditioning energy-saving system also comprises an air pipe mechanism for supplying air to the interior of the rotary drum and a selection mechanism arranged on the rotary drum.

The selection mechanism has three communication states, wherein in the first state, the selection mechanism selects any one of the three channels to communicate; in a second state, the selection mechanism is communicated with two adjacent channels on the second through groove; in a third state, the selection mechanism is communicated with the second through groove.

Preferably, the outer wall of the rotating cylinder is trisected, wherein a single-groove output port, a double-groove output port and a triple-groove output port are respectively arranged in the middle of the trisected outer wall of the rotating cylinder, the single-groove output port can be communicated with any one of three channels, the trisected outer wall of the rotating cylinder can seal the other two channels, the double-groove output port is communicated with any two adjacent channels, the trisected outer wall of the rotating cylinder can seal the rest channels, and the trisected output ports can be communicated with the three channels of the third notch in a one-to-one correspondence manner.

Preferably, the air pipe mechanism comprises first air pipes extending and communicating from the middle to four mounting cylinders, the bottom of the rotary drum is fixedly communicated with air ducts, the outer wall of the air duct is provided with three air supply notches in a circumferential array, the outer wall of the mounting cylinder located on the periphery of the air duct is provided with a first through groove communicated with the first air pipes, when any one of the single-groove output port, the double-groove output port and the triple-groove output port is communicated with the main output air duct, the air supply notches, the first through groove and the first air pipes are communicated, and the air duct can seal the first through groove to stop supplying air to the rotary drum.

Preferably, rotatable pivot has all been run through to the interior bottom of installation section of thick bamboo, the bottom fixed connection of pivot top and dryer, still install between air-out main part and the air conditioner main part and press from both sides the case, press from both sides the incasement and be provided with the servo motor that the drive pivot rotated arbitrary angle, just the bottom intercommunication of first tuber pipe has the intake pipe, the intake pipe is located the inside of pressing from both sides the case.

Preferably, the top of air-out main part is installed the installation lid, the top activity output of installation lid has spherical spout, the top closing cap of first tuber pipe has sealed apron, set up the square groove with the inside and the inside intercommunication of spherical spout of first tuber pipe on the sealed apron.

Preferably, heat insulation materials are filled between the first air pipe and the air outlet main body, and an air filter core is arranged inside the air duct.

Preferably, the distance between the main output air duct and the inner wall of the air outlet main body is less than five centimeters, two first branch air ducts communicated with the third notch are formed in the air outlet main body, the two first branch air ducts are respectively communicated with the main output air ducts on two sides, the air outlet main body further comprises a second branch air duct communicated with the main output air duct, and the second branch air duct is communicated with the third notch.

Preferably, the output angle formed by three channels in the third slot is forty degrees, and the angle between every two adjacent channels is twenty degrees.

Preferably, the channel, the single-groove output port, the double-groove output port and the triple-groove output port in the third groove opening are all designed into fan-shaped groove openings.

A control method of a constant temperature and humidity air-conditioning energy-saving system comprises the following steps: the method comprises the following steps: starting a main machine in the air conditioner main body and operating the air conditioner;

step two: the air outlet of the three main output air channels in each surface is independently controlled according to the selection;

starting a servo motor of the corresponding surface to control the corresponding rotary drum and the corresponding air duct to rotate, and enabling the selection mechanism to work independently to finish air outlet distribution;

wherein, the distribution mode of air-out has three: the first distribution mode is that a single-groove output port corresponds to an air outlet for ventilation; the second distribution mode is that the double-groove output port is corresponding to two optional adjacent air outlets for ventilation; the third distribution mode is that the three-slot outlet is opened fully corresponding to the three outlets, wherein the communication degree of the three outlets can be adjusted.

Compared with the prior art, the invention has the beneficial effects that at least:

the four installation cylinders respectively correspond to the four surfaces, the number of the selection mechanisms in the installation cylinders is four, and the selection mechanisms can independently control the output of each surface, so that the air outlet assembly required by the actual use of the surface can be selected through the selection mechanisms, the energy consumption of the industrial air conditioner can be further controlled, and secondly, the use scenes of the industrial air conditioner can be increased according to the selection of one surface, so that the industrial air conditioner is not limited by the use environment, the working environments of a machine and a worker can be guaranteed, and the normal use of the machine can be guaranteed without sacrificing the environment of the worker.

