KR101616498B1 - Apparatus for adjusting humidity of secondary battery pack and Method of controlling the same - Google Patents

Abstract

The present invention discloses an apparatus for controlling humidity of a secondary battery pack and a control method thereof. A humidity control device according to the present invention is a humidity control device for a secondary battery pack installed in a battery housing having an inlet portion and an outlet portion. The humidity control device includes a sensor portion for measuring the temperature of the secondary battery pack, ; A blowing unit for supplying humidity adjusting air to the inlet side of the battery housing; And a controller for receiving a measured value from the sensor unit and determining whether the temperature of the secondary battery pack is lower than the ambient temperature of the secondary battery pack and the water vapor pressure corresponding to the ambient humidity of the secondary battery pack is higher than the saturated water vapor pressure based on the temperature of the secondary battery pack. And a control unit for activating the blower unit if the blower unit is high.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a secondary battery pack,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a humidity control apparatus, and more particularly, to a humidity control apparatus and method for controlling a humidity of a peripheral space provided with a secondary battery to an appropriate level.

Lithium secondary batteries are attracting attention as a new energy source for enhancing environmental friendliness and energy efficiency in that they can not only reduce the use of fossil fuels but also produce no byproducts due to the use of energy.

Lithium secondary batteries have high electrical properties such as high energy density and are easy to apply according to product groups and are used not only in portable devices but also in electric vehicles (EVs) or hybrid vehicles (HVs).

Hereinafter, for convenience of explanation, an automobile which can be driven by a secondary battery such as an electric vehicle and a hybrid vehicle will be referred to as an electric drive vehicle.

Electrically driven vehicles require large electric power to drive an electric motor. Accordingly, a secondary battery pack having a structure in which electrodes of unit cells are connected in series and / or in parallel using a connector is used to construct an assembly of cells with a plurality of unit cells and to mount the assemblies to a case and obtain a desired output.

1 is a perspective view schematically showing a structure of a secondary battery pack constituting a pouch cell assembly of a secondary battery pack used in an electric powered vehicle.

Referring to FIG. 1, the secondary battery pack 10 includes a plurality of unit cells 11. The unit cell 11 has a structure in which a cell structure excluding a part of the plate-shaped electrode 12 is sealed by the pouch skin member 13.

The secondary battery pack 10 has a structure in which the electrode 12 provided in the unit cell 11 is exposed through one surface of the case 15. The reason that the electrode 12 is exposed is to facilitate the electrical connection between the unit cells 11. [ A plurality of slits 16 are formed in the case 15 to transfer the heat generated in the unit cells 11 to the air. The unit cells 11 are mounted in a space between adjacent slits 16, do.

The secondary battery pack 10 may further include a battery management device 17 called a battery management system (BMS). The battery management device 17 is composed of a PCB module and is fixed to the secondary battery pack 10. The battery management device 17 monitors voltage, current, temperature, and the like of the secondary battery pack 10 and prevents the secondary battery pack 10 from over discharging, overcharging, or overheating at a high temperature. Also, the battery management device 17 provides monitoring information (voltage, current, temperature, etc.) for the secondary battery pack 10 to the electric field computing provided in the electric powered vehicle.

2, the secondary battery pack 10 is fixedly housed in the battery housing 18 and isolated from the outside air for protection from the external environment. The battery housing 18 is coupled with the duct structure 19 so as to cool the secondary battery pack 10 by introducing outside air. The duct structure (19) is provided with an air pump (20). The air introduced into the battery housing 18 is discharged to the outside by the air pump 20, and air is circulated. In this process, the heat emitted from the secondary battery pack 10 is absorbed by the circulated air and discharged to the outside.

On the other hand, an electrically driven vehicle may be exposed to a high humidity environment depending on operating conditions. For example, an electric powered car that runs in rainy and rainy areas can be exposed to high humidity environments. When exposure to such a high humidity environment is prolonged, the performance of the secondary battery pack mounted on the vehicle is deteriorated. That is, when water permeates into the packaging material of the unit cell 11 constituting the secondary battery pack, the charge and discharge characteristics of the unit cell 11 are deteriorated. If the electrode 12 exposed to the outside is corroded by moisture, degradation of the unit cell 11 proceeds faster than expected.

