CN116085890A

CN116085890A - Energy-saving circulating system of indoor swimming pool air conditioning unit

Info

Publication number: CN116085890A
Application number: CN202310188633.9A
Authority: CN
Inventors: 赵晨; 宁辰; 谢超; 秦立鹏; 单丽鹏
Original assignee: Beijing Real Estate Group Co ltd
Current assignee: Beijing Real Estate Group Co ltd
Priority date: 2023-02-21
Filing date: 2023-02-21
Publication date: 2023-05-09

Abstract

The application relates to an energy-saving circulating system of an indoor swimming pool air conditioning unit, which belongs to the technical field of indoor swimming pools and comprises a condenser, a restrictor, an evaporator and a compressor which are sequentially connected end to end, wherein a fan coil is connected to the evaporator, a chilled water system is communicated between the evaporator and the fan coil, the condenser is communicated with the swimming pool, the swimming pool is divided into a cold water area and a constant temperature area, a water inlet of the condenser is communicated with the cold water area, and a water outlet of the condenser is communicated with the constant temperature area; the constant temperature district is kept away from condenser delivery port one end and cold water district and is kept away from condenser water inlet one end intercommunication, is provided with the partition assembly that is used for controlling whether two regions communicate between constant temperature district and the cold water district, and this application has the resources that save indoor temperature regulation and consume, and maintains the homothermal effect of swimming pool internal water when guaranteeing that indoor air temperature reduces.

Description

Energy-saving circulating system of indoor swimming pool air conditioning unit

Technical Field

The application relates to the technical field of indoor swimming pools, in particular to an energy-saving circulating system of an indoor swimming pool air conditioning unit.

Background

At present, a plurality of swimming pools can be placed indoors, the indoor temperature is cool in summer, the swimming pools are not influenced by external weather, and the swimming pools can be opened at any time.

The indoor circulation of the air conditioning unit comprises a condenser, a throttle, an evaporator and a compressor which are sequentially connected end to end, the condenser is connected with a cooling water system, the cooling water system conveys cold water into the condenser, the cold water is matched with the condenser to enable refrigerant in the condenser to form low-temperature high-pressure liquid, cold water which absorbs heat from the condenser flows back into the cooling water system, the high-pressure liquid flows to the throttle, is processed into low-temperature low-pressure liquid by the throttle and then flows into the evaporator, the refrigerant begins to evaporate, the liquid evaporates and needs to absorb heat, a fan coil is connected to the evaporator, a chilled water system is communicated between the evaporator and the fan coil, the evaporation of the refrigerant reduces the temperature of chilled water in the chilled water system, the chilled water with reduced temperature is conveyed to the fan coil through a pressurizing device such as a water pump, and finally cold air is blown out from the fan coil; at the same time, the low-temperature low-pressure refrigerant absorbs heat in the freezing water pipeline and becomes low-temperature low-pressure gas to flow to the compressor, and the compressor compresses the low-temperature low-pressure gas to form high-temperature high-pressure gas and flows to the condenser to form circulation.

The inventor considers that the indoor swimming pool at present has a constant temperature swimming pool, so that the defects that the indoor temperature is reduced, the constant temperature of the swimming pool is kept, and the indoor temperature is kept too high because the indoor air is kept cool in summer and the indoor air is cooled and the constant temperature swimming pool is mutually blocked are overcome, and the indoor temperature is kept to be low, the constant temperature of the swimming pool is kept, and the consumption of indoor temperature regulating resources is too high are overcome.

Disclosure of Invention

In order to save resources consumed by indoor temperature regulation and maintain the constant temperature of water in a swimming pool while guaranteeing that the indoor air temperature is reduced, the application provides an energy-saving circulating system of an indoor swimming pool air conditioning unit.

The application provides an energy-conserving circulation system of indoor swimming pool air conditioning unit adopts following technical scheme:

an energy-saving circulating system of an indoor swimming pool air conditioning unit comprises a condenser, a throttle, an evaporator and a compressor which are sequentially connected end to end, wherein a fan coil is connected to the evaporator, a chilled water system is communicated between the evaporator and the fan coil, the condenser is communicated with a swimming pool, the swimming pool is divided into a cold water area and a constant temperature area, a water inlet of the condenser is communicated with the cold water area, and a water outlet of the condenser is communicated with the constant temperature area; one end of the constant temperature area, which is far away from the water outlet of the condenser, is communicated with one end of the cold water area, which is far away from the water inlet of the condenser, and a partition component used for controlling whether the two areas are communicated is arranged between the constant temperature area and the cold water area.

