CN102269512A - Air inlet and outlet passage module for drying - Google Patents
Air inlet and outlet passage module for drying Download PDFInfo
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- CN102269512A CN102269512A CN2010101946008A CN201010194600A CN102269512A CN 102269512 A CN102269512 A CN 102269512A CN 2010101946008 A CN2010101946008 A CN 2010101946008A CN 201010194600 A CN201010194600 A CN 201010194600A CN 102269512 A CN102269512 A CN 102269512A
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- channel module
- turnover wind
- turnover
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Abstract
The invention relates to an air inlet and outlet passage module for drying. The module is of a hollow structure, and comprises a frame body and two plate bodies; the rim in the frame body is provided with a groove compartment, the outer edge of the frame body is provided with a pipe cap, the pipe cap is provided with through holes communicated with the groove compartment, and air delivery pipes or a plurality of air inlet and outlet passage modules are mutually connected in series through the through holes; when the pipe cap is not used, the pipe cap can be closed by using a cover body; the two plate bodies are relatively arranged at two sides of the frame body, the plate bodies are provided with a plurality of vent holes for air circulation, and the diameters of the vent holes are smaller than the outside diameters of crop grains, so that the crops can be prevented from falling into the air inlet and outlet passage module from the vent holes. The air inlet and outlet passage module can be easily assembled and disassembled or mutually connected in series or in parallel, and effectively achieves the effects of improving the drying efficiency and reducing energy waste.
Description
Technical field
The present invention relates to the desiccant turnover wind of a kind of confession channel module, relate in particular to a kind of hollow structure turnover wind channel module that is provided with air vent.
Background technology
Traditional agricultural society, the Exposure to Sunlight modes that adopt are dried crops more, its practice is that the crops with firm harvest are placed on and allow the sun tan by the sun on the road, and manually to repeat to turn over the paddy action, make the upper strata crops of drying of having dried be transformed into bottom, so constantly sunshine, turn over paddy, blowing to reach purpose dry and that prolong the pot-life.
Yet, when environment not good, as have a humid climate rainy, tan by the sun that have any problem in the place, time is pressing but when needing transportation to store, can cause the crops damage of making moist on the contrary, and, utilize and manually turn over paddy, need expend a large amount of manpowers, and problems such as heatstroke or sunburn are arranged easily, its inefficiency of while, usually need a couple of days crops could be dried, and still need artificial pack after drying, carry and store, real nonideal drying mode.
Therefore, along with technical development and progress, have special drying system for the crops drying to come out, it is arranged in the accumulator tank, from accumulator tank bottommost input dry air, by the accumulator tank the top moisture is discharged, by air circulation, to reach dry purpose again; Yet, make in this way when dry, the hydrone of crops the inside must be moved by past top in layer, bottom, move to barrel apex distance from far at the bottom of bucket, time consumption is too of a specified duration, and because the crops in the accumulator tank are piled up the more existing Exposure to Sunlight of shop layer shop bed thickness, the steam that bottom dissipation is come out does not move to top layer as yet and discharges, just by the crop absorption on upper strata, DeGrain wastes energy again on the contrary thus, still can't effectively improve efficient and existing shortcoming.
Summary of the invention
Technical problem to be solved by this invention is to overcome the existing shortcoming of crops drying equipment aspect effect and practicality, and a kind of dry turnover wind channel module of using that supplies that is better than prior art is provided.
The invention provides the desiccant turnover wind of a kind of confession channel module, it is by being provided with the hollow structure of air vent, with odd number or a plurality of interconnected connection, formation is into and out of the air port, make the physical condition of crops drying reach the situation that is similar to Exposure to Sunlight, can reach the purpose that shortens drying time and promote efficient, and then reduce the waste of the energy.
