CN115111644B - Constant temperature and humidity air conditioner energy saving system and method - Google Patents

Abstract

The invention discloses a constant temperature and humidity air conditioner energy saving system and a method, wherein the constant temperature and humidity air conditioner energy saving system comprises an air conditioner main body and an air outlet main body at the top of the air conditioner main body, three identical fan-shaped grids are arranged on four outer walls of the air outlet main body, a main output air duct communicated with each fan-shaped grid is arranged inside the air outlet main body, a third notch communicated with the main output air duct is arranged on the inner wall of the air outlet main body, the third notch comprises three channels which are arranged at equal intervals, four mounting cylinders are fixedly connected inside the air outlet main body, second through grooves which are in one-to-one correspondence with the third notch are arranged on the mounting cylinders, and rotatable drums are arranged inside the mounting cylinders.

Description

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

Background

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

The air outlet of the industrial air conditioner is fixed when the industrial air conditioner leaves a factory and is installed, but the air outlet is generally single-sided output, the air outlet range cannot be changed when the industrial air conditioner is output, even a worker or a sensitive machine is directly blown, the working environment of the worker is sacrificed for guaranteeing the normal operation of the machine, and the threat is caused to the health work of the worker.

Disclosure of Invention

The invention aims to provide a constant temperature and humidity air conditioner energy-saving system and a constant temperature and humidity air conditioner energy-saving method, which can independently change the use state of an air outlet component of each surface, and have the advantages of energy saving and consumption reduction, and meanwhile, the industrial air conditioner is not limited by the use environment.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a constant temperature and humidity air conditioner economizer system, includes the air conditioner main part and the air-out main part at top thereof, three equal fan-shaped grids are 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 that is linked together with main output wind channel is seted up to the inner wall of air-out main part, the third notch includes the passageway of three equidistant settings, the inside fixedly connected with four installation section of thick bamboo of air-out main part, all set up the second through groove with third notch one-to-one on the installation section of thick bamboo, the inside of installation section of thick bamboo all is provided with rotatable rotary drum.

The constant temperature and humidity air conditioner energy-saving system further comprises an air pipe mechanism for supplying air to the inside of the rotary drum, and a selection mechanism arranged on the rotary drum.

The selection mechanism has three communication states, wherein in a 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; and in a third state, the selection mechanism is communicated with the second through groove.

Preferably, the outer wall of the rotary drum is trisected, wherein a single-groove output port, a double-groove output port and a three-groove output port are respectively formed in the trisected outer wall of the rotary drum in the middle, any one of three channels can be selected for communication through the single-groove output port, the trisected outer wall of the rotary drum can seal two other channels, the double-groove output port is communicated with any two adjacent channels, the trisected outer wall of the rotary drum can seal the remaining channels, and the three-groove output port can be communicated with the three channels of the third notch in a one-to-one correspondence mode.

Preferably, the air pipe mechanism comprises a first air pipe which extends from the middle to four installation barrels to be communicated, an air barrel is fixedly communicated with the bottom of the rotary barrel, three air supply notches are formed in the outer wall of the air barrel in a circumferential array mode and located on the periphery of the air barrel, a first through groove which is communicated with the first air pipe is formed in the outer wall of the installation barrel, and when any one of the single-groove output port, the double-groove output port and the three-groove output port is communicated with the main output air channel, the air supply notches, the first through groove and the first air pipe form communication, and the air barrel can seal the first through groove to stop supplying air to the rotary barrel.

Preferably, the inner bottom of the installation cylinder is penetrated with a rotatable rotating shaft, the top end of the rotating shaft is fixedly connected with the bottom of the air cylinder, a clamping box is further installed between the air outlet main body and the air conditioner main body, a servo motor for driving the rotating shaft to rotate by any angle is arranged in the clamping box, the bottom of the first air pipe is communicated with an air inlet pipe, and the air inlet pipe is located inside the clamping box.

Preferably, the top of air-out main part is installed and 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 in the air cylinder.

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

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

Preferably, the channel, the single-slot output port, the double-slot output port and the three-slot output port in the third slot opening are all fan-shaped slot designs.

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

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

starting a servo motor on the corresponding surface, controlling the corresponding rotary drum and the corresponding air duct to rotate, and independently working a selection mechanism to finish distribution of air outlet;

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

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

1. according to the invention, four mounting cylinders respectively correspond to four surfaces, and the selection mechanisms in the mounting cylinders are four in number, so that the selection mechanisms can independently control the output of each surface, and therefore, the selection mechanisms can select the air outlet assembly required by the actual use of the surface, further, the energy consumption of the industrial air conditioner can be further controlled, and secondly, the use scene of the industrial air conditioner can be increased according to the selection of one surface, so that the use scene is not limited by the use environment any more, the work environments of machines and workers can be ensured, and the normal use of the machines can be ensured without sacrificing the environment of the workers.

