CN203399458U - Container and battery system provided with same - Google Patents

Abstract

In a container and a battery system provided with the same, a plurality of drawers (3) is divided into drawers with large ventilation resistance and drawers with small ventilation resistance against cooling air, with the drawers containing stored items. Moreover, the plurality of drawers with small ventilation resistance are installed in a concentrated manner on at least one of an upper-end side and a lower-end side in the vertical direction, and in a stepped manner with the number of the drawers with small ventilation resistance in each column decreasing from the centre towards the outer sides in the lateral direction.

Description

Take in apparatus and possess the battery system that this takes in apparatus

Technical field

The utility model relates to be taken in apparatus and possesses the battery system that this takes in apparatus.No. 2011-022764, the Japanese Patent Application of the application based on filing an application in Japan on February 4th, 2011 and advocate priority, and its content is incorporated herein.

Background technology

For example, for taking in the taking in apparatus (, casing or frame) of a plurality of heaters such as electronic equipment that generate heat because of use, carry out up to now the research of the heater (collecting article) for taking at the internal cooling of taking in apparatus always.

For example, develop and on each shelf of Multi-layer stand, arrange electronic equipment and by the cooling device of installing in the one end of taking in apparatus, above-mentioned whole electronic equipment carried out to cooling structure (with reference to patent documentation 1 or 2) and take in apparatus, from radiator fan being installed with it, each electronic equipment carried out respectively to the apparatus of taking in of cooling structure (with reference to patent documentation 3) by corresponding radiator fan in the corresponding a plurality of unit of pulling out the electronic equipment of shape that configure respectively with Multi-layer stand.

In addition, at the battery module (collecting article) secondary cells such as lithium ion battery being housed in housing, be accommodated in the battery system A that takes in apparatus and obtain, example as shown in Figure 7, is taken in apparatus 100 and is possessed: alignment arrangements and form the framework 102 of a plurality of cells 101 in length and breadth; Be arranged to be inserted into the drawer 10 in each cell 101 of this framework 102.And, in this kind of battery system A, by the circuit shutters such as circuit breaker, relay, control device (ECU), display unit, also the parts such as fire-extinguishing apparatus (electric parts) are accommodated in and take in apparatus 100 together with battery module as required.And, now, be divided into battery module is accommodated in to each cell 101 region (M1 of battery outer portion) and circuit shutter, control device, display unit etc. are accommodated in to each cell 101 region (M2 of member storage portion), thereby battery module and electric parts are accommodated in respectively and take in apparatus 100.

And, in this kind of battery system A, for example respectively be listed as cooling device (fan) 104 is being set longitudinally, by the driving of each cooling device 104, cooling air for example carried towards top from below and made cooling air at the internal circulation of a plurality of drawers 103 of each row that longitudinally configure, thus a plurality of battery modules being carried out to cooling (with reference to patent documentation 4).

[formerly technical literature]

[patent documentation]

[patent documentation 1] the JP 2004-23036 of Japan communique (A)

[patent documentation 2] the JP 2010-114128 of Japan communique (A)

[patent documentation 3] the JP 2006-40918 of Japan communique (A)

[patent documentation 4] No. 4427355 communique of Japan's patent (B)

[summary of utility model]

[problem that utility model will solve]

Yet, as shown in Figure 7, making secondary battery module, be equipped on the in the situation that of taking in apparatus 100, because taking in the diffusion of the heat in apparatus 100 and from the impact of the heat radiation of outer surface, taking in the interior easy generation Temperature Distribution of apparatus 100.Especially heat is stagnated and is made the central portion of taking in apparatus 100 become high temperature, thereby makes the secondary cell of this high-temperature part easily deteriorated.

In addition, in above-mentioned existing battery system A, with respect to the M1 of battery outer portion that takes in battery module, the member storage BuM2 space (remaining space in each drawer 103) of taking in electric parts is many.Therefore, the M2 of member storage portion is less than the aeration resistance of the cooling air of the M1 of battery outer portion, the row that M2 of member storage portion more exists, the cooling effect higher (row that M1 of battery outer portion more exists, the cooling effect that cooling air produces is lower) that cooling air produces.Thus, because the configuration of the M1 of battery outer portion and the M2 of member storage portion makes the cooling balance of battery module get muddled, thereby be difficult to keep the uniformity of battery temperature.

