CN207203807U - A kind of three station dehydrating units - Google Patents

Abstract

The utility model discloses a kind of three station dehydrating units, including dehumidification barrel, dehumidizer is provided with dehumidification barrel, the upper subregion flange of dehumidification barrel top connection, the lower subregion flange of dehumidification barrel bottom connection, through rotating shaft is provided with the middle part of upper subregion flange and lower subregion flange, upper flange top is arranged with air inlet, upper cooling air port and upper regeneration air port, and lower flange bottom is arranged with air outlet, lower cooling air port and lower regeneration air port.The utility model structure will blow wind into air inlet by the blower fan of outside, this strand of wind is after dehumidification barrel through being exported by air outlet, dried material is removed in the place utilized required for being connected to, when hygroscopic agent in the dehumidification barrel is filled water and is in saturation state, rotating shaft is driven to rotate 120 degree by drive device, the dehumidification barrel of dry section is transferred into renewing zone to go to regenerate, the dehumidification barrel regenerated is moved on into cooling zone to be cooled down, the dehumidification barrel cooled down is moved on into dry section moisture absorption again, so circulate always, so as to improve dehumidification rate.

Description

A kind of three station dehydrating units

Technical field

Dehumidification equipment technical field is the utility model is related to, is specially a kind of three station dehydrating units.

Background technology

Dehumidification barrel is generally used for the dehumidifying of material, is provided with dehumidizer in general dehumidification barrel, wind is roused into dehumidification barrel, passed through Dehumidizer blots moisture, so as to discharge more dry wind, but just reaches after a certain amount of moisture is adsorbed in dehumidizer Saturation, it is difficult to carry out exsiccation, now just need to remove water process to dehumidizer progress high temperature, so as to cause temporal wave Take, influence working effect, be this it is proposed that a kind of three station dehydrating units are used to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of three station dehydrating units, to solve what is proposed in above-mentioned background technology Problem.

To achieve the above object, the utility model provides following technical scheme：A kind of three station dehydrating units, including dehumidifying Bucket, the dehumidification barrel is interior to be provided with dehumidizer, and the upper subregion flange of connection is fixed in the dehumidification barrel top by dehumidification barrel upper flange, should The lower subregion flange of connection is fixed in dehumidification barrel bottom by dehumidification barrel lower flange, leads between the upper subregion flange and lower subregion flange Cross limit shaft to be fixedly connected, and the quantity of dehumidification barrel is three, in the middle part of the upper subregion flange and lower subregion flange runs through and is provided with Rotating shaft, the rotating shaft bottom are fixedly connected with drive device, and the upper flange top is arranged with three identical through holes, are respectively Air inlet, upper cooling air port and upper regeneration air port, the lower flange bottom are arranged with three identical through holes, respectively air-out Mouth, lower cooling air port and lower regeneration air port.

Preferably, the dehumidification barrel is symmetric between upper subregion flange and lower subregion flange, and is led on air inlet Cross pipe fitting and fix connection blower fan.

Preferably, the surrounding of the upper subregion flange and lower subregion flange is respectively symmetrically provided with fixed ear, and corresponding is upper Limit shaft is connected between lower two fixed ears, the limit shaft both sides are provided with lock nut.

Preferably, the drive device can be servomotor, and the servomotor is arranged on the frame of lower subregion flange lower end It is interior.

Preferably, the air inlet, upper cooling air port and upper regeneration air port are located on upper subregion flange pedestal, and its center of circle Respectively successively with air outlet, lower cooling air port and lower regeneration air port on same straight line.

Compared with prior art, the beneficial effects of the utility model are：The utility model structure will by the blower fan of outside Air inlet is blowed wind into, for this strand of wind through being exported by air outlet after dehumidification barrel, drying is gone in the place utilized required for being connected to Material, through after a period of time, when the hygroscopic agent in the dehumidification barrel is filled water and is in saturation state, rotating shaft is driven by drive device 120 degree of rotation, is transferred to renewing zone by the dehumidification barrel of dry section and goes to regenerate, and it is cold that the dehumidification barrel regenerated is moved on into cooling zone progress But, the dehumidification barrel cooled down is moved on into dry section moisture absorption again, so circulated always, so as to improve dehumidification rate.

Brief description of the drawings

Fig. 1 is a kind of schematic perspective view at visual angle of the utility model structure；

Fig. 2 is the schematic perspective view at the utility model structure another kind visual angle；

Fig. 3 is the utility model front view；

Fig. 4 is subregion flange structural representation on the utility model；

Fig. 5 is subregion flange structural representation under the utility model；

Fig. 6 is the utility model dehumidification barrel structural representation.

