KR101910386B1 - Sealed case with apparatus for adjusting inner pressure - Google Patents

Abstract

According to the present invention, there is provided a sealed case having an internal pressure adjusting device, comprising: a sealing case for accommodating an internal humidifier; A pump installed to communicate with the inside of the closed case; And a control unit for controlling the pressure of the internal humidifier by controlling the pump in a first state in which the airtight case is manufactured, wherein the control unit controls the pressure of the external humidifier in the second state in which the air- Calculating a second state target pressure of the inside humidifier having a difference within a set size and calculating a dry air state quantity in the inside humidifier by the state quantity of the inside humidifier in the second state target pressure and the second state And calculates the first state target pressure based on the dry air state quantity and the state quantity of the internal humidifier in the first state, and when the pressure of the internal humidifier in the first state reaches the first state target pressure And controls the pump.

Description

[0001] SEALED CASE WITH APPARATUS FOR ADJUSTING INNER PRESSURE [0002]

The present invention is a device for preventing structural damage or release of a sealed state of a sealed case by predicting or adjusting the pressure inside the sealed case.

In the case of equipment or packages with a closed structure, the outside air and the enclosed environment are built in at the assembly and inspection sites, and then loaded in the transportation site to be moved to the use site. In addition, equipment having a closed structure may be used while being transported and transported to a transportation site and then maintained in a closed structure at an operation site.

During the above process, the enclosed equipment or the sealed packages are placed in a different environment from the assembly and inspection sites in the transportation and operation places. That is, the temperature and the pressure of the outside air change depending on each place and time.

On the other hand, the internal air contained in the enclosed equipment or the sealed package can be treated as a humidifier which is a mixture of dry air and water vapor thermodynamically. At this time, depending on the temperature and pressure of the internal air, the water vapor may be adsorbed to or released from the airtight equipment or the moisture absorbent inside the sealed package, and thus the partial pressure of the water vapor may change.

In this situation, the pressure of the internal humidifier of the sealing equipment or the package changes due to the temperature or the partial pressure change of the water vapor. At this time, if the difference from the external pressure becomes larger than a certain level, structural damages of the sealing equipment or the package or destruction of the sealed state occurs, and the intended sealing effect can not be achieved.

In order to achieve the desired sealing of the enclosed equipment or the hermetic package, a method of strengthening the strength of the structure such as a case that keeps the hermetic seal can be considered, but there is no room for predicting the intrinsic pressure to unnecessarily increase the structural strength exist. In some cases, it may not be possible to enhance the strength of a structure such as a case or the like that maintains the hermeticity.

Therefore, in the assembling and checking step, in the transporting or operating stage, the sealing device or the sealing device or the sealing device or the sealing device or the sealing device It is necessary to develop a device for controlling the air environment inside the package.

SUMMARY OF THE INVENTION It is a first object of the present invention to provide a method of manufacturing a sealed case using a state quantity of an internal humidifier in a state of operating a sealed case (a state of storing or using the sealed case) A state in which the case is assembled or inspected), and the pressure of the humidifier in the closed case is adjusted by the target pressure in the closed case manufacturing step.

A second object of the present invention is to provide a method of calculating a predicted pressure in a state in which a closed case is operated using state quantities in a state of manufacturing a closed case, And to provide an internal pressure control device for a sealed case for controlling the pressure.

A third object of the present invention is to provide an air conditioner capable of calculating an allowable predicted temperature range in a state in which the airtight case is operated by using state quantities of the internal humps in a state of manufacturing the airtight case, And the internal pressure of the closed case is controlled by controlling the temperature of the closed case with reference to the internal pressure of the closed case.