Utility model content

For solving the means of problem

According to the first form of the present utility model, take in apparatus and possess framework that alignment arrangements in length and breadth forms a plurality of cells, be arranged to be inserted in each cell of described framework and in inside, take in the drawer of collecting article.Described framework is configured to, and by the driving of cooling device, can make cooling air at the internal circulation of a plurality of described drawers of each row that longitudinally configure, and to the described collecting article being accommodated in described drawer, carries out cooling.Large drawer and the little drawer of aeration resistance of aeration resistance that described a plurality of drawer is divided into described cooling air under the state after taking in described collecting article, the little drawer of a plurality of aeration resistances with described in being integrated into longitudinally the mode of at least one side in upper end side and lower end side set, and with the number of the little drawer of the described aeration resistance in each row along with from lateral center side toward the outer side and the mode reducing is adapted to step-like.

In addition, according to the second form of the present utility model, taking in apparatus can also be configured to, a side in upper end side and lower end side longitudinally described in the little drawer of a plurality of described aeration resistances is provided in, in the inside of the large drawer of described aeration resistance, possess for directly supplying with the cooling air bypass of described cooling air, wherein, the drawer that described aeration resistance is large sets at the described opposite side longitudinally of the opposition side of the little drawer of described aeration resistance, and sets from described lateral center side direction outside.

According to the 3rd form of the present utility model, battery system possesses the apparatus of taking in of above-mentioned any, and the described collecting article of taking in the large drawer of described aeration resistance is battery module.

[effect of utility model]

Taking in apparatus (and battery system) of form of the present utility model, for example, with because take in the drawer that aeration resistance is large using battery module as collecting article, compare, because take in drawer that aeration resistance is little using electric parts such as circuit shutter, control device, display unit such as circuit breaker, relays as collecting article, to gather the mode of at least one side in upper end side and lower end side longitudinally, set, and be adapted to step-like in the columns of the lateral outer side mode fewer than the columns of center side.; taking in upper end side longitudinally and the lower end side of apparatus; formation be take center side and as summit, the little a plurality of drawers of aeration resistance is adapted to step-like aeration resistance little region (member storage portion), in remaining part, forms the aeration resistance great region (battery outer portion) of the large a plurality of drawer set of a plurality of aeration resistances.

And, by the configuration of such setting aeration resistance little region (member storage portion) and aeration resistance great region (battery outer portion), when the driving by cooling device makes cooling air to each row circulation, can make cooling air suitably to circulating because the battery as heater (battery module) being accommodated in to the row of the easy center side of stagnating of drawer heat thus.

Thus, battery module, electric member storage are being taken in form battery system in apparatus in the situation that at this, can eliminate such configuration because of battery outer portion and member storage portion in the past and make the situation that the cooling balance of battery module is got muddled, can keep the uniformity of battery temperature.Therefore, can make to be accommodated in the deteriorated homogenizing of a plurality of batteries of taking in apparatus, suitable battery system can be provided.

Accompanying drawing explanation

Fig. 1 means the stereogram of taking in apparatus and battery system of an execution mode of the present utility model.

Fig. 2 means the stereogram of the framework of taking in apparatus (removing the apparatus of taking in of state after drawer) of Fig. 1.

Fig. 3 means the stereogram of the drawer of taking in apparatus (drawer that aeration resistance is large) of Fig. 1.

Fig. 4 A means the stereogram of the fan (cooling device) of installing on apparatus taking in of Fig. 1.

Fig. 4 B means the stereogram of the connector of installing on apparatus taking in of Fig. 1.

Fig. 5 means the battery outer portion of taking in apparatus and battery system of an execution mode of the present utility model and the front view of member storage portion.

Fig. 6 means the front view of the variation of taking in apparatus and battery system of an execution mode of the present utility model.

Fig. 7 means the existing front view of taking in apparatus and battery system.

Embodiment

Below, referring to figs. 1 through Fig. 5, taking in apparatus and possessing this battery system of taking in apparatus and describe an execution mode of the present utility model.

As shown in Figures 1 and 2, the apparatus 1 of taking in of present embodiment possesses: the rectangular-shaped cell to-directions X opening is configured to 7 and broad ways (Y-direction, laterally, line direction) along short transverse (Z direction, longitudinally, column direction) and configure the framework 2 of 7, possess the framework 2 of a plurality of cells of same size in fact that alignment arrangements is the ranks of 7 row * 7 row; Configuration and from the opening of this cell to the+rectangular-shaped drawer 3 of closing this opening that directions X inserts respectively in this cell.

