CN205065987U - Energy -conserving unit of skating rink dehumidification - Google Patents

Abstract

The utility model belongs to the technical field of rotary dehumidifier, provide energy -conserving unit of skating rink dehumidification, include: rotary dehumidifier frame, runner, wireless transceiver, electric cabinet, the import of processing wind, handle wind export, regenerated wind import and regenerated wind export, handle the wind import, handle the wind export, regenerated wind import and regenerated wind export set up on 2 sides of rotary dehumidifier frame, the runner is installed in the rotary dehumidifier frame, is divided into the runner and handles regionally and the runner regeneration zone to arrange for fan -shaped 180 pairs fan -shaped 180, wireless transceiver installs in rotary dehumidifier frame top, is connected with the electric cabinet. The utility model discloses can effectual reduce energy consumption, improve the utilization ratio of retrieving the heat, need not to use the heater in the runner regeneration zone, it is more energy -conserving, can give the cloud ware with the data transmission in time of used heat collection of data and runner treatment region intra -area, let the staff in time grasp the equipment operation circumstances, be convenient for remote debugging and maintenance are keeped in repair more in time.

Description

Dehumidify energy-conservation unit in ice stadium

Technical field

The utility model belongs to rotary dehumidifier technical field, and particularly dehumidify energy-conservation unit in ice stadium.

Background technology

The industrial rotary dehumidifier principle of rotary dehumidifier operation principle is: as runner adsorption dehumidifier, and its topmost core component is desiccant wheel, and runner, by special ultra high efficiency moisture absorption medium material, synthesizes through 40 multiple tracks processing technologys.Runner is a kind of special honeycomb, has equidistant, parallel, homogeneous air duct.Like this, runner is not only provided with the huge surface area contacted with air, improves the moisture absorption efficiency of runner simultaneously.Runner is divided into processing region and regeneration zone in dehumidifier inside, desiccant wheel with the speed slow circumvolve of 8 ~ 10 turns/hour, to ensure that whole dehumidifying is a continuous print process.When processing air by the processing region of runner, steam wherein adsorb by the moisture absorption medium in runner, steam undergoes phase transition simultaneously, becomes aqueous water, and discharges latent heat; At this moment, process air and become dry air because of the moisture minimizing of self; Afterwards, process air is sent by processing blower fan, becomes air that is dry, heat.Meanwhile, at regeneration zone, another road air is first after regenerative heater, become high temperature air (being generally 100 ~ 140 degree) and through the runner after moisture absorption, make the moisture evaporation of having adsorbed in runner, thus regeneration air becomes humid air because of the evaporation of moisture, simultaneous temperature declines; Afterwards, then by regeneration blower fan humid air is rejected to outdoor.

Conventional rotary wheel dehumidifying unit regeneration runner needs to consume a large amount of electric energy or steam, natural gas, and for regenerating heating, conventional regeneration heating-up temperature is for being generally 100 ~ 140 degree; In prior art, runner is divided into runner processing region and rotary wheel regeneration region, arranges fan-shaped 90 ° with fan-shaped 270 °.The general temperature of used heat is 40-60 °, the regeneration heating-up temperature that this kind is arranged is too high, used heat is not used substantially, therefore mounting heater in rotary wheel regeneration region is needed, used heat is heated, low heat can not be utilized to greatest extent, and adds additional thermal source, energy-saving effect is poor, and moisture removal is little.

Therefore, rotary dehumidifier technical field is badly in need of a kind of ice stadium and is dehumidified energy-conservation unit, by the used heat after recovery as regeneration wind, utilize low heat to greatest extent, energy resource consumption can be effectively reduced, improve the utilization rate reclaiming heat, without the need to using heater in rotary wheel regeneration region, more energy-conservation, the data of used heat can be collected in data and runner processing region pass to Cloud Server in time, allow staff grasp equipment operation situation in time, be convenient to remote debugging and maintenance, keep in repair more timely.