The invention provides the desiccant turnover wind of a kind of confession channel module, stereochemical structure for hollow, comprise: a framework, the architrave of described framework inside is provided with between groove, the framework outer rim is provided with at least one pipe cap, described pipe cap be provided with and groove between the through hole that connects, be connected in series connection mutually for wind conveying pipe or a plurality of turnover wind channel module; And two plate bodys, being relatively arranged on the framework both sides, the turnover wind channel module that assembling is finished forms hollow structure, its inner accommodation space that forms, described plate body is provided with a plurality of air vents for circulation of air.
The desiccant turnover wind of confession of the present invention channel module, wherein, the material of described framework is a metal.
The desiccant turnover wind of confession of the present invention channel module, wherein, described accommodation space is ccontaining at least one stiffener.
The desiccant turnover wind of confession of the present invention channel module, wherein, described wind conveying pipe is interlocking or fixing with the connected mode of described turnover wind channel module or utilizes connector to be connected.
It is another kind of for desiccant turnover wind channel module that the present invention also provides, columnar structures for hollow, comprise: upper and lower frame, its inner architrave is provided with between groove, its outer rim is provided with at least one pipe cap, described pipe cap be provided with and groove between the through hole that connects, be connected in series connection mutually for wind conveying pipe or a plurality of turnover wind channel module; And a plate body, being located between the upper and lower frame, the turnover wind channel module that assembling is finished forms hollow structure, its inner accommodation space that forms, described plate body is provided with a plurality of air vents for circulation of air.
Of the present invention another kind of for desiccant turnover wind channel module, wherein, the material of described upper and lower frame is a metal.
Of the present invention another kind of for desiccant turnover wind channel module, wherein, described accommodation space is ccontaining at least one stiffener.
Of the present invention another kind of for desiccant turnover wind channel module, wherein, described wind conveying pipe is interlocking or fixing with the connected mode of described turnover wind channel module or utilizes connector to be connected.
The present invention has following beneficial effect:
1, after dry air inlet injects dry air, by being provided with the hollow structure of air vent, dry air is evenly dissipated to the crops storage area of accumulation deposit, improve the air-flow circulation rate, and improve the efficient that moisture is discharged by the humid air outlet.
2, the distance of outlet and inlet can be according to the actual demand setting, to improve drying efficiency.
3, the assembling mode of this module is simple, and is applicable to various storage facilities, from fixed keg cabin, portable loading and unloading vehicle, and the dismounting easily at any time of international even bulk carrier, its environment applicability height.
4, can effectively strengthen drying effect in the mode of setting up, not influence the configuration that does not also need to change original storage facilities, it need not to spend huge extra operating expenses.
5, this module can be done the design and the modularization production of different size size according to place, instrument size, can deal with the various market demands, has high industry practical value.
Description of drawings
Fig. 1: be of the present invention group of upright three-dimensional exploded view.
Fig. 2: be three-dimensional exploded view of the present invention.
Fig. 3: be front view of the present invention.
Fig. 4: be vertical view of the present invention.
Fig. 5: be side view of the present invention.
Fig. 6: be front sectional elevation of the present invention.
Fig. 7: be side cutaway view of the present invention.
Fig. 8: be the stereogram of another embodiment of the present invention.
Fig. 9: be the front view of Fig. 8.
Figure 10: be the front sectional elevation of Fig. 8.
Figure 11: be the behaviour in service schematic diagram one of Fig. 1.
Figure 12: be the behaviour in service schematic diagram two of Fig. 1.
Figure 13: be the behaviour in service schematic diagram three of Fig. 1.
Figure 14: be the behaviour in service schematic diagram of yet another embodiment of the invention.
Figure 15: be the behaviour in service schematic perspective view of Figure 14.
Figure 16: be the behaviour in service schematic perspective view of further embodiment of this invention.
