JP2018079906A - Battery cooling device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To inhibit dust included in air flowing from a drain hole from entering into a battery pack even when the drain hole for discharging water of rainwater etc. is provided in a battery cooling device.SOLUTION: A battery cooling device 10 cools a battery 32 by taking cooling air from a vehicle cabin by suction effect of a cooling fan 26 and guiding the cooling air to the battery 32. The battery cooling device 10 includes a suction port 18 which takes the cooling air from the vehicle cabin, is provided on a door 44 side surface below a seat 42, and opens to the vehicle cabin. A filter 22 is attached to the suction port 18, and a drain hole 21 for discharging water is provided at an area located on a bottom surface of the suction hole 18 and closer to the vehicle cabin side than the filter 22.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a cooling device used for cooling an in-vehicle battery.

  In recent years, electric vehicles such as an electric vehicle using a motor as a drive source and a hybrid vehicle using a motor and an engine as a drive source are often used. These electric vehicles are equipped with a chargeable / dischargeable battery for supplying electric power to the motor and charging the generated electric power when the motor is operated as a generator, and a cooling device for cooling the battery. The cooling device sucks cooling air by a suction action of a cooling fan, and cools the battery by flowing the sucked cooling air through a cooling flow path around the battery.

  Patent Document 1 discloses a structure in which a water drain hole for discharging rainwater or the like entering from an air intake port is provided in an air duct (intake air duct) for guiding cooling air from an air intake port (intake port) to a battery. Has been.

Japanese Patent Laid-Open No. 2008-213668

  For example, if air intakes are provided on the side surface (side surface under the seat) that rises from the stepping surface (door scuff plate) on the door side of the rear seat of the vehicle, rainwater will appear when the door or window is opened. May enter through the air intake and enter the air intake duct. Rainwater that has landed on the door scuff plate may also flow and enter the intake duct and enter the intake duct. When rainwater reaches the cooling fan through the intake duct, the cooling fan may break down. Therefore, if a drain hole is provided in the intake duct as in Patent Document 1, rainwater can be discharged from the drain hole and can be prevented.

  On the other hand, when a water drain hole is provided in the air intake duct, dust contained in the air flowing into the air intake duct from the water drain hole is sucked, and the dust enters the battery pack containing the battery. There is a risk of it.

  Accordingly, the present invention provides a battery cooling device in which dust contained in the air flowing from the drain hole enters the battery pack even when a drain hole for discharging water such as rainwater is provided. The purpose is to be able to suppress this.

  The battery cooling device of the present invention is a battery cooling device that cools the battery by taking cooling air from the vehicle compartment by the suction action of the cooling fan and guiding it to the battery, and an intake port for taking in the cooling air from the vehicle compartment A suction port provided on a side surface of the door under the seat and opening toward the passenger compartment, and a filter is attached to the suction port. Also, a drain hole for discharging water is provided on the vehicle compartment side.

  According to the present invention, since the water drain hole is provided on the vehicle compartment side of the filter of the air intake port, dust contained in the air sucked from the water drain hole is received by the filter, It can suppress that dust enters.

It is a figure which shows the arrangement | positioning in the vehicle of the battery cooling device in embodiment of this invention, and the outline of a structure of a battery cooling device. It is the figure which expanded the inlet-port vicinity in embodiment of this invention.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a view of a battery cooling device 10 disposed under one of the second row seats (rear seats) as viewed from the rear of the vehicle. The battery cooling device 10 is drawn in a cross-sectional view so that its configuration can be understood. In FIG. 1, in addition to the battery cooling device 10, a battery pack 34 in which a battery 32 is stored is also drawn. Note that the vertical and horizontal displays in FIGS. 1 and 2 described below indicate the vertical and horizontal directions of the vehicle.

  The vehicle of this embodiment is an electric vehicle such as a hybrid vehicle or an electric vehicle. As shown in FIG. 1, the battery pack 34 and the battery cooling device 10 for cooling the battery 32 stored in the battery pack 34 are arranged in the electric vehicle.

  The battery 32 is a secondary battery such as a chargeable / dischargeable lithium ion battery. The battery 32 supplies wheel driving power to a motor generator (not shown) via an inverter (not shown), and is charged with power generated when the motor generator functions as a generator.