2. According to the invention, the rotary drum rotates, the single-groove output port, the double-groove output port and the three-groove output port are respectively communicated with the third notch in a butt joint manner, so that a communication air duct can be formed among the interior of the rotary drum, the third notch and the main output air duct, and the difference is that the communication air duct can be selected and switched, and three channels can be closed or any two channels can be closed according to requirements, so that an air outlet assembly to be output can be selected according to requirements.

Drawings

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

FIG. 2 is a right side view of the structure of FIG. 1 according to the present invention;

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

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

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

FIG. 6 is a schematic cross-sectional view of an air outlet body according to the present invention;

FIG. 7 is a schematic view of a selection mechanism according to the present invention;

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

FIG. 9 is a schematic diagram of the structure of the insulation material of the present invention;

FIG. 10 is a schematic diagram of a structure of the energy-saving system of the constant temperature and humidity air conditioner provided with a protective shell in a sleeved mode;

FIG. 11 is a schematic diagram showing an exploded structure of the air conditioner main body and the protection shell according to the present invention.

In the figure: 1. an air conditioner main body; 2. an air outlet main body; 3. a fan-shaped grid; 4. a mounting cover; 5. a spherical nozzle; 6. clamping a box; 7. a mounting cylinder; 8. a rotating drum; 9. an air duct; 10. a square groove; 11. first one a through groove; 12. a servo motor; 13. an air inlet pipe; 14. a first air duct; 15. a second through slot; 16. an air supply notch; 17. a single slot output port; 18. a double-slot 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. and a shutter air port.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides a constant temperature and humidity air conditioner economizer system, air conditioner main part 1 and air-out main part 2 at top thereof, three equal fan-shaped grids 3 are all installed to four outer walls of air-out main part 2, the main output wind channel 23 that is linked together with every fan-shaped grid 3 has been seted up to the inside of air-out main part 2, the third notch 22 that is linked together with main output wind channel 23 has been seted up to the inner wall of air-out main part 2, third notch 22 includes the passageway of three equidistant settings, the inside fixedly connected with four installation section of thick bamboo 7 of air-out main part 2, all seted up the second through groove 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 constant temperature and humidity air conditioning energy saving system further 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;

preferably, the selecting mechanism has three communication states, wherein in the first state, the selecting 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 slot 15; in the third state, the selection mechanism is in full communication with the second through slot 15.

In a specific embodiment, the fan-shaped grid 3 and the main air outlet duct 23 can form an air outlet assembly, the main air outlet duct 23 is used for absorbing and spreading air quantity, the fan-shaped grid 3 is used for diffusing and outputting air quantity, the fan-shaped grid 3 can be applied to any air outlet grid or louver air outlet on the market, only the grid is shown in the figure, and a third notch 22 for controlling the air quantity output into the main air outlet duct 23 is arranged in the air outlet main body 2.

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 protecting shell 26, the air conditioner main body 1 is sleeved in the protecting shell 26, four switchable louver air openings 27 are arranged at the top of the protecting shell 26, and the four louver air openings 27 correspond to the fan-shaped grids 3 with four surfaces, as shown in fig. 10-11.

In the use of industrial air conditioner, the multi-face output air quantity is a good mode, but the multi-face output mode in the prior art has the problems of large output range, serious energy consumption and the like, for example, when the multi-face output mode is installed at a corner, a wall and other positions, the output direction and the output angle need to be adjusted and changed, or in the actual installation, the output air quantity and the output angle of one face need to be closed and adjusted under the influence of a field or industrial equipment so as to protect machines or staff, or energy-saving use, consumption reduction and environmental protection are needed.

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

According to the scheme of the invention, the air outlet component required by the actual use of the surface can be selected through the selection mechanism, so that the energy consumption of the industrial air conditioner can be further controlled, and secondly, the use scene of the industrial air conditioner can be increased according to the surface to be selected, so that the use scene is not limited by the use environment any more, the working environments of machines and staff can be ensured, and the normal use of the machines can be ensured without sacrificing the environments of the staff.

As shown in fig. 5 and 6, the outer wall of the air outlet main body 2 has an arc shape, so that the air outlet assembly can form a diffusion output, thereby increasing a 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 single air port output 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 rotary drum 8 is trisected, wherein the trisected outer wall of the rotary drum 8 is centrally provided with a single-groove output port 17, a double-groove output port 18 and a three-groove output port 19, the single-groove output port 17 can be communicated with any one of three channels, the trisected outer wall of the rotary drum 8 can seal the other two channels, the double-groove output port 18 is communicated with any two adjacent channels, the trisected outer wall of the rotary drum 8 can seal the rest channels, and the three-groove output port 19 can be in one-to-one correspondence with the three channels of the third notch 22.