In the invention, the rotating drum rotates, so that the single-groove output port, the double-groove output port and the three-groove output port can be respectively in butt joint communication with the third groove opening, and a communication air channel can be formed among the interior of the rotating drum, the third groove opening and the main output air channel.

Drawings

FIG. 1 is a schematic diagram of the external structure of the constant temperature and humidity air conditioning energy saving system of the present invention;

FIG. 2 is a schematic right side view of the FIG. 1 assembly of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic isometric view of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the structure of the air outlet main body of the present invention;

FIG. 6 is a schematic structural view of a cross section of the air outlet main body according to the present invention;

FIG. 7 is a schematic view of an alternative mechanism of the present invention;

FIG. 8 is a schematic view of the construction of the first air duct and selection mechanism of the present invention;

FIG. 9 is a schematic structural view of the thermal insulation material of the present invention;

FIG. 10 is a schematic structural diagram of a protective shell sleeved on the constant temperature and humidity air conditioning energy saving system of the invention;

fig. 11 is an exploded view of the air conditioner main body and the protective shell according to the present invention.

In the figure: 1. an air conditioner main body; 2. an air outlet main body; 3. a sector-shaped grid; 4. installing a cover; 5. a spherical spout; 6. clamping the box; 7. mounting the cylinder; 8. a rotating drum; 9. an air duct; 10. a square groove; 11. a first through groove; 12. a servo motor; 13. an air inlet pipe; 14. a first air duct; 15. a second through groove; 16. an air supply slot opening; 17. a single slot outlet; 18. a double-groove output port; 19. a three-slot output port; 20. sealing the cover plate; 21. a thermal insulation material; 22. a third notch; 23. a main output air duct; 24. a first branch air duct; 25. a second branch air duct; 26. a protective shell; 27. a louver air opening.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides a constant temperature and humidity air conditioner economizer system, air-out main part 2 including air conditioner main part 1 and top, three fan-shaped grid 3 that equate is all installed to four outer walls of air-out main part 2, main output wind channel 23 that is linked together with every fan-shaped grid 3 is seted up to the inside of air-out main part 2, third notch 22 with main output wind channel 23 intercommunication is seted up to the inner wall of air-out main part 2, third notch 22 includes the passageway that three equidistant set up, four installation section of thick bamboos 7 of inside fixedly connected with of air-out main part 2, all set up the second through-channel 15 with third notch 22 one-to-one on the installation section of thick bamboo 7, the inside of installation section of thick bamboo 7 all is provided with rotatable rotary drum 8.

In a preferred embodiment, the energy-saving system for the constant temperature and humidity air conditioner further comprises an air pipe mechanism for supplying air to the interior of the rotating drum 8, and a selection mechanism arranged on the rotating drum 8;

preferably, the selection mechanism has three communication states, wherein in the first state, the selection mechanism selects any one of the three channels to communicate; in the second state, the selection mechanism is communicated with two adjacent channels on the second through groove 15; in the third state, the selection mechanism is in communication with all of the second through grooves 15.

In a specific embodiment, the fan-shaped grille 3 and the main output air duct 23 can constitute an air outlet assembly, the main output air duct 23 is used for absorbing the transmitted air volume, the fan-shaped grille 3 is used for diffusing and outputting the air volume, the fan-shaped grille 3 can be applied to any air outlet grille or shutter air outlet on the market, only the grille is shown in the figure, and the inside of the air outlet main body 2 is also provided with a third slot 22 for controlling the air volume output into the main output air duct 23.

In practical application, in order to better protect the air conditioner main body 1, the constant temperature and humidity air conditioner energy saving system further comprises a protective shell 26, the air conditioner main body 1 is sleeved in the protective shell 26, four openable and closable louver openings 27 are arranged at the top of the protective shell 26, and the four louver openings 27 correspond to the fan-shaped grids 3 on four sides, as shown in fig. 10-11.