The above problem is exacerbated when condensation occurs on the surface of the unit cell 11, particularly on the surface of the electrode 12 or on the adhering portion between the electrode 12 and the casing member 13 due to condensation of water vapor contained in the air do. Condensation is caused by the condensation of water vapor in the air when the vapor pressure in the air is above the saturated water vapor pressure. The saturated water vapor pressure is mainly influenced by the air temperature, and the lower the air temperature, the lower the saturated water vapor pressure. Therefore, after the water vapor pressure of air reaches the saturated water vapor pressure at a certain temperature, the amount of condensation increases further as the temperature of the air is lowered.

On the other hand, heat is generated from the secondary battery pack while the secondary battery pack of the electrically driven vehicle is being charged or discharged. Therefore, the surface of the unit cell included in the secondary battery pack normally maintains a higher temperature than the outside air. In some cases, however, the opposite situation may arise.

For example, after starting an electric powered car parked at an outdoor temperature outside the subzero temperature, the vehicle is moved to an indoor space that is maintained at a temperature higher than the temperature of the secondary battery pack before the temperature of the secondary battery pack sufficiently rises, . This is often the case when an electric powered car parked outside in the cold winter runs for a short time and then stops in a heated indoor parking area.

Another example may occur when a cooling fan is installed around the secondary battery pack to prevent overheating of the secondary battery pack. That is, the temperature of the secondary battery pack excessively rises and the cold air is supplied to the periphery of the secondary battery pack as the cooling fan to maintain the temperature of the secondary battery pack at the normal temperature level, and the operation of the cooling fan is stopped Unfortunately, this is the case when the ambient temperature is higher than the temperature of the secondary battery pack. This can often happen when driving an electric powered car in hot and humid regions such as the equator.

When the temperature of the secondary battery pack is lower than the outside air temperature, when the electric driving vehicle stops operating, warm air from outside flows into the battery housing through the duct communicated with the battery housing. Therefore, the ambient air temperature of the secondary battery pack is higher than the temperature of the secondary battery pack, and this state is maintained for a certain time.

However, if the temperature of the secondary battery pack is lower than the temperature of the ambient air around the pack, condensation may more easily occur on the surface of the secondary battery pack, particularly on the surface of the unit cell. Since the saturation water vapor pressure of the air near the unit cell is lower than the saturation water vapor pressure of the ambient air at a certain distance from the unit cell, the saturation water vapor pressure easily reaches even with a small amount of water vapor and condensation occurs on the surface of the unit cell. This is the same principle as when the difference between the outdoor temperature and the room temperature exceeds a certain level, condensation occurs in the window.

Therefore, in order to control the ambient humidity of the secondary battery pack at an appropriate level, it is necessary to consider technical means to prevent condensation from occurring on the surface of the unit cell included in the secondary battery pack in a special case.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a humidity controller and a control method thereof, which can maintain the ambient humidity of the secondary battery pack at an appropriate level.

It is another object of the present invention to provide a humidity control apparatus and a control method thereof, which can prevent condensation on the surface of a unit cell included in a secondary battery pack.

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by a combination of the constitution and the constitution shown in the claims.

According to an aspect of the present invention, there is provided an apparatus for controlling humidity of a secondary battery pack installed in a battery housing having an inlet and an outlet, the apparatus comprising: And a sensor unit for measuring humidity; A blowing unit for supplying humidity adjusting air to the inlet side of the battery housing; And a controller for receiving a measured value from the sensor unit and determining whether the temperature of the secondary battery pack is lower than the ambient temperature of the secondary battery pack and the water vapor pressure corresponding to the ambient humidity of the secondary battery pack is higher than the saturated water vapor pressure based on the temperature of the secondary battery pack. And a control unit for operating the blower unit if the blower unit is high.

