KR101612726B1 - Dehydration assembly - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a moisture absorption box structure, and in particular, a ventilation pipe is provided in a housing space of a moisture absorption box main body, and a through hole is provided in the airflow tube to communicate with the accommodation space. Thus, when the desiccant in the desiccant box is desiccated and reduced by using the design of the exhaust duct in the desiccant box, the hot air emitted by the heat-transfer device is effectively guided to each corner of the receiving space of the desiccant box by the guide of the air- So that the effect of rapidly drying the moisture absorbent can be obtained. Further, since the heat transfer assembly is not mounted in the moisture absorption box of the present invention, the cost of manufacturing the moisture absorption box can be greatly reduced and the space for accommodating the moisture absorption box can be increased to increase the capacity of the moisture absorption agent and improve the moisture absorption function of the moisture absorption box. You can do it further.

Description

{DEHYDRATION ASSEMBLY}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a moisture absorption box structure, and more particularly, to a moisture absorption box structure capable of effectively drying and reducing a moisture absorption agent and effectively improving a moisture absorption function.

Among the hygroscopic products sold in the market, it is most common to use chemical substances such as calcium chloride as the content. The product is divided into upper and lower two-storey accommodation spaces, and the upper-layer accommodation space contains granular calcium chloride, and the lower layer collects moisture-absorbed vapor liquid. Since the contained liquid contains calcium chloride chemical, it is very difficult to remove the liquid when it comes into contact with the surrounding articles by carelessly pouring the liquid, and if it touches the human body, the skin may become red, swollen, And it is considerably inconvenient in the recovery. Generally, the user pours a liquid containing calcium chloride into the drainage system and throws away the receiving box, which causes not only environmental pollution but also waste of resources.

Recently, another hygienic product which can be reused has been introduced. This product is mainly composed of a box-shaped body, the electro-thermal assembly is mounted in the box-shaped body, and the box-shaped body is filled with a large number of desiccants, so that moisture in the air is absorbed and moisture absorbed by the desiccant is saturated Electricity is passed to the heat transfer assembly, the heat transfer assembly converts the electric energy to thermal energy, and then dries the moisture absorbent absorbing moisture in a saturated state and reuses it.

However, the hygroscopic product has an effect capable of overlapping moisture absorption. However, the manufacturing cost is increased due to the heat transfer assembly assembled in the body, and the heat transfer assembly is assembled in the body, so that the space for the hygroscopic agent provided in the body is reduced. Therefore, it is inconvenient to use since the moisture absorption amount is decreased, the heat transfer assembly is frequently driven to dry the hygroscopic agent, and the hygroscopic operation must proceed again. On the other hand, after the heat transfer assembly emits thermal energy, since the drying range of the heat transfer assembly is the moisture absorbent around it, it is difficult to spread all of the moisture absorbent in the inside of the body to the entire surface. If it is desired to dry all the moisture absorbent inside the body, The amount of power consumption required is relatively increased and the service life of the heat transfer assembly is relatively shortened in a situation where the heat transfer assembly is frequently driven and the operation time is prolonged. In addition, maintenance must be performed or replaced after a certain period of use, which causes an economic burden to the user.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a moisture absorption box structure, and its main object is to provide a moisture absorption box structure capable of effectively drying and reducing a moisture absorption agent to effectively improve a moisture absorption function.

In order to achieve the above object, the inventor of the present invention studied the following moisture absorption box structure. The moisture absorption box structure is provided with a moisture absorption box main body, a housing space is formed in the moisture absorption box main body, and an air supply pipe having a tube hole (pipe hole) is provided in the accommodation space, A through hole is formed in the tube so that the tube hole communicates with the accommodation space through the through hole, and a plurality of through holes are formed in the moisture absorption box main body to communicate with the accommodation space.

As a result, since the heat-absorbing assembly is not mounted in the moisture absorption box, the manufacturing cost of the moisture absorption box can be greatly reduced, and the space for accommodating the moisture absorption agent in the moisture absorption box is increased to improve the capacity of the moisture absorption agent. The function can be effectively improved.

In addition, the moisture absorption box structure of the present invention is provided with a ventilation tube inside the moisture absorption box. When the moisture absorption agent is dried and reduced, the hot air emitted by the heat transfer device is guided by the airflow tube, So that the moisture absorbent can be sufficiently dried out from the inside and quickly dried.