In the use of industrial air conditioners, the multi-surface output air volume is a good way, but the multi-surface output mode in the prior art has the problems of large output range, serious energy consumption and the like, for example, when the multi-surface output mode is installed at corners, near walls and other positions, the output direction and the output angle need to be adjusted and changed, or in actual installation, the output air volume and the output angle of a certain surface need to be closed and adjusted under the influence of sites or industrial equipment so as to protect machines or workers, or the multi-surface output air volume and the output angle need to be used in an energy-saving manner, thereby reducing consumption and protecting the environment.

As shown in fig. 7, four mounting cylinders 7 correspond to four surfaces, and the number of selection mechanisms in the mounting cylinders 7 is also four, so that the selection mechanisms can independently control communication with the second through grooves 15, and the second through grooves 15 communicate with the third notches 22 in a one-to-one correspondence, and therefore, the selection mechanisms can select communication with the third notches 22.

In the scheme of the invention, the air outlet assembly required by the actual use of the industrial air conditioner can be selected through the selection mechanism, so that the energy consumption of the industrial air conditioner can be further controlled, and then, the use scenes of the industrial air conditioner can be increased according to the selection of one side, so that the industrial air conditioner is not limited by the use environment any more, the working environments of a machine and workers can be guaranteed, and the normal use of the machine is not guaranteed by sacrificing the environment of the workers.

As shown in fig. 5 and 6, the outer wall of the air outlet main body 2 is arc-shaped, so that the air outlet assembly can form diffusion output, thereby increasing the radiation area.

In the scheme of the invention, the air pipe mechanism has three states:

in the first state, the air pipe mechanism is communicated with any one of the three channels through the selection mechanism, so that the output of a single air port is realized:

in the second state, the air pipe mechanism is communicated with any two adjacent channels in the three channels through the selection mechanism, so that the output of the double air ports and the adjustment of the output range are realized:

in the third state, the air pipe mechanism is communicated with the three channels through the selection mechanism, so that full output is realized.

In one preferred embodiment, the outer wall of the rotating cylinder 8 is divided into three parts, wherein a single groove output port 17, a double groove output port 18 and a triple groove output port 19 are respectively arranged in the middle of the three parts of the outer wall of the rotating cylinder 8, the single groove output port 17 can select any one of three channels to be communicated, the other two channels can be sealed by the divided outer wall of the rotating cylinder 8, the double groove output port 18 is communicated with any two adjacent channels, the remaining channels can be sealed by the divided outer wall of the rotating cylinder 8, and the triple groove output port 19 can be correspondingly connected with the three channels of the third groove 22 one by one.

The working principle of the selection mechanism is as follows: the rotary drum 8 rotates, can make single groove delivery outlet 17, double flute delivery outlet 18 and triple flute delivery outlet 19 dock the intercommunication with third notch 22 respectively for 8 inside rotary drums, can form the intercommunication wind channel between third notch 22 and the main output wind channel 23, its difference is, the wind channel of this intercommunication can be selected and switch, can close three passageway according to the demand, perhaps close two arbitrary passageways wherein, feasible air-out subassembly that can select the output according to the demand.

Firstly, through setting up single groove delivery outlet 17, when rotary drum 8 rotated, single groove delivery outlet 17 can communicate with any one passageway in the three passageway, wherein, when communicateing single passageway, can adjust the size of flux according to rotary drum 8's rotation, and then can adjust this air-out subassembly's air output and speed.

Secondly, by providing the double-groove output port 18, two adjacent channels can be communicated, thereby increasing the output range.

Secondly, through setting up trislot delivery outlet 19, can make air-out subassembly all open the use.

In a preferred embodiment, the air duct mechanism includes a first air duct 14 extending and communicating from the middle to the four mounting cylinders 7, the bottom of the rotary drum 8 is fixedly communicated with an air duct 9, the outer wall of the air duct 9 is provided with three air supply notches 16 in a circumferential array, the outer wall of the mounting cylinder 7 located at the periphery of the air duct 9 is provided with a first through groove 11 communicating with the first air duct 14, when any one of the single-groove outlet 17, the double-groove outlet 18 and the three-groove outlet 19 is communicated with the main output air duct 23, the air supply notch 16, the first through groove 11 and the first air duct 14 form communication, and the air duct 9 can seal the first through groove 11 to stop supplying air to the rotary drum 8.