Framework 2 possesses backboard 4, top board 5 and side plate 6 (6a, 6b), thereby forms above-mentioned a plurality of cell.Backboard 4 possesses the thickness of regulation, and has roughly rectangular shape when YZ puts down observation.Top board 5 possesses the thickness of regulation, and has roughly rectangular shape during from XY viewed in plan.One side being connected of the be positioned at+Z direction Ce position in the Liang Ge limit of extending along Y-direction of top board 5 and backboard 4.It should be noted that position corresponding to the above-mentioned cell joining with top board 5 on top board 5 is formed with respectively the air vent hole 10 of the shape and structure same with air vent hole 9 described later.Side plate 6 possesses the thickness of regulation, and is rectangular shape roughly during from XZ viewed in plan.One side being connected of the be present in-Y-direction Ce position in one side of the be present in-Y-direction Ce position in the Liang Ge limit of extending along Z direction of side plate 6b and backboard 4 and the Liang Ge limit of extending along directions X of top board 5.In addition, for the spatial separation of the inner side of above-mentioned backboard 4, top board 5 and the interconnective structures of two side plates 6 ( side plate 6a or 6b) (housing that is called framework 2) being become 7 * 7 ranks shape form above-mentioned cell, and possess the first dividing plate 7 and the second partition 8 of the following stated.

The first dividing plate 7 forms base plate or the top board of above-mentioned cell.The first dividing plate 7 possesses the thickness of regulation, and has roughly rectangular shape during from XY viewed in plan.As shown in Figure 2, on the first dividing plate 7, be formed with the air vent hole 9 that the first dividing plate 7 is connected, promote the ventilation each other of above-mentioned cell.At this, it when air vent hole 9 exemplifies from XY viewed in plan, is the hole of rectangular shape roughly.

In addition, second partition 8 forms the side plate of above-mentioned cell.Second partition 8 possesses the thickness of regulation, and has roughly rectangular shape during from XZ viewed in plan.

Above-mentioned the first dividing plate 7 or second partition 8 interfix, or the first dividing plate 7 or second partition 8 be fixed on backboard 4, top board 5 or side plate 6, form framework 2.This is fixed while needing only in drawer 3 insertions described later are configured to framework 2, framework 2 can support drawer 3 securely, therefore above-mentioned plate each other both for example building blocks carry out like that physically chimericly fixing, also above-mentioned board member can be fixed by screw threads for fastening etc.

It should be noted that, in above-mentioned each cell, to form except the above-below direction based on air vent hole 9 (Z direction, longitudinal) and above-mentioned opening, do not exist in fact the mode of the structure in the mobile gap of the fluids such as air to carry out above-mentioned fixing.In addition, with the fluids such as air can from the external freedom of framework 2 the mode that enters in the air vent hole 9 of the undermost cell Z direction suitably design framework 2.

In Fig. 2, the first dividing plate 7 is as illustrating by forming a shared plate of 7 above-mentioned cells of a line.Therefore, corresponding with each cell and form respectively air vent hole 9.Yet, according to design, also can form and on an above-mentioned cell, configure one and carry out above-mentioned fixing structure.Equally, second partition 8 can be same with side plate 6, is configured to the plate being shared by 7 above-mentioned cells that form row, also can be as shown in Figure 2, and the structure separating in the size for the short transverse at each cell (Z direction).

It should be noted that, the size of the first dividing plate 7 and second partition 8 may not be corresponding with the size of an above-mentioned cell, can suitably change according to design.But, in the situation that the first dividing plate 7 forms across a plate on a plurality of above-mentioned cells, at the position that becomes the floor separately of above-mentioned a plurality of cells, form air vent hole 9 (that is, forming the air vent hole 9 of the number corresponding with the number of cell on this first dividing plate 7 on first dividing plate 7).