Utility model content

The utility model provides ice stadium and to dehumidify energy-conservation unit, and technical scheme is as follows:

Dehumidify energy-conservation unit in ice stadium, comprise: rotary wheel dehumidifying machine frame, runner, wireless transceiver, electric cabinet, process wind inlet, the outlet of process wind, regeneration wind inlet and the outlet of regeneration wind, and process wind inlet, the outlet of process wind is symmetricly set on 2 sides of rotary wheel dehumidifying machine frame, regeneration wind inlet and the outlet of regeneration wind are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame, and process wind inlet exports with regeneration wind and is positioned at the same side;

Runner is installed in rotary wheel dehumidifying machine frame, is divided into runner processing region and rotary wheel regeneration region, and runner processing region and rotary wheel regeneration region are arranged symmetrically with fan-shaped 180 ° with fan-shaped 180 °;

Rotary wheel dehumidifying machine frame, is divided into runner process wind side and rotary wheel regeneration wind side;

Wireless transceiver, is installed on rotary dehumidifier frame roof;

Electric cabinet, is installed in rotary wheel dehumidifying machine frame, is connected with wireless transceiver, for monitoring runner service data, and the data wireless monitored is sent to Cloud Server.

Preferably, dehumidify in above-mentioned ice stadium in energy-conservation unit, runner process wind side also comprises front surface cooler, evaporation coil, post-heater and process blower fan, and be installed on successively between process wind inlet and the outlet of process wind, evaporation coil, post-heater lay respectively at 2 sides of runner processing region.

Preferably, dehumidify in above-mentioned ice stadium in energy-conservation unit, rotary wheel regeneration wind side also comprises: compressor, condenser and regeneration blower fan, is installed on successively between regeneration wind inlet and the outlet of regeneration wind, and condenser and regeneration blower fan lay respectively at 2 sides in rotary wheel regeneration region; Compressor, to be connected by copper pipe between condenser and evaporation coil.

Preferably, dehumidify in energy-conservation unit in above-mentioned ice stadium, process wind inlet, regeneration wind inlet inside are all provided with filter.

Preferably, dehumidify in above-mentioned ice stadium in energy-conservation unit, runner is cross wheel seat, be made up of cross left-hand rotation wheel carrier, rotary dehumidifier, cross right-hand rotation wheel carrier, cross left-hand rotation wheel carrier and cross right-hand rotation wheel carrier are all installed in rotary wheel dehumidifying machine frame, 2 sides of rotary dehumidifier are installed between cross left-hand rotation wheel carrier and cross right-hand rotation wheel carrier respectively by bolt, and rotary dehumidifier is used for moisture absorption.

Preferably, dehumidify in above-mentioned ice stadium in energy-conservation unit, cross left-hand rotation wheel carrier and cross right-hand rotation wheel carrier also comprise: frame, cross bracket and rotary wheel frame support, frame is installed in rotary wheel dehumidifying machine frame, four summits of cross support are installed on frame, and every 2 rotary wheel frames support being symmetrical arranged for symmetry axis with cross support, and 2 ends are all fixed on frame, and with cross support while be connected, rotary dehumidifier is installed on the intersection point of cross support.

Preferably, dehumidify in energy-conservation unit in above-mentioned ice stadium, also comprise: runner electric machine structure, be installed in frame, by runner belt drive runner slow circumvolve.

Preferably, dehumidify in energy-conservation unit, also comprise: base in above-mentioned ice stadium, rotary dehumidifier frame installation is on base.

The beneficial effects of the utility model are:

1, runner processing region of the prior art and rotary wheel regeneration region are all arranged fan-shaped 90 ° with fan-shaped 270 °, because 90 ° of regeneration zones need to use the high temperature regeneration wind of about 90-140 ° to carry out dehumidifier regeneration, if use the used heat of 40-60 °, moisture removal is little, effect on moisture extraction is very poor, dehumidify chronic, the requirement of indoor dehumidifying in time can not be met, if 40-60 ° of used heat must be used, then need at runner processing region mounting heater, the requirement of dehumidifying could be met, from the viewpoint of cost-saving and energy-conservation, all there is very large drawback in prior art.The utility model runner processing region 201 and rotary wheel dehumidifying region 202 are arranged to fan-shaped 180 ° to fan-shaped 180 °, increase the area in rotary wheel dehumidifying region, improve moisture removal, strengthen effect on moisture extraction, reduce the dehumidifying time, improve dehumidification rate, utilize the used heat of 40-60 ° namely can meet the requirement of indoor dehumidification, without the need to extra heat source, used heat is heated, more energy-conservation, cost-saving.Rotary wheel regeneration region 202 of the present utility model can make full use of the used heat of 60 ° as regeneration wind, and without the need to using heater to heat, Waste Heat Reuse is abundant, without the need to additional energy source, and economize energy.