The specific embodiment
See also Fig. 1 to shown in Figure 7, the desiccant turnover wind of a kind of confession of the present invention channel module is a turnover wind channel module 1, and it is the stereochemical structure of a hollow, comprises a framework 2 and two plate bodys 3, wherein:
One framework 2, its material is a metal, and the architrave of described framework 2 inside is provided with between groove 21, and framework 2 outer rims are provided with at least one pipe cap 22, described pipe cap 22 be provided with one and groove between 21 through holes 23 that connect, for wind conveying pipe (as shown in figure 11) or a plurality of turnover wind channel module 1 mutually serial connection connect; Wherein, this wind conveying pipe can be interlocking or fixing or the utilization connector 211 (as shown in figure 13) as tube connector with the connected mode of turnover wind channel module 1, makes it reach the purpose of serial or parallel connection combination, effectively improves drying efficiency; And the pipe cap 22 that framework 2 outer rims are not used to connect can utilize a lid 24 with its sealing.
Two plate bodys 3, be relatively arranged on the both sides of framework 2, the turnover wind channel module 1 that assembling is finished forms a hollow structure, its inner accommodation space 31 that forms, can be ccontaining at least one stiffener 32, with present embodiment, described stiffener 32 is arranged in a crossed manner in the inwall of two plate bodys 3, improve intensity of the present invention and robustness thus, extruding causes distortion when storing to avoid crops to pile up; And plate body 3 is provided with a plurality of air vents 33 for circulation of air, and the diameter of described air vent 33 can avoid crops to fall into accommodation space 31 via air vent 33 less than the external diameter of crop grain.
See also Fig. 8 to shown in Figure 10, the present invention passes in and out another embodiment of wind channel module 1, and described turnover wind channel module 1a is the columnar structures of a hollow, and it comprises a upper and lower frame 2a and a plate body 3a, wherein:
Described upper and lower frame 2a, inner architrave is provided with 21a between groove, upper and lower frame 2a outer rim is respectively equipped with at least one pipe cap 22a, described pipe cap 22a be provided with one and groove between the through hole 23a that connects of 21a, be connected in series connection mutually for wind conveying pipe (as shown in figure 11) or a plurality of turnover wind channel module 1a, its connected mode can be described in the embodiment, makes it reach the purpose of serial or parallel connection combination; And the pipe cap 22a that framework 2a outer rim is not used to connect can utilize a lid (as shown in Figure 1) with its sealing.
One plate body 3a, be located between the upper and lower frame 2a, the turnover wind channel module 1a that assembling is finished forms a hollow structure, its inner accommodation space 31a that forms, can be ccontaining at least one stiffener 32a, described stiffener 32a is arranged at the inwall of plate body 3a, and extruding causes distortion when storing to avoid crops to pile up; And plate body 3a is provided with a plurality of air vent 33a for circulation of air, and the diameter of described air vent 33a can avoid crops to fall into accommodation space 31a via air vent 33a less than the external diameter of crop grain.
See also shown in Figure 11, behaviour in service schematic diagram one for Fig. 1, described turnover wind channel module 1 is arranged in the storage barrel groove 4, described storage barrel groove 4 has a feeding mouth 41 and a discharging opening 42, and dry air inlet 43 and one humid air outlet 44 is set in the upper end, described dry air inlet 43 is provided with a wind conveying pipe 431 and is connected with the pipe cap 22 of described turnover wind channel module 1 framework 2 upper ends, and with other pipe cap that does not connect 22 usefulness lids 24 sealings; After dry air was by 43 inputs of dry air inlet, a plurality of air vents 33 of the turnover wind channel module 1 by storage barrel groove 4 can be derived the moistures in the storage barrel groove 4 fast by humid air outlet 44; And the caliber area of the pipe cap 22 that described turnover wind channel module 1 is connected with wind conveying pipe 431 can reach preferable drying effect greater than the gross area of a plurality of air vents 33 of described turnover wind channel module 1.
