CN210316681U - Function cabin of power station - Google Patents

Abstract

The utility model discloses a trade function storehouse of power station. The function cabin is used for realizing the control of the battery replacement station on replacement of a power battery of the electric automobile, one side of the function cabin is communicated with the battery replacement cabin through a battery replacement channel, and the other side of the function cabin is communicated with the charging cabin through a battery transfer channel; the battery replacing channel and the battery transferring channel are communicated to form a through channel which is transverse to the driving direction of the electric automobile. From this, through setting up the function storehouse in order to realize power battery's transportation better between the storehouse of charging and trade the storehouse, with battery transfer channel and trade the form direction setting of electric automobile transversely with the space is saved in order rationally to trade the storehouse and charge the cooperation of storehouse and function storehouse compacter moreover, the electric automobile of being convenient for simultaneously drives in and drives out the storehouse of trading.

Description

Function cabin of power station

Technical Field

The utility model belongs to the technical field of new forms of energy electric automobile trades the electric technique and specifically relates to a trade function storehouse in station.

Background

At present, the emission of automobile exhaust is still an important factor of the environmental pollution problem, and electric automobiles have been popularized in order to treat automobile exhaust. The current electric automobiles mainly comprise a direct-charging type electric automobile and a quick-changing type electric automobile. The power battery of the electric automobile is quickly replaced through the battery replacement station.

In the related art, the power station is complex in structure and low in power battery replacement efficiency, the power battery cannot be detected in the power station, and the safety of the power station is general.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model discloses an aim at propose the function storehouse that the reliability is high.

According to the utility model discloses trade function storehouse of power station, the control that trade power station changed the power battery of electric automobile is realized in the function storehouse, one side in the function storehouse is through trading electric passageway and trading the electric storehouse and communicate, the opposite side in the function storehouse is through battery transfer passageway and charging bin intercommunication; the battery replacing channel and the battery transferring channel are communicated to form a through channel which is transverse to the driving direction of the electric automobile.

According to the utility model discloses the function storehouse through with the transportation of function storehouse setting in order to realize power battery better between the storehouse of charging and trade the electric storehouse, transports the passageway with the battery moreover and trade the form direction setting of electric automobile that the passageway is horizontal in order to save space rationally for trade the electric storehouse and charge the cooperation compacter in storehouse and function storehouse, the electric automobile of being convenient for simultaneously drives into and drives off the electricity storehouse of trading.

According to some embodiments of the utility model, the function storehouse still includes emergency cabin and electric room, the emergency cabin with the electric room sets up respectively the relative both sides of through passage, wherein, the emergency cabin is used for carrying out emergency treatment to unusual power battery, electric room is used for right trade the power station power supply.

According to some embodiments of the utility model, the function storehouse still includes: and the monitoring room is arranged close to the emergency cabin and is used for monitoring and controlling the power changing station.

According to some embodiments of the utility model, be provided with explosion-proof equipment in the emergency cabin, explosion-proof equipment is used for monitoring power battery to carry out emergency treatment to unusual power battery.

According to some embodiments of the utility model, the explosion-proof device includes: the explosion-proof cabin is provided with a semi-closed cavity capable of accommodating a power battery; the turnover mechanism is arranged on the inner side edge of the periphery of the top of the explosion-proof cabin and used for supporting a power battery; when the power battery breaks down, the turnover mechanism enables the battery to fall into the explosion-proof cabin.

According to some embodiments of the present invention, the explosion-proof device further comprises: and the fire extinguishing device is arranged above the explosion-proof cabin and used for extinguishing the fire of the battery after the battery falls into the explosion-proof cabin.

According to the utility model discloses a some embodiments, be provided with at least one switch board in the electric room, the switch board is used for trading electric mobile device and battery transfer device power supply.

According to some embodiments of the utility model, the function storehouse still includes: a ventilation system, the ventilation system comprising: the emergency cabin comprises a first ventilation device and a second ventilation device, wherein the first ventilation device is arranged close to the electrical room, and the second ventilation device is arranged in the emergency cabin.

