KR200456086Y1 - Desiccator Unit - Google Patents

Abstract

The present invention relates to a dehumidifier storage device, in the process of discharging dry air into the dehumidification cabinet through the injector to suck the air inside the dehumidification cabinet and to discharge it with the dry air, thereby forcing relative convection to the space inside the dehumidifying cabinet. Therefore, the present invention provides a dehumidification storage device capable of intensively and rapidly dehumidifying a high humidity part, and uniformizing the distribution of humidity in a space inside the dehumidification cabinet and performing a faster dehumidification function.

Description

Dehumidification Storage Unit {Desiccator Unit}

The present invention relates to a dehumidification storage device. More specifically, in the process of discharging dry air into the dehumidification cabinet through the injector, the air inside the dehumidification cabinet is sucked and discharged together with the dry air, thereby forcing a relatively high humidity portion through forced convection to the space inside the dehumidification cabinet. The present invention relates to a dehumidification storage device capable of performing rapid dehumidification intensively, and at the same time performing uniform dehumidification with respect to the space inside the dehumidification cabinet and performing a faster dehumidification function.

In a typical factory, the internal air humidity is relatively high (40%), and a separate dehumidification box device is provided to protect the products such as moisture-sensitive electronic parts or chips from being damaged by moisture. These dehumidifier boxes are widely used in electronics and semiconductor factories.

The dehumidification box device is connected to the factory utility compressed air supply utility pipe or individual compressor through the dry air supply line, and maintains the dry state inside by receiving the dry air of about 3% humidity discharged by compression drying through the compressor. It is configured to.

In general, the compressed air supply utility piping in the factory is finally connected to the compressor, and the compressor is usually provided with a dryer. Therefore, the air in the factory is converted into a dry air state having a humidity of 3% after passing through the compressor, and the dry air is configured to enter the dehumidification storage device.

The dehumidifying storage device is formed in the form of a dehumidifying cabinet that is opened and closed through a door to store or remove the product in the interior space, and dry air inside the dehumidifying cabinet through a dehumidification control unit that works in conjunction with the humidity sensor inside the dehumidifying cabinet. It is configured to maintain the dehumidifying cabinet internal space in a dry state by supplying the same.

However, in the conventional dehumidification storage device according to the related art, when the door of the dehumidification cabinet is opened and closed for a while, the air having high humidity is introduced into the dehumidification cabinet and the humidity inside the dehumidification cabinet is increased, and thus, through the dehumidification control unit. It operates to supply dry air into the dehumidification cabinet, in which case the time required to bring it to dry again is very excessively over 1 hour, which causes the product stored inside to be damaged by moisture. Problems such as occurred.

The present invention is devised to solve the problems of the prior art, the object of the present invention is to inhale the air inside the dehumidification cabinet in the process of discharging the dry air inside the dehumidification cabinet through the injector to discharge together with the dry air, dehumidification Forced convection to the cabinet interior allows for rapid, dehumidified dehumidification of relatively high humidity areas, and even dehumidification for a faster dehumidification function with a uniform humidity distribution over the interior of the dehumidification cabinet. It is to provide a storage device.

Another object of the present invention is to form a neck portion causing the throttling action in the inner flow path of the injector for discharging dry air, so that the suction to the air inside the dehumidification cabinet can be more smoothly, and thus the dehumidification function can be more effectively and quickly. It is to provide a dehumidifying storage device that can be performed.

Another object of the present invention is to form an intake case that sucks the air inside the dehumidification cabinet to suck the inside air in a relatively large space, thereby more actively generating forced convection in the space inside the dehumidification cabinet, accordingly It is to provide a dehumidification storage device that can perform a faster dehumidification function.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The present invention provides a dehumidifying storage device for supplying dry air to dehumidify an internal space, the dehumidification cabinet having a humidity sensor mounted therein; An injector disposed inside the dehumidifying cabinet to discharge dry air inside the dehumidifying cabinet; A dehumidification control module configured to receive dry air from a separate compressor and supply the dry air to the injector so that the injector discharges the dry air according to the measured value of the humidity sensor; And a suction hole disposed in the dehumidification cabinet to suck air in the dehumidification cabinet, the suction case being connected to the injector through a separate suction pipe, and the injector discharging dry air. By the pressure drop phenomenon occurs in the air inside the dehumidification cabinet provides a dehumidification storage device, characterized in that the inlet through the suction case and the suction pipe is discharged along with the dry air.