Preferably, the humidity adjusting air has a temperature higher than a temperature of the secondary battery pack before the blowing unit is activated, and a humidity lower than the humidity surrounding the secondary battery pack.

According to an aspect of the present invention, there is provided a method for controlling a temperature of a secondary battery pack, the method comprising: periodically receiving measured values from the sensor unit during operation of the air blowing unit, Activate wealth.

According to another aspect of the present invention, the sensor unit further measures the humidity of the outside air to provide a measured value to the controller, and the controller periodically receives the measured value from the sensor unit while the blower unit is operating, The air blowing unit is operated until the saturated water vapor pressure corresponding to the temperature of the secondary battery pack becomes higher than the water vapor pressure corresponding to the humidity of the outside air.

According to another aspect of the present invention, the control unit periodically receives measured values from the sensor unit while the air blowing unit is operated, and when the temperature of the secondary battery pack and the ambient temperature of the secondary battery pack become equal The blower unit is operated.

According to another aspect of the present invention, the control unit activates the blower unit for a predetermined time.

According to another aspect of the present invention, the battery housing is mounted on an electrically driven vehicle having an air conditioner controller for controlling the operation of the air conditioner and the air conditioner, and the blowing unit receives the humidity adjusting air from the air conditioner, And the control unit provides a control signal regarding the temperature and humidity control level of the humidity control air and a turn-on or turn-off request signal of the air conditioner to the air conditioner controller.

Alternatively, the humidity controller according to the present invention may further include an air discharge pump provided on the outlet side of the battery housing. In this case, it is preferable that the controller operates the air discharge pump while the air blowing unit is operating to discharge the humidity adjusting air from the battery housing.

In the present invention, it is preferable that the controller operates the blower unit after the use of the secondary battery pack is stopped.

According to the present invention, the blowing unit may include: an intake fan that sucks air in the outside air; A dehumidifier for removing moisture from the sucked air; A heater for heating the moisture-removed air; An exhaust fan for exhausting the heated air to an inlet of the battery housing; And a blower controller for controlling overall operation of the intake fan, the dehumidifier, the heater, and the exhaust fan.

According to an aspect of the present invention, there is provided a method for controlling humidity of a secondary battery pack, the method comprising: controlling a humidity of a secondary battery pack installed in a battery housing having an inlet portion and an outlet portion using a blower for supplying humidity- Measuring a temperature of the secondary battery pack and a temperature and humidity of the periphery of the secondary battery pack; And operating the blower if the temperature of the secondary battery pack is lower than the ambient temperature of the secondary battery pack and the water vapor pressure corresponding to the ambient humidity of the secondary battery pack is higher than the saturated water vapor pressure based on the temperature of the secondary battery pack .

According to the present invention, even when the temperature of the secondary battery pack is lower than the temperature of the periphery of the secondary battery pack when the secondary battery pack is mounted and used in the internal space of the battery housing, the electrode surface of the secondary battery pack, It is possible to effectively prevent condensation from occurring in the condenser.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given below, serve to further the understanding of the technical idea of the invention. And should not be construed as limiting.
1 is a perspective view schematically showing a structure of a secondary battery pack mounted on an electric powered vehicle.
2 is a view showing a state in which a secondary battery pack is fixedly housed in a battery housing and mounted in an electrically driven vehicle.
3 is a block diagram illustrating a configuration of a humidity controller of a secondary battery pack according to an embodiment of the present invention.
4 is a block diagram showing a configuration of a blowing unit according to an embodiment of the present invention.
5 is a block diagram illustrating a configuration of a humidity controller of a secondary battery pack according to another embodiment of the present invention.
FIG. 6 is a flowchart showing a procedure of a method for adjusting humidity of a secondary battery pack 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. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

3 is a block diagram showing a configuration of a humidity control apparatus for a secondary battery pack according to an embodiment of the present invention.

3, the apparatus for controlling humidity of a secondary battery pack B mounted in a battery housing 103 having an inlet 101 and an outlet 102, A sensor unit 104, a feed-back unit 105, and a control unit 106.

