CN215570885U

CN215570885U - Constant temperature dehumidification rotary turbine unit

Info

Publication number: CN215570885U
Application number: CN202121714808.8U
Authority: CN
Inventors: 李明宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2022-01-18
Anticipated expiration: 2031-07-27

Abstract

The utility model relates to the technical field of air treatment systems, in particular to a constant-temperature dehumidification rotary turbine unit; the utility model comprises a housing component and a dehumidifying component, wherein the housing component comprises a first box body, a second box body and a third box body which are sequentially and hermetically connected, circular grooves are formed in the middle parts of the side walls at the two transverse ends of the second box body in a penetrating mode, the dehumidifying component comprises a rotating wheel, an air filter, a processing fan, a regenerative heater, a regenerative fan and a flow dividing component, the rotating wheel is arranged in the second box body, the central axis of the rotating wheel is collinear with the central axis of the circular grooves, the flow dividing components are arranged on the side walls of the input end and the output end of the rotating wheel respectively, the flow dividing component comprises a closed pipe, an inner pipe, a fan ring pipe, an outer pipe, a flow dividing pipe and a ring pipe, a fourth box body is further arranged at the third box body, an output pipe penetrates through the third box body and penetrates through the fourth box body, and a temperature regulating component matched with the output pipe is arranged at the fourth box body; the utility model can effectively solve the problems that the dehumidification capability still has poor space improvement and indoor constant temperature capability in the prior art.

Description

Constant temperature dehumidification rotary turbine unit

Technical Field

The utility model relates to the technical field of air treatment systems, in particular to a constant-temperature dehumidification rotary turbine unit.

Background

The rotary dehumidifier belongs to an important branch in the field of air conditioners and is a typical representative of temperature rise dehumidification, the main part of the rotary dehumidifier is a rotary wheel, the surface of the rotary wheel is coated with a moisture absorbent, the surface of the rotary wheel is provided with a honeycomb porous channel, moisture in wet air flowing through the rotary wheel can be absorbed by slowly rotating the rotary wheel, and the rotary wheel after moisture absorption can be dried and blown by high-temperature drying airflow to enable the moisture absorbent to be dehydrated and regenerated.

In the application number: the patent document discloses a constant-temperature and constant-humidity type rotary dehumidifier, which comprises a rotary wheel, wherein the rotary wheel is divided into a treatment area and a regeneration area by a partition plate; the automatic air conditioning system is characterized by further comprising a first air valve, a primary filter and a first front surface cooler which are sequentially connected, wherein the first front surface cooler is connected with a second front surface cooler through a first pipeline, the output of the second front surface cooler is sequentially connected with a processing area of a rotating wheel, a third pipeline, an air feeder, a rear surface cooler, a heating device and a humidifying device, the output end of the humidifying device is connected with a working chamber, the outer end of the working chamber is connected with the first pipeline through a second pipeline, and the second air valve is mounted on the second pipeline; the upper part of the working chamber is connected with a third pipeline through a fourth pipeline, and a third air valve is installed on the fourth pipeline; the device also comprises a regeneration filter, a regeneration heater, a regeneration area of the rotating wheel and a regeneration fan which are sequentially connected. The use effect is good. However, the following disadvantages still exist in the practical application process:

firstly, the dehumidifying capacity still has a lifting space, because only one processing area and one regeneration area are arranged on the rotating wheel, when the ambient humidity is higher, the processing area on the rotating wheel is easy to have a larger water absorption saturation area, so that the dehumidifying capacity of the rotating wheel is reduced, at this moment, the rotating speed of the rotating wheel is required to be increased, and the temperature of the regeneration heater is increased (or the air inlet flow of the input end of the rotating wheel is reduced), but the energy consumption is increased (or the dehumidifying efficiency is reduced) by the means, namely, when the device in the comparison file faces the environment with high humidity, the dehumidifying efficiency and the low energy consumption cannot be considered.