2, the utility model is provided with base 9 bottom rotary wheel dehumidifying machine frame 1, strengthens the stability of rotary wheel dehumidifying machine frame 1, and under the effect processing blower fan and compressor, rotary wheel dehumidifying machine frame 1 rocks little, more stable, not easily has an accident, and operates safer.The utility model is provided with wireless transceiver 3 at rotary wheel dehumidifying machine frame 1 top, the data achieving plant running data in rotary wheel dehumidifying machine frame 1 and Cloud Server are transmitted, data are passed to ICS Engineer by Cloud Server again, be convenient to engineer and statistical computation is carried out to data, reflect its actual energy-saving effect in time; Further when device fails in runner processing region, can report to the police to engineer in time, be convenient to remote debugging and maintenance, keep in repair more timely.

3, the utility model is by installing cross rotary wheel frame in rotary dehumidifier 2 side, and because cross rotary wheel frame steadiness is better relative to Y type support, and air-out is more even, improves Waste Heat Reuse rate, reduces energy loss, energy-conserving and environment-protective.

4, the utility model is all provided with filter at process wind inlet and regeneration wind inlet inside, is filtered the impurity in air by filter, reduces impurity and enters import, avoid the pollution to equipment, reduce the damage of equipment, increase the service life.

5, the utility model arranges rotary wheel frame support on cross rotary wheel frame, for improving the enabling capabilities of cross rotary wheel frame, can not rock along with the rotation of runner, more stable, safe and reliable, has applicability more widely.

6, utility model surface cooler and evaporation coil before process wind side is provided with, removes water principle by refrigeration system, can by the most moisture removals in air, then after rotary wheel dehumidifying, better effects if of drying, more thoroughly.

Accompanying drawing explanation

The utility model is described in detail below in conjunction with the drawings and specific embodiments:

Fig. 1 dehumidifies the front view of energy-conservation unit in the utility model ice stadium.

Fig. 2 is the structural representation of runner of the present utility model.

Fig. 3 dehumidifies the top view of energy-conservation unit in the utility model ice stadium.

Reference numeral in Fig. 1-3 is:

Rotary wheel dehumidifying machine frame 1, runner process wind side 101, front surface cooler 1011, evaporation coil 1012, post-heater 1013, process blower fan 1014, rotary wheel regeneration wind side 102, compressor 1021, condenser 1022, regeneration blower fan 1023, runner 2, runner processing region 201, rotary wheel regeneration region 202, cross left-hand rotation wheel carrier 203, frame 2031, cross bracket 2032, rotary wheel frame supports 2033, runner electric machine structure 2034, runner belt 2035, rotary dehumidifier 204, cross right-hand rotation wheel carrier 205, wireless transceiver 3, electric cabinet 4, process wind inlet 5, process wind outlet 6, regeneration wind inlet 7, regeneration wind outlet 8, base 9.

Detailed description of the invention

In order to the utility model technology is realized measure, creation characteristic, reach object and effect is easy to understand, below in conjunction with concrete diagram, set forth the utility model further.

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment 1:

Fig. 1 dehumidifies the front view of energy-conservation unit in the utility model ice stadium.

Fig. 2 is the structural representation of runner of the present utility model.

Fig. 3 dehumidifies the top view of energy-conservation unit in the utility model ice stadium.