  The battery cooling device 10 drives the cooling fan 26 to take in the cooling air into the intake duct 24 from the intake port 18 provided on the side surface of the door 44 below the seat 42, and the taken-in cooling air is transferred to the battery pack. The battery 32 is cooled by being guided to the battery 32. As shown in FIG. 1, the intake port 18 opens toward the passenger compartment.

  The battery cooling device 10 cools the intake port member 14 having the intake port 18, the intake duct 24 that guides the cooling air taken from the intake port 18 to the cooling fan 26, the cooling fan 26, and the cooling fan 26 to the battery pack 34. And a downstream duct 31 for guiding air. The intake duct 24 can also be called an upstream duct.

  As shown in FIG. 1, a battery pack 34 is disposed on the right side of the vehicle below the seat 42, and one end of a downstream duct 31 that sends cooling air to the battery pack 34 is connected to the battery pack 34. The other end of the downstream duct 31 on the left side of the vehicle is connected to a cooling fan discharge port 28 provided in the cooling fan 26.

  The cooling fan 26 is fixed by a cooling fan bracket 30, and the rotor blades 29 are driven by a motor (not shown) to suck the cooling air in the vehicle compartment into the battery cooling device 10. The cooling fan 26 is provided with a cooling fan discharge port 28 for discharging cooling air and a cooling fan intake port 27 for sucking cooling air, and the cooling fan discharge port 28 opens toward the right side of the vehicle. The cooling fan inlet 27 opens toward the vehicle lower side. As described above, one end of the downstream duct 31 is connected to the cooling fan discharge port 28, and one end of the intake duct 24 is connected to the cooling fan suction port 27. As shown in FIG. 1, the other end of the intake duct 24 on the left side of the vehicle is connected to the intake port member 14.

  The intake port member 14 is formed in a substantially square cylindrical shape and has an intake port 18, and the cross-sectional area of the intake port 18 is wide on the vehicle left side (vehicle compartment side) of the intake port member 14. A widened portion 17 is provided. The front end of the widened portion 17 on the passenger compartment side is connected to the door scuff plate 12 at the bottom, and is also connected to the door scuff plate 12 at the upper and left and right sides (vehicle front and rear portions). In other words, the door scuff plate 12 is a step surface for getting on and off, and a surface that a person steps on when getting on and off.

  As shown in FIG. 1, a filter 22 for capturing dust contained in cooling air is attached to the wide portion 17 of the intake port member 14 on the right side of the vehicle (on the intake duct 24 side). An intake bezel 20 is attached to the (vehicle compartment side). On the bottom surface of the widened portion 17 of the air inlet member 14, a water drain hole 21 is provided for discharging water such as rainwater that has entered from the passenger compartment side beyond the air intake bezel 20. It is provided closer to the passenger compartment than the filter 22.

  A body 36 is provided below the battery cooling device 10 and the battery pack 34, and a carpet 38 is disposed thereon. A seat 42 is placed on the carpet 38 via two seat rails 40.

  Next, the flow of the cooling air of the battery cooling device 10 in this embodiment will be described. A thick black arrow in FIG. 1 indicates the flow of cooling air for cooling the battery 32. The battery cooling device 10 takes in the cooling air from the intake port 18 into the intake duct 24 by a suction action generated by driving the cooling fan 26. At this time, the cooling air passes through the intake bezel 20 and the filter 22 and is taken into the intake duct 24. The taken-in cooling air reaches the cooling fan 26 through the intake duct 24, and is guided from the cooling fan 26 to the battery 32 in the battery pack 34 through the downstream duct 31. Then, the cooling air cools the battery 32 by passing through a cooling flow path (not shown) around the battery 32, and the cooled cooling air passes through an exhaust duct (not shown) and is exhausted (not shown). ) To the outside of the vehicle.

  Next, the effect of the drain hole 21 of the battery cooling device 10 in this embodiment will be described. 2 is an enlarged view of the vicinity of the intake port 18 of FIG. 1, and the same members as those in FIG. 1 are denoted by the same reference numerals. The white arrows in FIG. 2 indicate the flow of water when rainwater has landed on the door scuff plate 12 when the door or window is opened, and the rainwater flows and enters the intake port 18.