In addition, the moisture absorption box structure of the present invention is provided with an air supply pipe inside the moisture absorption box, and when moisture enters the accommodation space of the moisture absorption box through the through hole of the moisture absorption box main body, So that the moisture absorbent in the receiving space can sufficiently absorb moisture from the outside to the inside, thereby effectively absorbing moisture.

1 is an exploded perspective view of the present invention.
2 is a cross-sectional view of the present invention.
3 is a perspective exploded view according to another embodiment of the present invention.
4 is a cross-sectional view according to another embodiment of the present invention.
5 is a perspective exploded view according to another embodiment of the present invention.
6 is a cross-sectional view according to another embodiment of the present invention.
7 is a perspective exploded view according to another embodiment of the present invention.
8 is a perspective exploded view showing that the moisture absorption box of Fig. 7 is laminated.

As shown in Figs. 1 and 2, the moisture absorption box structure of the present invention includes a moisture absorption box body 1 and an airflow duct 2.

The moisture absorption box main body 1 includes a cylindrical housing 11 which is hollow and has open ends at both ends thereof. The housing cover 12 is provided at both ends of the cylindrical housing 11, (13) is formed between the housing cover (11) and the housing cover (12) at both ends. A supporting portion 121 protrudes from the center of the inner surface of the two housing covers 12 and a receiving groove 122 is formed at the center of the supporting portion 121, Through holes 123 are formed in the groove bottom of the cylindrical housing 11 and the through holes 111 and 124 communicating with the receiving space are formed in the peripheral wall of the cylindrical housing 11 and the two housing covers 12 respectively Respectively.

The ventilation tube 2 is installed in a receiving space 13 of the moisture absorption box main body 1 and a tube hole 21 is formed in the ventilation tube 2, A plurality of through holes 22 communicating with the tube holes 21 are formed in the walls of the housing cover 12 of the moisture absorption box body 1, And the tube hole 21 of the ventilation tube 2 communicates with the through hole 123 of the housing cover 12. [

When the granular moisture absorbent is used, it is filled in the accommodation space 13 of the moisture absorption box main body 1 and then placed in a space requiring moisture absorption such as a wardrobe, a bookcase, a shoe box and a storage box, Enters the accommodation space 13 of the moisture absorption box main body 1 through an arbitrary gap of the main body 1 and the moisture absorber in the accommodation space 13 absorbs moisture to thereby improve the drying degree of the space requiring moisture absorption Thereby preventing the object placed in the space requiring moisture absorption from being damaged by moisture.

When the moisture absorbent absorbs moisture and becomes saturated, the user can perform drying and reduction operations on the moisture absorbent contained in the moisture absorption box using an external heat transfer device. When the moisture absorber is dried, the heat absorber generates hot air by connecting the moisture absorber of the present invention to the heat absorber and driving the heat absorber again. The hot air passes through the through hole 123 of the moisture absorber box main body 1 The hot air flows through the through hole 22 of the ventilation pipe 2 and is guided through the vent hole 2 of the moisture absorption box main body 1 And is sent to each corner of the accommodation space 13 to dry the moisture absorber in the accommodation space 13. [ The hot air is discharged through the cylindrical housing 11 and the through holes 111 and 124 on the two housing covers 12 so that the hot air circulates and circulates in the housing space 13 of the moisture absorption box body 1, Is quickly dried.

Since the heat-absorbing assembly is not mounted in the moisture-absorbing box of the present invention, the manufacturing cost of the moisture-absorbing box can be greatly reduced. Further, since the heat- As the space in which the moisture absorber can be inserted relatively increases and the amount of the moisture absorber can be increased, the moisture absorptive amount and the hygroscopic effect can be improved, and after the long use period, the desiccant can be dried and reduced again. It is not necessary to dry. Thus, not only the ease of use is increased, but also power can be saved. In addition, since the present invention is capable of effectively guiding the hot wind generated by the heat transfer device to each part of the accommodation space 13 of the moisture absorption box by providing the ventilation pipe 2 located inside the moisture absorption box, It can be dried sufficiently outside and quickly. Here, the operating time of the heat transfer device is relatively reduced, and the power consumption cost can be relatively reduced. As the frequency and time of use of the heat transfer device are effectively reduced, the service life of the heat transfer device can be prolonged, and the heat loss due to frequent destruction of the heat transfer device can reduce the economic loss due to maintenance or replacement.