As Figure 1-3, the utility model provides ice stadium and to dehumidify energy-conservation unit, comprising: rotary wheel dehumidifying machine frame 1, runner 2, wireless transceiver 3, electric cabinet 4, process wind inlet 5, process wind outlet 6, regeneration wind inlet 7 and regeneration wind outlet 8; Runner 2 is installed in rotary wheel dehumidifying machine frame 1; Rotary wheel dehumidifying machine frame 1 is divided into runner process wind side 101 and rotary wheel regeneration wind side 102; Runner 2 is divided into runner processing region 201 and rotary wheel regeneration region 202, and runner processing region 201 and rotary wheel regeneration region 202 are arranged symmetrically with fan-shaped 180 ° with fan-shaped 180 °; Process wind inlet 5, process wind outlet 6 are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame 1, and regeneration wind inlet 7 and regeneration wind outlet 8 are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame 1, and process wind inlet 5 exports 8 with regeneration wind and is positioned at the same side; Wireless transceiver 3, is installed on rotary wheel dehumidifying machine frame 1 top, and electric cabinet 4 is installed in framework 1, is connected with wireless transceiver 3, for monitoring the service data of runner 2, and the data wireless monitored is sent to Cloud Server.

Embodiment 2:

Fig. 1 dehumidifies the front view of energy-conservation unit in the utility model ice stadium.

Fig. 2 is the structural representation of runner of the present utility model.

Fig. 3 dehumidifies the top view of energy-conservation unit in the utility model ice stadium.

As shown in Figure 1, 2, 3, the utility model provides ice stadium and to dehumidify energy-conservation unit, comprising: rotary wheel dehumidifying machine frame 1, runner 2, wireless transceiver 3, electric cabinet 4, process wind inlet 5, process wind outlet 6, regeneration wind inlet 7 and regeneration wind outlet 8; Runner 2 is installed in rotary wheel dehumidifying machine frame 1; Rotary wheel dehumidifying machine frame 1 is divided into runner process wind side 101 and rotary wheel regeneration wind side 102; Runner 2 is divided into runner processing region 201 and rotary wheel regeneration region 202, and runner processing region 201 and rotary wheel regeneration region 202 are arranged symmetrically with fan-shaped 180 ° with fan-shaped 180 °; Process wind inlet 5, process wind outlet 6 are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame 1, and regeneration wind inlet 7 and regeneration wind outlet 8 are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame 1, and process wind inlet 5 exports 8 with regeneration wind and is positioned at the same side; Wireless transceiver 3, is installed on rotary wheel dehumidifying machine frame 1 top, and electric cabinet 4 is installed in framework 1, is connected with wireless transceiver 3, for monitoring the service data of runner 2, and the data wireless monitored is sent to Cloud Server.

In the present embodiment, runner process wind side 101 also comprises front surface cooler 1011, evaporation coil 1012, post-heater 1013 and process blower fan 1014, be installed on successively between process wind inlet 5 and process wind outlet 6, evaporation coil 1012, post-heater 1013 lay respectively at 2 sides of runner processing region 201.

In the present embodiment, rotary wheel regeneration wind side 102 also comprises: compressor 1021, condenser 1022 and regeneration blower fan 1023, be installed between regeneration wind inlet 7 and regeneration wind outlet 8 successively, and condenser 1022 and regeneration blower fan 1023 lay respectively at 2 sides in rotary wheel regeneration region 202, the condensation heat that condenser 1022 sheds for being swapped out compressor 1021; Connected by copper pipe between compressor 1021, condenser 1022, evaporation coil 1012.Compressor 1021, while refrigeration, is understood some condensation heat and is discharged, and the condensation heat that the utility model utilizes compressor 1021 to produce carries out regeneration heating.

In the present embodiment, process wind inlet 5, regeneration wind inlet 7 inside are all provided with filter.In the present embodiment, runner 2 is cross wheel seat, be made up of cross left-hand rotation wheel carrier 203, rotary dehumidifier 204, cross right-hand rotation wheel carrier 205, cross left-hand rotation wheel carrier 203 and cross right-hand rotation wheel carrier 205 are all installed in rotary wheel dehumidifying machine frame 1,2 sides of rotary dehumidifier 204 are installed between cross left-hand rotation wheel carrier 203 and cross right-hand rotation wheel carrier 205 respectively by bolt, and rotary dehumidifier 204 is for moisture absorption.

In the present embodiment, cross left-hand rotation wheel carrier 203 and cross right-hand rotation wheel carrier 205 also comprise: frame 2031, cross bracket 2032 and rotary wheel frame support 2033, frame 2031 is installed in rotary wheel dehumidifying machine frame 1, four summits of cross support 2032 are installed on frame 2031, every 2 rotary wheel frames support 2033 with cross support while be symmetrical arranged for symmetry axis, 2 ends are all fixed on frame 2031, and with cross support 2032 while be connected, rotary dehumidifier 204 is installed on the intersection point of cross support 2032.