In order to achieve the first object of the present invention, a closed case having an internal pressure regulating device according to the present invention comprises: a closed case having a closed space formed therein and receiving an internal humidifier having a state quantity independent of the external humidifier; A pump installed to communicate with the inside of the closed case; And a control unit for controlling the pressure of the internal humidifier by controlling the pump in a first state in which the sealed case is manufactured in order to prevent damage to the sealed case due to pressure difference between the external humidifier and the internal humidifier of the sealed case The control unit calculates a second state target pressure _Pf of the internal humidifier having a difference within a predetermined size from a pressure of the external humidifier in the second state in which the closed case is operated, And calculates a dry air condition quantity in the inside humidifier based on the two-state target pressure (P _f ) and the state quantity of the inside humidifier in the second state, by, the first state the target pressure (P _i) calculated by the said first state of said internal psychrometric the first state the target pressure of the pressure (P _i) In order to control the pump.

The amount of state of the internal humps in the second state may include the dry bulb temperature (T _f ) and the relative humidity (RH _f ) of the internal humps in the second state.

The dry air condition amount may include a specific volume (v) of the dry air in the internal humps.

The amount of state of the internal humps in the first state may include the dry bulb temperature (T _i ) and the relative humidity (RH _i ) of the internal humps in the first state.

The control unit may calculate at least one of a by a psychrometric chart, the dry air and the state quantity of the first state the target pressure (P _i).

In order to achieve the second object of the present invention, a closed case having an internal pressure control device according to the present invention comprises: a closed case having a closed space formed therein and receiving an internal humidifier having a state quantity independent of the external humidifier; A pump installed to communicate with the inside of the closed case; And a control unit for controlling the air conditioner using the state quantity of the internal humidifier in the first state for manufacturing the air enclosure to prevent damage to the air enclosure due to pressure difference between the external humidifier and the internal humidifier of the air- And a control unit for controlling the pressure of the internal humidifier by controlling the pump in the second state, wherein the controller calculates the dry air condition quantity in the internal humidifier by the state quantity of the internal humidifier in the first state, The second state predictive pressure (P _f ) is calculated from the dry air state quantity and the state quantity of the internal humidifier in the second state, and the pressure of the internal humidifier in the second state is calculated based on the pressure of the external humidifier in the second state And the second state predicted pressure P _f to have a difference within a predetermined size.

In order to achieve the third object of the present invention, a closed case having an internal pressure control device according to the present invention comprises: a closed case having a closed space formed therein and receiving an internal humidifier having a state quantity independent of the external humidifier; A heating-cooling section configured to heat or cool the enclosure; And an internal humidifier state quantity in a first state in which the airtight case is manufactured in order to prevent damage to the airtight case due to pressure difference between the external humidifier and the internal humidifier of the airtight case, And a control unit for controlling the temperature of the internal humidifier by controlling the heating-cooling unit in the first state, wherein the controller calculates the dry air condition quantity in the internal humidifier by the state quantity of the internal humidifier in the first state, A second state predicted temperature (T _f ) is calculated from the dry air state quantity and the state quantity of the internal humidifier in the second state, and the pressure of the internal humidifier in the second state Cooling section, based on the second predicted state temperature (T _f ), so as to have a difference between the pressure and a predetermined size, .

According to the present invention constituted by the solution means described above, the following effects can be obtained.

First, the present invention controls the pressure of the inner humidifier in the first state by using the target state quantities of the inner humidifier in the second state, thereby coping with the change of the state of the humidifier inside and outside, And maintain the airtightness of the inner humidifier.

At this time, the dry bulb temperature and the relative humidity can be used as the state quantities of the internal humidifiers in the first and second states, so that the adjustment and measurement thereof can be easily performed.

Further, in the first and second states, the calculation of the mutual state quantities between the two states can be accurately made by the characteristic that the dry air solids in the humidifier inside the closed case do not change little.

In addition, the controller of the present invention can calculate the state quantities of the internal humps in the first and second states using the humidifier line data, thereby ensuring accuracy and compatibility.

 Secondly, the present invention uses the state quantities in the first state to calculate the predicted pressure in the second state and uses the predicted pressure in the closed case to control the pressure in the enclosed case, so that even if the pressure of the internal humidifier is not measured in real time, There is an effect that the accurate pressure control can be done.