Secondly, the indoor constant temperature capability is not good, because the gas circulation is needed in the dehumidification process, which causes a certain fluctuation to the indoor environment temperature, and the device in the above-mentioned comparison document does not adjust the temperature of the output dry gas, thereby ensuring that the indoor environment temperature is maintained within the allowable range of the specified value.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving the problems of the prior art, and the problems set forth in the background above.

In order to achieve the purpose, the utility model adopts the following technical scheme: a constant temperature dehumidification rotary turbine unit comprises a housing component and a dehumidification component; the encloser assembly comprises a first box body, a second box body and a third box body which are sequentially and hermetically connected, and circular grooves penetrate through the middle parts of the side walls at the two transverse ends of the second box body; the dehumidifying component comprises a rotating wheel, an air filter, a processing fan, a regenerative heater, a regenerative fan and a flow dividing component, the rotating wheel is arranged in the second box body, the central axis of the rotating wheel is collinear with the central axis of the circular groove, the flow dividing components are arranged on the side walls of the input end and the output end of the rotating wheel, each flow dividing component comprises a closed tube, an inner tube, a fan ring tube, an outer tube, a flow dividing tube and a ring tube, the inner tube matched with the closed tube is fixedly connected to the bottom wall of one end of the closed tube, a group of air exchanging grooves are symmetrically formed in the side wall of the inner tube, a group of fan ring tubes conducting the closed tube is symmetrically arranged on the bottom wall of the inner ring area of the closed tube, the outer tube is sleeved on the connecting tube in a sealing manner, the tube openings of the inner tube and the outer tube are both fixed on the outer side wall of the circular groove on the second box body in a sealing manner, and the tube openings of the fan ring tubes are close to the bottom wall of the rotating wheel, the outer pipe is symmetrically provided with a group of shunt pipes for conducting the inside of the outer pipe, and the shunt pipes on the same outer pipe are connected to the same annular pipe; the inside air cleaner of first box, handle fan and the annular pipe that corresponds connect gradually through the pipe, the inside regeneration fan of first box switches on through the inside of pipe with the closed pipe that corresponds, the inside regeneration fan of third box, regenerative heater and the annular pipe that corresponds connect gradually through the pipe, still be equipped with on the closed pipe of third box inside and switch on its inside output tube.

Further, the rotary wheel is driven to rotate by a driving motor inside the second casing through a belt.

Furthermore, a water drainage groove is further formed in the bottom wall of the second box body, a water drainage pipe is arranged at a notch of the water drainage groove in the outer side wall of the second box body, and a collecting barrel is arranged at the tail end of the water drainage pipe.

Furthermore, all set up the air guide groove that switches on the external world on first box and the third box, be equipped with sealing door on first box, second box and the third box, the pipe of regeneration fan output is worn out first box and is stretched out to outdoor.

Furthermore, the number of the fan ring pipes in the two sets of the flow dividing assemblies is the same, the sum of central angles of all the fan ring pipes in the two sets of the flow dividing assemblies is 2 pi, and the projections of all the fan ring pipes in the two sets of the flow dividing assemblies on the bottom wall of the rotating wheel are not overlapped; the number of the air exchange grooves in the inner pipe in the shunting assembly is equal to the number of the fan ring pipes, the central angle of the air exchange grooves in the inner pipe in one set of the shunting assembly is equal to the central angle of the fan ring pipes in the other set of the shunting assembly, and the projections of all the fan ring pipes in the same set of the shunting assembly on the bottom wall of the rotating wheel are not overlapped with the projections of all the air exchange grooves in the inner pipe on the bottom wall of the rotating wheel.

Furthermore, the central angle of the fan ring pipe at the input end of the rotating wheel is less than or equal to the central angle of the fan ring pipe at the output end of the rotating wheel.

Furthermore, a fourth box body is further arranged at the third box body, the output pipe penetrates out of the third box body and penetrates through the fourth box body, and a temperature adjusting assembly matched with the output pipe is arranged at the fourth box body.