By adopting the technical scheme, cold water in the cold water area serves as cooling water, the cold water area is heated after passing through the condenser and then flows into the constant temperature area, so that water in the constant temperature area keeps a certain temperature, the constant temperature area is subjected to auxiliary temperature regulation, and resources consumed by self temperature regulation of the constant temperature area are saved; the water in the cold water area serves as condensed water, so that resources consumed by taking cold water from the outside are reduced, resources consumed by indoor temperature adjustment are saved finally, and the effect of keeping the constant temperature of water in the swimming pool while the indoor air temperature is reduced is ensured.

Optionally, a water outlet of the condenser is connected with a water outlet pipe, one end of the water outlet pipe, which is far away from the condenser, penetrates through the swimming pool and then is communicated with the inside of the constant temperature zone, a water diversion pipe is communicated with the water outlet pipe, a control valve is arranged at the communication part of the water outlet pipe and the water diversion pipe, and the water diversion pipe is buried in the inner wall of the swimming pool; the water diversion pipe is used for enabling the hot water flowing out of the condenser to flow into the swimming pool.

Through adopting above-mentioned technical scheme, make the water that flows from condenser delivery port through the control valve circulate in the shunt tubes only, the setting of shunt tubes position flows into the swimming pool with condenser outflow hot water, plays supplementary heating up's effect to the temperature of swimming pool internal water.

Optionally, a disturbance component is arranged on the inner wall of the indoor swimming pool, the disturbance component comprises a first impeller, a second impeller and a linkage rod, one end of the linkage rod penetrates into the water diversion pipe to be fixedly connected with the first impeller, the other end of the linkage rod is positioned in the swimming pool to be rotationally connected with the second impeller, and the leaf surface of the first impeller is opposite to the direction of water flow in the water diversion pipe; the linkage rod drives the second impeller to rotate.

Through adopting above-mentioned technical scheme, the trace links first impeller and second impeller, and when first impeller rotated, the second impeller rotated through the trace can be, and the rotation of first impeller obtains the drive force through the impact of the intraductal rivers of distributive, the resource of the inside rivers of make full use of distributive.

Optionally, be provided with between first trace and the second impeller and turn to the subassembly, turn to the subassembly and include a positioning section of thick bamboo, first gear, second gear and dwang, a positioning section of thick bamboo open end and swimming pool inner wall fixed connection, first gear, second gear and trace are located the tip in the swimming pool and all are located a positioning section of thick bamboo, the trace is located the tip in the swimming pool and first gear fixed connection, dwang one end runs through behind the positioning section of thick bamboo with second gear fixed connection, the other end and second impeller fixed connection, first gear and second gear engagement, first gear and second gear are bevel gear.

Through adopting above-mentioned technical scheme, before not turning to the subassembly, the second impeller is the direction that stirs water to keeping away from swimming pool inner wall direction promotion rivers, and turns to the subassembly to exist the back, can promote water along swimming pool inner wall length direction to realize that the swirl changes the rivers, make the velocity of flow of rivers accelerate.

Optionally, a first boss and a second boss are arranged on the inner wall of the indoor swimming pool, and the first boss is positioned above the second boss; the horizontal projection of the first boss completely covers the horizontal projection of the steering assembly and the horizontal projection of the disturbance assembly positioned in the swimming pool; an arc plate is arranged between the first boss and the second boss, the arc plate, the first boss, the second boss and the inner wall of the swimming pool form a closed space, and a driving assembly for driving the arc plate to move towards the direction close to or far away from the first boss is arranged on the swimming pool.

Through adopting above-mentioned technical scheme, first boss and second boss have formed the protection to disturbance subassembly top and bottom, and cooperation swimming pool inner wall and arc have formed the omnidirectional protection to disturbance subassembly to when the swimming pool is open, guarantee that the amusement personnel in the swimming pool can't contact disturbance subassembly, all formed the protection to amusement personnel and disturbance subassembly.