According to some embodiments of the utility model, first ventilation unit has air inlet duct, first air-out duct and second air-out duct, the air intake of air inlet duct accesss to electric room, first air-out duct with the second air-out duct all with keeping away from of air inlet duct the one end of air intake links to each other, just the air outlet of first air-out duct accesss to the storehouse of charging, the air outlet and the external world intercommunication of second air-out duct.

According to some embodiments of the utility model, first air outlet with the second air outlet is perpendicular, just the end of air inlet with first air outlet with be provided with change-over valve between the second air outlet.

According to some embodiments of the utility model, state that the air outlet department of first air outlet duct installs axial fan, the air outlet of second air outlet duct and centrifugal fan is installed to second ventilation device's air outlet department.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of a swapping station according to an embodiment of the present invention;

fig. 2 is a top view of a functional cartridge according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a functional compartment and a charging compartment according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a first ventilation device according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an explosion-proof device according to an embodiment of the present invention;

fig. 6 is an exploded view of an explosion protection device according to an embodiment of the present invention.

Reference numerals:

a power change station 1000,

A power changing bin 100, a functional bin 200, a charging bin 300, a battery transfer channel 301,

The emergency control system comprises a power exchanging channel 201, an emergency cabin 202, an electric room 203, a monitoring room 204, an explosion-proof cabin 206, a turnover mechanism 208, a power distribution cabinet 209, a first ventilation device 210, a second ventilation device 211, an explosion-proof device 212, a first air outlet channel 213, a second air outlet channel 214, an axial flow fan 215, a centrifugal fan 216, a fire extinguishing support 217, a fire extinguishing device 218 and a power battery 219.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The functional cabin 200 of the power swapping station 1000 according to an embodiment of the present invention is described below with reference to fig. 1 to 6.

According to the utility model discloses trade function storehouse 200 of power station 1000, function storehouse 200 realizes trading the control that power battery 219 of electric automobile is changed by power station 1000, and the first side of function storehouse 200 is communicated with trading battery storehouse 100 through trading electric passageway 201, and the second side of function storehouse 200 is communicated with charging storehouse 300 through battery transfer passageway 301; the length extending direction of the functional cabin 200 is consistent with the driving direction of the electric automobile, and the battery replacing channel 201 and the battery transferring channel 301 are communicated to form a through channel transverse to the driving direction of the electric automobile.

It can be understood that the battery replacement bin 100 can be used for parking an electric vehicle, and the power battery 219 is replaced for the electric vehicle in the battery replacement bin 100; the charging bin 300 may be used to store the power battery 219, the power battery 219 removed from the electric vehicle may be stored in the charging bin 300, the power battery 219 is charged through the charging bin 300, and the power battery 219 in the charging bin 300 may be removed and installed in the electric vehicle to replace the power battery 219 of the electric vehicle.

Further, the functional cabin 200 is disposed between the battery replacing cabin 100 and the charging cabin 300, and the functional cabin 200 is in a state of being communicated with both the battery replacing cabin 100 and the charging cabin 300, so that the power battery 219 of the charging cabin 300 can be conveyed to the battery replacing cabin 100 through the battery transfer passage 301.

The battery replacing channel 201 is communicated with the battery transferring channel 301, and the battery replacing channel 201 and the battery transferring channel 301 are transverse to the driving direction of the electric automobile in the battery replacing bin 100, so that the spaces of the battery replacing bin 100 and the function bin 200 can be fully utilized, the space occupied by the battery replacing channel 201 and the battery transferring channel 301 is saved, the transmission of the power battery 219 is facilitated by the structure, and the electric automobile can conveniently drive away from the battery replacing bin 100 after the battery is replaced.

According to the utility model discloses function storehouse 200, through with function storehouse 200 setting in order to better realize power battery 219's transportation between storehouse 300 and the trade storehouse 100 of charging, transport passageway 301 and trade the form direction setting that electric channel 201 is horizontal to electric automobile with the reasonable space saving with the battery moreover for trade storehouse 100 and the cooperation of storehouse 300 and function storehouse 200 of charging are compacter, and the electric automobile of being convenient for simultaneously drives into and drives out trade storehouse 100.