Furthermore, the temperature adjusting assembly comprises a heat pipe, semiconductor refrigerating devices, cooling fans and temperature sensors, the heat pipe is sleeved on the outer wall of the output pipe, a group of mounting grooves are symmetrically formed in the heat pipe, the semiconductor refrigerating devices are arranged in the mounting grooves, cold ends and hot ends of any two adjacent semiconductor refrigerating devices are in opposite relation, the cooling fans are arranged on two sides of the pipe body of the heat pipe in the fourth box body, and the temperature sensors are arranged at pipe orifices of the fourth box body and the output pipe.

Furthermore, the fourth box body is also provided with a heat dissipation groove.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. according to the utility model, by adding the housing component and the dehumidifying component, the housing component comprises a first box body, a second box body and a third box body which are sequentially and hermetically connected, circular grooves are penetrated through the middle parts of the side walls at the two transverse ends of the second box body, the dehumidifying component comprises a rotating wheel, an air filter, a processing fan, a regenerative heater, a regenerative fan and a flow dividing component, the rotating wheel is arranged in the second box body, the central axis of the rotating wheel is collinear with the central axis of the circular grooves, the flow dividing components are arranged on the side walls of the input end and the output end of the rotating wheel, the flow dividing component comprises a closed pipe, an inner pipe, a fan ring pipe, an outer pipe, a flow dividing pipe and a ring pipe, the inner pipe matched with the closed pipe is fixedly connected on the bottom wall at one end of the closed pipe, a group of ventilation grooves are symmetrically arranged on the side wall of the inner pipe, a group of fan ring pipes communicated with the closed pipe is symmetrically arranged on the bottom wall of the inner pipe area of the closed pipe, the outer pipe is hermetically sleeved on the connecting pipe, the orifices of the inner tube and the outer tube are all fixed on the outer side wall of the circular groove on the second box body in a sealing mode, the orifices of the fan ring tubes are close to the bottom wall of the rotating wheel, a group of shunt tubes conducting the inside of the fan ring tubes are symmetrically arranged on the outer tube, and the shunt tubes on the same outer tube are all connected to the design of the same ring tube. By dividing the rotating wheel into a plurality of groups of matched treatment areas and regeneration areas and alternately distributing the treatment areas and the regeneration areas, the water content of the rotating wheel on the whole is reduced, the water content of each treatment area on the rotating wheel is the same, and the dryness of each regeneration area is the same, namely the water absorption capacity of each treatment area on the rotating wheel is always kept in a higher state. The effect of effectively improving the dehumidification capability of the product is achieved.

2. According to the utility model, by adding the stripe assembly, the temperature adjusting assembly comprises a heat conduction pipe, semiconductor refrigerating devices, cooling fans and temperature sensors, the heat conduction pipe is sleeved on the outer wall of the output pipe, a group of mounting grooves are symmetrically formed in the heat conduction pipe, the semiconductor refrigerating devices are arranged in the mounting grooves, cold ends and hot ends of any two adjacent semiconductor refrigerating devices are in an opposite relation, the cooling fans are arranged on two sides of the pipe body of the heat conduction pipe in the fourth box body, and the temperature sensors are arranged at pipe orifices of the fourth box body and the output pipe. The gas after the wheel is dried can be correspondingly heated or cooled through the temperature sensor, the heat conduction pipe, the semiconductor refrigerating device and the heat dissipation fan, so that the difference between the temperature of the dry gas input into the room and the temperature of the indoor environment is ensured to be within an allowable range. The effect of effectively improving the indoor constant temperature keeping capability of the product is achieved.

Drawings

FIG. 1 is a pictorial view of the present invention from a first perspective;

FIG. 2 is a schematic view of a second housing of the present invention, partially in section, at a second viewing angle;

FIG. 3 is a partially sectioned pictorial view of the first casing at a third viewing angle in accordance with the present invention;

FIG. 4 is a partially sectioned pictorial view of a third casing and a fourth casing at a fourth viewing angle in accordance with the present invention;

FIG. 5 is a structural relationship diagram of the dehumidifying module and the temperature regulating module according to a fifth perspective of the present invention;

FIG. 6 is an exploded view of the diverter assembly at the input end of the rotor from a sixth perspective in accordance with the present invention;

fig. 7 is an exploded view of the diverter assembly at the output end of the rotor from a seventh perspective in accordance with the present invention.