The sensor unit 104 measures the temperature of the secondary battery pack B and the temperature and humidity around the secondary battery pack B and outputs the measured value to the controller 106. The sensor unit 104 includes a first temperature sensor 104a attached to the secondary battery pack B for measuring the temperature of the secondary battery pack B and a second temperature sensor 104b for measuring the temperature of the air around the secondary battery pack B And a humidity sensor 104c for measuring the humidity of the air in the battery housing 103. The humidity sensor 104c measures the humidity of the air in the battery housing 103, Although not required, the sensor unit 104 can further measure the humidity of the outside air. To this end, the sensor unit 104 may further include a humidity sensor 109 for measuring the humidity of the outside air. The sensor unit 104 periodically measures temperature and humidity measurement values and outputs the measured temperature and humidity measurement values to the control unit 106 side.

Here, the periphery of the secondary battery pack (B) refers to a point at a certain distance from the surface of the secondary battery pack (B). The first temperature sensor 104a may be attached to the case 106 of the secondary battery pack B and may be attached to the surface of the unit cell 107 mounted on the case 106. [ The unit cell 107 may be a pouch cell, but the present invention is not limited by the type of the unit cell 107.

The airflow 105 draws humidity control air into the battery housing 103. To this end, the airflow 105 is coupled to the inlet 101 of the battery housing 103.

Here, humidity control air refers to air with low water content and a controlled temperature. Preferably, the humidity control air has a temperature higher than the temperature of the secondary battery pack B before the airflow 105 is activated. Also, the humidity adjusting air has a humidity around the battery pack, a humidity of the outside air, or a humidity lower than the ambient humidity. Therefore, when the humidity control air flows into the battery housing 103, the humidity in the battery housing 103 is lowered, and the surface temperature of the secondary battery pack B, especially the surface temperature of the unit cell, is increased to some extent.

Fig. 4 is a block diagram schematically showing the configuration of the blow-in unit 105. Fig.

4, the blowing section 105 includes an intake fan 201, a dehumidifier 202, a heater 203, an exhaust fan 204 and a blower controller 205. [

The intake fan 201 sucks air from the outside air and supplies the air to the dehumidifier 202. The dehumidifier 202 removes the moisture contained in the air introduced through the intake fan 201, thereby lowering the humidity of the air. The heater 203 serves to regulate the temperature of the moisture-removed air by the dehumidifier 202 to a desired temperature. The exhaust fan 204 draws humidity-regulated air whose humidity has been removed and whose temperature has been adjusted to a desired level into the inlet portion 101 of the battery housing 103. The blowing controller 205 controls the operation of each component constituting the blowing unit 105 as a whole. That is, the fan controller 205 controls the turn-on, turn-off and rotation RPM of the intake fan 201 and the exhaust fan 204, the number of driving stages of the dehumidifier 202, and the temperature of the heater 203.

3, the control unit 106 receives the temperature of the secondary battery pack B from the sensor unit 104 and the temperature and humidity measurement values around the secondary battery pack B. Preferably, the controller 106 periodically receives the measured values.

Further, the control unit 106 determines whether or not the blower unit 105 is operated based on the two temperature measurement values and the humidity measurement values. That is, the control unit 106 determines whether the temperature of the secondary battery pack B is lower than the ambient temperature of the secondary battery pack B and the water vapor pressure calculated from the humidity around the secondary battery pack B, Is higher than the saturation water vapor pressure based on the temperature of the exhaust gas. If both of these requirements are satisfied, the control unit 106 drives the blowing unit 105 for a predetermined period of time to introduce humidity control air into the battery housing 103.

According to one aspect of the present invention, the control unit 106 operates the blowing unit 106 until the water vapor pressure corresponding to the ambient humidity of the secondary battery pack is lower than the saturated water vapor pressure corresponding to the temperature of the secondary battery pack B (First condition).