In this case, the injector may be disposed at an upper layer in the inner space of the dehumidification cabinet, and the suction case may be disposed at a lower layer in the inner space of the dehumidification cabinet.

The injector may further include: an injector block having a discharge flow path formed in one direction to discharge dry air, and a suction flow path connected to the suction pipe at a stop of the discharge flow path communicating with the discharge flow path; An inlet port coupled to one end of an outlet flow path of the injector block; And a discharge port coupled to the other end of the discharge passage of the injector block, wherein the discharge passage may have a neck portion having a smaller diameter at a point communicating with the suction passage.

On the other hand, the inner space of the dehumidification cabinet is separated into a plurality of dehumidification chambers communicated with each other by a plurality of separation diaphragm formed through holes, the suction case is each of the internal air from at least two dehumidification chambers of the plurality of dehumidification chambers It can be formed to suck the.

According to the present invention, in the process of discharging dry air into the dehumidifying cabinet through the injector, the air inside the dehumidifying cabinet is sucked out and discharged together with the dry air, and thus, the part with relatively high humidity through forced convection to the space inside the dehumidifying cabinet. It is possible to intensively and quickly dehumidify, and also have an effect of performing a more rapid dehumidification function at the same time as the humidity distribution in the space inside the dehumidification cabinet.

In addition, by forming the neck portion causing the throttling action in the inner flow path of the injector for discharging the dry air, it is possible to more smoothly suction the air in the dehumidification cabinet, thereby performing a dehumidification function more effectively and quickly It works.

In addition, the suction case for sucking the air inside the dehumidifying cabinet is formed to suck the inside air in a relatively large space, thereby more actively generating forced convection in the space inside the dehumidifying cabinet, thereby providing a faster dehumidification function. There is an effect that can be performed.

1 is a conceptual diagram conceptually showing a schematic configuration of a dehumidifying storage device according to an embodiment of the present invention,
2 is a cross-sectional view conceptually showing the configuration of the injector of the dehumidifying storage device according to an embodiment of the present invention,
Figure 3 is a perspective view schematically showing the shape of the dehumidifying storage device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a conceptual diagram conceptually showing a schematic configuration of a dehumidifying storage device according to an embodiment of the present invention, Figure 2 conceptually showing the configuration of the injector of the dehumidifying storage device according to an embodiment of the present invention 3 is a cross-sectional view schematically illustrating the shape of a dehumidifying storage device according to an embodiment of the present invention.

Dehumidifier storage device according to an embodiment of the present invention is a device for dehumidifying the internal space by supplying the dry air delivered from a separate compressor (not shown), generating forced convection to further dehumidify the internal space It is configured to perform quickly and effectively, and comprises a dehumidification cabinet 100, an injector 300, a dehumidification control unit 200, and a suction case 400.

The dehumidification cabinet 100 is formed to have a sealed inner space to store electronic components to be stored in a dry state, the front surface is configured to open and close the inner space through a separate cabinet door 110. The drying air is supplied to the interior space of the dehumidification cabinet 100 so that the interior of the dehumidification cabinet 100 is maintained in a dry state. The interior of the dehumidification cabinet 100 may be measured so that the humidity of the interior space of the dehumidification cabinet 100 may be measured in real time. A separate humidity sensor 500 is disposed.

The injector 300 is disposed inside the dehumidification cabinet 100 to discharge dry air to the space inside the dehumidification cabinet 100, and the supply of dry air to the injector 300 is performed through the dehumidification control unit 200.

The dehumidification control unit 200 receives dry air from a separate compressor (not shown) to supply the dry air to the injector 300 so that the dry air can be discharged to the interior space of the dehumidification cabinet 100 through the injector 300. It is configured, and supplies the dry air to the injector 300 according to the humidity measurement value of the humidity sensor 500 disposed inside the dehumidification cabinet (100).

For example, the dehumidification control unit 200 is mounted in a separate control case 210, which is disposed outside the dehumidification cabinet 100, the control case 210, as shown in FIG. 1, and the first supply pipe. The valve module 230 is connected to the compressor through the P1 and the humidity measurement value of the humidity sensor 500 and the valve module 230 are connected to the injector 300 through the second supply pipe P2. It may be configured to include a control module 210 for controlling the operating state of the).

The suction case 400 is disposed inside the dehumidification cabinet 100 so that a suction hole 410 is formed to suck air in the dehumidification cabinet 100, and the suction case 400 is illustrated in FIG. 1. It is configured to be connected to the injector 300 through a separate suction pipe (P3).