The reference numerals in the drawings denote: 1-a first box; 2-a second box body; 3-a third box body; 4-rotating wheel; 5-an air filter; 6, processing a fan; 7-a regenerative heater; 8-a regenerative fan; 9-closing the tube; 10-an inner tube; 11-fan ring pipe; 12-an outer tube; 13-a shunt tube; 14-a ring-shaped tube; 15-air exchange groove; 16-an output pipe; 17-a drive motor; 18-a belt; 19-a drainage channel; 20-a drain pipe; 21-a collection barrel; 22-a gas guide groove; 23-a sealing door; 24-a fourth box; 25-a heat pipe; 26-a semiconductor refrigeration device; 27-a heat dissipation fan; 28-a temperature sensor; 29-heat sink.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

The constant-temperature dehumidification rotary turbine unit of the embodiment is as follows, with reference to fig. 1 to 7: comprises a casing component and a dehumidifying component. It is noted that the product of the present invention is powered by an external power source and controlled by an external controller.

The housing subassembly is including sealing connection's first box 1, second box 2 and third box 3 in proper order, and the lateral wall middle part at the horizontal both ends of second box 2 all runs through there is the circular slot.

The dehumidifying component comprises a rotating wheel 4, an air filter 5, a processing fan 6, a regenerative heater 7, a regenerative fan 8 and a flow dividing component, the rotating wheel 4 is arranged in the second box body 2, the central axis of the rotating wheel is collinear with the central axis of the circular groove, and the rotating wheel 4 is driven to rotate by a driving motor 17 in the second box body 2 through a belt 18.

Wherein, the air filter 5 can effectively ensure that the air passing through the rotating wheel 4 is clean (i.e. the air passing through the rotating wheel 4 does not contain larger solid particle impurities), thereby effectively improving the sanitation of the product when in use.

The input end of the rotating wheel 4 and the side wall of the output end are respectively provided with a shunt assembly, the shunt assembly comprises a closed tube 9, an inner tube 10, a fan ring tube 11, an outer tube 12, a shunt tube 13 and a ring tube 14, the bottom wall of one end of the closed tube 9 is fixedly connected with the inner tube 10 matched with the closed tube, the side wall of the inner tube 10 is symmetrically provided with a group of ventilation grooves 15, the bottom wall of the closed tube 9 in the inner ring area of the inner tube 10 is symmetrically provided with a group of fan ring tubes 11 conducting the inside of the closed tube 9, the outer tube 12 is sleeved on the connecting tube in a sealing manner, the orifices of the inner tube 10 and the outer tube 12 are fixed on the outer side wall of the circular groove on the second box body 2 in a sealing manner, the orifice of the fan ring tube 11 is close to the bottom wall of the rotating wheel 4, the outer tube 12 is symmetrically provided with a group of shunt tubes 13 conducting the inside of the outer tube, and the shunt tubes 13 on the same outer tube 12 are connected to the same ring tube 14.

The number of the ventilation grooves 15 on the inner pipe 10 in the shunt assembly is equal to the number of the fan ring pipes 11, the central angle of the ventilation grooves 15 on the inner pipe 10 in one set of shunt assembly is equal to the central angle of the fan ring pipes 11 in the other set of shunt assembly, and the projection of all the fan ring pipes 11 on the bottom wall of the rotating wheel 4 in the same set of shunt assembly and the projection of all the ventilation grooves 15 on the bottom wall of the rotating wheel 4 on the inner pipe 10 are not overlapped with each other.