See also shown in Figure 12, behaviour in service schematic diagram two for Fig. 1, described turnover wind channel module 1 is arranged in the storage barrel groove 4, described storage barrel groove 4 has a feeding mouth 41 and a discharging opening 42, and one dry air inlet 43 is set respectively and is provided with humid air outlet 44 in the upper end in upper and lower end, described dry air inlet 43 is respectively equipped with a wind conveying pipe 431 and is connected with the pipe cap 22 of described turnover wind channel module 1 framework 2 upper and lower ends, and with other pipe cap that does not connect 22 usefulness lids 24 sealings; After dry air was by 43 inputs of dry air inlet, a plurality of air vents 33 of the turnover wind channel module 1 by storage barrel groove 4 can be derived the moistures in the storage barrel groove 4 fast by humid air outlet 44; And the caliber area sum of the pipe cap 22 that described turnover wind channel module 1 is connected with wind conveying pipe 431 can reach preferable drying effect greater than the gross area of a plurality of air vents 33 of described turnover wind channel module 1.
Please consult shown in Figure 13 again, behaviour in service schematic diagram three for Fig. 1, described storage barrel groove 4 is provided with two turnover wind channel modules 1, it utilizes the connector 211 as tube connector to connect with series system, described storage barrel groove 4 has a feeding mouth 41 and a discharging opening 42, and in last, the lower end is provided with dry air inlet 43 respectively and is provided with a humid air in the upper end and exports 44, described dry air inlet 43 is respectively equipped with a wind conveying pipe 431 and described assembling on turnover wind channel module 1 framework of finishing 2, the pipe cap 22 of lower end connects, and with other pipe cap that does not connect 22 usefulness lids 24 sealings; After dry air was by 43 inputs of dry air inlet, a plurality of air vents 33 of the turnover wind channel module 1 by storage barrel groove 4 can be derived the moistures in the storage barrel groove 4 fast by humid air outlet 44; And the caliber area sum of the pipe cap 22 that described turnover wind channel module 1 is connected with wind conveying pipe 431 can reach preferable drying effect greater than the gross area of a plurality of air vents 33 of described turnover wind channel module 1.
In addition, see also Fig. 2, Figure 14 and shown in Figure 15, be an embodiment more of the present invention, this storage barrel groove 4 is provided with a plurality of turnover wind channel modules 1 in inside, the mode that it utilizes interleaved to be provided with, half of described a plurality of turnover wind channel modules 1 interconnected is air intake module 5, and half interconnects and is air-out module 6 in addition; This storage barrel groove 4 has a feeding mouth 41 and a discharging opening 42, and dry air inlet 43 is set in the lower end and the upper end is provided with humid air outlet 44, and this dry air inlet 43 is provided with a wind conveying pipe 431 and is connected with air intake module 5 pipe cap 22 bottom; This humid air outlet 44 is provided with a wind conveying pipe 431 and is connected with air-out module 6 pipe cap 22 topmost, and other pipe cap that does not connect 22 is sealed with lid 24; After its assembling is finished, the wind conveying pipe 431 of this humid air outlet 44 can connect an air blast 7, this air blast 7 is connected with an air circulation dehumidification system 8 again, at last, the wind conveying pipe 431 of this air circulation dehumidification system 8 with dry air inlet 43 is connected, can fast humid air followed the air-out module 6 that is provided with in the storage barrel groove 4 by air blast 7 extracts out, and humid air formed dry air by air circulation dehumidification system 8 exchange dehumidifying, again in the wind conveying pipe 431 input storage barrel grooves 4 of dry air via dry air inlet 43, make it form a repetitive cycling flow process, so can more effectively save the energy, reach the effect that the present invention improves drying efficiency and shortens drying time.
Moreover, see also shown in Figure 16ly, be another embodiment of the present invention, use the pipeline configuration connected mode of aforementioned several embodiment, with a plurality of turnover wind channel modules 1, arrange in the series and parallel mode and to form air intake module 5 and air-out module 6; It can be installed in the square cabin of bulk carrier, makes crops in the process of transporting, and just can carry out drying, to reach best preservation effect.