Thirdly, according to the present invention, by using the state quantities in the first state to calculate the predicted temperatures in the second state and using the predicted temperatures in the enclosure case temperature control, There is an effect that the accurate pressure control can be done.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic graph of a humidifier line diagram showing the correlation between state quantities of humidifiers. Fig.
2 is a conceptual view showing an embodiment of an internal pressure control apparatus of a closed case according to the present invention.
3 is a conceptual view showing another embodiment of the internal pressure control device of the closed case according to the present invention.
4 is a conceptual view showing another embodiment of the pressure-resistance adjusting device of the closed case according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an internal pressure control device for a sealed case according to the present invention will be described in detail with reference to the drawings.

In other respects, the same or similar reference numerals are given to the same or similar components to those of the previous embodiment, and a duplicate description thereof will be omitted.

In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be obscured.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It should be understood that it includes water and alternatives.

The singular expressions include plural expressions unless the context clearly dictates otherwise.

The internal pressure control device of the closed case according to the present invention is characterized in that the closed device or the sealed package (hereinafter, referred to as a 'closed case') is a device in which a sealed case with a closed state is actually stored or used, Accordingly, it is intended to prevent the structural deformation or the breakage of the closed state from occurring.

FIG. 1 is a schematic graph of a humidifier diagram showing the correlation between state quantities of humidifiers. FIG. First, referring to FIG. 1, a description will be given of a method for calculating the amount of thermodynamic state and a change in the internal pressure of the closed case according to the present invention.

Moist air refers to a mixture of dry air and vapor. The humidifier is assumed to be a mixture of two gases in the air environment that exists in connection with the present invention.

A humidifier can define its properties through a quantity of state, including temperature, pressure and humidity. Specifically, in any state in which the thermodynamic state amount (hereinafter referred to as 'state amount') does not change, the humidifier can be specified through state quantities such as dry bulb temperature, wet bulb temperature, pressure, specific volume, enthalpy, absolute humidity and relative humidity.

At this time, since the humidifier is a mixture of the two components, dry air and water vapor, there are three independent states that can define the state according to the Gibbs law. That is, when three state quantities among the various state quantities of the humidifier are determined, the remaining state quantities are determined depending on them.

1 is configured such that when one of the remaining state quantities is determined when the pressure is constant, one point is determined and all other state quantities can be determined at the determined point. That is, the psychrometric diagram provides a precomputed result instead of calculating the relationship among the various states of the psychrometric device.

In the following, for the sake of clarity and ease of explanation, the state of the inner humidifier in the step of assembling or checking the hermetic case is referred to as a 'state in which the hermetic case is manufactured' or a 'first state' Quot; state in which the enclosure is operated " or " second state ".

Regarding the pressure-resistance adjusting device of the closed case according to the present invention, the dry air condition amount is kept constant in the inside of the closed case. Specifically, in the first state and the second state, the dry air has no entry and exit, so that the mass of the dry air (m _a [kg DA]) is not changed. In addition, the volume (V [m ³ ]) of the total humidifier is not changed and the volume of the dry air is divided by the mass of the dry air (v [m ³ / kg DA] ) Remains constant.

1, when the pressure inside the sealed case is changed from the first state to the second state when the pressure is constant, the pressure inside the sealed case is changed to the lower state in FIG. 1 The state quantities are changed according to the predetermined specific volume line.

In addition, if there is no assumption that the pressure of the sealed case is constant, it is possible to calculate the difference between the non-body, which is the state quantity having the same value between the first state and the second state, and the additional two state variables in the first or second state The humidity (RH [%]) and the dry bulb temperature T ([deg.] C)) are secured by measurement or the like, all the state quantities in the first or second state can be determined. At this time, since several pieces of the moisture diagram data as shown in Fig. 1 are already secured over a plurality of pressure ranges, the state quantity values required in the corresponding moisture diagram can be determined for the corresponding pressure.

The constitution and effect of the pressure regulating device of the closed case according to the present invention will be described in detail below on the basis of the principle of determination of state quantities in the humidifier environment described above and the characteristics of the humidifier diagram which is provided to easily calculate the state quantities.