The central angle of the fan ring pipe 11 at the input end of the rotating wheel 4 is smaller than that of the fan ring pipe 11 at the output end of the rotating wheel 4, and the range of the value obtained by dividing the sum of the central angles of all the treatment areas by the sum of the central angles of all the regeneration areas is in the interval of [1, 3 ]; can guarantee effectively like this that the water content on the region that each treatment zone corresponds on the runner 4 all the time keeps at lower level, the regional water absorbing capacity that each treatment zone corresponds on the runner 4 all the time keeps at higher level promptly, because the runner 4 constantly rotates under driving motor 17's effect, thereby make the treatment zone on the runner 4 just absorb water and just get into the regeneration zone immediately and carry out drying and dehydrating, this makes the air through runner 4 can be evenly and effectively filtered moisture wherein (i.e. can not have partial air to pass through runner 4 from the region that the treatment zone is water content is more, and the treatment zone of this department can't dispel the moisture in the air effectively, thereby lead to constantly extracting the air in the indoor environment, and let air circulation reciprocating through runner 4 just can reduce the humidity of indoor environment to appointed value).

The number of the fan ring pipes 11 in the two sets of flow dividing assemblies is the same, the sum of central angles of all the fan ring pipes 11 in the two sets of flow dividing assemblies is 2 pi, and projections of all the fan ring pipes 11 in the two sets of flow dividing assemblies on the bottom wall of the rotating wheel 4 are not overlapped. In this embodiment, the number of the fan-ring pipes 11 in each set of flow splitting assemblies is 6, and then the number of the ventilation slots 15 on the inner pipe 10 in the same set of flow splitting assemblies is also 6, and the number of the flow splitting pipes 13 in the same set of flow splitting assemblies is 6.

The air filter 5, the treatment fan 6 and the corresponding annular pipe 14 in the first box body 1 are sequentially connected through a guide pipe, the regeneration fan 8 in the first box body 1 is communicated with the corresponding closed pipe 9 through the guide pipe, the regeneration fan 8, the regeneration heater 7 and the corresponding annular pipe 14 in the third box body 3 are sequentially connected through the guide pipe, the closed pipe 9 in the third box body 3 is further provided with an output pipe 16 for communicating the interior of the third box body, and the output pipe 16 is used for discharging air after the rotating wheel 4 is dried to the indoor.

In summary, the runner 4 is designed to have the treatment area and the regeneration area alternately distributed by the diversion component, which is beneficial to improving the dehumidification capability of the whole runner 4, and the air passing through the runner 4 can be dried to the specified humidity interval at one time without greatly increasing the temperature of the regeneration fan 8 or the rotating speed of the runner 4 (compared with the device in the reference document) under the high humidity environment.

The drain tank 19 has still been seted up on the inside diapire of second box 2, the notch department that drain tank 19 is in on the second box 2 lateral wall is equipped with drain pipe 20, drain pipe 20's end is equipped with collecting vessel 21, this is because it is not direct contact but be close to a very little distance each other between fan ring canal 11 and the runner 4, consequently, the exhaust damp and hot air of each regeneration zone has partly to lose inside the second box 2, and condense into the drop of water on the inner wall of second box 2, just so must set up drain tank 19, drain pipe 20 and collecting vessel 21 collect the inside ponding of second box 2, thereby avoid causing the inside ponding of second box 2.

In the actual production process, the bottom wall of the interior of the second tank 2 may be provided with a slight concavity and the notch of the drainage groove 19 is at the lowest point of the concavity, which facilitates the rapid drainage of the accumulated water inside the second tank 2.

The first box body 1 and the third box body 3 are both provided with air guide grooves 22 for communicating with the outside; the first box body 1, the second box body 2 and the third box body 3 are provided with sealing doors 23, so that a user can conveniently maintain the dehumidification assembly and the shunt assembly at a later stage; the duct at the output end of the regeneration fan 8 passes through the first box 1 and extends to the outside of the room, so that the hot and humid air exhausted from the regeneration area can be directly exhausted to the outside of the room, and it is noted that the indoor environment is not completely closed (for example, door frame seams, window frame seams, air conditioning duct holes on the wall, etc.). If the product of the utility model is to be used in a closed indoor environment, it is only necessary to add a refrigeration device to the conduit at the output of the regeneration fan 8, so that the hot air is cooled to release its moisture (since the threshold moisture content of the air rises with increasing temperature).