In figure：1 dehumidification barrel, 2 upper flanges, 3 lower flanges, subregion flange, 5 times subregion flanges, 6 rotating shafts, 7 limit shafts, 8 on 4 Air inlet, cooling air port on 91,92 times cooling air ports, air port are regenerated on 101, regenerates air port, 11 air outlets 102 time.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Fig. 1-6 are referred to, the utility model provides a kind of technical scheme：A kind of three station dehydrating units, including dehumidification barrel 1, dehumidification barrel 1 is interior to be provided with dehumidizer, and the top of dehumidification barrel 1 passes through dehumidification barrel upper flange 2 and fixes the upper subregion flange 4 of connection, the dehumidifying The lower subregion flange 5 of connection is fixed in 1 bottom of bucket by dehumidification barrel lower flange 3, and dehumidification barrel 1 is in upper subregion flange 4 and lower subregion flange It is symmetric between 5, and connection blower fan is fixed by pipe fitting on air inlet 8.

It is fixedly connected between upper subregion flange 4 and lower subregion flange 5 by limit shaft 7, and the quantity of dehumidification barrel 1 is three Individual, the surrounding of upper subregion flange 4 and lower subregion flange 5 is respectively symmetrically provided with fixed ear, corresponding two fixed ears up and down it Between be connected with limit shaft 7, the both sides of limit shaft 7 are provided with lock nut.

Through rotating shaft 6 is provided with, the bottom of rotating shaft 6 is fixedly connected with drive device for upper subregion flange 4 and the middle part of lower subregion flange 5, Drive device can be servomotor, and the servomotor is arranged in the frame of the lower lower end of subregion flange 5.

The top of upper flange 2 is arranged with three identical through holes, respectively air inlet 8, upper cooling air port 91 and upper regeneration Air port 101, the bottom of lower flange 5 are arranged with three identical through holes, respectively air outlet 11, lower cooling air port 92 and lower regeneration Air port 102, air inlet 8, upper cooling air port 91 and upper regeneration air port 101 are located on the upper pedestal of subregion flange 4, and its center of circle is distinguished Successively with air outlet 11, lower cooling air port 92 and lower regeneration air port 102 on same straight line, positioned at air inlet 8 and air outlet Dehumidification barrel between 11 is dry section, and the dehumidification barrel 1 between upper cooling air port 91 and lower cooling air port 92 is cooling zone, position Dehumidification barrel 1 between upper regeneration air port 101 and lower regeneration air port 102 is renewing zone.

Operation principle：The utility model structure will blow wind into air inlet 8 by the blower fan of outside, and this strand of wind passes through dehumidification barrel Through being exported by air outlet 11 after 1, dried material is removed in the place utilized required for being connected to, through after a period of time, the dehumidifying When hygroscopic agent in bucket 1 is filled water and be in saturation state, 120 degree are rotated by drive device drive rotating shaft 6, by the dehumidifying of dry section Bucket 1 is transferred to renewing zone and goes to regenerate, and the dehumidification barrel 1 regenerated is moved on into cooling zone is cooled down, and the dehumidification barrel 1 cooled down is moved To dry section moisture absorption again, so circulate always, so as to improve dehumidification rate.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of three station dehydrating units, including dehumidification barrel (1), the dehumidification barrel (1) is interior to be provided with dehumidizer, it is characterised in that： By the upper subregion flange (4) of the fixed connection of dehumidification barrel upper flange (2), dehumidification barrel (1) bottom passes through on dehumidification barrel (1) top The lower subregion flange (5) of the fixed connection of dehumidification barrel lower flange (3), passes through between the upper subregion flange (4) and lower subregion flange (5) Limit shaft (7) is fixedly connected, and the quantity of dehumidification barrel (1) is three, in the upper subregion flange (4) and lower subregion flange (5) Portion is through rotating shaft (6) is provided with, and rotating shaft (6) bottom is fixedly connected with drive device, and upper flange (2) top is arranged with three Individual identical through hole, respectively air inlet (8), upper cooling air port (91) and upper regeneration air port (101), lower flange (5) bottom End is arranged with three identical through holes, respectively air outlet (11), lower cooling air port (92) and lower regeneration air port (102).

A kind of 2. three stations dehydrating unit according to claim 1, it is characterised in that：The dehumidification barrel (1) is in upper subregion It is symmetric between flange (4) and lower subregion flange (5), and connection blower fan is fixed by pipe fitting on air inlet (8).

A kind of 3. three stations dehydrating unit according to claim 1, it is characterised in that：The upper subregion flange (4) and under The surrounding of subregion flange (5) is respectively symmetrically provided with fixed ear, and limit shaft is connected between corresponding two fixed ears up and down (7), limit shaft (7) both sides are provided with lock nut.

A kind of 4. three stations dehydrating unit according to claim 1, it is characterised in that：The drive device is servo electricity Machine, the servomotor are arranged in the frame of lower subregion flange (5) lower end.

A kind of 5. three stations dehydrating unit according to claim 1, it is characterised in that：The air inlet (8), upper cooling wind Mouthful (91) and upper regeneration air port (101) are located on upper subregion flange (4) pedestal, and its center of circle distinguish successively with air outlet (11), Lower cooling air port (92) and lower regeneration air port (102) are on same straight line.