KR20200097432A - Dew point temperature management apparatus of dry room - Google Patents

Abstract

According to the present invention, an apparatus for managing a dew point temperature of a dry room comprises: a booth formed to have a sealed inner space in a dry room, having production equipment arranged in the inner space and installed with a door which can be opened and closed; an active duct connected to a first space in which the door is located in the inner space, and having a first damper for opening and closing air supply to the first space; a passive duct connected to a second space in which the door is not located in the inner space, and having a second damper for opening and closing air supply to the second space; and a dehumidifying unit connected to the active duct and the passive duct, removing moisture in air inducted from the outside, and including a supply fan for supplying the dehumidified air to at least one of first and second spaces. The apparatus of the present invention includes the booth having the inner space partitioned and sealed in a dry room and directly supplies dehumidified air to the first and second spaces, thereby precisely managing the dew point temperature of production equipment arranged in the booth.

Description

Dry room dew point temperature management device {DEW POINT TEMPERATURE MANAGEMENT APPARATUS OF DRY ROOM}

The present invention relates to an apparatus for managing a dew point temperature of a dry room, and more specifically, a dry room capable of stably maintaining the humidity of a space inside a booth in which production equipment is arranged by controlling the supply air volume of low dew point air. It relates to a dew point temperature management device.

In recent years, the demand for a low-humidity environment is increasing in the production process. A low humidity environment, that is, a dry atmosphere, is mainly used as an environment to be applied essentially in the secondary battery production process.

In order to improve the quality and yield of products manufactured in such a low humidity environment, a dry room maintaining a predetermined low humidity atmosphere is employed. In a broad sense, a dry room is a low humidity room in which the amount of moisture in the air is controlled to a certain value or less.

In particular, when the indoor DEW POINT temperature is below -10℃, it is called a dry room. Dry rooms are distinguished from low humidity rooms with a relative humidity of 10% to 30%.

Such dry rooms are used not only in the secondary battery production process, but also in the hygroscopic suture manufacturing process, freeze-dried food companies, automotive environmental laboratories, and laboratories and factories that require low humidity conditions.

2 is a schematic diagram showing a conventional dry room 10. Referring to FIG. 2, in a conventional dry room 10, production equipment 11 for performing various processes is installed therein, and a dehumidifying device 20 is installed to adjust the relative humidity inside the dry room 10. Installed. Here, the dehumidifying device 20 sucks moisture from the air in the dry room 10 and discharges the moisture-removed air to the wind channel 30, and the dehumidified air inside the wind channel 30 is driven through the outlet 31. It flows into the eroom 10.

In the conventional dry room 10 as described above, when the door (not shown) of the dry room 10 is opened for carrying in/out of equipment, inspection, etc., since the worker space and the space of the production equipment 11 are not separated. Moisture generated by an operator or an external factor may flow into the production equipment 11 disposed in the dry room 10. As a result, the dew point temperature in the production equipment 11 may increase, thereby increasing the defect rate of the product.

Unexamined Patent Publication No. 10-1997-0054660 (1997.07.31.)

The present invention was conceived to solve the above-described problems in the related art, and an object of the present invention is to stably maintain the humidity of the booth interior space in which the production equipment is disposed by controlling the supply air volume of low dew point air. It is intended to provide a dew point temperature management device for a dry room that can prevent external moisture from flowing into the interior space of a booth when the door is opened.

The present invention for achieving the above object is formed to have an inner space sealed in the dry room, the production equipment is arranged in the inner space, a booth installed with an openable door; An active duct connected to a first space in which the door is located among the internal spaces and provided with a first damper for opening and closing air supply to the first space; A passive duct connected to a second space in which the door is not located among the inner spaces and provided with a second damper for opening and closing air supply to the second space; And an air supply fan connected to the active duct and the passive duct, removing moisture in air sucked from the outside, and supplying dehumidified air to at least one of the first space and the second space. It provides a dew point temperature management apparatus for a dry room, characterized in that including.

