CN209166158U - Central air-conditioning energy-saving cooling tower - Google Patents

Abstract

The utility model relates to central air-conditioning energy technical fields, for the problem of the cooling efficiency difference of cooling tower, provide a kind of central air-conditioning energy-saving cooling tower, the technical solution is as follows: including tower body, the motor that the top of tower body is equipped with fan and driving fan rotates, the cooling tube group being immersed in cooling water is equipped in tower body, the linkage unit rotated synchronously with fan to drive cooling tube group to rotate is equipped in tower body, the top and bottom end of cooling tube group are equipped with bearing, bearing is placed in the center of cooling tube group, the bearing of cooling tube group bottom end is connected with water inlet pipe, the bearing on cooling tube group top is connected with outlet pipe.Cooling water is stirred by cooling tube group, so that the cooling rate of cooling water is accelerated, so that the exchange rate of the hot water in cooling water and cooling tube group improves, is conducive to the cooling efficiency for improving cooling tower.

Description

Central air-conditioning energy-saving cooling tower

Technical field

The utility model relates to central air-conditioning energy technical fields, more specifically, it relates to which a kind of central air-conditioning saves It can cooling tower.

Background technique

Central air-conditioning is widely used, and improves the work and life environment of people.Cooling tower for central air-conditioning is with water As circulating coolant, from heat dissipation is absorbed in central air conditioner system into atmosphere, to reduce the device of water temperature.

Currently, existing water cooled central air conditioner mostly uses counter-flow cooling tower to reduce the temperature of air-conditioner circulating water, cool down Principle is the water pipe by the hot water adverse current in central air conditioner system by being placed in cooling water, and is installed above tower body by motor The fan of driving promotes the heat exchange in cooling tower.

But being rotated by motor-driven fan reduces the water temperature of cooling water to promote the heat exchange in cooling tower, makes Have leisure flow of air and heat exchange only carries out more than the water surface of cooling water, so that the cooling velocity of cooling water is slow, so that Cooling tower cooling efficiency is deteriorated, and still has improved space.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of energy conservation coolings of central air-conditioning Tower has the advantages that improve cooling efficiency.

To achieve the above object, the utility model provides following technical solution:

The top of a kind of central air-conditioning energy-saving cooling tower, including tower body, the tower body is equipped with fan and driving fan The motor of rotation, the tower body is interior to be equipped with the cooling tube group being immersed in cooling water, is equipped in the tower body with synchronous turn of fan The dynamic linkage unit to drive cooling tube group to rotate, the top and bottom end of the cooling tube group are equipped with bearing, the bearing It is placed in the center of cooling tube group, the bearing of cooling tube group bottom end is connected with water inlet pipe, cooling tube group top Bearing is connected with outlet pipe.

By adopting the above technical scheme, driving motor rotates fan, and fan rotates while driving linkage unit driving cold But pipe group rotates, so that cooling water is cooled, the agitation of pipe group is got up, so that the mobility of cooling water increases, so that cooling water Cooling rate accelerate so that the exchange rate of the hot water in cooling water and cooling tube group improves, be conducive to improve cold But the cooling efficiency of tower；It is rotated by fan, is conducive to the flowing velocity for accelerating air, so that the hot-air in cooling tower more holds It is easily dispersed into outside cooling tower, is conducive to the cooling rate for accelerating cooling water, and then improve the cooling efficiency of cooling tower；Pass through electricity The driving force of machine driving fan drives cooling tube to rotate simultaneously, is conducive to save power source, is beneficial to energy conservation environmental protection；Meanwhile The rotation of cooling tube group is conducive to accelerate the heat transfer speed of cooling water, so that the water temperature of the cooling water in cooling tower is more equal It is even so that the water temperature on cooling tube group periphery be not easy it is higher than water temperature elsewhere, to be conducive to accelerate cooling water and cooling The exchange rate of the hot water of Guan Zuzhong, so that the cooling efficiency of cooling tower improves.

Preferably, the cooling tube group includes several water service pipes, and the top of several water service pipes is communicated with ring pipe, The bottom end of several water service pipes is communicated with lower ring pipe, and the upper ring pipe and lower ring pipe connect with several water service pipes It is logical.