To this end, the control unit 106 outputs a control signal indicating the temperature and humidity control level of the humidity control air to the blower controller 205 of the blower unit 105. Then, the air flow controller 205 adjusts the number of operating stages of the dehumidifier 202 and the temperature of the heater 203 so that the humidity adjusting air having the temperature and humidity level output from the controller 106 can be generated.

It is preferable that the temperature control level is set between the temperature of the secondary battery pack B and the temperature around the secondary battery pack B and close to the temperature around the secondary battery pack B. [ The humidity control level is set to a level lower than the humidity around the secondary battery pack B, optionally lower than the humidity level of the outside air, or lower than the humidity around the secondary battery pack B and the humidity of the outside air desirable.

The control unit 106 outputs a control signal to the blowing controller 205 to stop the operation of the blowing unit 105 when the first condition is satisfied. Then, the blow-in unit 105 stops the discharge of the humidity control air.

According to another aspect of the present invention, the control unit 106 activates the blowing unit 105 until the saturated water vapor pressure corresponding to the temperature of the secondary battery pack B becomes higher than the water vapor pressure corresponding to the humidity of the outside air Condition). To this end, the control unit 106 outputs a control signal indicating the temperature and humidity control level of the humidity control air to the blower controller 205 of the blower unit 105. The temperature and humidity control levels are substantially the same as those described above. Then, the air flow controller 205 adjusts the number of operating stages of the dehumidifier 202 and the temperature of the heater 203 so that the humidity adjusting air having the temperature and humidity level output from the controller 106 can be generated.

According to another aspect of the present invention, the control unit 106 operates the blowing unit 105 until the temperature of the secondary battery pack B becomes equal to the ambient temperature of the secondary battery pack B (third condition) . To this end, the control unit 106 outputs a control signal indicating the temperature and humidity control level of the humidity control air to the blower controller 205 of the blower unit 105. The temperature and humidity control levels are substantially the same as those described above.

According to another aspect of the present invention, the control unit 106 activates the discharge unit 105 for a predetermined time (fourth condition). The time for operating the blowing fan 105 may be proportional to the difference between the saturated water vapor pressure corresponding to the temperature of the secondary battery pack B and the water vapor pressure corresponding to the periphery of the secondary battery pack B, Up table and refer to the look-up table to determine the run time of the blow-up unit 105. [0053] FIG. The control unit 106 can output a turn-on signal and a turn-off signal to the blowing controller 205 according to the determined operation time to control the operation time of the blowing unit 105. [

Alternatively, the humidity control apparatus according to the present invention may further include an air discharge pump 110 installed on the outlet 102 side of the battery housing 103. In this case, the control unit 106 may operate the air discharge pump 110 to discharge the air in the battery housing 103 to the outside air while the airflow 105 is operated.

Preferably, the humidity controller according to the present invention activates the airflow 105 after the use of the secondary battery pack B is stopped. That is, the humidity control apparatus according to the present invention operates the blowing unit 105 after the operation of the electric drive vehicle is stopped (startup off). To this end, the control unit 106 may receive a shutdown signal from an electric field computer that controls various electronic controls of the electric drive vehicle when the drive of the electric drive vehicle is interrupted. It is obvious that the control unit 106 can detect whether the secondary battery pack B is charged or discharged to determine whether the electric vehicle is stopped or not based on whether the secondary battery pack B is used or not.

According to the above-described embodiment of the present invention, even when a situation occurs in which the temperature of the secondary battery pack B is lower than the temperature around the secondary battery pack B at the point of time when the electric drive vehicle is stopped, , It is possible to effectively prevent condensation from occurring particularly on the electrode surface and the cell surface of the unit cell.

5 is a block diagram showing the configuration of a humidity control apparatus for a secondary battery pack according to another embodiment of the present invention.

Referring to FIG. 5, the humidity control device according to another embodiment differs from the above-described embodiment in that the humidity control air is generated by the air conditioner 111 provided in the electric powered vehicle. In this case, it is obvious that the blowing fan 105 does not have to include the components corresponding to the dehumidifier 202 and the heater 203. In some cases, either the intake fan 201 or the exhaust fan 204 provided in the blowing section 105 may be omitted. Further, the blow-in unit 105 may be replaced with a unidirectional air pump (not shown) to quickly introduce the humidity-adjusting air discharged from the air conditioner 111 into the battery housing 103. 5, components denoted by the same reference numerals as those in FIG. 3 are substantially the same components, and a repeated description thereof will be omitted.