Here, a sensor unit installed in at least one of the active duct and the passive duct and measuring the supply air volume of the dehumidified air; And a control unit connected to the supply fan and the sensor unit and controlling an operation of the supply fan according to the supply air quantity measured by the sensor unit to control the supply air quantity of the dehumidified air. .

In addition, further comprising a driving unit connected to the first damper and providing a driving force to the first damper, the control unit is connected to the driving unit, and controls the operation of the driving unit to adjust the opening degree of the first damper Characterized in that.

In this case, the control unit may further include a user manipulation unit receiving a control command for controlling an operation of the driving unit from a user.

The dew point temperature management apparatus of a dry room according to the present invention is provided with a booth partitioned in the dry room and having a closed internal space, and dehumidified air in the first space and the second space of the booth is transmitted through the active duct and the passive duct. By supplying directly, the dew point temperature management of the production equipment arranged in the booth can be precisely performed.

In addition, in the dew point temperature management apparatus of the dry room according to the present invention, the control unit controls the supply fan of the dehumidification unit according to the air supply air volume of the dehumidified air measured by the sensor unit, so that the supply air volume of the dehumidified air can be kept constant. Therefore, it is possible to stably maintain the humidity of the booth interior space below the set value.

In addition, the apparatus for managing the dew point temperature of the dry room according to the present invention increases the opening degree of the first damper when the door of the booth is open to increase the amount of air supplied to the dehumidified air, thereby reducing the dew point temperature of the booth interior space, It can prevent external moisture from entering the interior space of the

1 is a front view showing an apparatus for managing a dew point temperature in a dry room according to a preferred embodiment of the present invention.
2 is a schematic diagram showing a dry room according to the prior art.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, when it is determined that the subject matter of the present invention may be unclear, a detailed description thereof will be omitted. In addition, embodiments of the present invention will be described below, but the technical idea of the present invention is not limited thereto or is not limited thereto, and may be implemented by a person skilled in the art.

1 is a front view showing an apparatus for managing a dew point temperature in a dry room according to a preferred embodiment of the present invention.

Hereinafter, an apparatus for managing a dew point temperature in a dry room according to a preferred embodiment of the present invention will be described with reference to FIG. 1.

Referring to FIG. 1, the dew point temperature management apparatus 1 of a dry room according to a preferred embodiment of the present invention includes a booth 100, an active duct 200, a passive duct 300, a dehumidifying unit (not shown), and a sensor. It includes a unit 400, a control unit 500 and a driving unit 600.

The booth 100 is partitioned in the dry room by a panel and formed to have an enclosed inner space 110, in which production equipment (not shown) is arranged. At this time, although not shown, the production equipment may be production equipment used for an electrode process, an assembly process, and a chemical conversion process for producing a secondary battery.

In addition, the booth 100 is configured to allow the opening and closing door 120 is installed so that the carrying-in and inspection of the production equipment disposed therein.

In addition, it is preferable that the panel constituting the booth 100 is formed of a material capable of preventing moisture penetration by blocking the interior and exterior.

The active duct 200 is connected to the first space 111 in which the door 120 is located among the internal spaces 110 of the booth 100 and opens and closes the air supply to the first space 111. 210) is provided. Specifically, the first damper 210 installed in the active duct 200 allows opening and closing of an air flow path through which air dehumidified from a dehumidifying unit to be described later is supplied to the first space 111 of the booth 100, and It may be configured to adjust the degree of opening of the flow path. That is, the first damper 210 of the active duct 200 may be configured to adjust the amount of air supplied to the first space 111 of the booth 100 by dehumidified air.

The passive duct 300 is connected to the second space 112 in which the door 120 is not located among the internal space 110 of the booth 100 and opens and closes the air supply to the second space 112. A damper 310 is provided. Specifically, the second damper 310 installed in the passive duct 300 allows opening and closing of an air flow path through which air dehumidified from a dehumidifying unit to be described later is supplied to the second space 112 of the booth 100, and It may be configured to adjust the degree of opening of the flow path. That is, the second damper 310 of the passive duct 300 may be configured to adjust the amount of air supplied to the second space 112 of the booth 100 by dehumidified air.