At this, above-mentioned cell, except above-mentioned opening, is the real cell being surrounded by backboard 4, side plate 6 or second partition 8 and the first dividing plate 7, but can also has the structure not forming by the first dividing plate 7 supporting drawers 3.That is, in framework 2, can be on the side plate 6 or second partition 8 of position of configuration the first dividing plate 7, change the first dividing plate 7 and be suitably configured for the projection of supporting drawer 3 or track etc.In this case, when series of observations direction (Z direction, longitudinal), in reality, do not form cell.But, owing to still there being clearly the interval of inserting configuration for drawer 3, therefore this interval is gone on to say as imaginary cell.That is, due to what present embodiment also comprised this shape, take in apparatus 1, therefore, below, to using real cell and imaginary cell all as cell, and the situation continued that framework forms a plurality of cells describes.

As shown in Figure 3, drawer 3 possesses base plate 11 and header board 13.Base plate 11 possesses the thickness of regulation, and during from XY viewed in plan, has the identical in fact roughly rectangular shape of size in the XY plane with above-mentioned cell.Base plate 11 possesses air vent hole 12.Air vent hole 12 is arranged on locational and air vent hole 9 corresponding with air vent hole 9 when drawer 3 insertions are configured to the above-mentioned cell hole of the perforation of same size in fact.Header board 13 possesses the thickness of regulation, and has the roughly rectangular shape identical in fact with the size of above-mentioned opening during from YZ viewed in plan.One side being connected of the be present in-directions X Ce position in the Liang Ge limit of extending along Y-direction of header board 13 and base plate 11.Handle 14 is installed on header board 13.After one that drawer 3 is inserted in the above-mentioned cell that is configured to framework 2, user can control handle 14 and drawer 3 is slided to directions X.In addition, drawer 3 is designed to when drawer 3 is inserted to configuration to above-mentioned cell, and header board 13 covers above-mentioned openings and do not have in fact the structure in the mobile gap of the fluids such as air between the inside of above-mentioned cell and above-mentioned opening.

In addition, in the drawer 3 shown in Fig. 3, in order to increase its intensity, and possess rear plate 15 and side plate 16 (16a, 16b).Rear plate 15 possesses the thickness of regulation, and during from YZ viewed in plan, has the roughly rectangular shape identical in fact with the size of above-mentioned opening.One side being connected of the be present in+directions X Ce position in the Liang Ge limit of extending along Y-direction of rear plate 15 and base plate 11.Side plate 16 possesses the thickness of regulation, and has roughly rectangular shape during from XZ viewed in plan.One side being connected of the be present in+Y-direction Ce position in one side of the be present in+Y-direction Ce position in the Liang Ge limit of extending along Z direction of side plate 16a and header board 13 and the Liang Ge limit of extending along Z direction of rear plate 15.The side plate 16 that above-mentioned drawer is used (16a or 16b) is also to have when drawer 3 is pulled out from the above-mentioned cell of configuration, prevent the member of the function falling of collecting article (being battery module 17) in Fig. 3, side plate 16a or 16b do not need to be respectively plate, can be the bar-shaped coupling member that header board 13 is connected with rear plate 15 yet.

Above taking in apparatus 1, as long as the material of framework 2 has the intensity of supporting drawer 3, can be not only metal, can also be wood or resin etc.In addition, the material of drawer 3, also so long as have securely the intensity of collecting article 17 that supporting is configured in the inside of drawer 3, can be not only metal, can also be wood or resin etc.In addition, in order to make the slip of drawer 3 easy, can also on framework 2 or drawer 3, guide rail or roller etc. be suitably set.

It should be noted that, when collecting article 17 being taken in to configuration to the inside of drawer 3, need to consider, the air vent hole 12 forming in order to avoid connect base plate 11 is stopped up by collecting article 17.In the structure of collecting article 17, existence is when directly taking in collecting article 17 to drawer 3, and collecting article 17 covers air vent hole 12, thereby there is no in fact the mobile situation from the fluids such as air of drawer 3 outsides in drawer 3 inside.In this case, in order to ensure the flow clearance of this fluid entering in from air vent hole 12 to drawer 3, suitably configuration supports and makes it from base plate 11, to float the seat 18 of certain distance to collecting article 17, or this seat 18 and base plate 11 are integrally formed.In Fig. 3, near four jiaos of the air vent hole 12 of base plate 11, four seats 18 are set, collecting article 17 is positioned on these four seats 18 and is taken in, therefore the above-mentioned fluid entering from air vent hole 12 at least can be by between above-mentioned four seats 18 and flow upward from the surrounding of collecting article 17, or around to air vent hole 12, flow from this.