As shown in fig. 3, 7 and 8, the rotating cylinder 8 and the air duct 9 can be integrally formed, the bottom of the rotating cylinder 8 is communicated with the top of the air duct 9, when the rotating cylinder 8 and the air duct 9 are rotated, the selection mechanism performs selection switching, and after the output mode is changed, one of the air supply notches 16 is necessarily communicated with the first through groove 11, so that the installation cylinder 7, the first through groove 11, the air supply notch 16 and the air duct 9 are communicated, and thus the air supply to the rotating cylinder 8 can be formed.

In this embodiment, the arrangement of the air ducts 9 and the arrangement of the single-slot output port 17, the double-slot output port 18 and the triple-slot output port 19 are alternately arranged, and one of the air ducts 9 and the single-slot output port 17, the double-slot output port 18 or the triple-slot output port 19 can be in correspondence.

Further, the rotatable rotating shaft penetrates through the inner bottom of the installation barrel 7, the top end of the rotating shaft is fixedly connected with the bottom of the air barrel 9, the clamping box 6 is further installed between the air outlet main body 2 and the air conditioner main body 1, the servo motor 12 for driving the rotating shaft to rotate at any angle is arranged in the clamping box 6, the bottom of the first air pipe 14 is communicated with the air inlet pipe 13, and the air inlet pipe 13 is located inside the clamping box 6.

As shown in fig. 3 and 7, the inside of the clamping box 6 is installed by the servo motor 12, the rotating shaft is driven by the servo motor 12 to rotate by a preset angle, and the rotating shaft can drive the rotating drum 8 and the air duct 9 to rotate due to the fixed connection between the rotating drum 8 and the air duct 9, so that the first air duct 14 can supply air to the rotating drum 8, the rotating drum 8 is communicated with the main output air duct 23, and integral air supply and output are formed.

As one preferred embodiment, the top of the air outlet main body 2 is provided with an installation cover 4, the top of the installation cover 4 is movably output with a spherical spout 5, the top of the first air pipe 14 is covered with a sealing cover plate 20, and the sealing cover plate 20 is provided with a square groove 10 communicated with the inside of the first air pipe 14 and the inside of the spherical spout 5.

This is an embodiment of the top part, and as shown in fig. 1, the top spherical nozzle 5 can output air upward in a conical manner, and the spherical nozzle 5 is an existing component, and can be switched at any angle, so that a special industrial demand scene can be satisfied.

Second, a second embodiment is provided:

the top air duct can be arranged at the tops of the four mounting cylinders 7, and the air outlet is arranged at the top of each mounting cylinder 7, so that the air outlets of the matrix array can be formed at the tops of the four mounting cylinders 7, and the mode can stop the use of the corresponding air outlets by closing the air supply of one mounting cylinder 7.

Further, all pack between first tuber pipe 14 and the air-out main part 2 has insulation material 21, and the internally mounted of dryer 9 has the filtration core.

Preferably, through filling insulation material 21, can reduce the intercommunication consumption of the inside cold volume of first tuber pipe 14, the energy saving, secondly, filter the core and can guarantee that the amount of wind that dryer 9 inputed to rotary drum 8 has higher cleanliness factor, can guarantee that it inputs to the work occasion, insulation material 21 can be heat preservation cotton or heat preservation foam.

Further, the distance between the main output air duct 23 and the inner wall of the air outlet main body 2 is less than five centimeters, two first branch air ducts 24 communicated with the third notch 22 are formed in the air outlet main body 2, the two first branch air ducts 24 are respectively communicated with the main output air ducts 23 located on two sides, the air outlet main body 2 further comprises a second branch air duct 25 communicated with the main output air duct 23, and the second branch air duct 25 is communicated with the third notch 22.

First branch road wind channel 24 can set up more gently, and the distance between main output wind channel 23 and the air-out main part 2 is less than the distance that five centimetres can transmit, and the consumption of less cold energy improves the efficiency of refrigeration and transmission, and is energy-concerving and environment-protective, and secondly, the cooperation of first branch road wind channel 24 and second branch road wind channel 25 can form the independent intercommunication between main output wind channel 23 and the third notch 22.