By adopting the above technical scheme, the setting being connected to several water service pipes by upper ring pipe and lower ring pipe, makes It obtains and is interconnected between several water service pipes, upper ring pipe and lower ring pipe, so that the hot water in central air conditioner system It needs adverse current that could be discharged from outlet pipe full of cooling tube group, to extend residence time of the hot water in cooling tube group, makes The time extension that hot water is exchanged with cooling water heat is obtained to be conducive to improve the cold of cooling tower so that hot water is more sufficiently cooled But efficiency.

Preferably, the drive shaft of driving fan rotation is connected on the motor, the linkage unit includes being fixed on drive First bevel gear, the second bevel gear engaged with first bevel gear on moving axis and the triconodont engaged with second bevel gear Wheel, the third hand tap gear is parallel with first bevel gear, and the center of the third hand tap gear is fixed with shaft, the shaft One end far from third hand tap gear is fixed with gear, and the shaft runs through the center of gear, the outer wall of the upper ring pipe It is fixed with the tooth band engaged with gear.

By adopting the above technical scheme, start motor, drive shaft turns, while first bevel gear being driven to rotate synchronously, first The second bevel gear rotation that bevel gear linkage engages, the third hand tap gear rotation that second bevel gear linkage engages, the The rotation of third hand tap gear drives shaft to rotate synchronously, and the rotation of shaft drives the gear synchronous rotation being firmly connected with it, gear The tooth band engaged that links is mobile, so that upper ring pipe rotates, so that cooling tube group rotates, and operation letter Just, while the driving force of motor is fully used, is conducive to the utilization rate for improving the energy, is beneficial to energy conservation environmental protection.

Preferably, the water service pipe is arranged in the shape of a spiral.

By adopting the above technical scheme, by the spiral setting of water service pipe, so that water service pipe when stirring cooling water, holds It is easier that cooling water forms turbulent flow, so that cooling water seethes, be conducive to the mobility for accelerating cooling water, so that the cooling of cooling water Speed is accelerated, and the water temperature of cooling water is advantageously reduced, so that the exchange rate of the hot water in cooling water and cooling tube group It improves, and then is conducive to improve the cooling efficiency of cooling tower；Meanwhile spiral helicine water service pipe is conducive to extend central air conditioner system Flow path of the hot water in water service pipe so that extended residence time of the hot water in water service pipe, so that hot water is cooled More sufficiently.

Preferably, iron wire is wound between adjacent water service pipe.

By adopting the above technical scheme, by being wound with the setting of iron wire between adjacent water service pipe, be conducive to improve cooling tube The stability of group, so that several water service pipes in cooling tube group are easier to rotate synchronously, so that cooling tube group is to cooling water Agitation force more stable and uniform, be conducive to accelerate cooling water mobility so that the cooling efficiency of cooling tower improves.

Preferably, the tower body bottom is fixed with the support frame of support cooling tube group, and being recessed on support frame as described above has under confession The holding tank of ring pipe insertion.

By adopting the above technical scheme, by the setting of support frame and holding tank, so that lower ring pipe is in holding tank transfer It is dynamic, advantageously ensure that the stability of lower ring pipe rotation, meanwhile, support frame provides support force to cooling tube group, is conducive to mention The stability of high cooling tube group.

Preferably, being covered in the holding tank has rolling member.

By adopting the above technical scheme, by the setting of rolling member, be conducive to the frictional force for reducing lower ring pipe and holding tank, So that lower ring pipe is easier to rotate along holding tank, so that cooling tube group is easier to be actuated to rotate, advantageously reduce Drive energy is beneficial to energy conservation environmental protection.

Preferably, ventilation pipe is communicated at the top of the tower body, the ventilation is managed far from one end at the top of tower body close to cold But the water surface of water.

By adopting the above technical scheme, by the setting for pipe of taking a breath, so that the speed air flow on the cooling water water surface is accelerated, So that the hot gas in cooling water is easier to carry out heat exchange with the external world, be conducive to the cooling velocity for accelerating cooling water, thus The exchange rate for being conducive to improve the hot water in cooling water and cooling tube group, so that the cooling efficiency of cooling tower improves.