2 is a conceptual view showing an embodiment of an internal pressure control apparatus 100 of a closed case according to the present invention. Referring to FIG. 2, an internal pressure control apparatus 100 of a closed case according to the present invention includes a pump 110 and a control unit 120.

The pump 110 is a component that acts to pressurize or depressurize the interior of the enclosure 10, which is an object of internal pressure control. The pump 110 is configured to communicate with the interior of the enclosure 10 and functions to change the pressure of the internal humidifier by supplying or extracting a humidifier or dry air into the enclosure 10. The pump 110 may be any type that is driven in a conventional manner that can be used for pressurization or depressurization of air.

The control unit 120 controls the operation of the pump 110 to adjust the pressure inside the enclosure 10 to a predetermined value. Particularly, in the internal pressure control apparatus 100 of the closed case according to the present invention, the control unit 120 adjusts the internal pressure of the enclosure in advance by the first state target pressure P _i calculated in consideration of the internal humidifier state in the second state .

2, the dry bulb temperature T _f of the internal humidifier in the second state can be secured as the input value of the controller 120. The dry bulb temperature _Tf can be substituted with a dry bulb temperature value of a known second state environment since the inside and outside humidifiers of the closed case 10 can have the same value by mutually thermally balancing with each other.

Also, in this embodiment, the relative humidity RH _f of the internal humps can be inputted with a predetermined value. A moisture absorbent or the like may be installed inside the enclosure 10 to adjust the humidity of the internal humidifier and may be given a predetermined value from the measurement or experimental record in which the enclosure 10 is operated in the second state.

On the other hand, in the second state, the controller 120 calculates and uses the second state target pressure P _{f in} addition to the dry bulb temperature T _f and the relative humidity RH _f that are known to have the internal humps. The second state target pressure P _f may be set to a value that is different from the pressure of the external humidifier in the second state within a predetermined size. At this time, the pressure difference of the predetermined size is a difference in degree that the structure of the closed case 10 is not deformed or damaged. The design variables of the closed case 10, for example, In consideration of the thickness and shape of the electrodes.

When the above, as described in relation to the psychrometric chart, the dry bulb temperature, which are three kinds of the state quantity in the second state (T _f) and relative humidity (RH _f), and a second state target pressure (P _f) is confirmed, the second state The remaining state quantities of all the states are also determined. The remaining state quantities can be calculated by treating the humidifier as shown in Fig. 1, or by treating the humidifier as an ideal gas mixture of dry air as ideal gas and water vapor as ideal gas.

In the control unit 120 of the internal pressure control apparatus 100 of the closed case according to the present invention, the specific volume v of the dry air among the state amounts in the second state can be used. As described above, since the specific volume v of the dry air in the inside of the enclosed case 10 is kept constant in the first and second states, the specific volume v of the dry air calculated in the second state It may be a state amount for calculating the state amount in the first state.

That is, the first state can be determined by the specific volume (v) of the dry air and the other two state amounts in the first state, and the controller 120 determines the first state target pressure P _i in the first state Can be calculated.

The other two states of the first state may be specifically the dry bulb temperature (T _i ) and the relative humidity (RH _i ) of the internal humps of the first state, which can be easily measured compared to other states. The first state target pressure P _{i is} calculated from the dry bulb temperature T _i , the relative humidity RH _i and the specific volume v of the dry air in the first state, . ≪ / RTI >

As a result, the first state target pressure P _i can be a target value by which the control unit 120 adjusts the pressure of the internal humidifier of the enclosure 10 by the pump 110. The control unit 120 may control the pressure of the humidifier inside the enclosure 10 to reach the first state target pressure P _i by pressing or depressurizing the pump 110.

As described above, when the pressure of the humidifier inside the sealed case 10 reaches the first state target pressure P _i , the pressure difference between the inside and outside of the sealed case 10 is lowered when the sealed case 10 is placed in the second state. 10 within the range of maintaining the closed state and structure.