In the present embodiment, also comprise: runner electric machine structure 2034, be installed in frame 2031, drive runner 2 slow circumvolve by runner belt 2035.

In the present embodiment, also comprise: base 9, rotary wheel dehumidifying machine frame 1 is installed on base 9.

During utility model works, first assemble this ice stadium according to above-mentioned annexation and to dehumidify energy-conservation unit; Then, air enters in process wind inlet 5 and regeneration wind inlet 7 respectively, the filtration such as dust, particle is carried out by filter, after filtration completes, enter regeneration air port 7 in air through compressor 301 act on after, compressor 301 can produce condensation heat, condensation heat is shed by condenser 302 heat of 40-60 °, the heat shed is successively by after cross right-hand rotation wheel carrier 205, rotary dehumidifier 204, cross left-hand rotation wheel carrier 203, impel the moisture evaporation of having adsorbed in rotary dehumidifier 204, thus regeneration air becomes humid air because of the evaporation of moisture, simultaneous temperature declines; Then, humid air is rejected to outdoor by regeneration blower fan 303, regeneration wind outlet 8 by humid air, completes dehumidification process.Enter process wind inlet 5 in air and return air lower the temperature through front surface cooler 1011, the moisture carried cooling in air becomes liquid, remove the most of moisture in air, again through evaporation coil 1012 further by the water evaporates in air, air only containing a small amount of moisture adsorb by the moisture absorption medium in runner 2, air becomes dry air because of the moisture minimizing of self, becomes air that is dry, heat and send in ice stadium through process blower fan 1014 after post-heater heating.

Runner processing region of the prior art and rotary wheel regeneration region are all arranged fan-shaped 90 ° with fan-shaped 270 °, because 90 ° of regeneration zones need to use the high temperature regeneration wind of about 90-140 ° to carry out dehumidifier regeneration, if use the used heat of 40-60 °, moisture removal is little, effect on moisture extraction is very poor, dehumidify chronic, the requirement of indoor dehumidifying in time can not be met, if 40-60 ° of used heat must be used, then need at runner processing region mounting heater, the requirement of dehumidifying could be met, from the viewpoint of cost-saving and energy-conservation, all there is very large drawback in prior art.The utility model runner processing region 201 and rotary wheel dehumidifying region 202 are arranged to fan-shaped 180 ° to fan-shaped 180 °, increase the area in rotary wheel dehumidifying region, improve moisture removal, strengthen effect on moisture extraction, reduce the dehumidifying time, improve dehumidification rate, utilize the used heat of 40-60 ° namely can meet the requirement of indoor dehumidification, without the need to extra heat source, used heat is heated, more energy-conservation, cost-saving.Rotary wheel regeneration region 202 of the present utility model can make full use of the used heat of 60 ° as regeneration wind, and without the need to using heater to heat, Waste Heat Reuse is abundant, without the need to additional energy source, and economize energy.

The utility model is provided with base 9 bottom rotary wheel dehumidifying machine frame 1, strengthens the stability of rotary wheel dehumidifying machine frame 1, and under the effect processing blower fan and compressor, rotary wheel dehumidifying machine frame 1 rocks little, more stable, not easily has an accident, and operates safer.The utility model is provided with wireless transceiver 3 at rotary wheel dehumidifying machine frame 1 top, the data achieving plant running data in rotary wheel dehumidifying machine frame 1 and Cloud Server are transmitted, data are passed to ICS Engineer by Cloud Server again, be convenient to engineer and statistical computation is carried out to data, reflect its actual energy-saving effect in time; Further when device fails in runner processing region, can report to the police to engineer in time, be convenient to remote debugging and maintenance, keep in repair more timely.

The utility model is by installing cross rotary wheel frame in rotary dehumidifier 2 side, and because cross rotary wheel frame steadiness is better relative to Y type support, and air-out is more even, improves Waste Heat Reuse rate, reduces energy loss, energy-conserving and environment-protective.