Further, the output angle formed by three channels in the third slot 22 is forty degrees, the angle between every two adjacent channels is twenty degrees, and since the outer wall of the rotating drum 8 is trisected, the single slot output port 17, the double slot output port 18 and the triple slot output port 19 are all equivalently located in the range of one hundred twenty degrees, so that the third slot 22 is located in one third of the trisection, the single slot output port 17 and the double slot output port 18 can be adjusted arbitrarily, and mutual interference among the single slot output port 17, the double slot output port 18 and the triple slot output port 19 cannot be formed.

Further, the channels in the third slot 22, the single slot outlet 17, the double slot outlet 18 and the triple slot outlet 19 are all of fan-shaped slot designs.

The embodiment of the invention also provides a control method of the constant temperature and humidity air conditioning energy-saving system, which comprises the following steps:

the method comprises the following steps: the main unit in the air conditioner main body 1 is started to operate the air conditioner.

Step two: the air outlet of the three main output air channels 23 in each surface is independently controlled according to the selection;

and starting the servo motor 12 of the corresponding surface, controlling the corresponding rotary drum 8 and the corresponding air duct 9 to rotate, and finishing air distribution by independently working the selection mechanism.

The distribution mode of the outlet air is three, and the first distribution mode is that a single-groove outlet 17 corresponds to an air outlet for ventilation; the second distribution mode is that the double-groove outlet 18 is corresponding to two optional adjacent air outlets for ventilation; the third distribution mode is that the three-slot outlet 19 is fully opened corresponding to the three outlets, wherein the communication degree of the three outlets can be adjusted according to the requirement.

In the use method, the air outlet state of each side can be independently controlled, and each side has multiple optional adjusting modes, so that each side can adapt to different use scenes, and the use defects of the existing industrial air conditioner are changed.

In conclusion, the invention can independently change the use state of the air outlet component on each surface, save energy and reduce consumption, and simultaneously ensure that the industrial air conditioner is not limited by the use environment any more and the environment of workers is not sacrificed to ensure the normal use of the machine.

The standard parts used in the present embodiment may be purchased directly from the market, and the non-standard structural components described in the specification and drawings may be obtained by processing only based on the conventional technical common knowledge without any doubt, and the connection mode of the respective parts adopts the conventional means developed in the prior art, and the machines, parts and devices adopt the conventional models in the prior art, so that detailed description is not given here.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a constant temperature and humidity air conditioner economizer system, includes air conditioner main part (1) and air-out main part (2) at top, its characterized in that: the four outer walls of the air outlet main body (2) are respectively provided with three identical fan-shaped grids (3), a main output air duct (23) communicated with each fan-shaped grid (3) is formed in the air outlet main body (2), a third notch (22) communicated with the main output air duct (23) is formed in the inner wall of the air outlet main body (2), the third notches (22) comprise three channels arranged at equal intervals, four mounting cylinders (7) are fixedly connected to the inner part of the air outlet main body (2), the mounting cylinders (7) are respectively provided with second through grooves (15) corresponding to the third notches (22) in a one-to-one mode, and rotatable rotary cylinders (8) are arranged in the mounting cylinders (7);

the constant-temperature and constant-humidity air-conditioning energy-saving system also comprises an air pipe mechanism for supplying air to the interior of the rotary drum (8) and a selection mechanism arranged on the rotary drum (8);

the selection mechanism has three communication states, wherein in the first state, the selection mechanism selects any one of the three channels to communicate; in a second state, the selection mechanism is communicated with two adjacent channels on the second through groove (15); in a third state, the selection mechanism is communicated with the second through groove (15) completely.

2. The constant temperature and humidity air conditioning energy saving system of claim 1, characterized in that: the outer wall of the rotary drum (8) is trisected, wherein a single-groove output port (17), a double-groove output port (18) and a triple-groove output port (19) are formed in the middle of the trisected outer wall of the rotary drum (8), the single-groove output port (17) can be communicated with any one of three channels, the other two channels can be sealed by the trisected outer wall of the rotary drum (8), the double-groove output port (18) is communicated with any two adjacent channels, the remaining channels can be sealed by the trisected outer wall of the rotary drum (8), and the triple-groove output port (19) can be communicated with the three channels of the third notch (22) in a one-to-one correspondence mode.