Preferably, the bearing is sealing bearing.

By adopting the above technical scheme, it is the setting for sealing bearing by bearing, is conducive to improve cooling tube group and outlet pipe And the leakproofness of the junction of water inlet pipe, so that the junction of cooling tube group and outlet pipe and water inlet pipe is not easy leak.

Preferably, one end that the ventilation is managed at the top of tower body is covered with strainer.

By adopting the above technical scheme, by the setting of strainer, so that the rubbish incidental outside tower body is easily detected by ventilation pipe It falls in cooling water, is conducive to the cleaning for keeping cooling water.

In conclusion the utility model has the following beneficial effects:

1. stir cooling water by cooling tube group so that the cooling rate of cooling water is accelerated so that cooling water with it is cold But the exchange rate of the hot water of Guan Zuzhong improves, and is conducive to the cooling efficiency for improving cooling tower；

2. rotating by fan, so that the hot-air in cooling tower is easier to be dispersed into outside cooling tower, be conducive to accelerate cold But the cooling rate of water, and then improve the cooling efficiency of cooling tower；

3. the driving force rotated by motor-driven fan drives cooling tube to rotate simultaneously, be conducive to save power source, It is beneficial to energy conservation environmental protection；

4. the rotation of cooling tube group is conducive to accelerate the heat transfer speed of cooling water, so that the cooling water in cooling tower Water temperature is more uniform, thus be conducive to accelerate the exchange rate of the hot water in cooling water and cooling tube group, so that cooling tower Cooling efficiency improves；

5. being conducive to extend hot water by being interconnected between several water service pipes and ring pipe and stopping in cooling tube group The time is stayed, so that hot water is more sufficiently cooled, is conducive to the cooling efficiency for improving cooling tower.

Detailed description of the invention

Fig. 1 is the overall structure diagram of central air-conditioning energy-saving cooling tower in the utility model；

Fig. 2 is the schematic diagram of internal structure of central air-conditioning energy-saving cooling tower in the utility model；

Fig. 3 is in the utility model for illustrating the structural schematic diagram of cooling tube group；

Fig. 4 is in the utility model for illustrating the structural schematic diagram of support frame.

In figure: 1, tower body；11, ventilation opening；12, ventilation mouth；13, strainer；14, ventilation pipe；2, fixed frame；21, motor； 22, drive shaft；23, fan；3, linkage unit；31, first bevel gear；32, second bevel gear；33, third hand tap gear；34, turn Axis；35, gear；36, tooth band；37, fixing axle；4, cooling tube group；41, water service pipe；42, upper ring pipe；43, lower ring pipe；44, Upper communicating pipe；45, upper connector；46, lower communicating tube；47, lower connector；48, water inlet pipe；49, outlet pipe；5, iron wire；6, axis It holds；7, support frame；71, holding tank；72, rolling member；73, through-hole.

Specific embodiment

With reference to the accompanying drawings and embodiments, the utility model is described in further detail.

A kind of central air-conditioning energy-saving cooling tower, referring to fig. 2, including tower body 1, the top of tower body 1 be equipped with fan 23 and The motor 21 that driving fan 23 rotates.Cooling tube group 4 is equipped in tower body 1, cooling tube group 4 is communicated with water inlet pipe 48 and outlet pipe 49.The linkage unit 3 rotated synchronously with fan 23 to drive cooling tube group 4 to rotate is additionally provided in tower body 1.

Referring to Fig. 1 and Fig. 2, in a rectangular parallelepiped shape, tower body 1 is fixed with fixed frame 2 to tower body 1 on the side wall at top, electricity Machine 21 is fixed on fixed frame 2.Drive shaft 22 is rotatably connected on motor 21, drive shaft 22 extends along the vertical direction.Fan 23 It is fixedly connected in drive shaft 22.

