CN2557218Y - Honeycomb shape dehumidifying wheel heating regeneration device - Google Patents
Honeycomb shape dehumidifying wheel heating regeneration device Download PDFInfo
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- CN2557218Y CN2557218Y CN 02234014 CN02234014U CN2557218Y CN 2557218 Y CN2557218 Y CN 2557218Y CN 02234014 CN02234014 CN 02234014 CN 02234014 U CN02234014 U CN 02234014U CN 2557218 Y CN2557218 Y CN 2557218Y
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- rotary dehumidifier
- dehumidifying
- air
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- reduced vacuum
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Abstract
The utility model provides a faveolate dehumidifying wheel heating regeneration device, consisting of a dehumidifying wheel, a wheel trough and a circulating filter, a cooler, a fan, a high pressure winnower, and an electric heater. A pressure reducing vacuum area is arranged to be adjacent to the regeneration area; the bottom of the pressure reducing vacuum area is connected with a wind outlet pipe which is connected to the high pressure winnower. The utility model leads the dehumidifying wheel trough to form the pressure reducing vacuum area at the front side area and the rear side area adjacent to the regeneration area; when the dehumidifying wheel is rotated to the front pressure reducing vacuum area, the humidity or hot gas is pumped by the wind outlet pipeline at the bottom; after the dehumidifying wheel is rotated back to the regeneration area, the humidity can be fast heated and removed by the hot gas; the dehumidifying wheel can be recovered to the required dehumidifying capability as quickly as possible; furthermore, when the dehumidifying wheel is continuously rotated to pass through the rear pressure reducing vacuum area, the residual hot gas in the dehumidifying wheel can be pumped by virtue of the wind outlet pipeline at the bottom; when the dehumidifying wheel is rotated to the dehumidifying area again, the dehumidifying effect can be improved and reinforced.
Description
Technical field
The utility model relates to a kind of honeycomb rotary dehumidifier thermal regeneration device design.
Background technology
As shown in Figure 1, tradition is applied to the cycle type ceramic honeycomb removal moisture drying device of drying equipment 100, its be with ceramic honeycomb wheel 10 be stacked and placed on one can rotating race 20 in, and make race 20 on, each gives the closing cap combination with wheel cap following two ends, and by last, following wheel cap inboard race 20 can be separated into regeneration hot-zone 201 every rib, cooling zone 202 and dehumidifying district 203, make drying equipment 100 plug into return air pipeline A1 again via a recursive filter 30 and a cooler 40, and connect to dehumidifying district 203 with air blast 50, and the opposite side in this dehumidifying district 203 then connects and sets out air pipe line A2 and connect back drying equipment 100; Go up in addition trouble in this air-out pipeline A2 again and meet a return air pipeline B1 and connect to the cooling zone 202, and also connect in the bottom of this cooling zone 202 and to establish an air-out pipeline B2 and gas is connected to the return air pipeline A1 of cooler 40 front ends; In addition, the upper end of this regeneration hot-zone 201 then connects to establish has the warm-air pipe C1 that is sent to regeneration hot-zone 201 once air blast 50 and electric heater 60, order is in that its moisture in taking turns of the ceramic honeycomb wheel 10 of regeneration in the hot-zone 201 can be followed air and seepage flow downwards, and can be met the delivery pipe C2 that establishes by the opposite side of regeneration hot-zone 201 will containing outside the humid gas discharge race 20 by regeneration hot-zone 201.
If this, when this ceramic honeycomb wheel 10 turns round in race 20, cause is by after the regeneration hot-zone 201, the humid gas that contains in its ceramic honeycomb wheel 10 was discharged already, when so ceramic honeycomb wheel 10 returns back to cooling zone 202, can utilize the cold wind of return air pipeline B1 delivery to cool in advance, then can take turns 10 and return back to dehumidifying district 203 o'clock in ceramic honeycomb, the humid air that contains by return air pipeline A1 delivery can be adsorbed on the ceramic honeycomb wheel 10, the dry air that quilt is absorbed behind the moisture then can be back to drying equipment 100 by air-out pipeline A2 delivery.
But above-mentioned traditional cycle type ceramic honeycomb removal moisture drying device its in materials and when running, still having some shortcoming utmost points waits to improve, as the making of its ceramic honeycomb wheel 10 is made in the mode of high temperature sintering with ceramic base material, when right this was made with about high temperature sintering more than 400 ℃, the air pollution that it produced was quite serious; Again, between cooling zone 202 that is separated in this race 20 and the dehumidifying district 203, communicated because of having a return air pipeline B1, so be to have the unsettled phenomenon of blast to produce in the confined space in race 20, make the gas meeting phase mutual interference in race 20 Nei San districts, the effect of order dehumidifying or regeneration is not good.