3. The constant temperature and humidity air conditioning energy saving system of claim 2, characterized in that: the air pipe mechanism comprises first air pipes (14) which extend and communicate from the middle to four mounting cylinders (7), air ducts (9) are fixedly communicated with the bottoms of the rotary drums (8), the outer walls of the air ducts (9) are circumferentially arrayed and provided with three air supply notches (16), the outer walls of the mounting cylinders (7) which are located on the periphery of the air ducts (9) are provided with first through grooves (11) communicated with the first air pipes (14), when any one of the single-groove output port (17), the double-groove output port (18) and the three-groove output port (19) is communicated with a main output air duct (23), the air supply notches (16), the first through grooves (11) and the first air pipes (14) are communicated, and the air ducts (9) can seal the first through grooves (11) to stop supplying air to the rotary drums (8).

4. The constant-temperature and constant-humidity air-conditioning energy-saving system according to claim 3, characterized in that: rotatable pivot has all been run through to the interior bottom of installation section of thick bamboo (7), the bottom fixed connection of pivot top and dryer (9), still install between air-out main part (2) and air conditioner main part (1) and press from both sides case (6), be provided with servo motor (12) that the drive pivot rotated arbitrary angle in pressing from both sides case (6), just the bottom intercommunication of first tuber pipe (14) has intake pipe (13), intake pipe (13) are located the inside of pressing from both sides case (6).

5. The constant temperature and humidity air conditioning energy saving system of claim 3, characterized in that: installation lid (4) are installed at the top of air-out main part (2), the top activity output of installation lid (4) has spherical spout (5), the top closing cap of first tuber pipe (14) has sealed apron (20), set up square groove (10) with the inside and the inside intercommunication of spherical spout (5) of first tuber pipe (14) on sealed apron (20).

6. The constant temperature and humidity air conditioning energy saving system of claim 3, characterized in that: all pack between first tuber pipe (14) and air-out main part (2) has insulation material (21), the internally mounted of dryer (9) has the filtration core of air.

7. The constant temperature and humidity air conditioning energy saving system of claim 3, characterized in that: the distance between the main output air duct (23) and the inner wall of the air outlet main body (2) is smaller than five centimeters, two first branch air ducts (24) communicated with the third notch (22) are formed in the air outlet main body (2), the two first branch air ducts (24) are respectively communicated with the main output air ducts (23) located on two sides, the air outlet main body further comprises a second branch air duct (25) directly communicated with the main output air duct (23), and the second branch air duct (25) is communicated with the third notch (22).

8. The constant-temperature and constant-humidity air conditioning energy saving system according to any one of claims 1 to 7, characterized in that: the output angle formed by three channels in the third notch (22) is forty degrees, and the angle between every two adjacent channels is twenty degrees.

9. The constant temperature and humidity air conditioning energy saving system of claim 8, characterized in that: and the channel in the third notch (22), the single-groove output port (17), the double-groove output port (18) and the three-groove output port (19) are all designed into fan-shaped notches.

10. A control method of a constant temperature and humidity air conditioning energy saving system, which is applied to the constant temperature and humidity air conditioning energy saving system according to any one of claims 1 to 9, and is characterized in that: the control method comprises the following steps:

the method comprises the following steps: starting a main machine in the air conditioner main body (1) to operate the air conditioner;

step two: the air outlet of the three main output air channels (23) in each surface is independently controlled according to the selection;

starting a servo motor (12) of the corresponding surface to control the corresponding rotary drum (8) and the corresponding air duct (9) to rotate, and enabling the selection mechanism to work independently to finish air distribution;

wherein, the distribution mode of air-out is including three kinds: the first distribution mode is that a single-groove output port (17) corresponds to an air outlet for ventilation; the second distribution mode is that the double-groove output port (18) is corresponding to two optional adjacent air outlets for ventilation; the third distribution mode is that the three-groove output port (19) is fully opened corresponding to the three air outlets.