  In the battery cooling device 10 of the present embodiment, the drain hole 21 is provided on the bottom surface of the widened portion 17 of the intake port member 14, that is, the drain hole 21 is provided on the bottom surface of the intake port 18, As shown in FIG. 2, rainwater can be discharged from the drain hole 21 when rainwater enters the air inlet 18. The rainwater discharged from the drain hole 21 lands on the inside of the body 36 and advances toward the door side because the body 36 is inclined so as to be slightly lowered toward the door side (the vehicle left side). And rainwater is discharged | emitted out of a vehicle from the hole (not shown) provided in the door side (vehicle left side) of the body 36. FIG. As described above, even when rainwater enters the intake port 18, the rainwater is discharged from the drain hole 21, so that intrusion of rainwater into the intake duct 24 can be suppressed, and the rainwater is cooled by the cooling fan. 26 can be suppressed.

  In the above description, the case where rainwater that has landed on the door scuff plate 12 has entered the intake port 18 has been described. Similarly, when rainwater enters the intake port 18 from each opening of the intake bezel 20, Can be discharged. Similarly, when drinking water or the like is spilled in the passenger compartment instead of rain water and the drinking water or the like enters the air inlet 18, the drinking water or the like can be discharged from the drain hole 21. As described above, the battery cooling device 10 according to the present embodiment can discharge rainwater or the like only by providing the drain hole 21 without newly adding parts.

  Further, in the battery cooling device 10 of the present embodiment, since the water drain hole 21 is provided on the vehicle compartment side of the filter 22 of the intake port 18, the air sucked from the water drain hole 21 (the battery cooling device 10 The dust contained in the air in the space between the body 36 and the body 36 is received by the filter 22, and the dust can be prevented from entering the cooling fan 26 and the battery pack.

  In the battery cooling device 10 of the present embodiment, the water drain hole 21 is provided on the bottom surface of the intake port 18, that is, at a position away from the cooling fan 26. Compared with the case where the drain hole 21 is provided, the negative pressure in the vicinity of the drain hole 21 is weak and it is difficult to suck air from the drain hole 21, so that the amount of dust trapped by the filter 22 is also small.

  Since a pipe or the like connected to the muffler is disposed near the center in the vehicle width direction (left-right direction), the air temperature in the space between the battery cooling device 10 and the body 36, particularly near the center in the vehicle width direction. It becomes high temperature. However, since the drain hole 21 of the present embodiment is provided on the door side (the end side of the vehicle), the air sucked from the drain hole 21 is air having a lower temperature than that near the center. Therefore, even if air is sucked from the drain hole 21, deterioration of the cooling efficiency of the battery can be suppressed.

  In addition, the battery cooling device 10 of the present embodiment can discharge fine sand, dust, and the like accumulated on the door scuff plate 12 from the drain hole 21 together with rainwater or the like that has landed on the door scuff plate 12.

  In the battery cooling device 10 of the embodiment described above, the water drain hole 21 is provided in the intake port 18. However, in the structure in which the intake port member 14 and the door scuff plate 12 are integrated, the door scuff plate 12 may function as the intake port 18, and the drain hole 21 may be provided in this portion. Further, the drain hole 21 may be provided not on the inside of the intake bezel 20 but on the outside of the intake bezel 20, that is, on the vehicle compartment side.

  In the battery cooling device 10 of the embodiment described above, the door scuff plate 12 and the intake port member 14 are separate members, but the door scuff plate 12 and the intake port member 14 are one member formed integrally. Also good.

  DESCRIPTION OF SYMBOLS 10 Battery cooling device, 12 Door scuff plate, 14 Air inlet member, 17 Wide part, 18 Air inlet, 20 Air intake bezel, 21 Water drain hole, 22 Filter, 24 Air intake duct, 26 Cooling fan, 27 Cooling fan air inlet, 28 Cooling Fan outlet, 29 rotor blade, 30 cooling fan bracket, 31 downstream duct, 32 battery, 34 battery pack, 36 body, 38 carpet, 40 seat rail, 42 seat, 44 door.

Claims (1)

A battery cooling device that cools the battery by taking cooling air from the passenger compartment through a suction action of a cooling fan and guiding it to the battery,
An intake port for taking in the cooling air from the passenger compartment, provided on a side surface on the door side under the seat, and provided with an intake port that opens toward the passenger compartment;
A filter is attached to the intake port,
A drain hole is provided at the bottom of the intake port for discharging water to the vehicle compartment side of the filter.
A battery cooling device.