Referring to Fig. 1 and Fig. 2, the top of tower body 1 is provided with ventilation opening 11, and ventilation opening 11 is placed in the centre bit of 1 roof of tower body It sets, the radius of ventilation opening 11 is consistent with the radius of 23 blade of fan.The top of tower body 1 be also provided with ventilation mouth 12, ventilation opening 11 with Strainer 13 is all covered on ventilation mouth 12.Ventilation mouth 12 is communicated with ventilation pipe 14, and ventilation pipe 14 is vertically arranged, and ventilation pipe 14 is separate The water surface of one end cooling water in tower body 1 at 1 top of tower body.

Referring to fig. 2 and Fig. 3, cooling tube group 4 include several water service pipes 41, and several water service pipes 41 are in spiral shell along the vertical direction Shape is revolved to extend.The top of several water service pipes 41 is communicated with ring pipe 42, and upper ring pipe 42 is connected to several water service pipes 41, if Dry water service pipe 41 is distributed around the even circumferential of upper ring pipe 42.The bottom end of several water service pipes 41 is communicated with lower ring pipe 43, under Ring pipe 43 is connected to several water service pipes 41, and several water service pipes 41 are distributed around the even circumferential of lower ring pipe 43, lower annular Pipe 43 is parallel with upper ring pipe 42, and the shape size of lower ring pipe 43 is consistent with the shape size of upper ring pipe 42.

Referring to Fig. 3, cooling tube group 4 is equipped with several groups, and the upper ring pipe 42 of difference group cooling tube group 4 is in same level height On, 42 concentric of upper ring pipe of difference group cooling tube group 4, between the upper ring pipe 42 and the center of circle of difference group cooling tube group 4 Apart from inconsistent, the spacing between adjacent upper ring pipe 42 is consistent.

Referring to Fig. 3, for the lower ring pipe 43 of difference group cooling tube group 4 in same level height, difference organizes cooling tube group 4 The lower ring pipe 43 of lower 43 concentric of ring pipe, difference group cooling tube group 4 is inconsistent at a distance from the center of circle, adjacent lower ring pipe 43 Between spacing it is consistent.

Referring to Fig. 3, the upper ring pipe 42 of same cooling tube group 4 is consistent with the shape size of lower ring pipe 43.Adjacent upper ring Iron wire 5 is wound between shape pipe 42.

Referring to Fig. 3, communicating pipe 44, upper communicating pipe 44 and all upper ring pipes 42 were communicated between adjacent upper ring pipe 42 It was connected to, upper communicating pipe 44 is in same level height with all upper ring pipes 42.One end of upper communicating pipe 44 and distance The upper ring pipe 42 of the farthest cooling tube group 4 in the center of circle is connected to, and the other end of upper communicating pipe 44 is placed in the center of circle position of ring pipe 42 It set, the one end for the center location that upper communicating pipe 44 is placed in ring pipe 42 is connected with upper connector 45, upper connector 45 The direction that length is directed away from ring pipe 42 along the vertical direction extends.

Referring to Fig. 3, upper connector 45 is fixedly connected with bearing 6, in the present embodiment, axis far from one end of upper communicating pipe 44 6 are held as sealing bearing 6.Bearing 6 is fixedly connected with outlet pipe 49 far from one end of upper connector 45, and outlet pipe 49 is connected to header tank (not shown).Upper connector 45 is fixedly connected on the turning collar of bearing 6, and outlet pipe 49 is fixedly connected on consolidating for bearing 6 On fixed circle.

Referring to Fig. 3, lower communicating tube 46, lower communicating tube 46 and all lower ring pipes 43 are communicated between adjacent lower ring pipe 43 It is connected to, lower communicating tube 46 and all lower ring pipes 43 are in same level height.One end of lower communicating tube 46 and distance The lower ring pipe 43 of the farthest cooling tube group 4 in the center of circle is connected to, and the other end of lower communicating tube 46 is placed in the center of circle position of lower ring pipe 43 It sets, one end that lower communicating tube 46 is placed in the center location of lower ring pipe 43 is connected with lower connector 47, lower connector 47 The direction that length is directed away from lower ring pipe 43 along the vertical direction extends.