Optionally, be provided with the strip of stepping down on the shunt tubes, the strip of stepping down sets up along shunt tubes length direction, and the strip of stepping down is located shunt tubes top, and the strip of stepping down is inside cavity, and the strip bottom of stepping down and the inside intercommunication of shunt tubes, and the trace is close to first impeller one end and runs through the strip of stepping down, and first impeller is located the strip of stepping down and shunt tubes simultaneously.

Through adopting above-mentioned technical scheme, the existence of strip of stepping down provides accommodation space for first impeller to make first impeller only have partial blade to be located the distributive pipe, make the hydroenergy in the distributive pipe fully strike first impeller's blade, reach the effect of fully driving first impeller.

Optionally, the partition assembly includes partition wall and baffle, and the partition wall is located between constant temperature district and the cold water district, and the partition wall tip is offered the hole of permeating water on the partition wall with swimming pool inner wall butt, and baffle and partition wall sliding connection, the slip direction is followed vertical direction and is slided, and the baffle is used for the shutoff to the hole of permeating water.

Through adopting above-mentioned technical scheme, through opening and shutting the baffle, make constant temperature district and cold water district intercommunication or seal to guarantee that the water storage volume of both sides keeps steady state, avoid asking for the water source from the cold water district, finally flow and put the constant temperature district, the too big state of constant temperature district water yield in the past for a long time.

Optionally, the outer walls of the first boss, the second boss and the arc plate are all wrapped with an elastic layer, and the elastic layer is made of a material with buffering capacity and elastic deformation capacity.

Through adopting above-mentioned technical scheme, the existence of elastic layer plays the guard action to the amusement personnel in the swimming pool, and amusement personnel carelessly bumps first boss or second boss and also can not be injured.

Optionally, the driving assembly comprises a motor, a first worm, a second worm, a third gear and a rack, a rotating shaft of the motor is fixedly connected with one end of the first worm, the first worm is embedded in the inner wall of the swimming pool, one end of the second worm can penetrate into the inner wall of the swimming pool to be meshed with the first worm, the other end of the second worm penetrates into the second boss to be fixedly connected with the third gear, and the second worm rotates relative to the second boss; the rack is vertically fixed on the arc inner wall of the arc-shaped plate, the arc inner wall of the arc-shaped plate is abutted with the arc outer wall of the second boss, the rack is embedded on the second boss and is arranged in a sliding manner relative to the second boss, and the rack is meshed with the third gear.

Through adopting above-mentioned technical scheme, the first worm of motor drive rotates, and first worm drives the second worm and rotates to make third gear rotate, third gear and rack engagement, thereby drive arc slides in vertical direction, realizes opening and closing of arc, first boss, second boss and swimming pool inner wall formation enclosure space.

Optionally, a single first boss and a single second boss are a group, and a plurality of groups are arranged at intervals along the length direction of the first worm; one end of the first worm far away from the motor is arranged in a downward inclined mode.

Through adopting above-mentioned technical scheme, the mode that first worm slope set up is convenient for the installation and the maintenance of motor, makes the motor press close to the earth's surface more, and secondly first boss and second boss all accord with first worm length direction interval setting, generally are echelonment, make the useful scholars of study, can regard as the handrail with first lug in the swimming pool, and the first lug of not co-altitude can deal with the scholars of different altitudes.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cold water in the cold water area serves as cooling water, the cold water area is heated after passing through the condenser, and then flows into the constant temperature area, so that the water in the constant temperature area keeps a certain temperature, the constant temperature area is subjected to auxiliary temperature regulation, and resources consumed by the constant temperature area for self temperature regulation are saved; the water in the cold water area serves as condensed water, so that resources consumed by taking cold water from the outside are reduced, resources consumed by indoor temperature regulation are saved finally, and the effect of keeping the constant temperature of water in the swimming pool while the indoor air temperature is reduced is ensured;