According to the present embodiment, the control unit 106 outputs a control signal to the air conditioner controller 112 side indicating information on the temperature and the humidity control level of the humidity control air. Here, the air conditioner controller 112 controls the overall operation of the air conditioner 111 mounted on the electrically driven vehicle, in particular, the temperature, the humidity, and the driving stage. Therefore, the air conditioner controller 112 operates the air conditioner 111 so as to comply with the temperature and humidity control level output from the controller 106, and generates and supplies the humidity adjusting air to the airflow controller 105 side. For this purpose, it is preferable that piping for connecting them is provided between the air conditioner 111 and the airflow 105. The piping may be installed separately from the main piping installed between the cold air discharge port provided to supply cold air to the inside of the vehicle and the air conditioner, and the piping may not be provided in a structure branched from the main piping. Regarding the temperature and humidity control level, the description of the above-described embodiment is used as a reference, and a repetitive description thereof will be omitted. It is to be understood that the operating time of the air conditioner 111 should be understood in the same context substantially as the operating time of the airflow 105 in the above-described embodiment. That is, the control unit 105 controls the operation time of the air conditioner 111 in accordance with the first to fourth conditions of the above-described embodiment.

The humidity control air generated by the air conditioner 111 needs to be distinguished from the cold air discharged by the air conditioner 111 in a conventional sense. That is, the humidity adjusting air serves to prevent condensation on the surface of the secondary battery pack (B) due to the temperature difference when the temperature of the secondary battery pack (B) is lower than the ambient temperature of the secondary battery pack (B). Therefore, it is apparent to those skilled in the art that the humidity control air may be a warm air having a low humidity.

6 is a flowchart showing a flow of a method for controlling humidity of a secondary battery pack according to an embodiment of the present invention.

Hereinafter, a process of controlling the humidity of the secondary battery pack B to an appropriate level by the controller 106 of the humidity controller will be described in detail with reference to FIG.

First, in step S100, the control unit 106 determines whether the electric drive vehicle on which the secondary battery pack B is mounted has stopped operating.

Here, whether or not the operation is interrupted can be judged based on whether a signal indicating the shutdown is received from an electronic computer installed in the electric drive vehicle or whether charging or discharging of the secondary battery pack B is being performed or the like.

If the determination in step S100 is YES, the control unit 106 proceeds to step S110 and receives the temperature of the secondary battery pack B and the temperature and humidity values around the secondary battery pack B from the sensor unit 104. Alternatively, the control unit 106 may further receive the humidity value of the outside air from the sensor unit 104.

Subsequently, in step S120, the control unit 106 determines whether the temperature of the secondary battery pack B is lower than the temperature around the secondary battery pack B or not.

If the determination in step S120 is No, the control unit 106 ends the process for adjusting the humidity of the secondary battery pack B. This is because if the temperature of the secondary battery pack B is higher than the temperature around the secondary battery pack B, the possibility of generating condensation in the secondary battery pack B is low. On the other hand, if the determination in step S120 is YES, the control unit 106 advances the process to step S130 so that the water vapor pressure corresponding to the humidity around the secondary battery pack B is supplied to the saturated water vapor pressure Or not.

If the determination at step S130 is NO, the control unit 106 ends the process for adjusting the humidity of the secondary battery pack (B). This is because if the water vapor pressure around the secondary battery pack B is lower than the saturated water vapor pressure corresponding to the temperature of the secondary battery pack B, there is a low possibility that condensation will occur in the secondary battery pack B. Conversely, if YES is determined in step S130, the control unit 106 proceeds to step S140 to supply the humidity adjusting air into the battery housing 103 by using the air blowing unit 105 or the air conditioner 111. [ Humidity Control Since various methods of supplying air and the temperature and humidity control level of humidity control air have already been described in detail, repetitive description will be omitted.