The utility model content
Main purpose of the present utility model is to provide a kind of honeycomb rotary dehumidifier thermal regeneration device design, mainly be to make the rotary dehumidifier race form a reduced vacuum district in the territory, forward and backward lateral areas of next-door neighbour renewing zone, make the obstruct that forms just like vacuum state between renewing zone and the dehumidifying district, avoiding high temperature, high humidity gas in the race renewing zone to leak to the dehumidifying district and influence the effect that rotary dehumidifier dehumidifies, and can significantly promote the function of its regeneration of rotary dehumidifier.
Secondary objective of the present utility model is to provide a kind of honeycomb rotary dehumidifier thermal regeneration device design, the reduced vacuum district that makes the both sides, renewing zone is when bleeding running, can increase the sealing state of its upper and lower cover of rotary dehumidifier, guarantee the air-tightness of race, the air purge effect of Gao Wen high humidity is strengthened, and can hold back each regional gas phase mutual interference in the resistance race.
In order to achieve the above object, the utility model provides a kind of honeycomb rotary dehumidifier thermal regeneration device, constituted by rotary dehumidifier, race and recursive filter, cooler, air blast, high pressure windmill, electric heater, wherein: make rotary dehumidifier be stacked and placed on can rotating race in, and can separate into renewing zone, reduced vacuum district and dehumidifying area, the arid region return air pipeline of can plugging into is connected to the dehumidifying district via recursive filter and cooler and with air blast, and the opposite side in this dehumidifying district then connects and sets out air pipe line and connect go back to the arid region; In addition the upper end of this renewing zone is to connect to establish the warm-air pipe that is sent to once high pressure windmill and electric heater, and the delivery pipe of being established by other side joint after making hot blast by the renewing zone is discharged outside the race; This rotary dehumidifier is that to adopt glass fibre be base material, and with waterglass as solid, it is soaked in zeolite or silica gel after, adopt with about 105 ℃ temperature and give dryness finalization; The reduced vacuum district, the adjacent side that it is laid in the renewing zone makes this bottom, reduced vacuum district connect establishing having an air-out pipeline and connecting to the high pressure windmill; Utilize above-mentioned member, can renewing zone and dehumidifying district be separated mutually by this reduced vacuum district, when making rotary dehumidifier return back to the reduced vacuum district, can the Shi hot gas in the rotary dehumidifier be detached by the air-out pipeline of bottom, make rotary dehumidifier can return back to desired wettability power as quickly as possible, strengthen its effect on moisture extraction and can promote.
The utility model can make the regeneration function of rotary dehumidifier can obtain to improve control, and when making rotary dehumidifier return back to the thermal regeneration district, its effect of removing moisture strengthens and can reach rapidly to a stable wettability power.It mainly is to make the rotary dehumidifier race before the next-door neighbour renewing zone, posterior region forms a reduced vacuum district, before rotary dehumidifier is returned back to during the reduced vacuum district, can moisture or hot gas be detached by the air-out pipeline of bottom, after making rotary dehumidifier return back to the renewing zone, it can carry out rapidly with the effect that hot blast adds the heat abstraction moisture, make rotary dehumidifier can return back to desired wettability power as quickly as possible, and when rotary dehumidifier continues revolution by reduced vacuum district, back, also can borrow the air-out pipeline of bottom that hot gas remaining in the rotary dehumidifier is detached, when making rotary dehumidifier return back to follow-up dehumidifying district, can promote its effect on moisture extraction of enhancing.
Description of drawings
Below in conjunction with drawings and Examples the utility model is described:
Fig. 1 is the application system figure of traditional cycle type ceramic honeycomb removal moisture drying device;
Fig. 2 is three-dimensional combined application system figure of the present utility model.