2. the existence of the disturbance component can fully utilize the kinetic energy of water flow in the water diversion pipe, the disturbance component is used for stirring the water in the swimming pool, the flow speed of the water flow in the swimming pool is accelerated, when the swimming pool is required to be purified, the driving component drives the arc plate to be opened, the water in the swimming pool is required to be added with the water purifying agent for coagulation, the water temperature is one of factors influencing coagulation, the diffusion speed among molecules is high only when the water temperature is high, flocculation reaction is facilitated, meanwhile, the existence of the water diversion pipe can also play an auxiliary regulation and control role on the whole water temperature of the swimming pool, so that the water in the swimming pool is easier to flocculate, the disturbance component is used for accelerating the water flow, the impurity flow speed in the water flow is fast, and the water purifying agent is enabled to be in contact with the water in a more sufficient way;

3. the steering assemblies change the direction of the disturbance assemblies on the pool water, and along the length direction of the first worm, the steering assemblies are mutually matched to form directional water flow so as to further accelerate the water flow.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a schematic view in partial cross-section at a perturbation module;

FIG. 3 is an enlarged schematic view of a portion A of FIG. 2;

fig. 4 is a partial structural cross-sectional view of the drive assembly.

In the figure, 1, a swimming pool; 11. a cold water zone; 12. a constant temperature zone; 13. a first boss; 14. a second boss; 2. a partition assembly; 21. partition walls; 22. a partition plate; 23. a water permeable hole; 3. a water outlet pipe; 31. a water diversion pipe; 311. a yield bar; 32. a control valve; 4. a perturbation component; 41. a first impeller; 42. a second impeller; 43. a linkage rod; 5. a steering assembly; 51. a positioning cylinder; 52. a first gear; 53. a second gear; 54. a rotating lever; 6. an arc-shaped plate; 7. a drive assembly; 71. a motor; 72. a first worm; 73. a second worm; 74. a third gear; 75. a rack.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses an energy-saving circulating system of an indoor swimming pool air conditioning unit.

Referring to fig. 1, an energy-saving circulation system of an indoor swimming pool air conditioning unit comprises a condenser, a throttle, an evaporator and a compressor which are sequentially connected end to end, wherein a fan coil is connected to the evaporator, a chilled water system is communicated between the evaporator and the fan coil, the condenser is communicated with a swimming pool 1, the swimming pool 1 is divided into a cold water area 11 and a constant temperature area 12, a water inlet of the condenser is communicated with the cold water area 11, and a water outlet of the condenser is communicated with the constant temperature area 12; the constant temperature district 12 keeps away from condenser delivery port one end and cold water district 11 and keeps away from condenser water inlet one end intercommunication, and cold water district 11's water gets into the condenser, then flows into constant temperature district 12 after absorbing the temperature to realize hydrologic cycle and play the effect of supplementary regulation and control temperature to constant temperature district 12 simultaneously, the condenser is used for the cooling of indoor temperature after being cooled down, and both mutual utilization mutually support, reach the effect of saving resources.

Referring to fig. 1, a partition assembly 2 is disposed in a swimming pool 1, the partition assembly 2 comprises a partition wall 21 and a partition wall 22, the partition wall 21 partitions the swimming pool 1 into two parts, so that a constant temperature area 12 and a cold water area 11 are formed, water permeable holes 23 are formed in the partition wall 21, the partition wall 22 is slidably inserted in the partition wall 21 and slidably arranged along the vertical direction, and the partition wall 22 falls back onto the partition wall 21, and then the partition wall 22 blocks the spaces on two sides of the water permeable holes 23, so that the partition of the constant temperature area 12 and the cold water area 11 is realized.