In some embodiments of the present invention, the functional cabin 200 further comprises an emergency cabin 202 and an electrical room 203, the emergency cabin 202 and the electrical room 203 are respectively disposed on two opposite sides of the through passage, wherein the emergency cabin 202 is used for emergency treatment of the abnormal power battery 219, and the electrical room 203 is used for supplying power to the power transformation station 1000.

It can be understood that the power conversion station 1000 requires electrical energy to maintain operation, so that the electrical room 203 is arranged in the functional compartment 200 to meet the requirement of the power conversion station 1000 for electrical energy.

Further, the power conversion station 1000 detects the power battery 219 by setting the emergency cabin 202, and when the power battery 219 detected by the emergency cabin 202 is damaged or has potential safety hazard, emergency treatment needs to be performed on the power battery 219 to prevent danger from occurring, so that the safety and reliability of the power conversion station 1000 can be improved.

In some embodiments of the present application, the functional cartridge 200 further comprises: the monitoring room 204 is arranged close to the emergency cabin 202, and the monitoring room 204 is used for monitoring and controlling the power conversion station 1000, so that the running state of the power conversion station 1000 can be monitored, and the power conversion station 1000 is controlled through the monitoring room 204 to ensure that the power conversion station 1000 runs smoothly.

It can be understood that the monitoring room 204 can monitor the spaces of the power conversion cabin 100, the emergency cabin 202, the electrical room 203, the charging cabin 300, etc., and can also detect the charging state of the power battery 219 in the charging cabin 300 to ensure that the power conversion station 1000 is in a normal operation state, and when abnormal parameters are monitored or potential safety hazards exist, problems can be found in time to reduce loss.

In some embodiments of the present invention, an explosion-proof device 212 is disposed in the emergency cabin 202, and the explosion-proof device 212 is used to monitor the power battery 219 and perform emergency treatment on the abnormal power battery 219.

It can be understood that when the power battery 219 is abnormal, there will be a safety hazard, it is necessary to perform emergency treatment on the power battery 219 at the first time, the reliability of the explosion-proof device 212 is high, and the reliability and safety of detection and emergency treatment can be improved by processing the power battery 219 through the explosion-proof device 212.

In some embodiments of the present invention, the explosion-proof device 212 includes: the device comprises an explosion-proof cabin 206 and a turnover mechanism 208, wherein the explosion-proof cabin 206 is provided with a semi-closed cavity capable of accommodating a power battery 219; the turnover mechanism 208 is arranged at the inner side edge of the top periphery of the explosion-proof cabin 206 and is used for supporting a power battery 219; when power battery 219 fails, flipping mechanism 208 drops the battery into explosion-proof compartment 206.

It is understood that, during the process of detecting the power battery 219, it is necessary to support the power battery 219 on the turnover mechanism 208 and perform different operations according to the state of the power battery 219. When the power battery 219 is in a normal state (i.e., can be used normally), the turnover mechanism 208 continuously supports the power battery 219; when the power battery 219 is in an abnormal state (i.e., there is a safety hazard or normal use is not available), the turnover mechanism 208 turns over to make the power battery 219 fall into the explosion-proof cabin 206.

Further, the reliability of the explosion-proof compartment 206 is high, so that the emergency treatment of the power battery 219 in an abnormal state is performed through the explosion-proof compartment 206, and the reliability of the emergency compartment 202 can be effectively improved.

In a further embodiment of the present invention, the explosion-proof device 212 further comprises: and the fire extinguishing device 218 is arranged above the explosion-proof cabin 206, and is used for extinguishing the fire of the power battery 219 after the power battery 219 falls into the explosion-proof cabin 206.

It can be understood that when the power battery 219 falls into the explosion-proof compartment 206, it indicates that there is a safety hazard in the power battery 219, and the power battery 219 may be burned or exploded, and the fire extinguishing device 218 may timely and effectively solve the problem of burning of the power battery 219, thereby improving the safety and reliability of the explosion-proof device 212.