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 three groove delivery outlet 19 dock the intercommunication respectively with third notch 22 for can form the intercommunication wind channel between rotary drum 8 inside, third notch 22 and the main output wind channel 23, its difference is, the wind channel of this intercommunication can select and switch, can close three passageway, perhaps close wherein arbitrary two passageways as required, makes the 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 rotates, single groove delivery outlet 17 can communicate with arbitrary one of three passageway, and wherein, when communicating single passageway, can adjust the size of linking volume according to rotary drum 8's rotation, and then can adjust the air output and the speed of this air-out subassembly.

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

And secondly, by arranging the three-groove output port 19, the air outlet assembly can be fully opened for use.

In one preferred embodiment, the air duct mechanism comprises a first air duct 14 extending from the middle to four installation barrels 7 for communication, the bottoms of the drums 8 are fixedly communicated with air ducts 9, the outer walls of the air ducts 9 are provided with three air supply notches 16 in a circumferential array, the outer walls of the installation barrels 7 located at the periphery of the air ducts 9 are provided with first through grooves 11 communicated with the first air duct 14, and 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 the main output air duct 23, the air supply notches 16, the first through grooves 11 and the first air duct 14 form communication, and the air ducts 9 can seal the first through grooves 11 to stop supplying air to the drums 8.

As shown in fig. 3, 7 and 8, the drum 8 and the air duct 9 may be integrally formed, the bottom of the drum 8 is connected with the top of the air duct 9, when the drum 8 and the air duct 9 are rotated, the selection mechanism is selectively switched, and after the output mode is changed, one of the air supply slots 16 is necessarily connected with the first through slot 11, so that the mounting drum 7, the first through slot 11, the air supply slots 16 and the air duct 9 are connected, thereby forming air supply to the drum 8.

In this embodiment, the air duct 9 is alternately arranged with the single-groove output port 17, the double-groove output port 18 and the three-groove output port 19, and one air duct 9 can be corresponding to the single-groove output port 17, the double-groove output port 18 or the three-groove output port 19.

Further, the inner bottom of the installation cylinder 7 is penetrated with a rotatable rotating shaft, the top end of the rotating shaft is fixedly connected with the bottom of the air duct 9, a clamping box 6 is further installed between the air outlet main body 2 and the air conditioner main body 1, a servo motor 12 for driving the rotating shaft to rotate by any angle is arranged in the clamping box 6, the bottom of the first air duct 14 is communicated with an air inlet pipe 13, and the air inlet pipe 13 is positioned in the clamping box 6.

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

As one of the preferred embodiments, the top of the air outlet main body 2 is provided with a mounting cover 4, the top of the mounting cover 4 is movably output with a spherical nozzle 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 interior of the first air pipe 14 and the interior of the spherical nozzle 5.

In this way, as shown in fig. 1, the spherical nozzle 5 at the top can output air in a conical shape, and the spherical nozzle 5 is an existing component, and can be switched at any angle, so that special requirements in industry can be met.

Second, a second embodiment is provided:

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

Further, a heat insulation material 21 is filled between the first air pipe 14 and the air outlet main body 2, and an air filter core is arranged in the air duct 9.

Preferably, through filling the heat preservation material 21, the communication consumption of the cooling capacity in the first air pipe 14 can be reduced, energy is saved, and secondly, the filter core can ensure that the air quantity input from the air cylinder 9 to the rotary cylinder 8 has higher cleanliness, the input to the working occasion can be ensured, and the heat preservation 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 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.

The first branch air duct 24 can be arranged more gradually, the distance between the main output air duct 23 and the air outlet main body 2 is smaller than the distance which can be transmitted by five centimeters, the consumption of cold energy is reduced, the efficiency of refrigeration and transmission is improved, the energy is saved, the environment is protected, and secondly, the first branch air duct 24 and the second branch air duct 25 are matched to form independent communication between the main output air duct 23 and the third notch 22.

Further, the output angle formed by three channels in the third notch 22 is forty degrees, the angle between every two adjacent channels is twenty degrees, and because the outer wall of the rotary drum 8 is trisected, the single-groove output port 17, the double-groove output port 18 and the three-groove output port 19 are all equivalent to being positioned in the range of one hundred twenty degrees, so that the third notch 22 is in one third of the trisection, the single-groove output port 17 and the double-groove output port 18 can be adjusted randomly, and mutual interference among the single-groove output port 17, the double-groove output port 18 and the three-groove output port 19 is avoided.

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

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

step one: the main unit in the air conditioner main body 1 is started, and the air conditioner is operated.

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

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

Three distribution modes of air outlet are adopted, wherein the first distribution mode is that the single-slot output port 17 corresponds to one air outlet for ventilation; the second distribution mode is that the double-groove output port 18 corresponds to two optional adjacent air outlets for ventilation; the third distribution mode is that the three slot output ports 19 are fully opened corresponding to three air outlets, wherein the communication degree of the three air outlets can be adjusted according to the requirement.