Referring to fig. 1 and 2, a water outlet of the condenser is connected with a water outlet pipe 3, and one end, far away from the condenser, of the water outlet pipe 3 is communicated to the inside of the constant temperature zone 12; the water diversion pipe 31 and the control valve 32 are arranged on the water outlet pipe 3, one end of the water diversion pipe 31 is communicated with the water outlet pipe 3, and the control valve 32 is positioned at the communication position of the water diversion pipe 31 and the water outlet pipe 3 and is used for controlling the flow direction of water flow; one end of each water diversion pipe 31 far away from the water outlet pipe 3 is buried in the wall of the swimming pool 1, in this embodiment, the length of each water diversion pipe 31 is set along the length direction of the swimming pool, and a plurality of water diversion pipes 31 are arranged, and adjacent water diversion pipes 31 are arranged at intervals along the vertical direction; the wall of the swimming pool 1, which is close to one side of the inside of the swimming pool 1, of the water diversion pipe 31 is made of materials with strong heat conduction capacity, such as steel plates and ceramic tiles; be provided with disturbance subassembly 4 between shunt tubes 31 and the swimming pool 1 inner wall, disturbance subassembly 4 is provided with the multiunit, and adjacent disturbance subassembly 4 sets up along shunt tubes 31 length direction interval, and the delivery port setting of every shunt tubes 31 is in the vicinity of disturbance subassembly 4, is convenient for cooperate disturbance subassembly 4 to stir the water purification agent even.

Referring to fig. 2 and 3, a first boss 13 and a second boss 14 are arranged on the inner wall of the swimming pool 1, the first boss 13 and the second boss 14 are arranged in parallel and have a distance therebetween, and the first boss 13 is positioned above the second boss 14; the disturbance component 4 comprises a first impeller 41, a second impeller 42 and a linkage rod 43, a steering component 5 is arranged between the disturbance component 4 and the inner wall of the swimming pool 1, the steering component 5 comprises a positioning cylinder 51, a first gear 52, a second gear 53 and a rotating rod 54, a yielding strip 311 is arranged on the water diversion pipe 31, the yielding strip 311 is arranged along the length direction of the water diversion pipe 31, the interior of the yielding strip 311 is hollow, the contact part of the yielding strip 311 and the water diversion pipe 31 is communicated with the interior of the water diversion pipe 31, the yielding strip 311 is always positioned at the top of the water diversion pipe 31, the first impeller 41 is positioned in a space formed by the yielding strip 311 and the water diversion pipe 31, one end of the linkage rod 43 penetrates into the yielding strip 311 and is fixedly connected with the center of the first impeller 41, part of blades of the first impeller 41 are positioned in the water diversion pipe 31, and the other end of the linkage rod 43 is positioned in the swimming pool 1 and is fixedly connected with the center of the first gear 52; the positioning cylinder 51 is sleeved outside the first gear 52 and the second gear 53, the opening end of the positioning cylinder 51 is fixedly connected with the inside of the swimming pool 1, one end of the rotating rod 54 penetrates through the inside of the positioning cylinder 51 and is fixedly connected with the center of the second gear 53, the other end of the rotating rod 54 is fixedly connected with the center of the second impeller 42, and the rotating rod 54 is horizontally arranged along the length direction of the inner wall of the swimming pool; the second gear 53 is engaged with the first gear 52, and the second gear 53 and the first gear 52 are bevel gears.

Referring to fig. 3 and 4, the horizontal projection of the first boss 13 completely covers the horizontal projection of the second boss 14, and the horizontal projection of the first boss 13 simultaneously completely covers the portion of the disturbance assembly 4 and the steering assembly 5 located inside the swimming pool 1. Be provided with arc 6 between first boss 13 and the second boss 14, arc 6 and second boss 14 sliding connection are provided with drive assembly 7 between second boss 14 and the swimming pool 1, and drive assembly 7 can control the slip of arc 6, and arc 6 slides along vertical direction, and arc 6, first boss 13, second boss 14 and swimming pool 1 inner wall can form the enclosure space.

Referring to fig. 1 and 4, the driving assembly 7 comprises a motor 71, a first worm 72, a second worm 73, a third gear 74 and a rack 75, wherein a rotating shaft of the motor 71 is fixedly connected with one end of the first worm 72, the first worm 72 is obliquely embedded in the inner wall of the swimming pool 1, one end of the first worm 72 far away from the motor 71 is obliquely arranged downwards, and the first worm 72 rotates relative to the pool wall of the swimming pool 1; one end of the second worm 73 can extend into the inner wall of the swimming pool 1 to be meshed with the first worm 72, the other end of the second worm extends into the second boss 14 to be fixedly connected with a third gear 74, the third gear 74 is parallel to the wall of the swimming pool 1 which is close to the second gear 74, and the second worm 73 rotates relative to the second boss 14; the rack 75 is vertically fixed on the arc inner wall of the arc plate 6, the arc inner wall of the arc plate 6 is abutted with the arc outer wall of the second boss 14, the rack 75 is embedded on the second boss 14 and is arranged in a sliding mode relative to the second boss 14, the rack 75 is meshed with the third gear 74, the motor 71 starts to drive the arc plate 6 to move upwards until the top of the arc plate 6 is abutted with the bottom of the first boss 13, and therefore the arc plate 6, the first boss 13, the second boss 14 and the inner wall of the swimming pool 1 can form a closed space.