According to the structure, if the humidity of the interior space of the dehumidification cabinet 100 increases, for example, by opening the cabinet door 110 of the dehumidification cabinet 100, the humidity sensor 500 detects this and dehumidifies according to the detected value. The control module 210 of the control unit 200 controls the operation by opening the valve module 230. When the valve module 230 is opened, the compressor is supplied from the compressor through the first supply pipe P1 and the second supply pipe P2 to the injector 300 inside the dehumidification cabinet 100 through the valve module 230. As the dry air is supplied and the dry air is discharged into the dehumidification cabinet 100 through the injector 300, the humidity of the interior space of the dehumidification cabinet 100 is gradually reduced, and thus the space of the interior space of the dehumidification cabinet 100 is supplied. Humidity is kept dry.

At this time, in the process in which dry air is discharged to the interior space of the dehumidification cabinet 100 by the injector 300, the dehumidification storage device according to an embodiment of the present invention is dehumidified through the suction pipe (P3) and the suction case 400 Air in the cabinet 100 is introduced into the injector 300, mixed with the dry air, and discharged into the dehumidification cabinet 100.

That is, in the dehumidification storage device according to an embodiment of the present invention, since the separate suction case 400 disposed in the dehumidification cabinet 100 is connected to the injector 300 through the suction pipe P3, the injector Air inside the dehumidification cabinet 100 is sucked into the injector 300 through the suction case 400 and the suction pipe P3 by the pressure drop phenomenon generated in the process of discharging dry air at a high pressure through the 300. In addition, the injector 300 is discharged back to the interior space of the dehumidification cabinet 100 together with the dry air.

Therefore, in the dehumidification cabinet 100, the suction process through the suction case 400 occurs at one side and the discharge process through the injector 300 occurs at the same time, so that the forced convection of air by the suction and discharge process is performed. As a result, the humidity distribution of the interior space of the dehumidification cabinet 100 has a uniform distribution relatively faster, and the humidity can be lowered more quickly by mixing and forced convection.

On the other hand, in the interior space of the dehumidification cabinet 100, in general, the upper layer is kept in a relatively high humidity and the lower layer is kept in a relatively low humidity in a dry state, the suction case that can suck the air inside the dehumidification cabinet 100 ( 400 is preferably disposed in the lower layer of the dehumidification cabinet 100 to suck the relatively low humidity dry air, the injector 300 for discharging the dry air discharges the dry air in the relatively high humidity portion It is preferably disposed on the upper layer of the dehumidifying cabinet 100 so that it can be quickly dried.

Accordingly, in the inner space of the dehumidification cabinet 100, since relatively dry air is supplied to the upper layer through the injector 300, the dehumidifying effect on the upper layer having a relatively high humidity may be further improved. That is, the dehumidification effect on the upper layer having a relatively high humidity is generated not only by the dry air supplied from the dehumidification control unit 200 but also by the lower layer air supply having a relatively low humidity, and thus, the inside of the dehumidifying cabinet 100. The space can be dried more quickly.

In addition, the injector 300 and the suction case 400 may be positioned relatively far apart so that forced convection of the space inside the dehumidification cabinet 100 may occur in a wider range.

On the other hand, the injector 300 according to an embodiment of the present invention is so as to smoothly suck the internal air from the suction case 400 during the drying air injection process as shown in FIG. Neck portion 313 may be formed to induce the throttling action.

Looking in more detail, the injector 300 according to an embodiment of the present invention is an injector block 310, the discharge passage 311 and the suction passage 312 is formed therein, the discharge passage (injector block 310) The inlet port 320 is coupled to one end of the 311, and the discharge port 330 is coupled to the other end of the discharge passage 311 of the injector block (310).

The discharge passage 311 formed in the injector block 310 is formed long in one direction so that the dry air supplied from the dehumidification control unit 200 is introduced and discharged, and each of the inlet ports 320 at both ends of the discharge passage 311. ) And the discharge port 330 is combined. The suction passage 312 is formed to be connected to the discharge passage 311 in a direction perpendicular to the stop of the discharge passage 311, and the suction pipe P3 is connected to an end of the suction passage 312.