In some embodiments of the utility model, be provided with at least one switch board 209 in the electric room 203, switch board 209 is used for trading electric mobile device and battery transfer device power supply.

It can be understood that the power distribution cabinet 209 plays the roles of protection, monitoring and control for a plurality of devices in the power conversion station 1000, so that the power distribution cabinet 209 can play the roles of monitoring and power supply for the power conversion station 1000, and the reliability and the safety of the power conversion station 1000 are improved on the premise of ensuring the normal operation of the power conversion station 1000.

In some embodiments of the present invention, the functional cartridge 200 further comprises: a ventilation system, the ventilation system comprising: a first vent 210 and a second vent 211, the first vent 210 being disposed proximate to the electrical compartment 203, the second vent 211 being disposed within the emergency compartment 202.

It can be understood that, the electrical room 203 is used for supplying power to the power conversion station 1000, and the temperature in the electrical room 203 is relatively high, so that the first ventilation device 210 needs to be arranged to ventilate and cool the electrical room 203, so as to ensure that the temperature in the electrical room 203 meets the working requirement, and thus the reliability and the safety of the electrical room 203 can be improved.

Further, the emergency cabin 202 is used for handling the abnormal power battery 219, when the power battery 219 burns, a large amount of heat is released, and good ventilation and cooling effects can be achieved on the emergency cabin 202 by arranging the second ventilation device 211, so that the safety of the emergency cabin 202 can be improved.

In a further embodiment of the present invention, the first ventilating device 210 has an air inlet duct, a first air outlet duct 213 and a second air outlet duct 214, the air inlet of the air inlet duct leads to the electric room 203, the first air outlet duct 213 and the second air outlet duct 214 are both connected to the end of the air inlet duct away from the air inlet, and the air outlet of the first air outlet duct 213 leads to the charging chamber 300, and the air outlet of the second air outlet duct 214 is connected to the outside.

Further, heat in the electrical room 203 can be exhausted to the air outlet of the first air outlet channel 213 and the air outlet of the second air outlet channel 214 through the air inlet of the air inlet channel. When the heat in the electrical room 203 is exhausted to the air outlet of the second air outlet channel 214, a good cooling effect can be achieved on the electrical room 203; when the heat in the electrical chamber 203 is discharged to the air outlet of the first air outlet channel 213, the heat can be transferred to the charging bin 300, so that the temperature in the charging bin 300 can be raised.

It should be noted that, during the charging process of the power battery 219, the temperature of the charging environment needs to be ensured, and the charging effect and the service life of the power battery 219 can be ensured at a proper temperature. When the power conversion station 1000 can be arranged in an outdoor environment, the temperature in the charging bin 300 is affected by external environmental factors, the low external temperature will cause the low temperature in the charging bin 300 to affect the charging effect of the power battery 219, and is not beneficial to the storage of the power battery 219, the heat in the electric chamber 203 is transferred to the charging bin 300, so that the charging effect of the power battery 219 due to the too low temperature in the charging bin 300 can be prevented from being affected, meanwhile, the heat in the electric chamber 203 can be reasonably utilized, and the waste of unnecessary energy is saved.

It is understood that "unnecessary energy" herein refers to: the devices are separately provided in the charging chamber 300 and are powered to ensure energy consumed by the temperature of the environment inside the charging chamber 300.

Specifically, according to the actual use requirement, the first ventilation device 210 can transfer heat in the electrical room 203 to the outside alone, transfer heat in the electrical room 203 to the charging bin 300 alone, and transfer heat in the electrical room 203 to the outside and the charging bin 300 simultaneously.

In some embodiments of the present invention, the first air outlet channel 213 is perpendicular to the second air outlet channel 214, and a switching valve is disposed between the end of the air inlet channel and the first air outlet channel 213 and the second air outlet channel 214. Since the first air outlet channel 213 and the second air outlet channel 214 are vertically arranged, it is convenient to communicate the first air outlet channel 213 with the space in the charging bin 300 and communicate the second air outlet channel 214 with the outside.