After the supply of humidity control air is started in step S140, the control unit 106 determines whether a predetermined period has elapsed in step S150 (S150). Here, the period has a predetermined value, for example, can be set in units of several seconds to several tens seconds.

If YES is determined in step S150, the control unit 106 proceeds to step S110 to start the step S110 of receiving the measured values of temperature and humidity from the sensor unit 104, and sequentially repeats steps S120 to S150 Repeat.

On the other hand, if the temperature of the secondary battery pack B is equal to the ambient temperature of the secondary battery pack B or the saturated water vapor pressure corresponding to the temperature of the secondary battery pack B while the steps S110 to S150 are repeatedly performed, When the water vapor pressure around the pack B is lowered, the control unit 106 ends the humidity control process for the secondary battery pack B.

If the temperature of the secondary battery pack B is lower than the temperature around the secondary battery pack B at the point of time when the operation of the electrically driven vehicle is stopped by adjusting the humidity of the secondary battery pack B in the above- It is possible to effectively prevent condensation from occurring on the surface of the secondary battery pack B, particularly, the electrode surface and the cell surface of the unit cell.

The control unit 106 may be implemented as a PCB module including a general purpose central processing unit, a custom semiconductor such as an ASIC, or the like. The process performed by the controller 106 may be programmed and stored in a program ROM of a PCB module or an application-specific semiconductor. In addition, the functions performed by the control unit 106 can be implemented as a logic circuit through optional combination of logic circuit elements.

The embodiments of the present invention described above can be modified in various ways. That is, the present invention can be applied not only when the electric drive vehicle on which the secondary battery pack is mounted is stopped, but also when the electric drive vehicle is in operation. Further, when there is a cooling device for properly maintaining the temperature of the internal space of the battery housing in which the secondary battery pack is mounted, it is needless to say that the humidity control device according to the present invention can be used in parallel or independently with the cooling device .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

10, B: secondary battery pack 11: unit cell
12: electrode of unit cell 13: unit cell shell material
18, 103: Battery housing 101:
102: outlet part 104: sensor part
105: power supply unit 106: control unit
111: air conditioner 112: air conditioner controller
201: suction fan 202: dehumidifier
203: heater 204: exhaust fan
205: blower controller

Claims (18)