3 is a conceptual view showing another embodiment of the internal pressure control apparatus 200 of the closed case according to the present invention. 3, the internal pressure regulating device 200 of the closed case according to the present invention includes a pump 210 and a control unit 220. As shown in FIG.

However, the pump 210 and the control unit 220 are configured to operate in the second state. That is, another embodiment of the pressure-resistance adjusting device 200 of the closed case according to the present invention calculates the specific volume v of the dry air on the basis of the first state, The two-state predicted pressure P _f is calculated and used as the control reference.

As shown in FIG. 3, in the present embodiment, the state amounts of the first state that have been confirmed can be used as input values. In particular, the dry bulb temperature (T _i ), the relative humidity (RH _i ) and the pressure (P _i ) of the internal humidifier in the first state can be determined as the measured state and input to the controller 220. Accordingly, the calculation of the control unit 220 can calculate the dry air condition amount inside the enclosure 10 from the three state amounts in the first state, in particular, the specific volume v of the dry air can be determined.

The specific volume (v) of the determined gun air can be used to calculate the state quantity of the internal humidifier in the second state. That is, the controller 220 can calculate the second state predicted pressure P _f using the specific volume v of the dry air and the other two state quantities in the second state. At this time, the other two state quantities in the second state can be the dry bulb temperature (T _f ) and the relative humidity (RH _f ) of the inner humps in the second state, which can be easily measured and controlled. At this time as well, data including the humidifier line as shown in Fig. 1 can be used.

The second state predicted pressure P _f may be a reference value for the controller 220 to control the pump 210. The control unit 220 determines that the pressure of the internal humidifier is lower than the second state predicted pressure P ( _Pf ) by the other state quantities in the second state (for example, the dry bulb temperature _Tf and the relative humidity RH _f ) the assumption has the value of _f), it may be pressure or in a vacuum inside the enclosure 10 so as to maintain a predetermined pressure difference between the period of the external psychrometric in the second state.

At this time, the pressure difference of the predetermined size is a difference in degree that the structure of the closed case 10 is not deformed or damaged, as in the case of the previous embodiment, and the structure of the closed case 10, for example, The thickness and the shape of the members forming the light emitting diode.

4 is a conceptual diagram showing another embodiment of the pressure-resistance adjusting device 300 of the closed case according to the present invention. In the present embodiment, the heating-cooling unit 310 is included as a means for adjusting the internal pressure of the enclosure 10, unlike the previous embodiment.

The heating-cooling unit 310 is configured to change the dry bulb temperature of the internal humidifier of the enclosure 10 in the second state. The internal humidifier in the second state is heated or cooled to eventually change the pressure of the humidifier in the enclosure 10.

In another embodiment of the pressure-resistant device 300 of the closed case according to the present invention, the process of calculating the specific volume v of the dry air on the basis of the first state is the same as that of the other embodiment shown in Fig. 3 . The specific volume v of the dry air is used for calculating the second state predicted temperature T _f together with the other two state amounts in the second state and the second state predicted temperature T _f is used for calculating the second state predicted temperature T _f , It becomes a control reference.

The specific volume v of the dry air determined in the same manner as in the other embodiments shown in Fig. 3 can be used to calculate the state quantity of the internal humps in the second state. That is, the controller 320 can calculate the second state predicted temperature T _f using the specific volume v of the dry air and the other two state quantities in the second state. At this time, the other two states of the internal humidifier in the second state may be the pressure (P _f ) and the relative humidity (RH _f ). At this time as well, data including the humidifier line as shown in Fig. 1 can be used.

The second state predicted temperature T _f may be a reference value for the control unit 320 to control the heating-cooling unit 310. The controller 320 is different state quantity in the second state (e.g., pressure in the psychrometric (P _f) and relative humidity (RH _f)), the temperature inside the psychrometric second state the predicted temperature by the (T _f It is possible to heat or cool the inside of the enclosure 10 so as to maintain a predetermined difference from the pressure of the external humidifier in the second state.