Further, the communication relationship inside the first ventilation device 210 may be adjusted by adjusting a switching valve, such as: the air inlet duct is communicated with the second air outlet duct 214 by adjusting the change-over valve, the air inlet duct is not communicated with the first air outlet duct 213, and at the moment, the electric room 203 is communicated with the outside; the air inlet duct is communicated with the first air outlet duct 213 by adjusting the change-over valve, the air inlet duct is not communicated with the second air outlet duct 214, and at the moment, the electric room 203 is communicated with the charging bin 300; the first air outlet channel 213 and the second air outlet channel 214 are simultaneously communicated with the air inlet channel by adjusting the switching valve, at this time, the electrical room 203 is communicated with the charging bin 300, and the electrical room 203 is also communicated with the outside.

In some embodiments of the present invention, the axial fan 215 is installed at the air outlet of the first air outlet channel 213, and the centrifugal fan 216 is installed at the air outlet of the second air outlet channel 214 and the air outlet of the second ventilation device 211.

It can be understood that the axial fan 215 and the centrifugal fan 216 have different air outlet directions, and the axial fan 215 is disposed at the air outlet of the first air outlet channel 213 to better convey the heat entering the first ventilating device 210 from the air inlet channel to the charging bin 300.

Further, the axial fan 215 is driven by an axial fan, a motor of the axial fan is usually disposed inside the axial fan, the centrifugal fan 216 is driven by a centrifugal fan, and a motor of the centrifugal fan is usually disposed outside an exhaust funnel of the centrifugal fan, so that the axial fan 215 and the centrifugal fan 216 are respectively disposed on the first air outlet channel 213 and the second air outlet channel 214 to better meet the air outlet requirement of the first ventilation device 210.

In some embodiments of the present invention, the emergency cabin 202 further comprises: and the fire extinguishing device 218 is arranged above the explosion-proof cabin 206, and releases fire extinguishing medium to the power battery 219 after the power battery 219 falls into the explosion-proof cabin 206. It can be understood that the power battery 219 has a certain safety hazard, and the fire extinguishing device 218 can fill the fire extinguishing medium in the explosion-proof compartment 206, so that the power battery 219 can be effectively prevented from burning, and the safety of the emergency compartment 202 is improved.

In a further embodiment of the present invention, the fire suppression device 218 includes: the sand box 223, the locking pole 225 and drive arrangement 224, the bottom of sand box 223 is provided with relative lock and can be relative sand box 223 lateral wall upset two turn-over boards 226, locking pole 225 cooperates with the end wall of sand box 223 to can move along the axial direction of locking pole 225, the lower extreme of locking pole 225 supports in the juncture of two turn-over boards 226. The drive means 224 has a latch bolt which is in locking engagement with a locking lever 225.

Specifically, the sandbox 223 is used for storing the fire extinguishing medium, and when the two flaps 226 of the sandbox 223 are turned over, the fire extinguishing medium in the sandbox 223 can fall into the explosion-proof cabin 206. The locking lever 225 has a locking effect on the flap 226, and when the locking lever 225 is engaged with the end wall of the sandbox 223, the lower end of the locking lever 225 abuts against the junction of the two flaps 226 because the locking lever 225 is in a locking state, and the flap 226 cannot be opened.

Further, the driving device 224 is used for locking and matching with the locking rod 225, when the driving device 224 is not driven, the driving device 224 plays a locking role on the locking rod 225, and the two turning plates 226 of the sandbox 223 cannot be opened; when the driving device 224 is driven, the lock tongue of the driving device 224 is no longer in locking fit with the locking rod 225, the locking rod 225 can move relative to the sandbox 223, and the two turning plates 226 of the sandbox 223 are opened under the action of gravity or other driving power, so that the fire extinguishing medium in the sandbox 223 falls into the explosion-proof cabin 206.

Optionally, the fire suppression device 218 is disposed on a fire suppression stand 217.