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

In summary, the invention can independently change the use state of the air outlet component of each surface, saves energy and reduces consumption, simultaneously ensures that the industrial air conditioner is not limited by the use environment any more, and ensures the normal use of the machine without sacrificing the environment of staff.

The standard components used in the present embodiment may be purchased directly from the market, but the nonstandard structural components according to the descriptions of the specification and the drawings may also be obtained by unambiguous processing according to the common general knowledge in the prior art, and meanwhile, the connection manner of each component adopts the conventional means mature in the prior art, and the machinery, the components and the equipment all adopt the conventional types in the prior art, so that the specific description will not be made here.

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

Claims (10)

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 novel air conditioner comprises an air outlet main body (2), wherein three identical fan-shaped grids (3) are arranged on four outer walls of the air outlet main body (2), a main output air channel (23) communicated with each fan-shaped grid (3) is formed in the air outlet main body (2), third notches (22) communicated with the main output air channel (23) are formed in the inner wall of the air outlet main body (2), the third notches (22) comprise three channels which are arranged at equal intervals, four mounting cylinders (7) are fixedly connected to the inside of the air outlet main body (2), second through grooves (15) which are in one-to-one correspondence with the third notches (22) are formed in the mounting cylinders (7), and rotatable rotating drums (8) are arranged in the mounting cylinders (7);

the constant temperature and humidity air conditioner energy-saving system further 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 a 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); and 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 according to claim 1, wherein: the outer wall of rotary drum (8) is trisected, wherein, single groove delivery outlet (17), double flute delivery outlet (18) and three groove delivery outlet (19) have been seted up on the trisection outer wall of rotary drum (8) respectively placed in the middle, any one of three passageway can be selected to single groove delivery outlet (17) communicates, just rotary drum (8) trisection outer wall can seal two other passageways, double flute delivery outlet (18) and arbitrary two adjacent passageway intercommunication, just the trisection outer wall of rotary drum (8) can seal remaining passageway, three groove delivery outlet (19) can communicate with three passageway one-to-one of third notch (22).

3. The constant temperature and humidity air conditioning energy saving system according to claim 2, wherein: the air pipe mechanism comprises a first air pipe (14) which extends from the middle to four mounting barrels (7) and is communicated with the bottom of the rotary drum (8), three air supply notches (16) are formed in the outer wall of the rotary drum (9) in a circumferential array, the air pipe mechanism is located on the periphery of the air drum (9), a first through groove (11) which is communicated with the first air pipe (14) is formed in the outer wall of the mounting barrel (7), and 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 pipe (14) are communicated, and the air drum (9) can seal the first through grooves (11) to stop supplying air to the rotary drum (8).

4. A constant temperature and humidity air conditioning energy saving system according to claim 3 wherein: the utility model discloses a fan, including installation section of thick bamboo (7), air-out main part (2) and air conditioner main part (1), install the inner bottom of section of thick bamboo (7) and all run through rotatable pivot, the bottom fixed connection of pivot top and dryer (9), still install double-layered case (6) between air-out main part (2) and air conditioner main part (1), be provided with servo motor (12) of drive pivot rotation arbitrary angle in double-layered case (6), just the bottom intercommunication of first tuber pipe (14) has intake pipe (13), intake pipe (13) are located the inside of double-layered case (6).

5. A constant temperature and humidity air conditioning energy saving system according to claim 3 wherein: the top of air-out main part (2) is installed and is installed installation lid (4), 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 inside and spherical spout (5) inside intercommunication of first tuber pipe (14) on sealed apron (20).

6. A constant temperature and humidity air conditioning energy saving system according to claim 3 wherein: a heat insulation material (21) is filled between the first air pipe (14) and the air outlet main body (2), an air filter element is arranged in the air duct (9).

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

8. The constant temperature and humidity air conditioning energy saving system according to any one of claims 1 to 7, wherein: 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 energy saving system of a constant temperature and humidity air conditioner according to claim 8, wherein: 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 fan-shaped notch designs.

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

step one: starting a host in the air conditioner main body (1) to operate the air conditioner;

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

starting a servo motor (12) on the corresponding surface, controlling the corresponding rotary drum (8) and the corresponding air duct (9) to rotate, and independently working a selection mechanism to finish distribution of air outlet;

the distribution mode of the air outlet comprises three modes: the first distribution mode is that the single-groove output port (17) corresponds to one air outlet for ventilation; the second distribution mode is that the double-groove output port (18) is ventilated corresponding to two optional adjacent air outlets; the third distribution mode is that the three groove output ports (19) are fully opened corresponding to the three air outlets.