In addition, the second damper 310 is a damper for reducing the deviation of the air volume for each location, and may be configured as a manual damper.

Meanwhile, as shown in FIG. 1, the first space 111 and the second space 112 of the booth 100 may be continuously arranged in series, and accordingly, the first space 111 and the second space The active duct 200 and the passive duct 300 connected to the 112 may also be configured to be continuously arranged in series at regular intervals.

The dehumidifying unit (not shown) is connected to the active duct 200 and the passive duct 300, removes moisture in the air sucked from the outside, and removes the dehumidified air from the first space 111 and the booth 100. It may be configured to include an air supply fan for supplying to at least one of the two spaces 112. That is, the dehumidifying unit may be configured to supply low dew point air to maintain a low dew point environment of the production equipment disposed in the inner space 110 of the booth 100.

For example, when producing a lithium secondary battery, the dehumidifying unit may operate so that the relative humidity of the booth interior space 110 is maintained at 2% or less.

The sensor unit 400 is installed inside at least one of the active duct 200 and the passive duct 300 and is provided to measure the amount of air supplied to the dehumidified air. The sensor unit 400 may be configured with at least one sensor installed on an inner wall surface of at least one of the active duct 200 and the passive duct 300 to measure the air supply air volume of the dehumidified air supplied from the dehumidifying unit. It is not limited thereto, and the number, installation position, and shape of the sensor unit 400 can be changed as much as possible by a person skilled in the art.

In addition, the control unit 500 is connected to the air supply fan and the sensor unit 400, and controls the operation of the air supply fan provided in the dehumidifying unit according to the air supply air volume of the dehumidified air measured by the sensor unit 400. The air supply air volume can be adjusted. That is, by controlling the operation of the air supply fan, the controller 500 may adjust the amount of air supplied to the dehumidified air supplied to at least one of the first space 111 and the second space 112. The controller 500 may control an inverter, RPM, etc. of a supply fan to adjust the air supply air volume.

The driving unit 600 is connected to the first damper 210 provided in the active duct 200 and is provided to provide a driving force to the first damper 210. The driving unit 600 may be implemented by directly connecting various actuators such as a motor and a cylinder, or may be implemented using a power transmission member such as a ball screw, a pulley, a belt, or a cam, if necessary. Since a method of implementing a desired driving mechanism using various actuators is well known, a detailed description will be omitted.

Here, the control unit 500 is connected to the driving unit 600 and may control the operation of the driving unit 600 to adjust the degree of opening of the first damper 210. That is, the control unit 500 may control the operation of the driving unit 600 to adjust the opening degree of the first damper 210, thereby controlling the amount of air supplied to the dehumidified air supplied to the first space 111.

In this case, the control unit 500 may further include a user manipulation unit (not shown). The user manipulation unit is provided to receive a control command for controlling the operation of the driving unit 600 from the user. In this case, the controller 500 may control the operation of the driving unit 600 based on a control command input from a user.

The user control unit may be installed on the outer surface of the booth 100 and outputs the air supply air volume value of the dehumidified air measured by the sensor unit 400 or receives a control command to manipulate the operation of the driving unit 600 from the user. I can. The user operation unit may include a display unit such as a liquid crystal display (LCD). In addition, the user manipulation unit may include a key button or a touch screen for receiving a control command from the user.

In this way, since the user can input a control command to manipulate the operation of the driving unit 600 using the user manipulation unit, moisture is prevented from entering the production equipment when opening the door 120 of the booth 100. 1 By adjusting the opening degree of the damper 210, the amount of air supplied to the dehumidified air may be increased.

Hereinafter, an operation of the apparatus for managing the dew point temperature of a dry room according to a preferred embodiment of the present invention will be described.

When the door 120 of the booth 100 is in a closed state, the dehumidifying unit dehumidifies the air sucked from the outside, and the dehumidified air is transferred to the booth 100 through the active duct 200 and the passive duct 300. ) Is supplied to the inner space 110. Here, the dehumidified air supplied through the active duct 200 is supplied to the first space 111 of the booth 100, and the dehumidified air supplied through the passive duct 300 is supplied to the second space of the booth 100 ( 112).