Claims (8)
1. the desiccant turnover wind of confession channel module, it is a turnover wind channel module (1), it is characterized in that: described turnover wind channel module (1) is the stereochemical structure of hollow, comprise: a framework (2), the inner architrave of described framework (2) is provided with (21) between groove, framework (2) outer rim is provided with at least one pipe cap (22), described pipe cap (22) be provided with and groove between (21) through hole (23) of connecting, for wind conveying pipe or a plurality of turnover wind channel modules (1) mutually serial connection connect; And two plate bodys (3), being relatively arranged on framework (2) both sides, the turnover wind channel module (1) that assembling is finished forms hollow structure, its inner accommodation space (31) that forms, described plate body (3) is provided with a plurality of air vents (33) for circulation of air.
2. the desiccant turnover wind of confession according to claim 1 channel module, it is characterized in that: the material of described framework (2) is a metal.
3. the desiccant turnover wind of confession according to claim 1 channel module is characterized in that: described accommodation space (31) is ccontaining at least one stiffener (32).
4. the desiccant turnover wind of confession according to claim 1 channel module is characterized in that: described wind conveying pipe (431) is interlocking or fixing with the connected mode of described turnover wind channel module (1) or utilizes connector (211) to be connected.
5. the desiccant turnover wind of confession channel module, it is a turnover wind channel module (1a), it is characterized in that: described turnover wind channel module (1a) is the columnar structures of hollow, comprise: upper and lower frame (2a), its inner architrave is provided with (21a) between groove, its outer rim is provided with at least one pipe cap (22a), described pipe cap (22a) be provided with and groove between (21a) through hole (23a) of connecting, for wind conveying pipe (431) or a plurality of turnover wind channel modules (1a) mutually serial connection connect; And a plate body (3a), being located between the upper and lower frame (2a), the turnover wind channel module (1a) that assembling is finished forms hollow structure, its inner accommodation space (31a) that forms, described plate body (3a) is provided with a plurality of air vents (33a) for circulation of air.
6. the desiccant turnover wind of confession according to claim 5 channel module, it is characterized in that: the material of described upper and lower frame (2a) is a metal.
7. the desiccant turnover wind of confession according to claim 5 channel module is characterized in that: described accommodation space (31a) is ccontaining at least one stiffener (32a).
8. the desiccant turnover wind of confession according to claim 5 channel module is characterized in that: described wind conveying pipe (431) is interlocking or fixing with the connected mode of described turnover wind channel module (1a) or utilizes connector (211) to be connected.
Priority Applications (1)
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CN2010101946008A CN102269512A (en) | 2010-06-04 | 2010-06-04 | Air inlet and outlet passage module for drying |
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CN2010101946008A CN102269512A (en) | 2010-06-04 | 2010-06-04 | Air inlet and outlet passage module for drying |
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CN2010101946008A Pending CN102269512A (en) | 2010-06-04 | 2010-06-04 | Air inlet and outlet passage module for drying |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105380285A (en) * | 2015-12-10 | 2016-03-09 | 重庆和术堂生物科技有限公司 | Contact type shiitake mushroom drying box |
CN110686466A (en) * | 2019-10-14 | 2020-01-14 | 王峰云 | Granular material drying device, drying equipment, granular material and powder drying process |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2237824Y (en) * | 1995-07-25 | 1996-10-16 | 付予 | Electrothermic drier |
CN2522378Y (en) * | 2001-11-20 | 2002-11-27 | 李长忠 | Hollow Ventilated anti-midew barn wall-plate |
-
2010
- 2010-06-04 CN CN2010101946008A patent/CN102269512A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2237824Y (en) * | 1995-07-25 | 1996-10-16 | 付予 | Electrothermic drier |
CN2522378Y (en) * | 2001-11-20 | 2002-11-27 | 李长忠 | Hollow Ventilated anti-midew barn wall-plate |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105380285A (en) * | 2015-12-10 | 2016-03-09 | 重庆和术堂生物科技有限公司 | Contact type shiitake mushroom drying box |
CN110686466A (en) * | 2019-10-14 | 2020-01-14 | 王峰云 | Granular material drying device, drying equipment, granular material and powder drying process |
CN110686466B (en) * | 2019-10-14 | 2023-06-02 | 王峰云 | Granular material drying device, drying equipment, granular material and powder drying process |
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Application publication date: 20111207 |