In this case, a neck portion 313 is formed at the stop portion of the discharge passage 311 so that the inner diameter of the passage decreases at a point in communication with the suction passage 312. That is, the discharge passage 311 has a neck portion 313 having a smaller diameter toward both points communicating with the suction passage 312 from both ends, and the neck passage 313 communicates with the suction passage 312. At this point, the diameter of the discharge flow path 311 becomes minimum, through which the throttling action occurs on the dry air, and the air inside the dehumidifying cabinet 100 is sucked from the suction pipe P3 by the pressure drop phenomenon due to the throttling action. The sucked internal air is discharged together with the dry air through the discharge passage 311.

Therefore, the injector 300 according to an embodiment of the present invention can more smoothly inhale a larger amount of internal air by the neck portion 313 in the discharge passage 311, so that the inside of the dehumidification cabinet 100 Dehumidification to space can be performed more effectively and quickly.

As described above, the dehumidification cabinet 100 may be formed in a plurality of dehumidification chambers C1, C2, C3, C4, and C5 by a plurality of separation diaphragms 120, as shown in FIG. 3. In this case, a plurality of through-holes 121 are formed in the separation plate 120 so that the plurality of dehumidification chambers C1, C2, C3, C4, and C5 are separated from each other in communication with each other.

As described above, when the dehumidification cabinet 100 is separated into a plurality of dehumidification chambers C1, C2, C3, C4, and C5 by a plurality of separation diaphragms 120, the suction case 400 may include a plurality of dehumidification chambers C1, It is preferable that the internal air is formed to suck internal air from two or more dehumidification chambers C4 and C5 among C2, C3, C4 and C5.

That is, the suction case 400 is formed to be located over the two dehumidification chambers (C4, C5) located in the lowermost floor, as shown in Figure 3, the suction hole 410 formed in the suction case 400 has two It is formed so as to be located in the dehumidification chamber (C4, C5), respectively, so that the internal air is directly sucked from the two dehumidification chamber (C4, C5) in the process of inhaling the air inside the dehumidification chamber through the suction case 400 desirable.

When the dehumidification cabinet 100 is separated into a plurality of dehumidification chambers by the plurality of separation diaphragms 120 in this manner, relatively less convective flow of the entire interior space of the dehumidification cabinet 100 occurs, and thus more and more. It is desirable to allow internal air to be sucked from at least two dehumidification chambers C4 and C5 located in the lower layer for active forced convection. Of course, in this case, the plurality of suction cases 400 commonly connected to the suction pipe P3 may be configured in such a manner that each of the two dehumidification chambers C4 and C5 is disposed.

The description above is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in this specification are intended to illustrate rather than limit the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be interpreted as being included in the scope of the present invention.

100: dehumidification cabinet 120: separation diaphragm
200: dehumidification control unit 300: injector
311: discharge passage 312: suction passage
313: neck 400: suction case
410: suction hole 500: humidity sensor

Claims (4)

In the dehumidification storage device for supplying dry air to dehumidify the internal space,
A dehumidification cabinet having a humidity sensor mounted therein;
An injector disposed inside the dehumidifying cabinet to discharge dry air inside the dehumidifying cabinet;
A dehumidification control module configured to receive dry air from a separate compressor and supply the dry air to the injector so that the injector discharges the dry air according to the measured value of the humidity sensor; And
The suction case is disposed inside the dehumidification cabinet and is formed to suck the air in the dehumidification cabinet, and is connected to the injector through a separate suction pipe.
Includes, the air inside the dehumidification cabinet is introduced into the injector through the suction case and the suction pipe by the pressure drop phenomenon generated in the process of discharging the dry air is discharged with the dry air,
The injector is disposed in the upper layer in the inner space of the dehumidification cabinet, the suction case is dehumidified storage device, characterized in that arranged in the lower layer in the inner space of the dehumidification cabinet.
delete The method of claim 1,
The injector is
An injector block in which a discharge flow path is formed in one direction to discharge dry air, and a suction flow path connected to the suction pipe is connected to the discharge flow path at a stop of the discharge flow path;
An inlet port coupled to one end of an outlet flow path of the injector block; And
Discharge port coupled to the other end of the discharge passage of the injector block
Includes, The discharge passage is dehumidified storage device, characterized in that the neck portion is reduced in diameter is formed at the point in communication with the suction passage.
The method according to claim 1 or 3,
The inner space of the dehumidification cabinet is separated into a plurality of dehumidification chambers communicated with each other by a plurality of separation diaphragms having through holes,
The suction case is a dehumidification storage device, characterized in that formed to suck the internal air from each of the two or more dehumidification chamber of the plurality of dehumidification chamber.

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