Referring to Fig. 3, lower connector 47 is fixedly connected with bearing 6, in the present embodiment, axis far from one end of lower communicating tube 46 6 are held as sealing bearing 6.Bearing 6 is fixedly connected with water inlet pipe 48 far from one end of lower connector 47, and water inlet pipe 48 is connected to central hollow The hot water drainpipe (not shown) of adjusting system.Lower connector 47 is fixedly connected on the turning collar of bearing 6, and water inlet pipe 48 is solid Surely it is connected on the retainer plate of bearing 6.

Referring to Fig. 3, several water service pipes 41 are parallel to each other, are wound with iron wire 5 between adjacent water service pipe 41.

Referring to fig. 2, linkage unit 3 includes the first bevel gear 31 being fixed in drive shaft 22, nibbles with first bevel gear 31 The second bevel gear 32 of conjunction and the third hand tap gear 33 engaged with second bevel gear 32.

Referring to fig. 2, first bevel gear 31 is placed in the top of 23 blade of fan, and drive shaft 22 is in first bevel gear 31 Heart position, first bevel gear 31 is horizontally disposed, 31 inner hollow of first bevel gear.Second bevel gear 32 is vertically arranged, the second cone Gear 32 is rotationally connected on the side wall of tower body 1.Third hand tap gear 33 is horizontally disposed, third hand tap gear 33 and first bevel gear 31 In parallel.Through there is shaft 34, shaft 34 is vertically arranged for the center of third hand tap gear 33, and shaft 34 is fixedly connected on third cone On gear 33.Shaft 34 is fixedly connected with gear 35 far from one end of third hand tap gear 33, and shaft 34 runs through the center of gear 35 Position.

Referring to fig. 2, the axial direction of gear 35 extends along the vertical direction, and gear 35 and upper ring pipe 42 are placed in same level height On.Gear 35 is connected with fixing axle 37 far from the side of shaft 34, and fixing axle 37 extends along the vertical direction, and fixing axle 37 is fixed on In tower body 1.Gear 35 is rotationally connected with the end of 37 one end of fixing axle, and gear 35 and the rotating joint of fixing axle 37 are placed in tooth The center of wheel 35.Gear 35 rotates in the horizontal direction.The tooth engaged with gear 35 is fixed on the outer wall of upper ring pipe 42 Band 36.

Referring to fig. 2 and Fig. 4, the bottom of tower body 1 are fixed with support frame 7, and fixing axle 37 is fixed far from one end of gear 35 In on support frame 7.The upper surface recess of support frame 7 has the holding tank 71 for the insertion of lower ring pipe 43, and lower 43 part of ring pipe is embedding Enter in holding tank 71, lower 43 part of ring pipe protrudes from outside holding tank 71, and cooling tube group 4 is placed on support frame 7.In holding tank 71 Being covered with has rolling member 72, and in the present embodiment, rolling member 72 is ball, and rolling member 72 is uniformly distributed around holding tank 71.

Referring to fig. 2 and Fig. 4, it is also provided on support frame 7 for the perforative through-hole 73 of lower connector 47, lower connector 47 runs through Support frame 7.

The operating condition and principle of the present embodiment are as follows:

The hot water of central air conditioner system enters lower connector 47 by water inlet pipe 48 and flows in lower communicating tube 46, passes through Lower communicating tube 46 enters in lower ring pipe 43, and flows in several lower ring pipes 43, when the hot water of central air conditioner system fills When completely descending ring pipe 43, with increasing for rate of water added, water can be gradually increasing in supreme ring pipe 42 along water service pipe 41, and on several It is flowed in ring pipe 42, when being each filled with hot water in several upper ring pipes 42, hot water was flowed along upper communicating pipe 44, and along upper connection Pipe 45 rises, and is expelled in header tank by outlet pipe 49.

During hot water flows in cooling tube group 4, hot water and the cooling water for impregnating cooling tube group 4 carry out heat exchange, So that the water temperature of cooling water increases, so that the water temperature of hot water reduces in cooling tube group 4, to realize cooling function.