On the other hand, in the present embodiment, using taking in apparatus 1, as the inscape of battery system B, use, this is taken in apparatus 1 and possesses: alignment arrangements and form the framework 2 of a plurality of cells in length and breadth as described above; Be arranged to be inserted into each cell of this framework 2, and in inside, take in the drawer 3 of collecting article.

At this, the battery system B of present embodiment possesses: the above-mentioned apparatus 1 of taking in; Take in and be provided in the battery module 17 in the drawer 3 of taking in apparatus 1; The electric parts such as fire-extinguishing apparatus of taking in equally and being provided in the circuit shutters such as circuit breaker in drawer 3, relay, control device, display unit, setting as required; And make cooling air at the cooling device 19 of internal circulation of taking in each drawer 3 of apparatus 1.

In addition, in the present embodiment, cooling device 19 is air blast (fan), as shown in Figure 4 A, is configured in respectively the air vent hole 9 times of the undermost cell of each row.And, by driving this air blast 19, produce forcibly flowing of fluid (air) and carry cooling air to each row along the configuration of Z direction, make cooling air at the internal circulation of a plurality of drawers 3 of each row.Thus, be accommodated in battery module (battery cell) 17, electric parts in a plurality of drawers 3 of each row by and cooling air between heat exchange be cooled.

It should be noted that, air blast 19 can also be connected with air intake passage, and the air vent hole 10Yu exhaust passage of top board 5 is connected, and the cooling effect gas beyond air etc. flows as above-mentioned fluid (cooling air).And, both air blast 19 can be configured in to the Ge Lie the superiors, also can be configured in this two side of orlop and the superiors.According to design, this air blast 19Yu exhaust passage can also be connected, and the air vent hole of top board 5 10 is connected with air intake passage.

In addition, the taking in apparatus 1 of present embodiment, a plurality of drawers 3 are divided into large drawer and the little drawer of aeration resistance of aeration resistance of cooling air under the state of having taken in collecting article 17.And, in the battery system B of present embodiment, as shown in Figure 5, the drawer of taking in battery module 17 as collecting article by battery module 17, occupied drawer 3 inner space mostly, the remaining space in the gap between drawer 3 and battery module 17 is few, thereby becomes the drawer that aeration resistance is large.In addition, under the state of the drawer that the electric parts such as circuit shutter, control device, display unit such as circuit breaker, relay are taken in as collecting article after taking in electric parts, remaining space is many, the drawer large with aeration resistance compared thus, becomes the drawer that aeration resistance is little.

Now, as shown in Fig. 3 and Fig. 4 B, the drawer of taking in battery module 17 as collecting article, be that the drawer that aeration resistance is large possesses connector 20,21 and forms, this connector 20,21 is for being easily connected power line or the holding wire of battery module 17 with outside not shown external power cord or the external signal line that are present in the framework 2 of taking in apparatus 1 from drawer.More specifically, the drawer that aeration resistance is large is provided with the first connector 20 (battery module 17 of the first connector 20 and collecting article is suitably connected by distribution in the inside of drawer 3) on rear plate 15.In addition, the drawer that aeration resistance is large is respectively equipped with the second connector 21 (although not shown, the second connector 21 is suitably connected with said external power line or external signal line) in the position corresponding with above-mentioned each cell of the backboard 4 of framework 2.The drawer that aeration resistance is large is following structure: when drawer 3 being inserted into corresponding cell and pressing, the first connector 20 and the second connector 21 are automatically mutually chimeric and be connected.

And, taking in apparatus 1 and battery system B of present embodiment, as shown in Figure 5, because take in drawer that aeration resistance is little using electric parts as collecting article, to gather in the mode of lower end side longitudinally, set, and be adapted to step-like in the columns of the lateral outer side mode fewer than the columns of center side.; taking in the lower end side longitudinally of apparatus 1; formation be take center side and as summit, the little a plurality of drawers of aeration resistance is adapted to step-like aeration resistance little region (M2 of member storage portion), in remaining part, forms the aeration resistance great region (M1 of battery outer portion) of the large a plurality of drawer set of a plurality of aeration resistances.