1. A humidity controller for a secondary battery pack mounted in a battery housing having an inlet portion and an outlet portion,
A first temperature sensor attached to the secondary battery pack for measuring a temperature of the secondary battery pack;
A second temperature sensor for measuring an air temperature around the secondary battery pack;
A humidity sensor for measuring air humidity around the secondary battery pack;
A blowing unit for supplying humidity adjusting air to the inlet side of the battery housing; And
Wherein the secondary battery pack is provided with measured values from the first temperature sensor, the second temperature sensor, and the humidity sensor, and the water vapor pressure corresponding to the ambient humidity of the secondary battery pack is lower than the ambient temperature of the secondary battery pack, And a control unit for activating the blower unit when the temperature of the battery pack is higher than a saturated water vapor pressure based on the temperature of the battery pack.
The method according to claim 1,
Wherein the humidity adjusting air has a temperature higher than a temperature of the secondary battery pack before the blowing unit is operated and a humidity lower than a humidity surrounding the secondary battery pack. 3. The apparatus of claim 2,
Wherein during the operation of the blower section, measured values are periodically provided from the first temperature sensor, the second temperature sensor and the humidity sensor,
Wherein the air blowing unit is operated until the ambient humidity of the secondary battery pack becomes lower than the saturation water vapor pressure corresponding to the temperature of the secondary battery pack. 3. The method of claim 2,
Further comprising an ambient humidity sensor for measuring the humidity of the outside air,
Wherein the control unit receives the measured outdoor air humidity value from the outdoor air humidity sensor and periodically receives the measured values from the first temperature sensor, the second temperature sensor, and the humidity sensor while the blower unit is operating,
Wherein the air blowing unit is operated until the saturated water vapor pressure corresponding to the temperature of the secondary battery pack becomes higher than the water vapor pressure corresponding to the humidity of the outside air. 3. The apparatus of claim 2,
Wherein during the operation of the blower section, measured values are periodically provided from the first temperature sensor, the second temperature sensor and the humidity sensor,
Wherein the air blowing unit is operated until the temperature of the secondary battery pack becomes equal to the ambient temperature of the secondary battery pack. 3. The method of claim 2,
Wherein the control unit activates the blower unit for a predetermined period of time. The method according to claim 1,
The battery housing is mounted on an electrically driven vehicle provided with an air conditioner controller for controlling the operation of the air conditioner and the air conditioner,
The air blowing unit supplies the humidity adjusting air from the air conditioner to the inlet of the battery housing,
Wherein the control unit provides a control signal related to the temperature and humidity control level of the humidity control air and a turn-on or turn-off request signal of the air conditioner to the air conditioner controller. The method according to claim 1,
Further comprising an air discharge pump provided on an outlet side of the battery housing,
Wherein the controller operates the air discharge pump while the air blowing unit is operated to discharge the humidity control air from the battery housing. The method according to claim 1,
Wherein the control unit activates the blower unit after the use of the secondary battery pack is stopped. The method according to claim 1,
Wherein the air blowing unit comprises: an air intake fan for sucking air in the outside air;
A dehumidifier for removing moisture from the sucked air;
A heater for heating the moisture-removed air;
An exhaust fan for exhausting the heated air to an inlet of the battery housing; And
And a blower controller for controlling the operation of the intake fan, the dehumidifier, the heater, and the exhaust fan as a whole. A method of controlling humidity of a secondary battery pack mounted in a battery housing having an inlet portion and an outlet portion using an air blowing portion for supplying humidity adjusting air,
(a) a first temperature sensor attached to the secondary battery pack for measuring a temperature of the secondary battery pack, a second temperature sensor for measuring an air temperature around the secondary battery pack, and a second temperature sensor for measuring air humidity around the secondary battery pack Measuring a temperature of the secondary battery pack and a temperature and a humidity around the secondary battery pack using a humidity sensor; And
(b) when the temperature of the secondary battery pack is lower than the ambient temperature of the secondary battery pack and the water vapor pressure corresponding to the ambient humidity of the secondary battery pack is higher than the saturated water vapor pressure based on the temperature of the secondary battery pack, And adjusting the humidity of the secondary battery pack. 12. The method of claim 11,
Further comprising the step of controlling the air blowing unit so that the humidity adjusting air has a temperature higher than a temperature of the secondary battery pack before the blowing unit is operated and a humidity lower than the humidity around the secondary battery pack Adjustment method. 12. The method of claim 11, wherein, in step (b)
Wherein the operation of the blowing unit is maintained until the ambient humidity of the secondary battery pack becomes lower than the saturated water vapor pressure corresponding to the temperature of the secondary battery pack. 12. The method of claim 11,
Further comprising the step of measuring the humidity of the outside air using an outside air humidity sensor,
Wherein the operation of the blower unit is maintained until the saturated water vapor pressure corresponding to the temperature of the secondary battery pack becomes higher than the water vapor pressure corresponding to the humidity of the outside air in the step (b) . 12. The method of claim 11, wherein, in step (b)
Wherein the operation of the air supply unit is maintained until the temperature of the secondary battery pack becomes equal to the ambient temperature of the secondary battery pack. 12. The method of claim 11, wherein, in step (b)
And the operation of the blowing unit is maintained for a predetermined period of time. 12. The method of claim 11,
Wherein the air blowing unit receives the humidity control air from the air conditioner. 18. The method of claim 17,
Providing a control signal indicating an air conditioner turn-on signal and a temperature and humidity control level of the humidity adjusting air to the air conditioner controller; And
And providing an air conditioner turn-off signal after an operation hold time of the blow-up unit is terminated.

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