The first boss 13, the second boss 14, the disturbance component 4 between the first boss 13 and the second boss 14 and the steering component 5 are a set, a plurality of sets are arranged along the length direction of the first worm 72 at intervals, the disturbance directions of the adjacent second impellers 42 on the pool water are consistent, and only one row is drawn as an illustration in the embodiment.

Referring to fig. 1, the outer walls of the first boss 13, the second boss 14 and the arc plate 6 are all wrapped with an elastic layer, which may be made of rubber in this embodiment, and the elastic layer is not shown in the figure.

The implementation principle of the energy-saving circulating system of the indoor swimming pool air conditioning unit provided by the embodiment of the application is as follows: the cold water in the cold water area 11 serves as cooling water, the temperature of the cold water area 11 is raised after passing through a condenser, and then the cold water flows into the constant temperature area 12, so that the water in the constant temperature area 12 keeps a certain temperature; the refrigerant in the condenser is convenient for the subsequent indoor cooling after being cooled; when the swimming pool 1 needs to be purified, the water purifying agent is required to be added into the pool water for coagulation, and the water diversion pipe 31 can also play an auxiliary regulation and control role on the whole water temperature of the swimming pool 1, so that the pool water is easier to flocculate, the disturbance component 4 accelerates the water flow, the impurity flowing speed in the water flow is increased, and the water purifying agent is more fully contacted with the pool water.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides an indoor swimming pool air conditioning unit energy-saving circulation system, includes condenser, choke, evaporimeter and the compressor of end to end in proper order, and evaporimeter department is connected with fan coil, and the intercommunication has chilled water system, its characterized in that between the fan coil: the condenser is communicated with the swimming pool (1), the swimming pool (1) is divided into a cold water area (11) and a constant temperature area (12), the water inlet of the condenser is communicated with the cold water area (11), and the water outlet of the condenser is communicated with the constant temperature area (12); one end of the constant temperature area (12) far away from the condenser water outlet is communicated with one end of the cold water area (11) far away from the condenser water inlet, and a partition component (2) used for controlling whether the two areas are communicated is arranged between the constant temperature area (12) and the cold water area (11).

2. An energy-saving circulation system of an indoor pool air conditioning unit as set forth in claim 1, wherein: the water outlet of the condenser is connected with a water outlet pipe (3), one end, far away from the condenser, of the water outlet pipe (3) penetrates through the swimming pool (1) and then is communicated with the inside of the constant temperature area (12), a water diversion pipe (31) is communicated with the water outlet pipe (3), a control valve (32) is arranged at the communication part of the water outlet pipe (3) and the water diversion pipe (31), and the water diversion pipe (31) is buried in the inner wall of the swimming pool (1); the water diversion pipe (31) is used for flowing the hot water flowing out of the condenser into the swimming pool (1).

3. An energy-saving circulation system of an indoor pool air conditioning unit as claimed in claim 2, wherein: the inner wall of the indoor swimming pool (1) is provided with a disturbance component (4), the disturbance component (4) comprises a first impeller (41), a second impeller (42) and a linkage rod (43), one end of the linkage rod (43) stretches into the water diversion pipe (31) to be fixedly connected with the first impeller (41), the other end of the linkage rod (43) is positioned in the swimming pool (1) to be rotationally connected with the second impeller (42), and the leaf surface of the first impeller (41) is opposite to the direction of water flow in the water diversion pipe (31); the linkage rod (43) drives the second impeller (42) to rotate.