FIGS. 3 and 4 show another embodiment of the moisture absorption box structure according to the present invention. The moisture absorption box body 3 may be formed as a tubular housing 31 having a hollow shape and open ends at both ends. A housing cover 32 is mounted on two open ends of the cylindrical housing 31 and a housing space 33 is formed between the cylindrical housing 31 and the housing cover 32. A plurality of through holes 311 communicating with the accommodation space 33 are formed in the peripheral wall of the cylindrical housing 31. A ventilation pipe 4 is formed on the inner surface of one housing cover 32, The above-described two housing covers 32 are connected to the ventilation pipe 4, and the ventilation pipe 4 has a tube hole 41 formed at the center thereof. The housing cover 32 connected to the ventilation pipe 4 is formed with a through hole 321 at a portion corresponding to the tube hole 41 of the ventilation pipe 4 and is provided with a through- A slot opening is formed in the housing cover 32 which is connected to the ventilation pipe 4 and a plurality of slot holes 42 are formed in the ventilation pipe 4, And the through holes 322 are formed in the peripheral edges of the two housing covers 32. The through holes 322 are formed in the outer circumferential surfaces of the two housing covers 32, Is formed. On the basis of this, hot air generated in the heat transfer device is sucked into the through hole 321 of the housing cover 32 and the housing cover 32 in the ventilation pipe 4 when the moisture absorbent filled in the accommodation space 33 is dried. Is inserted into the accommodation space 33 from the slot entrance of the slotted hole 42 penetrating through the slotted hole 42 and the slot hole 42 of the ventilation pipe 4 and the through hole 4 is provided in the same manner as the above- Hot air can be sent to the moisture absorbent at each corner of the receiving space 33 to dry the moisture absorbent under the guide of the gap hole 43 communicating with the inside and the outside of the slot hole 42. Further, the hot air can be discharged to the outside through the through holes 322 at the edges around the two housing covers 32. As a result, the hot air is circulated and circulated in the accommodation space 33 of the moisture absorption box body 3, and the moisture absorbent is quickly dried.

5 and 6, these drawings are still another embodiment of the moisture absorption box structure of the present invention, wherein the moisture absorption box body 5 includes at least two housing covers 51 to 51, Butt joints. A housing space 52 of the moisture absorption box main body 5 is formed between the two butt-joined housing covers 51, A plurality of through holes 53 are formed in the two housing covers 51 and a ventilation pipe 6 is provided in the accommodation space 52 of the moisture absorption box body 5. [ The ventilation pipe 6 includes a ventilation pipe main body 61 in which a hollow tube hole 611 is formed and the tube entrance of the ventilation pipe main body 61 is provided with a through hole 54 formed in the housing cover 51 So that the through hole 54 of the housing cover 51 communicates with the tube hole 611 of the air supply pipe main body 61. [ One end of a plurality of connection pipes 62 is connected to the peripheral wall of the air supply pipe main body 61 and the other end of the plurality of connection pipes 62 is provided with an annular flow A plurality of through holes 632 are formed in the circumferential wall of the bulb tube 63 and the tube hole 611 of the bulb tube body 61 is connected to the connection tube 62, And communicates with the tube hole 631 of the bulb tube 63 through the tube hole 621 of the bulb 631. The hot air generated in the heat transfer device is discharged through the through hole 54 of the moisture absorption box main body 5 to the outside of the air supply pipe main body 61 The tube hole 631 of the draft tube 63 is guided through the tube hole 621 of the coupling tube 62 communicated with the tube hole 611 of the air supply tube body 61, And is sent to each corner of the housing space 52 of the moisture absorption box main body 5 through the through hole 632 of the draft tube 63 to dry the moisture absorbent and the hot air flows through the two housing covers 52, Hole 53 formed in the through-hole 53. As a result, the hot air circulates and circulates in the receiving space 52 of the moisture absorption box body 5, thereby quickly drying the moisture absorbent.