A fourth box body 24 is also arranged at the third box body 3, the output pipe 16 penetrates out of the third box body 3 and penetrates through the fourth box body 24, and a temperature adjusting assembly matched with the output pipe 16 is arranged at the fourth box body 24; the subassembly that adjusts the temperature includes heat pipe 25, semiconductor refrigerating plant 26, cooling fan 27 and temperature sensor 28, heat pipe 25 cup joints on the outer wall of output tube 16, a set of mounting groove has been seted up symmetrically on heat pipe 25, all be equipped with semiconductor refrigerating plant 26 in the mounting groove, and arbitrary two adjacent semiconductor refrigerating plant 26's cold junction, the hot junction is opposite relation, fourth box 24 is inside all is equipped with cooling fan 27 in the body both sides of heat pipe 25, the mouth of pipe department of fourth box 24 and output tube 16 all is equipped with temperature sensor 28. The fourth casing 24 is further provided with a heat dissipation groove 29 for cooperating with the heat dissipation fan 27 and the semiconductor refrigeration device 26.

It should be noted that only the semiconductor cooling devices 26 with the same polarity on the cold and hot sides are controlled simultaneously (or each semiconductor cooling device 26 is controlled independently). This ensures that the heat-conducting pipes 25 can only heat or cool the air inside the outlet pipes 16 singly during the same time period.

External controller alright like this through temperature sensor 28 on the fourth box 24 monitor the temperature of indoor environment, the temperature of the dry gas of dehumidification subassembly output is monitored to temperature sensor 28 through the delivery pipe 16 mouth of pipe department, thereby decide the operating condition of each semiconductor refrigerating plant 26, thereby decide to heat or cool off the air in delivery pipe 16, and external controller can constantly compare two temperature sensor 28's numerical difference, thereby carry out feedback control to semiconductor refrigerating plant 26's work, until the delivery pipe 16 exports to indoor air temperature and indoor ambient temperature the same.

It should be noted that the user can also manually set the temperature of the air output by the output pipe 16 according to actual needs, so as to achieve dehumidification of the room and adjustment of the room temperature.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims

1. The utility model provides a constant temperature dehumidification runner group which characterized in that: comprises a housing component and a dehumidifying component; the encloser assembly comprises a first box body (1), a second box body (2) and a third box body (3) which are sequentially and hermetically connected, and circular grooves penetrate through the middle parts of the side walls of the two transverse ends of the second box body (2); the dehumidifying component comprises a rotating wheel (4), an air filter (5), a processing fan (6), a regenerative heater (7), a regenerative fan (8) and a shunting component, wherein the rotating wheel (4) is arranged in the second box body (2), the central axis of the rotating wheel is collinear with the central axis of the circular groove, the shunting components are arranged on the side walls of the input end and the output end of the rotating wheel (4), each shunting component comprises a closed pipe (9), an inner pipe (10), a fan ring pipe (11), an outer pipe (12), a shunting pipe (13) and a ring pipe (14), the inner pipe (10) matched with the closed pipe (9) is fixedly connected to the bottom wall of one end of the closed pipe (9), a group of ventilation grooves (15) are symmetrically formed in the side wall of the inner pipe (10), the fan ring pipe (11) which conducts the inside of the closed pipe (9) is symmetrically arranged on the bottom wall of the inner ring area of the closed pipe (9), the outer pipe (12) is sleeved on the connecting pipe in a sealing manner, the pipe orifices of the inner pipe (10) and the outer pipe (12) are fixed on the outer side wall of the circular groove on the second box body (2) in a sealing manner, the pipe orifices of the fan ring pipe (11) are close to the bottom wall of the rotating wheel (4), a group of shunt pipes (13) conducting the interior of the outer pipe (12) are symmetrically arranged on the outer pipe (12), and the shunt pipes (13) on the same outer pipe (12) are connected to the same annular pipe (14); the air filter (5), the treatment fan (6) inside the first box body (1) and the corresponding annular pipe (14) are sequentially connected through a guide pipe, the regeneration fan (8) inside the first box body (1) is communicated with the inside of the corresponding closed pipe (9) through the guide pipe, the regeneration fan (8), the regeneration heater (7) and the corresponding annular pipe (14) inside the third box body (3) are sequentially connected through the guide pipe, and an output pipe (16) for conducting the inside of the third box body (3) is further arranged on the closed pipe (9) inside the third box body.