However, another embodiment of the pressure-resistant device 300 of the closed case according to the present invention may be configured such that the heating-cooling portion 310 heats or cools the external humidifier around the enclosure 10. In this case, the pressure of the external humidifier is increased or decreased by heating or cooling the external humidifier around the hermetic casing 10 to operate to maintain the pressure difference between the inside and the outside of the hermetic casing 10 within a predetermined range .

It is to be understood that the present invention is not limited to the above-described embodiments, and that various modifications and variations of the present invention are possible in light of the above teachings. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

10: Enclosed case
100, 200, 300: Internal pressure control device of enclosed case
110, 210: pump
120, 220, and 320:
310: heating-cooling section

Claims (7)

An airtight case having an airtight space formed therein and adapted to receive an internal humidifier having a state quantity independent of the external humidifier;
A pump installed to communicate with the inside of the closed case; And
And a controller for controlling the pressure of the internal humidifier by controlling the pump in a first state in which the sealed case is manufactured in order to prevent deformation of the sealed case due to pressure difference between the external humidifier and the internal humidifier of the sealed case, ,
Wherein,
Calculating a second state target pressure (P _f ) of the internal humidifier having a difference within a predetermined size from a pressure of the external humidifier in a second state in which the sealed case is operated,
Calculates a dry air condition amount in the internal humidifier by the second state target pressure (P _f ) and the state quantity of the internal humidifier in the second state,
The first state target pressure P _i is calculated by the dry air state quantity and the state quantity of the internal humidifier in the first state,
And controls the pump so that the pressure of the internal humidifier in the first state reaches the first state target pressure (P _i ). The method according to claim 1,
Wherein the state quantity of the internal humidifier in the second state includes the dry bulb temperature (T _f ) and the relative humidity (RH _f ) of the internal humectifier in the second state. . The method according to claim 1,
Wherein the dry air condition amount includes a specific volume (v) of the dry air in the internal humidifier. The method according to claim 1,
Wherein the state amount of the internal humidifier in the first state includes a dry bulb temperature (T _i ) and a relative humidity (RH _i ) of the internal humidifier in the first state. . The method according to claim 1,
Wherein the control unit calculates at least one of the dry air condition amount and the first state target pressure (P _i ) by a humidifier diagram. An airtight case having an airtight space formed therein and adapted to receive an internal humidifier having a state quantity independent of the external humidifier;
A pump installed to communicate with the inside of the closed case; And
A second state in which the closed case is operated using the state quantity of the internal humectifier in the first state in which the closed case is manufactured to prevent the deformation of the closed case due to the difference in pressure between the external humps and the humidifier in the closed case, And a control unit for controlling the pressure of the internal humidifier by controlling the pump in a state where the internal humidifier is in a closed state,
Wherein,
Calculating a dry air condition amount in the internal humidifier by the state quantity of the internal humidifier in the first state,
Calculates a second state predicted pressure (P _f ) from the dry air state quantity and the state quantity of the internal humidifier in the second state,
Controlling the pump based on the second state predicted pressure (P _f ) such that the pressure of the internal humidifier in the second state has a difference within a predetermined magnitude from the pressure of the external humidifier in the second state And a sealed case having an internal pressure regulating device. An airtight case having an airtight space formed therein and adapted to receive an internal humidifier having a state quantity independent of the external humidifier;
A heating-cooling section configured to heat or cool the enclosure; And
A second state in which the enclosure case is operated using the internal humidifier state quantity in the first state in which the enclosure case is manufactured to prevent deformation of the enclosure case due to a difference in pressure between the external humidifier and the internal humidifier of the airtight case; And a controller for controlling the temperature of the internal humidifier by controlling the heating-
Wherein,
Calculating a dry air condition amount in the internal humidifier by the state quantity of the internal humidifier in the first state,
The second state predicted temperature (T _f ) is calculated from the dry air state quantity and the state quantity of the internal humidifier in the second state,
The control unit controls the heating-cooling unit based on the second state predicted temperature (T _f ) so that the pressure of the internal humidifier in the second state has a difference within a predetermined magnitude from the pressure of the external humidifier in the second state And the airtightness of the sealed case is reduced.

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