7 and 8 show still another embodiment of the moisture absorption box structure according to the present invention in which the moisture absorption box main body 7 includes a hexagonal housing 71 and a housing cover 72, And a receiving space is formed at the outer periphery of the ventilation tube. The ventilation tube has a tube inlet 712 and a plurality of through holes 713 connected to the receiving space. The hexagonal housing 71 has a closed end and an open end and the housing cover 72 covers the open end of the hexagonal housing 71 and has a through hole 722 connected to the tube inlet 712 have. A plurality of second assembly connection portions are formed on the inner side surface of the housing cover 72 and a plurality of first assembly connection portions 711 corresponding to the second assembly connection portion 721 are formed at the open end of the hexagonal housing 71 Here, the first assembly connection portion 711 and the second assembly connection portion 721 may be a hole and a column body. When the desiccant is to be dried, the hot air of the heat transfer device is guided by the passage hole 722 and the tube inlet 712, passes through the through hole 713, enters the accommodation space, And dried. In addition, by stacking a plurality of the moisture absorption box bodies 7 and communicating the tube inlet 712 of the moisture absorption box body 7 with each other, hot air flows through the moisture absorption box body 7 in order to dry the moisture absorption agent can do.

As can be seen from the above-described construction and implementation, the present invention has the following advantages.

1. The moisture absorption box structure of the present invention does not have the heat transfer assembly mounted in the moisture absorption box, so that the manufacturing cost of the moisture absorption box can be greatly saved. Further, by increasing the space of the hygroscopic agent in the moisture absorption box, the capacity of the hygroscopic agent is increased, thereby effectively improving the hygroscopic function.

2. In the moisture absorption box structure of the present invention, a ventilation pipe is provided inside the moisture absorption box, so that when the moisture absorption agent is dried and reduced, hot air emitted by the heat transfer device is effectively sent to each corner of the moisture absorption box accommodation space by the guide The effect of drying the moisture absorbent from the inside to the outside sufficiently and rapidly is obtained.

3. The moisture absorption box structure of the present invention is provided with a ventilation tube inside the moisture absorption box, and when the moisture enters the housing space of the moisture absorption box from the through hole of the moisture absorption box housing cover, moisture enters the accommodation space through the airflow tube Thus, the moisture absorbent in the receiving space can absorb moisture sufficiently from the outside to the inside, thereby effectively absorbing moisture.

1: The moisture absorption box body
11: Housing
111: Through hole
12: Housing cover
12: Support
122: receiving groove
123: Through hole
124: Through hole
13: Capacity space
2: ventilation duct
21: Tube hole
22: Through hole
3: Moisture absorption box body
31: Housing
311: Through hole
32: Housing cover
321: Through hole
322: Through hole
33: accommodation space
4: Ventilation pipe
41: Tube hole
42: Slot hole
43: Clearance hole
5:
51: Housing cover
52: Capacity space
53: Through hole
54: Through hole
6: Ventilation pipe
61: Ventilation pipe body
611: Tube hole
62: Connector
621: Tube hole
63: Cryogen
631: Tube hole
632: Through hole
7: Moisture absorption box body
71: hexagonal housing
711: first assembly connecting portion
712: entrance of the tube
713: Through hole
72: housing cover
721: second assembling connection part
72: Through hole

Claims (4)

Wherein the moisture absorption box main body is provided, a receiving space is formed in the moisture absorption box body, a ventilation tube having a tube hole is provided in the accommodation space, a through hole is formed in the ventilation tube, And a plurality of through holes are formed in the moisture absorption box body so as to communicate with the accommodation space,
Moisture absorption box structure. The method according to claim 1,
Wherein the moisture absorption box main body includes a housing, a housing cover is assembled to the housing, the accommodation space is formed between the housing and the housing cover, one end of the ventilation tube is assembled and connected to the housing cover, And the housing cover connected to the ventilation tube is formed with a through-hole to communicate with the tube hole of the ventilation tube. The method according to claim 1,
Wherein the moisture absorption box main body includes a housing, a housing cover is assembled to the housing, the accommodation space is formed between the housing and the housing cover, and a plurality of slot holes are formed in the wall of the air flow tube in the axial direction And the slot hole penetrates to the position of the housing cover to which the ventilation tube is connected to form a slot inlet, and an inner wall and an outer wall of the ventilation tube are provided with a gap hole along the axial direction thereof, And is in communication with the moisture absorption box structure. The method according to claim 1,
Wherein the moisture absorption box main body includes a housing and a housing cover, the ventilation tube extends to the moisture absorption box main body, the ventilation tube has a tube inlet, a through hole connected to the tube inlet is formed, A plurality of second assembly connecting portions are provided on one side of the housing assembly, and a plurality of first assembly connecting portions are formed on the housing to be connected to the plurality of second assembly connecting portions.

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