Symbol description among the figure:
100.. drying equipment 10... ceramic honeycomb wheel
The hot-zone 20... race 201.. regenerates
The district 202.. cooling zone 203.. dehumidifies
30... recursive filter 40... cooler
50... air blast 60... electric heater
A1... return air pipeline A2... air-out pipeline
B1... return air pipeline B2... air-out pipeline
C1... warm-air pipe C2... delivery pipe
1.... rotary dehumidifier 2.... race
21... 22... reduced vacuum district, renewing zone
23... 3.... arid region, dehumidifying district
31... return air pipeline 32... air-out pipeline
4.... recursive filter 5.... cooler
6.... air blast 7.... high pressure windmill
71... air-out pipeline 72... flow control valve
8.... electric heater 81... warm-air pipe
82... delivery pipe
The specific embodiment
As shown in Figure 2, a kind of honeycomb rotary dehumidifier thermal regeneration device design, be with rotary dehumidifier 1 be stacked and placed on one can rotating race 2 in, and make race 2 on, each gives the closing cap combination with wheel cap following two ends, and by last, following wheel cap inboard be that race 2 is separated into renewing zone 21 every rib, zones such as reduced vacuum district 22 and dehumidifying district 23, and make arid region 3 can plug into a return air pipeline 31 via a recursive filter 4 and a cooler 5, and connecting to dehumidifying district 23 with air blast 6, the opposite side in this dehumidifying district 23 then connects and sets out air pipe line 32 and connect go back to arid region 3; In addition the upper end of this renewing zone 21 is to connect to establish to have the warm-air pipe 81 that is sent to renewing zone 21 once high pressure windmill 7 and electric heater 8, makes hot blast be connect outside the delivery pipe 82 discharge races of establishing 2 by opposite side by 21 backs, renewing zone;
This rotary dehumidifier 1, be that the employing glass fibre is a base material, and with waterglass as solid, after it is soaked in zeolite or silica gel, be to adopt with about 105 ℃ temperature to give dryness finalization, this to be can doing the effect of adsorbed moisture, and rotary dehumidifier 1 can be eliminated and replys its wettability power after containing wet state via modes such as heating or decompressions;
This reduced vacuum district 22, be laid in the forward and backward distolateral of renewing zone 21, by this so that reduced vacuum district 22 and dehumidifying district 23 are separated mutually, 22 bottoms, reduced vacuum district in this front and back ends, respectively connect to establish and have an air-out pipeline 71 and connect, and make to install on each air-out pipeline 71 and have flow control valve 72 to high pressure windmill 7;
Utilize above-mentioned member, before can making rotary dehumidifier 1 return back to during reduced vacuum district 22, can the moisture in the rotary dehumidifier 1 be detached in advance by the air-out pipeline 71 of bottom, after making rotary dehumidifier 1 return back to renewing zone 21, can be heated by the hot blast of warm-air pipe 81 delivery to remove moisture, the effect of its heating and dehumidification can be carried out rapidly, make rotary dehumidifier 1 can return back to desired wettability power as quickly as possible, and when rotary dehumidifier 1 continues revolution by reduced vacuum district 22, back, also can hot gas remaining in the rotary dehumidifier 1 be detached by the air-out pipeline 71 of bottom, when making rotary dehumidifier 1 return back to follow-up dehumidifying district 23, can promote its effect on moisture extraction of enhancing.
Moreover, because of the reduced vacuum district 22 of the utility model 21 both sides in the renewing zone is with high pressure windmill 7 running of being bled, so the reduced vacuum district 22 in race 2 can form the state of a negative pressure, if this, except that the sealing state that can increase rotary dehumidifier 1 its upper and lower cover, guarantee the air-tightness of race 2, the regeneration reducing effect that it also can quicken rotary dehumidifier 1 strengthens the air purge effect of Gao Wen high humidity, can reach simultaneously and hold back each regional gas phase mutual interference in the resistance race 2.
In addition, the flow control valve of being installed on air-out pipeline 71 72 is to have adjusting detaches gas in reduced vacuum district 22 speed, makes reduced vacuum district 22 can keep a splendid negative pressure state, and can be according to rotary dehumidifier 1 its state that contains wet number in adjustment; In addition, this flow control valve 72 also possesses the regulating action that has for high pressure windmill 7 air inflows, makes the air inflow of high pressure windmill 7 obtain fully to replenish.
As previously mentioned, because rotary dehumidifier 1 of the present utility model is to be base material with the glass fibre, and with waterglass as solid, after it is soaked in zeolite or silica gel, be to adopt to give drying with about 105 ℃ temperature and can finalize the design, so materials and manufacturing conditions are can improve traditional honeycomb wheel greatly to adopt ceramic base material to make the problem of environmental pollution that is caused in the high temperature sintering mode more than 400 ℃, and are comparatively simple and easy, the doubt of non-environmental-pollution again on the manufacturing process.
In sum, it serves to show the utility model do " honeycomb rotary dehumidifier thermal regeneration device " design, true tool strengthens absorption type dehumidifier function and meets the effect of physics mode, and it is practical that whole means utilization still belongs to initiative, so be one reasonably novel to bright, the spy proposes utility application in accordance with the law.