2. A thermostatic dehumidifying rotor set as claimed in claim 1 wherein the rotor (4) is driven in rotation by a drive motor (17) inside the second housing (2) via a belt (18).

3. The constant-temperature dehumidification rotary turbine unit as claimed in claim 1, wherein a drain groove (19) is further formed in a bottom wall of the interior of the second box body (2), a drain pipe (20) is arranged at a groove opening of the drain groove (19) on the outer side wall of the second box body (2), and a collection barrel (21) is arranged at the tail end of the drain pipe (20).

4. The constant-temperature dehumidification rotary turbine unit according to claim 1, wherein the first box body (1) and the third box body (3) are respectively provided with an air guide groove (22) for conducting outside, the first box body (1), the second box body (2) and the third box body (3) are respectively provided with a sealing door (23), and a guide pipe at the output end of the regeneration fan (8) penetrates out of the first box body (1) and extends out of the room.

5. The constant-temperature dehumidification turbine unit as claimed in claim 1, wherein the number of the fan ring pipes (11) in the two sets of the flow dividing assemblies is the same, the sum of central angles of all the fan ring pipes (11) in the two sets of the flow dividing assemblies is 2 pi, and projections of all the fan ring pipes (11) in the two sets of the flow dividing assemblies on the bottom wall of the rotor (4) are not overlapped; the number of the ventilation grooves (15) in the inner pipe (10) in the flow distribution assembly is equal to the number of the fan ring pipes (11), the central angle of the ventilation grooves (15) in the inner pipe (10) in one set of the flow distribution assembly is equal to the central angle of the fan ring pipes (11) in the other set of the flow distribution assembly, and the projections of all the fan ring pipes (11) in the same set of the flow distribution assembly on the bottom wall of the rotating wheel (4) are not overlapped with the projections of all the ventilation grooves (15) in the inner pipe (10) on the bottom wall of the rotating wheel (4).

6. The constant-temperature dehumidification rotor set according to claim 5, wherein the central angle of the fan ring pipe (11) at the input end of the rotor (4) is less than or equal to the central angle of the fan ring pipe (11) at the output end of the rotor (4).

7. The constant-temperature dehumidification rotary turbine unit according to claim 1, wherein a fourth tank is further disposed at the third tank (3), the output pipe (16) penetrates through the third tank (3) and penetrates through the fourth tank, and a temperature adjustment assembly matched with the output pipe (16) is disposed at the fourth tank.

8. The constant-temperature dehumidification rotary turbine unit according to claim 7, wherein the temperature regulation component comprises a heat conduction pipe (25), semiconductor refrigeration devices (26), a heat dissipation fan (27) and a temperature sensor (28), the heat conduction pipe (25) is sleeved on the outer wall of the output pipe (16), a set of mounting grooves are symmetrically formed in the heat conduction pipe (25), the semiconductor refrigeration devices (26) are respectively arranged in the mounting grooves, cold ends and hot ends of any two adjacent semiconductor refrigeration devices (26) are in an opposite relation, the heat dissipation fans (27) are respectively arranged on two sides of the pipe body of the heat conduction pipe (25) in the fourth box body, and the temperature sensors (28) are respectively arranged at pipe openings of the fourth box body and the output pipe (16).

9. The constant-temperature dehumidification rotary turbine unit as set forth in claim 8, wherein the fourth case is further provided with a heat dissipation groove (29).