And, taking in apparatus 1 and possessing in this battery system B that takes in apparatus 1 in the present embodiment being formed by said structure, as mentioned above, by setting aeration resistance little region, be that the M2 of member storage portion and aeration resistance great region are the configuration of the M1 of battery outer portion, when the driving by cooling device 19 makes cooling air to each row circulation, can make cooling air well to circulating because the battery as heater (battery module 17) being accommodated in to the row of the easy center side of stagnating of drawer 3 heats thus.

Thus, can eliminate such configuration because of the M1 of battery outer portion and the M2 of member storage portion in the past and make the situation that the cooling balance of battery module 17 is got muddled, can keep the uniformity of battery temperature.Therefore, can make to be accommodated in the deteriorated homogenizing of a plurality of battery modules 17 of taking in apparatus 1, good battery system B can be provided.

Above, an execution mode of taking in apparatus and battery system of the present utility model is illustrated, but the utility model is not defined as an above-mentioned execution mode, in the scope that does not depart from its purport, can suitably change.

For example, in the present embodiment, because take in the drawer that aeration resistance is little (M2 of member storage portion) using electric parts as collecting article, to gather in the mode of lower end side longitudinally, set, and be adapted to step-like in the columns of the lateral outer side mode fewer than the columns of center side.But the drawer that aeration resistance is little (M2 of member storage portion) can also set to gather in upper end side longitudinally or to gather in the mode of upper end side and these both sides of lower end side.

In addition, as shown in Figure 6, in the situation that the little drawer of a plurality of aeration resistances is disposed at a side of upper end side and lower end side longitudinally, can possess in the inside of the large drawer of aeration resistance for directly supplying with the cooling air bypass 22 of cooling air, thereby form, take in apparatus 1 and battery system B, wherein, the drawer that aeration resistance is large sets at the opposite side longitudinally of the opposition side of the little drawer of aeration resistance, and sets from lateral center side direction outside.In this case, the number of the drawer that aeration resistance is large is few, cooling air directly can be supplied with and is circulated to the part (the part S that easily becomes high temperature of the M1 of battery outer portion: with reference to Fig. 5) that easily becomes high temperature by cooling air bypass 22.Thus, the configuration that can eliminate more reliably because of the M1 of battery outer portion and the M2 of member storage portion makes the situation that the cooling balance of battery module 17 is got muddled, and can guarantee the uniformity of battery temperature.

[industrial applicibility]

Can be applicable to take in taking in apparatus and possessing the battery system of taking in apparatus of taking in battery of electronic equipment or battery etc.

[symbol description]

1 takes in apparatus

2 frameworks

3 drawers

4 backboards

5 top boards

6 side plates

7 first dividing plates

8 second partitions

9 air vent holes

10 air vent holes

11 base plates

12 air vent holes

13 header boards

14 handles

15 rear plates

16 side plates

17 collecting articles (battery module)

18

19 air blasts (cooling device)

20 first connectors

21 second connectors

22 cooling air bypasses

B battery system

M1 battery outer portion

M2 member storage portion

Claims (3)

1. take in an apparatus, it is characterized in that,

Describedly take in apparatus and possess framework that alignment arrangements in length and breadth forms a plurality of cells, be arranged to be inserted in each cell of described framework and in inside, take in the drawer of collecting article, and described framework is configured to, by the driving of cooling device, can make cooling air to the internal circulation of a plurality of described drawers of each row of longitudinal configuration, to the described collecting article being accommodated in described drawer, carry out cooling

Large drawer and the little drawer of aeration resistance of aeration resistance that described a plurality of drawer is divided into described cooling air under the state of having taken in described collecting article,

The little drawer of a plurality of aeration resistances with described in being integrated into longitudinally the mode of at least one side in upper end side and lower end side set, and with the number of the little drawer of the described aeration resistance in each row along with from lateral center side toward the outer side and the mode reducing is adapted to step-like.

2. the apparatus of taking according to claim 1, is characterized in that,

A side in upper end side and lower end side longitudinally described in the little drawer of a plurality of described aeration resistances is provided in,

In the inside of the large drawer of described aeration resistance, possess for directly supplying with the cooling air bypass of described cooling air, wherein, the drawer that described aeration resistance is large is provided in the described opposite side longitudinally of the opposition side of the drawer that described aeration resistance is little, and sets from described lateral center side direction outside.

3. a battery system, is characterized in that,

Described battery system possesses the apparatus of taking in described in claim 1 or 2,

The described collecting article being accommodated in the drawer that described aeration resistance is large is battery module.

Images