By the way that the hot water adverse current in central air conditioner system is passed through cooling tube group 4, while passing through several water service pipes 41, upper ring The setting being connected between shape pipe 42 and lower ring pipe 43, so that the flowing velocity of hot water slows down, so that hot water is in cooling tube Extended residence time in group 4, is conducive to extend the time of the heat exchange of hot water and cooling water, is conducive in cooling tube group 4 Hot water is fully cooled, so that the cooling efficiency of cooling tower improves.

While hot water is passed through water inlet pipe 48, start motor 21, so that drive shaft 22 rotates, drive shaft 22 drives fan 23 rotations, the rotation of fan 23 is so that the speed air flow in tower body 1 is accelerated, so that the air accelerated inside and outside tower body 1 follows Ring speed is conducive to the cooling velocity for accelerating cooling water so that the hot-air in tower body 1 is easier to be dispersed into outside tower body 1, thus Improve the cooling efficiency of cooling tower.

Made by the hollow setting of first bevel gear 31 so that first bevel gear 31 is not easy to influence the ventilation of fan 23 Air is obtained more easily by ventilation opening 11, to be conducive to accelerate the speed of air flowing, is conducive to the cooling for accelerating cooling water Speed, so that the cooling efficiency of cooling tower improves.

By the setting for pipe 14 of taking a breath, so that the air on the cooling water water surface carries out recycle stream more easily by ventilation pipe 14 It is dynamic, thus be conducive to accelerate the speed air flow of the cooling water water surface, so that be easier to carry out heat exchange with the external world in tower body 1, So that the cooling rate of cooling water improves, so that the cooling efficiency of cooling tower improves.

By being all covered with strainer 13 on ventilation opening 11 and ventilation mouth 12, so that extraneous rubbish incidental is not easy to fall To tower body 1, be conducive to the cleaning for keeping cooling water in tower body 1.

Meanwhile the rotation of drive shaft 22 drives first bevel gear 31 to rotate synchronously, the linkage of first bevel gear 31 engages Second bevel gear 32 rotate synchronously, the link third hand tap gear 33 that engages of second bevel gear 32 rotates synchronously, third cone The rotation of gear 33 is so that the shaft 34 being firmly connected with it rotates synchronously, and the rotation of shaft 34 is so that the tooth being firmly connected with it Wheel 35 rotates synchronously, and gear 35 rotates the movement of tooth band 36 so that engaging, so that upper ring pipe 42 rotates, So that rotating with the cooling tube group 4 of upper 42 integrally connected of ring pipe, so that the cooling water in cooling tower is stirred.

The rotation of driving cooling tube group 4 is conducive to save while rotation by 21 driving fan 23 of motor to stir cooling water About power source is beneficial to energy conservation environmental protection so that the utilization rate of the energy improves.

Meanwhile cooling water is stirred by cooling tube group 4, so that the mobility of cooling water is accelerated, so that cooling water Cooling rate is accelerated, the agitation of cooling tube group 4 while the heat transfer speed for being conducive to accelerate cooling water, so that the water of cooling water Temperature it is more uniform so that the water temperature on 4 periphery of cooling tube group be not easy it is higher than water temperature elsewhere, be conducive to accelerate hot water With the heat exchange of cooling water so that the cooling efficiency of cooling tower improves.

By the spiral setting of water service pipe 41, so that cooling tube group 4 is when stirring cooling water, cooling water is easier shape At turbulent flow, so that being seethed inside cooling water, so that the mobility of cooling water is accelerated, so that the cooling velocity of cooling water adds Fastly, be conducive to the heat exchange of cooling water and hot water, so that the cooling efficiency of cooling tower improves；Meanwhile spiral helicine water service pipe 41 It is conducive to extend flow path of the hot water in water service pipe 41, so that residence time of the hot water in water service pipe 41 is longer, so that Hot water is more sufficiently cooled.

By being wound with iron wire 5 between adjacent upper ring pipe 42 and between adjacent water service pipe 41, so that cooling tube group 4 Stability improve so that cooling tube group 4 during rotation be easier rotate synchronously so that the 4 pairs of coolings of cooling tube group The more uniform stabilization of the agitation force of water, so that the mobility of cooling water is accelerated, to improve the cooling efficiency of cooling tower.