In this case, the sensor unit 400 is installed inside at least one of the active duct 200 and the passive duct 300 to measure the supply air volume of the dehumidified air supplied from the dehumidifying unit.

According to the air supply air volume of the dehumidified air measured by the sensor unit 400, the control unit 500 controls the operation of the air supply fan provided in the dehumidification unit to control the operation of the first space 111 and the second space of the booth 100. The amount of air supplied to the dehumidified air supplied to at least one of 112 may be adjusted.

In this way, the present invention can maintain a constant air supply air volume of dehumidified air, that is, low dew point air, using the sensor unit 400 and the control unit 500, and thus the humidity of the booth interior space 110 is set. It can be stably maintained below the value.

Meanwhile, when the door 120 of the booth 100 is in a closed state, the first damper 210 and the driving unit 600 may be in a standby state with an initial setting state set by the control unit 500.

On the other hand, when the door 120 of the booth 100 is in an open state, the user inputs a control command to manipulate the operation of the driving unit 600 by using the user control unit, so that the opening degree of the first damper 210 Can be adjusted. That is, the opening degree of the first damper 210 may be increased to increase the amount of air supplied to the dehumidified air.

In this way, by increasing the supply amount of dehumidified air, which is the low dew point air, the dew point temperature of the booth interior space 110 decreases, thereby preventing the inflow of external moisture into the interior space 110 of the booth 100. I can.

In addition, when the user terminates the operation of the driving unit 600 using the user control unit, an initial position signal is input to the driving unit 600 so that the first damper 210 and the driving unit 600 are in an initial setting state again. Can be operated as

In addition, although not shown, a door detection sensor (not shown) for detecting an open state and a closed state of the door 120 may be provided. When the door detection sensor detects the open state of the door 120, the door detection sensor transmits an open detection signal to the control unit 500, and the control unit 500 controls the operation of the driving unit 600 to control the first damper ( 210) can be increased.

On the other hand, when the door detection sensor detects the closed state of the door 120, the door detection sensor transmits a closing detection signal to the control unit, and the control unit 500 sets the first damper 210 and the driving unit 600 initially. It can be controlled to operate in the state.

In the above, preferred embodiments of the present invention have been described in detail, but the technical scope of the present invention is not limited to the above-described embodiments and should be interpreted by the claims. At this time, those skilled in the art will have to consider that many modifications and variations are possible without departing from the scope of the present invention.

100: booth 110: internal space of the booth
111: first space 112: second space
120: door 200: active duct
300: passive duct 400: dehumidification unit
500: drive unit 600: control unit
700: sensor unit

Claims (4)

A booth formed to have a sealed inner space in the dry room, the production equipment is arranged in the inner space, and an openable door is installed;
An active duct connected to a first space in which the door is located among the internal spaces and provided with a first damper for opening and closing air supply to the first space;
A passive duct connected to a second space in which the door is not located among the inner spaces and provided with a second damper for opening and closing air supply to the second space; And
It includes a dehumidifying part connected to the active duct and the passive duct, including a supply fan for removing moisture in the air sucked from the outside, and supplying dehumidified air to at least one of the first space and the second space Dry room dew point temperature management device, characterized in that.
The method of claim 1,
A sensor unit installed inside at least one of the active duct and the passive duct and measuring an air supply air volume of the dehumidified air; And
And a control unit connected to the supply fan and the sensor unit, and controlling an operation of the supply fan according to the supply air quantity measured by the sensor unit to control the supply air quantity of the dehumidified air. This room's dew point temperature management device.
The method of claim 2,
Further comprising a driving unit connected to the first damper and providing a driving force to the first damper,
The control unit is connected to the driving unit, and controls an operation of the driving unit to control an opening degree of the first damper.
The method of claim 3,
The control unit,
And a user manipulation unit receiving a control command for controlling the operation of the driving unit from a user.

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