Claims (4)
1. honeycomb rotary dehumidifier thermal regeneration device, constituted by rotary dehumidifier, race and recursive filter, cooler, air blast, high pressure windmill, electric heater, wherein: make rotary dehumidifier be stacked and placed on can rotating race in, and can separate into renewing zone, reduced vacuum district and dehumidifying area, the arid region return air pipeline of can plugging into is connected to the dehumidifying district via recursive filter and cooler and with air blast, and the opposite side in this dehumidifying district then connects and sets out air pipe line and connect go back to the arid region; In addition the upper end of this renewing zone is to connect to establish the warm-air pipe that is sent to once high pressure windmill and electric heater, and the delivery pipe of being established by other side joint after making hot blast by the renewing zone is discharged outside the race; It is characterized in that:
Described rotary dehumidifier is base material for adopting glass fibre, with the rotary dehumidifier of waterglass as solid;
The reduced vacuum district, the adjacent side that it is laid in the renewing zone makes this bottom, reduced vacuum district connect establishing having an air-out pipeline and connecting to the high pressure windmill.
2. honeycomb rotary dehumidifier thermal regeneration device according to claim 1, it is characterized in that: this reduced vacuum district can be located at the forward and backward distolateral of renewing zone simultaneously according to the gyratory directions of rotary dehumidifier.
3. honeycomb rotary dehumidifier thermal regeneration device according to claim 1, it is characterized in that: this reduced vacuum district can only be located at the rear end side of renewing zone according to the gyratory directions of rotary dehumidifier.
4. honeycomb rotary dehumidifier thermal regeneration device according to claim 1 is characterized in that: make bottom, reduced vacuum district connect that installing has flow control valve on the air-out pipeline of establishing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 02234014 CN2557218Y (en) | 2002-05-13 | 2002-05-13 | Honeycomb shape dehumidifying wheel heating regeneration device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 02234014 CN2557218Y (en) | 2002-05-13 | 2002-05-13 | Honeycomb shape dehumidifying wheel heating regeneration device |
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CN2557218Y true CN2557218Y (en) | 2003-06-25 |
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CN 02234014 Expired - Fee Related CN2557218Y (en) | 2002-05-13 | 2002-05-13 | Honeycomb shape dehumidifying wheel heating regeneration device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102612400A (en) * | 2009-08-11 | 2012-07-25 | 阿特拉斯·科普柯空气动力股份有限公司 | Compressor installation with a dryer and method for drying of compressed gasses |
CN104981282A (en) * | 2012-12-05 | 2015-10-14 | 国家科学和工业研究组织 | Compact desiccant cooling system |
CN111558281A (en) * | 2020-06-19 | 2020-08-21 | 西部技研环保节能设备(常熟)有限公司 | 250 ℃ high-temperature continuous regeneration double-area cooling synergistic VOC (volatile organic compound) concentration system |
CN113563709A (en) * | 2021-07-31 | 2021-10-29 | 江苏松上科技有限公司 | Formula, preparation method and production device of wear-resistant flame-retardant PC material |
-
2002
- 2002-05-13 CN CN 02234014 patent/CN2557218Y/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102612400A (en) * | 2009-08-11 | 2012-07-25 | 阿特拉斯·科普柯空气动力股份有限公司 | Compressor installation with a dryer and method for drying of compressed gasses |
CN102612400B (en) * | 2009-08-11 | 2014-06-04 | 阿特拉斯·科普柯空气动力股份有限公司 | Compressor installation with a dryer and method for drying of compressed gasses |
CN104981282A (en) * | 2012-12-05 | 2015-10-14 | 国家科学和工业研究组织 | Compact desiccant cooling system |
US9696048B2 (en) | 2012-12-05 | 2017-07-04 | Commonwealth Scientific And Industrial Research Organisation | Compact desiccant cooling system |
CN104981282B (en) * | 2012-12-05 | 2019-03-05 | 国家科学和工业研究组织 | Compact desiccant cooling system |
CN111558281A (en) * | 2020-06-19 | 2020-08-21 | 西部技研环保节能设备(常熟)有限公司 | 250 ℃ high-temperature continuous regeneration double-area cooling synergistic VOC (volatile organic compound) concentration system |
CN113563709A (en) * | 2021-07-31 | 2021-10-29 | 江苏松上科技有限公司 | Formula, preparation method and production device of wear-resistant flame-retardant PC material |
CN113563709B (en) * | 2021-07-31 | 2023-05-30 | 江苏松上科技有限公司 | Formula, preparation method and production device of wear-resistant flame-retardant PC material |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |