CN104941395A - Moisture absorption box structure - Google Patents

Abstract

The invention provides a moisture absorption box structure which is mainly characterized in that a vent pipe is arranged in a containing space of a moisture absorption box main body; a through hole is formed in the vent pipe and is communicated with the containing space; by using the design of the vent pipe in a moisture absorption box, hot wind sent from an electric heating device can be effectively blown to every corner in the containing space in the moisture absorption box when a moisture absorption material in the moisture absorption box is about to be stoved and reduced, and thus the effect of fast stoving the moisture absorption material is realized. In addition, no electric heating assembly is arranged in the moisture absorption box, so that the manufacture cost of the moisture absorption box is greatly reduced, the containing space of the moisture absorption box is increased so as to increase the storing amount of the moisture absorption material, and furthermore the effects of improving the moisture absorption efficiency of the moisture absorption, and the like can be realized.

Description

Moisture-absorption box structure

Technical field

The present invention has about a kind of moisture-absorption box structure, and espespecially one can make hygroscopic material flash baking reduce, and effectively improves the moisture-absorption box structure of moisture absorption effect.

Background technology

Humidity is fabric of island-in-sea type National Climate characteristic, lives in the heavier environment of moisture, except unfavorable clothing, furniture etc., also has bad impact to health, thus relevant dehumidifying product also just in response to and give birth to.In the dehumidifying commodity that tradition is sold on the market, main the most universal as content using chemical substances such as calcium chloride, it is on being divided into by container and having, lower two-layer accommodation space, upper strata accommodation space puts granular calcium chloride, the aqueous vapor liquid dehumidified is collected by lower floor, owing to containing the chemical substances such as calcium chloride in received liquid, if topple over because of carelessness with arround article contacts, quite not easy-clear, if and human contact more can cause skin red, swollen, pain waits inflammation phenomenon, and it is also quite difficult in recovery, user mostly pours the liquid comprising calcium chloride into drainage system, separately container is abandoned, so, except severe contamination is caused to environment, also the wasting of resources is caused.

Therefore Ling You manufacturer have developed reusable dehumidifying product recently, it is mainly provided with a box-like body, and an electric-heating assembly is installed in this box-like body, hygroscopic material is filled with again, with moisture in absorbed air, when hygroscopic material inhales full moisture in box-like body, then electric-heating assembly is given in energising, after converting electrical energy into heat energy to make electric-heating assembly, the hygroscopic material inhaling full moisture is dried, and is reached reusable object.But, though this dehumidifying product has the effect that can repeat to dehumidify, but the electric-heating assembly assembled in body, the raising of this dehumidifying cost of goods manufactured can be caused, and after be assembled into electric-heating assembly in body, its internal body just can reduce many for the space holding hygroscopic material relatively, so that this dehumidifying product moisture removal is limited, start electric-heating assembly continually and carry out hygroscopic material and dry the action dehumidified again, so, except the not convenient property caused in use, after another aspect electric-heating assembly sends heat energy, it mainly dries scope for hygroscopic material arround it, and be difficult to overall diffusion to all hygroscopic materials of internal body, if for all for internal body hygroscopic materials are dried, relatively just must extend the electric-heating assembly start time, therefore at electric-heating assembly frequent starting and under start time lengthening, required power drain cost just improves relatively, simultaneously, electric-heating assembly also shortens service life relatively, after use a period of time, just must carry out keeping in repair or replacing, and cause user's burden economically.

So, the design people is because existing reusable dehumidifying product is on use is implemented, still have above-mentioned many disappearances, it is its assisting a ruler in governing a country for many years in the manufacture of association area and design experiences and knowledge of mat, and through clever thought in many ways, carry out research and development improvement for existing reusable dehumidifying product, and grind and create the present invention.

Summary of the invention

The present invention has about a kind of moisture-absorption box structure, its objective is to provide one that hygroscopic material flash baking can be made to reduce, and effectively improves the moisture-absorption box structure of moisture absorption effect.

In order to reach above-mentioned enforcement object, the present inventor discusses and formulates following moisture-absorption box structure, it is provided with moisture-absorption box main body, and form accommodation space in this moisture-absorption box main body, be provided with again inner in the ventilation duct with pore in this accommodation space, be separately provided with open-work in this ventilation duct, communicate with this accommodation space via this open-work to make this pore, multiple open-work is provided with, to communicate with its accommodation space again in moisture-absorption box main body.

Moisture-absorption box structure as above, wherein, this moisture-absorption box main body includes housing, and group is provided with cap on this housing, to make to form this accommodation space between this housing and this cap, make again this ventilation duct one end and this cap be connected with group, and make this cap be connected with group with this ventilation duct be provided with through hole, to communicate with the pore of this ventilation duct.

Moisture-absorption box structure as above, wherein, this moisture-absorption box main body includes housing, and is provided with cap in this housing, to make to form this accommodation space between this housing and this cap, separately make this housing run through vertically in its wall thickness place and have multiple slotted eye, and make this inner walls in its each slotted eye place corresponding, axially form lyriform pore along it, and each lyriform pore slotted eye corresponding with it is communicated, this cap is made again to be provided with open-work, with corresponding with the slotted eye of this housing.

Moisture-absorption box structure as above, wherein, this moisture-absorption box main body includes housing, and group is provided with cap on this housing, to make to form this accommodation space between this housing and this cap, separately make this ventilation duct wall thickness place axially run through and have multiple slotted eye, and the cap place its slotted eye being through to be connected, to form notch, and make the inwall of this ventilation duct and outer wall axially form lyriform pore along it respectively, make again that the lyriform pore of this inwall and this outer wall is adjacent to be set up, to be connected with a slotted eye respectively.

Moisture-absorption box structure as above, wherein, this moisture-absorption box main body is docked by multiple cap and is formed, and between multiple cap, form the accommodation space of this moisture-absorption box main body, this ventilation duct one end and one cap is made again to be connected with group, and make this cap be connected with group with this ventilation duct be provided with through hole, to communicate with the pore of this ventilation duct.

By this, moisture-absorption box structure of the present invention does not install electric-heating assembly in moisture-absorption box, therefore can significantly save moisture-absorption box manufacturing cost, and increases moisture-absorption box and put hygroscopic material space, to improve the amount of putting of hygroscopic material, effectively to promote effect of its moisture absorption.

Moisture-absorption box structure of the present invention is provided with ventilation duct in moisture-absorption box inside again, with in time drying reduction hygroscopic material, the hot blast that electric calorifie installation sends can via the guiding of this ventilation duct, hot blast is effectively blown into each corner of moisture-absorption box accommodation space, to reach from inside to outside fully, fast by the effect of hygroscopic material oven dry.

Another moisture-absorption box structure of the present invention is provided with ventilation duct in moisture-absorption box inside, when moisture enters the accommodation space of moisture-absorption box by the open-work of moisture-absorption box cap, moisture also can enter in accommodation space by ventilation duct, to make the hygroscopic material of accommodation space from outside to inside, all can abundant absorbing moisture, reach the benefit of effectively dehumidifying.

Accompanying drawing explanation

The following drawings is only intended to schematically illustrate the present invention and explain, not delimit the scope of the invention.Wherein,

Fig. 1 is first embodiment of the present invention three-dimensional exploded view;

Fig. 2 is first embodiment of the present invention sectional view;

Fig. 3 is second embodiment of the present invention three-dimensional exploded view;

Fig. 4 is second embodiment of the present invention sectional view;

Fig. 5 is third embodiment of the present invention three-dimensional exploded view;

Fig. 6 is third embodiment of the present invention sectional view;

Fig. 7 is fourth embodiment of the present invention three-dimensional exploded view;

Fig. 8 is fourth embodiment of the present invention sectional view;

Fig. 9 is fifth embodiment of the present invention three-dimensional exploded view;

Figure 10 is fifth embodiment of the present invention sectional view;

Figure 11 is sixth embodiment of the present invention three-dimensional exploded view;

Figure 12 is sixth embodiment of the present invention preparation stacked state figure.

Main element label declaration:

Detailed description of the invention

And be the effect making technological means of the present invention and can reach, can have more complete and clearly disclose, being now described in detail as follows, seeing also the graphic of exposure and figure number:

First, refer to Fig. 1, Fig. 2, be the first embodiment of moisture-absorption box structure of the present invention, it formed primarily of moisture-absorption box main body 1 and ventilation duct 2; Wherein:

This moisture-absorption box main body 1, be provided with a hollow and two ends are the tubular shell 11 of open end, and be provided with cap 12 in this tubular shell 11 two ends group, to make to form an accommodation space 13 between this tubular shell 11 and two ends cap 12, two cap 12 inner face centre are made again to be convexly equipped with carrier 121, and be arranged with tank 122 in this carrier 121 centre, and tank 122 bottom land of one cap 12 is run through have through hole 123, multiple open-work 111,124 is respectively provided with, to communicate with this accommodation space 13 again on tubular shell 11 perisporium and two caps 12;

This ventilation duct 2, position is located in the accommodation space 13 of this moisture-absorption box main body 1, another inside is formed with the entity of pore 21, and be provided with multiple open-work 22 in this ventilation duct 2 perisporium, to communicate with its pore 21, make again this ventilation duct 2 be connected in carrier 121 tank 122 of a cap 12 of this moisture-absorption box main body 1, and the pore 21 of this ventilation duct 2 is communicated with the through hole 123 of the tank 122 of this cap 12.

Accordingly, when using enforcement, multiple granular hygroscopic material is received in the accommodation space 13 of moisture-absorption box main body 1, again the moisture-absorption box putting hygroscopic material is positioned over wardrobe, bookcase, shoe chest and storage box ... etc. in the space that need dehumidify, then, this wardrobe, bookcase, shoe chest and storage box ... Deng moisture contained in space, namely enter in the accommodation space 13 of moisture-absorption box main body 1 by arbitrary hole of moisture-absorption box main body 1, moisture in space is absorbed by the hygroscopic material be located in accommodation space 13, to keep this wardrobe, bookcase, shoe chest and storage box ... Deng the aridity in space, prevent this wardrobe, bookcase, shoe chest and storage box ... in the clothes placed in space, books, shoes ... Deng the effect that article damage because of moist.

Moreover, when the hygroscopic material be installed with in its accommodation space 13 of moisture-absorption box arrives saturated in absorbing moisture, user can utilize an outside electric calorifie installation to carry out oven dry homing action to hygroscopic material accommodating in moisture-absorption box, when carrying out the oven dry of hygroscopic material, moisture-absorption box of the present invention is connected mutually with electric calorifie installation, restart this electric calorifie installation, namely this electric calorifie installation can produce hot blast, to enter in the pore 21 of ventilation duct 2 via the through hole 123 of moisture-absorption box main body 1, guide via ventilation duct 2 again, make hot blast by the open-work 22 of ventilation duct 2, hot blast is blown into the every nook and cranny of the accommodation space 13 of moisture-absorption box main body 1, dry with hygroscopic material in the accommodation space 13 that will be located in moisture-absorption box main body 1, this hot blast continuous is by the open-work 111 of setting tool on tubular shell 11 and two caps 12, 124 discharge in outward, circulate in accommodation space 13 Inner eycle of moisture-absorption box main body 1 to make hot blast, reach the effect of being dried rapidly by hygroscopic material.

Design by this, owing to not installing electric-heating assembly in moisture-absorption box of the present invention, therefore significantly can save the manufacturing cost of moisture-absorption box, again because do not install electric-heating assembly in moisture-absorption box, therefore, the accommodation space 13 of moisture-absorption box can put hygroscopic material capacity relative to be increased, and putting under the increase of hygroscopic material quantity, hygroscopic capacity and moisture sorption effect just can effectively promote, and after can using for a long time, carry out the oven dry homing action of hygroscopic material again, and frequently must not carry out the oven dry of hygroscopic material, so, not only can increase the convenience in use, more can save the waste of electric power, moreover, the ventilation duct 2 being positioned at moisture-absorption box inside by the present invention is arranged, the hot blast that electric calorifie installation can be sent effectively directs into the accommodation space 13 of moisture-absorption box everywhere, with from inside to outside fully and fast hygroscopic material is dried, in this, the electric calorifie installation start time just can reduce relatively, required power drain cost just reduces relatively, and under electric calorifie installation frequency of utilization and time effectively reduce, electric calorifie installation can improve service life, and reach the economic loss reduced because electric calorifie installation damages frequent maintenance or replaces.

See also Fig. 3 again, Fig. 4, for the second embodiment of moisture-absorption box structure of the present invention, this moisture-absorption box main body 3 is made to be set to hollow and two ends are the tubular shell 31 of open end, and be provided with cap 32 in this tubular shell 31 two ends group, to make to form an accommodation space 33 between this tubular shell 31 and two ends cap 32, and make this tubular shell 31 perisporium radially form multiple trough type open-work 311, to communicate with this accommodation space 33, two cap 32 inner face central authorities are made again to be convexly equipped with carrier 321, and run through in these carrier 321 central authorities and have through hole 322, another this ventilation duct 4 is located in the accommodation space 33 of this moisture-absorption box main body 3, be that to make this ventilation duct 4 be shaped to two ends be open end, and the inner entity forming pore 41, and be provided with multiple open-work 42 in this ventilation duct 4 perisporium, to communicate with its pore 41, one end of this ventilation duct 4 is made again to be plugged in the through hole 322 of the carrier 321 of a cap 32 of this moisture-absorption box main body 3, and the pore 41 of this ventilation duct 4 is communicated with the through hole 322 of this cap 32, by this, when hygroscopic material must be dried, the hot blast that electric calorifie installation produces, can by the through hole 322 of moisture-absorption box main body 3, enter the pore 41 of ventilation duct 4, guide via ventilation duct 4 again, hot blast is made to blow into each corner of accommodation space 33 of moisture-absorption box main body 3 by the open-work 42 of ventilation duct 4, make the hygroscopic material flash baking in the accommodation space 33 of moisture-absorption box main body 3, continue it, this hot blast is discharged in outward by the multiple trough type open-works 311 on tubular shell 31 again, to reach the effect making hot blast circulate in accommodation space 33 Inner eycle of moisture-absorption box main body 3.

See also Fig. 5 again, Fig. 6, for the 3rd embodiment of moisture-absorption box structure of the present invention, moisture-absorption box main body 5 is made to be set to hollow and one end is open end, and another end is the tubular shell 51 of blind end, and be provided with cap 52 in the open end group of this tubular shell 51, and an accommodation space 53 is formed between this tubular shell 51 and this cap 52, make again this tubular shell 51 run through vertically in its wall thickness place and have multiple slotted eye 511, so that its blind end place forms notch, and make this tubular shell 51 inwall in its each slotted eye 511 place corresponding, axially lyriform pore 512 is formed along it, and each lyriform pore 512 slotted eye 511 corresponding with it is communicated, this cap 52 is made again to be provided with open-work 523, with corresponding with the slotted eye 511 of this tubular shell 51, the blind end inner face centre of this tubular shell 51 is separately made to be convexly equipped with carrier 521, and run through in these carrier 521 central authorities and have through hole 522, this one end is separately made to be open end, and the ventilation duct 2 that another end is blind end is located in the accommodation space 53 of this moisture-absorption box main body 5, and be plugged in the through hole 522 of the carrier 521 of cap 52, communicate with the through hole 522 of the pore 21 with this cap 52 that make this ventilation duct 2, in this, when the hygroscopic material of the accommodation space 53 carrying out moisture-absorption box main body 5 is dried, the hot blast that electric calorifie installation produces, can by the through hole 522 of moisture-absorption box main body 5, enter in the pore 21 of ventilation duct 2, guide via ventilation duct 2 again, hot blast is made to blow into each corner of accommodation space 53 by open-work 22, and the hygroscopic material being located in accommodation space 53 is dried rapidly, continue it, this hot blast enters in tubular shell 51 slotted eye that wall thickness is established 511 by the lyriform pore 512 of the inwall of tubular shell 51, the notch of blind end is through to again by slotted eye 511, and cap 52 open-work 523 corresponding with slotted eye 511 is discharged in outward, and reach hot blast is circulated in accommodation space 53 Inner eycle of moisture-absorption box main body 5, effect that hygroscopic material is dried rapidly.

Separately see also Fig. 7, Fig. 8, for the 4th embodiment of moisture-absorption box structure of the present invention, this moisture-absorption box main body 6 can be made to be set to hollow and two ends are the tubular shell 61 of open end, and be provided with cap 62 in two open end groups of this tubular shell 61, and an accommodation space 63 is formed between this tubular shell 61 and this cap 62, this tubular shell 61 perisporium is made again to be provided with multiple open-work 611, to communicate with its accommodation space 63, one cap 62 inner face is separately made to form ventilation duct 7, and make this ventilation duct 7 be provided with pore 71 in center, the cap 62 of this ventilation duct 7 of connection is separately made to be formed with through hole 621 in pore 71 place of corresponding ventilation duct 7, axially run through in this ventilation duct 7 wall thickness place again and have multiple slotted eye 72, so that cap 62 place be connected forms notch, and make the inwall of this ventilation duct 7 and outer wall axially form lyriform pore 73 along it respectively, make again that the lyriform pore 73 of this inwall and outer wall is adjacent to be set up, to be connected with a slotted eye 72 respectively, two cap 62 peripheral region setting tools are made again to have open-work 622, according to this, when the hygroscopic material be installed in accommodation space 63 must be dried, the hot blast that electric calorifie installation produces, the notch being through to the slotted eye 72 of cap 62 by cap 62 through hole 621 and ventilation duct 7 blows in accommodation space 63, and at the slotted eye 72 of ventilation duct 7 with in it, under the lyriform pore 73 that is interlinked to the outside guiding, hot blast can blow the hygroscopic material to each corner of accommodation space 63, so that hygroscopic material is dried, continue it, hot blast has open-work 622 to discharge in outward by two cap 62 peripheral region setting tools, circulate in accommodation space 63 Inner eycle of moisture-absorption box main body 6 to make hot blast, reach the effect of being dried rapidly by hygroscopic material.

See also Fig. 9 again, Figure 10, for the 5th embodiment of moisture-absorption box structure of the present invention, this moisture-absorption box main body 8 can be docked by least two caps 81 and even multiple cap 81 form, the present invention is assembled into main implementation with two caps 81, it is the accommodation space 82 forming this moisture-absorption box main body 8 between the cap 81 of this two docking, and be provided with multiple open-work 83 in this two cap 81, ventilation duct 9 is made again to be arranged in the accommodation space 82 of this moisture-absorption box main body 8, it is this ventilation duct 9 is included ventilation duct main body 91 that inside is formed with hollow pore 911, and the through hole 84 of the mouth of pipe of this ventilation duct main body 91 and one cap 81 setting tool is connected with group, communicate with the pore 911 of the through hole 84 with this ventilation duct main body 91 that make this cap 81, this ventilation duct main body 91 perisporium is made again to be connected with multiple connection tube 92 one end, and make the plurality of connection tube 92 another end be provided with the ring-type mozzle 93 being located on this ventilation duct main body 91 periphery, multiple open-work 932 is provided with again in this mozzle 93 perisporium, and the pore 911 of this ventilation duct main body 91 is through the pore 921 of connection tube 92, and communicate with the pore 931 of mozzle 93, accordingly, when the hygroscopic material of the accommodation space 82 of moisture-absorption box main body 8 must be dried, the hot blast that electric calorifie installation produces, by the through hole 84 of moisture-absorption box main body 8, blow in the pore 911 of ventilation duct main body 91, enter in the pore 931 of mozzle 93 by the pore 921 of the connection tube 92 communicated with the pore 911 of ventilation duct main body 91 again, to be blown into each corner of accommodation space 82 of moisture-absorption box main body 8 by the open-work 932 of mozzle 93, and hygroscopic material is dried, continuous hot blast is discharged in outward by the open-work 83 of two cap 81 setting tools, to reach, hot blast is circulated in accommodation space 82 Inner eycle of moisture-absorption box main body 8, the effect that hygroscopic material is dried rapidly.

See also Figure 11 again, Figure 12, for the 6th embodiment of moisture-absorption box structure of the present invention, make moisture-absorption box main body a be tool to be the polygonal body such as hexagonal, be make its housing a1 one end be open end, and another end is blind end, and be covered with cap a2 in its open end place, and make this cap a2 inner side end place form multiple trip a21, the blind end of housing a1 is made again to be provided with corresponding hole clipping a11, behind the open end being covered on housing a1 in cap a2, the trip a21 of cap a2 is made to wear clip in the hole clipping a11 of this housing a1 blind end, and this housing a1 and cap a2 group are set to one, by this, when for the hygroscopic material be installed in moisture-absorption box main body a is dried, can by stacking for multiple moisture-absorption box correspondence, again these stacking multiple moisture-absorption boxes are positioned on electric calorifie installation, continue startup electric calorifie installation, now, the hot blast that electric calorifie installation produces just can be blown into the accommodation space of housing a1 by through hole a22 set by cap a2 central authorities, dry with the hygroscopic material will be installed in it, continue it, this hot blast can flow out by the multiple tracks slotted eye a13 from the accommodation space of housing a1 toward its central perforation a12 hole wall setting tool, after its perforation a12 concentrates in the past, channelling is to the cap a2 through hole a22 of moisture-absorption box above it again, think that the hygroscopic material above it in moisture-absorption box is dried, accordingly, make hot blast successively and on, and reach once by the effect of the hygroscopic material oven dry in multiple moisture-absorption box.

From said structure and embodiment, tool of the present invention has the following advantages:

1. moisture-absorption box structure of the present invention does not install electric-heating assembly in moisture-absorption box, therefore can significantly save moisture-absorption box manufacturing cost, and increases moisture-absorption box and put hygroscopic material space, to improve the amount of putting of hygroscopic material, effectively to promote effect of its moisture absorption.

2. moisture-absorption box structure of the present invention is provided with ventilation duct in moisture-absorption box inside, with in time drying reduction hygroscopic material, the hot blast that electric calorifie installation sends can via the guiding of this ventilation duct, hot blast is effectively blown into each corner of moisture-absorption box accommodation space, to reach from inside to outside fully, fast by the effect of hygroscopic material oven dry.

3. moisture-absorption box structure of the present invention is provided with ventilation duct in moisture-absorption box inside, when moisture enters the accommodation space of moisture-absorption box by the open-work of moisture-absorption box cap, moisture also can enter in accommodation space by ventilation duct, to make the hygroscopic material of accommodation space from outside to inside, all can abundant absorbing moisture, reach the benefit of effectively dehumidifying.

The foregoing is only the schematic detailed description of the invention of the present invention, and be not used to limit scope of the present invention.Any those skilled in the art, equivalent variations done under the prerequisite not departing from design of the present invention and principle and amendment, all should belong to the scope of protection of the invention.

Claims (5)

1. a moisture-absorption box structure, it is characterized in that, described moisture-absorption box structure is provided with moisture-absorption box main body, and form accommodation space in described moisture-absorption box main body, be provided with again inner in the ventilation duct with pore in described accommodation space, be separately provided with open-work in described ventilation duct, communicate with described accommodation space via described open-work to make described pore, multiple open-work is provided with, to communicate with described accommodation space again in described moisture-absorption box main body.

2. moisture-absorption box structure as claimed in claim 1, it is characterized in that, described moisture-absorption box main body includes housing, and group is provided with cap on described housing, to make to form described accommodation space between described housing and described cap, make again described ventilation duct one end and described cap be connected with group, and make the described cap be connected with group with described ventilation duct be provided with through hole, to communicate with the pore of described ventilation duct.

3. moisture-absorption box structure as claimed in claim 1, it is characterized in that, described moisture-absorption box main body includes housing, and be provided with cap in described housing, to make to form described accommodation space between described housing and described cap, separately make described housing run through vertically in its wall thickness place and have multiple slotted eye, and make described inner walls in its each described slotted eye place corresponding, axially lyriform pore is formed along it, and each described lyriform pore described slotted eye corresponding with it is communicated, described cap is made again to be provided with open-work, with corresponding with the slotted eye of described housing.

4. moisture-absorption box structure as claimed in claim 1, it is characterized in that, described moisture-absorption box main body includes housing, and group is provided with cap on described housing, to make to form described accommodation space between described housing and described cap, separately make described ventilation duct wall thickness place run through vertically and have multiple slotted eye, and the described cap place its slotted eye being through to be connected, to form notch, and make the inwall of described ventilation duct and outer wall axially form lyriform pore along it respectively, make again that the lyriform pore of described inwall and described outer wall is adjacent to be set up, to be connected with slotted eye described in respectively.

5. moisture-absorption box structure as claimed in claim 1, it is characterized in that, described moisture-absorption box main body is docked by multiple cap and is formed, and between multiple described cap, form the accommodation space of described moisture-absorption box main body, cap described in described ventilation duct one end and one is made again to be connected with group, and make the described cap be connected with group with described ventilation duct be provided with through hole, to communicate with the pore of described ventilation duct.