4. An energy-saving circulation system of an indoor pool air conditioning unit according to claim 3, wherein: be provided with between first interlock pole (43) and second impeller (42) and turn to subassembly (5), turn to subassembly (5) including positioning tube (51), first gear (52), second gear (53) and dwang (54), positioning tube (51) open end and swimming pool (1) inner wall fixed connection, first gear (52), second gear (53) and interlock pole (43) are located the tip of swimming pool (1) all in positioning tube (51), tip and first gear (52) fixed connection that interlock pole (43) are located the swimming pool (1), after rotating rod (54) one end runs through positioning tube (51) with second gear (53) fixed connection, the other end and second impeller (42) fixed connection, first gear (52) and second gear (53) meshing, first gear (52) and second gear (53) are the bevel gear.

5. An energy-saving circulation system of an indoor pool air conditioning unit as set forth in claim 4, wherein: a first boss (13) and a second boss (14) are arranged on the inner wall of the indoor swimming pool (1), and the first boss (13) is positioned above the second boss (14); the horizontal projection of the first boss (13) completely covers the horizontal projection of the steering assembly (5) and the horizontal projection of the disturbance assembly (4) positioned inside the swimming pool (1); an arc-shaped plate (6) is arranged between the first boss (13) and the second boss (14), the arc-shaped plate (6), the first boss (13), the second boss (14) and the inner wall of the swimming pool (1) form a closed space, and a driving assembly (7) for driving the arc-shaped plate (6) to move towards the direction close to or far away from the first boss (13) is arranged on the swimming pool (1).

6. An energy-saving circulation system of an indoor pool air conditioning unit according to claim 3, wherein: be provided with on shunt tube (31) and give way strip (311), give way strip (311) and set up along shunt tube (31) length direction, give way strip (311) are located shunt tube (31) top, give way strip (311) inside cavity, give way strip (311) bottom and the inside intercommunication of shunt tube (31), link (43) are close to first impeller (41) one end and run through and give way strip (311), first impeller (41) are located simultaneously and give way strip (311) and shunt tube (31).

7. An energy-saving circulation system of an indoor pool air conditioning unit as set forth in claim 1, wherein: partition assembly (2) are including partition wall (21) and baffle (22), and partition wall (21) are located between constant temperature district (12) and cold water district (11), and partition wall (21) tip and swimming pool (1) inner wall butt have been seted up on partition wall (21) and have been permeated water hole (23), and baffle (22) and partition wall (21) sliding connection, and the slip direction is followed vertical direction and is slided, and baffle (22) are used for the shutoff to permeating water hole (23).

8. An energy-saving circulation system of an indoor pool air conditioning unit as set forth in claim 5, wherein: the outer walls of the first boss (13), the second boss (14) and the arc plate (6) are wrapped with elastic layers, and the elastic layers are made of materials with buffering capacity and elastic deformation capacity.

9. An energy-saving circulation system of an indoor pool air conditioning unit as set forth in claim 5, wherein: the driving assembly (7) comprises a motor (71), a first worm (72), a second worm (73), a third gear (74) and a rack (75), wherein a rotating shaft of the motor (71) is fixedly connected with one end of the first worm (72), the first worm (72) is buried in the inner wall of the swimming pool (1), one end of the second worm (73) can be meshed with the first worm (72) in a manner of penetrating into the inner wall of the swimming pool (1), the other end of the second worm (73) is fixedly connected with the third gear (74) in a manner of penetrating into the second boss (14), and the second worm (73) rotates relative to the second boss (14); the rack (75) is vertically fixed on the arc inner wall of the arc-shaped plate (6), the arc inner wall of the arc-shaped plate (6) is abutted with the arc outer wall of the second boss (14), the rack (75) is embedded on the second boss (14) and is arranged in a sliding mode relative to the second boss (14), and the rack (75) is meshed with the third gear (74).

10. An energy efficient circulation system for an indoor pool air conditioning unit as defined in claim 9, wherein: the first bosses (13) and the second bosses (14) are arranged in a group, and a plurality of groups are arranged at intervals along the length direction of the first worm (72); one end of the first worm (72) far away from the motor (71) is arranged obliquely downwards.