By the setting of support frame 7, be conducive to enhance the supporting role to cooling tube group 4, improve cooling tube group 4 and rotating Stability in the process,

The setting of ball is evenly distributed with by being equipped in holding tank 71, so that lower ring pipe 43 is easier along holding tank 71 Rotation, so that being easier to be actuated to rotate with the cooling tube group 4 of lower 43 integrally connected of ring pipe, advantageously reduces driving The energy is conducive to save drive energy, is beneficial to energy conservation environmental protection.

By sealing the setting of bearing 6, so that junction and lower connector between upper connector 45 and outlet pipe 49 The leakproofness of junction between 47 and water inlet pipe 48 improves so that junction between upper connector 45 and outlet pipe 49 and Junction between lower connector 47 and water inlet pipe 48 is not easy leak.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (10)

1. a kind of central air-conditioning energy-saving cooling tower, it is characterized in that: including tower body (1), the top of the tower body (1) is equipped with fan (23) and the motor (21) of driving fan (23) rotation, the tower body (1) are interior equipped with the cooling tube group being immersed in cooling water (4), the linkage unit (3) rotated synchronously with fan (23) to drive cooling tube group (4) to rotate, institute are equipped in the tower body (1) The top and bottom end for stating cooling tube group (4) are equipped with bearing (6), and the bearing (6) is placed in the centre bit of cooling tube group (4) It sets, the bearing (6) of cooling tube group (4) bottom end is connected with water inlet pipe (48), the bearing (6) on cooling tube group (4) top It is connected with outlet pipe (49).

2. central air-conditioning energy-saving cooling tower according to claim 1, it is characterized in that: the cooling tube group (4) is if include The top of dry water service pipe (41), several water service pipes (41) is communicated with ring pipe (42), several water service pipes (41) Bottom end is communicated with lower ring pipe (43), and the upper ring pipe (42) and lower ring pipe (43) connect with several water service pipes (41) It is logical.

3. central air-conditioning energy-saving cooling tower according to claim 2, it is characterized in that: being connected with drive on the motor (21) The drive shaft (22) of dynamic fan (23) rotation, the linkage unit (3) include the first bevel gear being fixed on drive shaft (22) (31), the second bevel gear (32) engaged with first bevel gear (31) and the third hand tap gear engaged with second bevel gear (32) (33), the third hand tap gear (33) is parallel with first bevel gear (31), and the center of the third hand tap gear (33) is fixed Have shaft (34), the shaft (34) is fixed with gear (35) far from the one end of third hand tap gear (33), and the shaft (34) is passed through The center of gear (35) is worn, the outer wall of the upper ring pipe (42) is fixed with the tooth band (36) engaged with gear (35).

4. central air-conditioning energy-saving cooling tower according to claim 3, it is characterized in that: the water service pipe (41) is in the shape of a spiral Setting.

5. central air-conditioning energy-saving cooling tower according to claim 4, it is characterized in that: being wound between adjacent water service pipe (41) There are iron wire (5).

6. central air-conditioning energy-saving cooling tower according to claim 1, it is characterized in that: the tower body (1) bottom is fixed with The support frame (7) of cooling tube group (4) is supported, recess has the holding tank for lower ring pipe (43) insertion on support frame as described above (7) (71)。

7. central air-conditioning energy-saving cooling tower according to claim 6, it is characterized in that: being covered in the holding tank (71) has Rolling member (72).

8. central air-conditioning energy-saving cooling tower according to claim 1, it is characterized in that: the top of the tower body (1) is connected to There is ventilation pipe (14), the ventilation pipe (14) is far from one end at the top of tower body (1) close to the water surface of cooling water.

9. central air-conditioning energy-saving cooling tower according to claim 1, it is characterized in that: the bearing (6) is sealing bearing (6)。

10. central air-conditioning energy-saving cooling tower according to claim 8, it is characterized in that: ventilation pipe (14) is close to tower One end at the top of body (1) is covered with strainer (13).