The utility model is all provided with filter at process wind inlet and regeneration wind inlet inside, is filtered the impurity in air by filter, reduces impurity and enters import, avoid the pollution to equipment, reduce the damage of equipment, increase the service life.

The utility model arranges rotary wheel frame and supports on cross rotary wheel frame, for improving the enabling capabilities of cross rotary wheel frame, can not rock along with the rotation of runner, more stable, safe and reliable, has applicability more widely.

The utility model is surface cooler and evaporation coil before process wind side is provided with, and removes water principle by refrigeration system, can by the most moisture removals in air, then after rotary wheel dehumidifying, better effects if of drying, more thoroughly.

More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (8)

1. dehumidify energy-conservation unit in ice stadium, it is characterized in that, comprise: rotary wheel dehumidifying machine frame, runner, wireless transceiver, electric cabinet, process wind inlet, the outlet of process wind, regeneration wind inlet and the outlet of regeneration wind, and described process wind inlet, the outlet of process wind are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame, described regeneration wind inlet and the outlet of regeneration wind are symmetricly set on 2 sides of rotary wheel dehumidifying machine frame, and described process wind inlet exports with regeneration wind and is positioned at the same side;

Described runner, is installed in described rotary wheel dehumidifying machine frame, is divided into runner processing region and rotary wheel regeneration region, and described runner processing region and rotary wheel regeneration region are arranged symmetrically with fan-shaped 180 ° with fan-shaped 180 °;

Described rotary wheel dehumidifying machine frame, is divided into runner process wind side and rotary wheel regeneration wind side;

Described wireless transceiver, is installed on described rotary dehumidifier frame roof;

Described electric cabinet, is installed in described rotary wheel dehumidifying machine frame, is connected with described wireless transceiver, for monitoring the data of described runner processing region, and the data wireless monitored is sent to Cloud Server.

2. dehumidify energy-conservation unit in ice stadium according to claim 1, it is characterized in that, described runner process wind side also comprises front surface cooler, evaporation coil, post-heater and process blower fan, be installed on successively between described process wind inlet and the outlet of process wind, described evaporation coil, post-heater lay respectively at 2 sides of runner processing region.

3. dehumidify energy-conservation unit in ice stadium according to claim 2, it is characterized in that, described rotary wheel regeneration wind side also comprises: compressor, condenser and regeneration blower fan, be installed on successively between described regeneration wind inlet and the outlet of regeneration wind, and described condenser and regeneration blower fan lay respectively at 2 sides in rotary wheel regeneration region; Described compressor, to be connected by copper pipe between condenser and evaporation coil.

4. dehumidify energy-conservation unit in ice stadium according to claim 1, it is characterized in that, described process wind inlet, regeneration wind inlet inside are all provided with filter.

5. dehumidify energy-conservation unit in ice stadium according to claim 1, it is characterized in that, described runner is cross wheel seat, be made up of cross left-hand rotation wheel carrier, rotary dehumidifier, cross right-hand rotation wheel carrier, described cross left-hand rotation wheel carrier and cross right-hand rotation wheel carrier are all installed in rotary wheel dehumidifying machine frame, 2 sides of described rotary dehumidifier are installed between cross left-hand rotation wheel carrier and cross right-hand rotation wheel carrier respectively by bolt, and described rotary dehumidifier is used for moisture absorption.

6. dehumidify energy-conservation unit in ice stadium according to claim 5, it is characterized in that, described cross left-hand rotation wheel carrier and cross right-hand rotation wheel carrier also comprise: frame, cross bracket and rotary wheel frame support, described frame is installed in rotary wheel dehumidifying machine frame, four summits of described cross support are installed on frame, every 2 described rotary wheel frames support with cross support while be symmetrical arranged for symmetry axis, 2 ends are all fixed on described frame, and with described cross support while be connected, described rotary dehumidifier is installed on the intersection point of cross support.

7. dehumidify energy-conservation unit in ice stadium according to claim 6, it is characterized in that, also comprise: runner electric machine structure, be installed in described frame, by runner slow circumvolve described in runner belt drive.

8. dehumidify energy-conservation unit in ice stadium according to claim 1, and it is characterized in that, also comprise: base, described rotary dehumidifier frame installation is on base.