In some embodiments of the present invention, an emergency ventilation device is also disposed within the emergency compartment 202. When the power battery 219 burns, a large amount of harmful gas, heat, and the like are generated, and the harmful gas and the like need to be discharged out of the emergency cabin 202 in time, and the gas and heat in the emergency cabin 202 can be rapidly discharged through the emergency ventilation equipment to ensure the safety of the emergency cabin 202.

Further, the reliability of the explosion-proof compartment 206 is high, so that the emergency treatment of the power battery 219 in an abnormal state is suitable for the explosion-proof compartment 206, and the reliability of the emergency compartment 202 can be effectively improved

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, "a plurality" means two or more.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. The functional bin (200) of the battery replacement station is characterized in that the functional bin (200) controls the battery replacement station to replace a power battery of an electric automobile, one side of the functional bin (200) is communicated with the battery replacement bin (100) through a battery replacement channel (201), and the other side of the functional bin (200) is communicated with a charging bin (300) through a battery transfer channel (301); the battery replacement channel (201) and the battery transfer channel (301) are communicated to form a through channel transverse to the driving direction of the electric automobile.

2. The functional compartment (200) of claim 1, wherein the functional compartment (200) further comprises an emergency cabin (202) and an electrical room (203), the emergency cabin (202) and the electrical room (203) being respectively disposed at two opposite sides of the through passage, wherein the emergency cabin (202) is used for emergency treatment of an abnormal power battery, and the electrical room (203) is used for supplying power to the power exchanging station (1000).

3. The functional cartridge (200) of claim 2, further comprising: the monitoring room (204) is arranged close to the emergency cabin (202), and the monitoring room (204) is used for monitoring and controlling the power changing station (1000).

4. The functional cabin (200) according to claim 2, characterized in that an explosion-proof device (212) is arranged in the emergency cabin (202), and the explosion-proof device (212) is used for monitoring the power battery (219) and carrying out emergency treatment on the abnormal power battery (219).

5. Functional cartridge (200) according to claim 4, characterized in that the explosion-proof means (212) comprise:

the explosion-proof cabin (206), the explosion-proof cabin (206) has a semi-closed cavity which can contain a power battery;

the turnover mechanism (208) is arranged at the inner side edge of the top periphery of the explosion-proof cabin (206) and is used for supporting a power battery (219);

when a power battery (219) breaks down, the turnover mechanism (208) enables the battery (219) to fall into the explosion-proof cabin (206).

6. The functional cartridge (200) of claim 5, wherein the explosion-proof device (212) further comprises:

the fire extinguishing device is arranged above the explosion-proof cabin (206) and used for extinguishing the fire of the power battery (219) after the power battery (219) falls into the explosion-proof cabin (206).

7. A functional cartridge (200) according to claim 2, characterized in that at least one power distribution cabinet (209) is arranged in the electrical room (203), the power distribution cabinet (209) being used for powering the power change moving device and the battery transferring device.

8. The functional cartridge (200) of claim 2, further comprising: a ventilation system, the ventilation system comprising: a first ventilation device (210) and a second ventilation device (211), the first ventilation device (210) being disposed proximate to the electrical room (203), the second ventilation device (211) being disposed within the emergency compartment (202).

9. The functional compartment (200) according to claim 8, wherein the first ventilation device (210) has an air inlet duct, a first air outlet duct (213) and a second air outlet duct (214), an air inlet of the air inlet duct opens into the electrical room (203), the first air outlet duct (213) and the second air outlet duct (214) are both connected to an end of the air inlet duct away from the air inlet, an air outlet of the first air outlet duct (213) opens into the charging compartment (300), and an air outlet of the second air outlet duct (214) communicates with the outside.

10. Functional cartridge (200) according to claim 9, characterized in that the first outlet channel (213) and the second outlet channel (214) are perpendicular and that a changeover valve is arranged between the end of the inlet channel and the first outlet channel (213) and the second outlet channel (214).

11. Functional cartridge (200) according to claim 9, characterized in that an axial fan (215) is mounted at the air outlet of the first air outlet duct (213), and a centrifugal fan (216) is mounted at the air outlet of the second air outlet duct (214) and at the air outlet of the second air ventilation means (211).

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