JP5594179B2 - Battery device - Google Patents

Description

  The present invention relates to a battery device suitable for use in, for example, residential power transfer.

  As a conventional battery device, for example, one disclosed in Patent Document 1 is known. The battery device (power storage device) of Patent Document 1 includes an inverter, a storage battery, a storage battery control means, and the like. The storage battery control means controls charging or discharging of the storage battery based on the amount of power consumed by the electrical equipment in the house and the amount of power generated by the private power generator.

JP 2008-182851 A

  However, in patent document 1, there is no description regarding the specific shape of a battery apparatus. For example, regarding battery devices used in facilities such as houses, it is necessary to consider the prevention of breakage due to water intrusion into the storage battery during underfloor flooding or snowfall.

  Considering underfloor inundation in a general detached house, it is considered that the storage battery needs to be installed by raising the storage battery from the floor surface by supporting with long legs. However, in the installation structure in which the legs are simply extended, the position of the center of gravity of the storage battery rises, making it difficult to ensure the strength of the legs themselves against the weight of the storage battery, earthquakes, and the like.

  In view of the above problems, an object of the present invention is to provide a battery device that can ensure sufficient strength even when the storage battery is raised.

  In order to achieve the above object, the present invention employs the following technical means.

In the invention according to claim 1, in a battery device comprising a battery (120) capable of discharging to an electrical device (12) and charging power from the power system (11, 11 a) or the power generation unit ( 13 ). ,
A battery installation part (130) in which the battery (120) is placed;
A plurality of legs (150) extending from the battery installation part (130) toward the lower floor (15) and supporting the battery installation part (130);
A bottom plate portion (160) for connecting the intermediate portions in the vertical direction of the plurality of leg portions (150) in the horizontal direction ,
The battery (120) and the battery installation part (130) are accommodated in the case (110),
The bottom plate part (160) forms the bottom part of the case (110),
A battery pressure valve (122) opened according to the internal pressure of the battery (120) is provided on the front surface (121) of the battery (120).
A gap (116) having a predetermined interval is formed between the battery (120) and the battery installation part (130) and the wall part (113) of the case (110) facing the front surface (121) of the battery (120). Formed,
The wall (113) is detachable from the case (110),
In the part facing the wall part (113) of the bottom plate part (160), an edged part (161) edged upward is formed .

  According to the present invention, the position of the lower end surface of the battery (120) can be raised from the floor surface (15) by an amount corresponding to the length of the leg portion (150). Can prevent the battery (120) from being immersed in water and being damaged.

At this time, the intermediate portions in the vertical direction of the plurality of leg portions (150) are connected to each other in the horizontal direction by the bottom plate portion (160). Therefore, since the intermediate part of a some leg part (150) can mutually be supported by the baseplate part (160), the rigidity of the whole some leg part (150) can be improved, and several leg part (150). Sufficient strength can be ensured by suppressing the occurrence of deformation that causes the gap to expand or narrow.
In addition, even if a liquid leak occurs such that the internal pressure rises under some condition when the battery (120) is used and the internal electrolyte etc. flows out from the battery pressure valve (122), Drops through the gap (116) formed between the battery (120) and the battery installation part (130) and the wall part (113) of the case (110) and accumulates on the bottom plate part (160). become. Therefore, the liquid leaking from the battery (120) does not flow out of the case (110).
Further, even when the wall portion (113) of the case (110) is removed for maintenance or the like, an edged portion (161) is formed at a portion facing the wall portion (113) of the bottom plate portion (160). Therefore, the edge portion (161) serves as a weir, and the leakage of the battery (120) accumulated on the bottom plate portion (160) may flow out of the case (110). Absent.
According to the second aspect of the present invention, the gap (116) is formed so that when the battery pressure valve (122) is opened and the liquid from the inside of the battery (120) leaks to the outside of the battery (120), the liquid is removed. ) And can be dropped to the bottom plate portion (160).

In the invention according to claim 3 , each of the plurality of leg portions (150) is formed from a first leg portion (151) and a second leg portion (152) divided in the longitudinal direction, respectively.
Each of the first leg portion (151) and the second leg portion (151 and 152) is joined to the bottom plate portion (160) so as to sandwich the bottom plate portion (160).

  According to the present invention, the second leg portion (152), the bottom plate portion (160), and the first leg portion (151) are assembled from the floor surface (15) so as to be stacked and joined to each other. The battery device (100) including the bottom plate portion (160) connected to 150) can be easily formed.

  The invention according to claim 4 is characterized in that the bottom plate part (160) is provided with a liquid leakage detection part (170) for detecting liquid leakage from the battery pressure valve (122).

  According to the present invention, since the liquid leakage detection unit (170) can detect the liquid leakage, the user can quickly take measures against the liquid leakage based on the detection result.

  The invention according to claim 5 is characterized in that an acid-resistant mat (162) is provided on the upper surface of the bottom plate portion (160).

  According to the present invention, since the battery liquid accumulated in the bottom plate portion (160) can be received by the acid-resistant mat (162), damage due to corrosion of the bottom plate portion (160) can be reduced.

In invention of Claim 6 , it has an electrical component (140) which controls discharge or charge of a battery (120),
The electrical component (140) is arranged above the battery (120) in the case (110).

  According to the present invention, even if liquid leaks from the battery (120), the electric component (140) in the case (110) is not applied to the battery (120). Can be prevented.

  In addition, the code | symbol in the bracket | parenthesis of each said means shows a corresponding relationship with the specific means of embodiment description mentioned later.

It is a schematic diagram which shows the battery apparatus installed in a house. It is sectional drawing which shows the cross section of the battery apparatus at the time of seeing from the front. It is sectional drawing which shows the cross section of the battery apparatus at the time of seeing from a side surface.

  A plurality of modes for carrying out the present invention will be described below with reference to the drawings. In each embodiment, parts corresponding to the matters described in the preceding embodiment may be denoted by the same reference numerals, and redundant description may be omitted. When only a part of the configuration is described in each mode, the other modes described above can be applied to the other parts of the configuration. Not only combinations of parts that clearly indicate that the combination is possible in each embodiment, but also a combination of the embodiments even if they are not clearly specified unless there is a problem with the combination. It is also possible.

(First embodiment)
Hereinafter, the battery apparatus 100 in 1st Embodiment is demonstrated using FIGS. 1-3. FIG. 1 is a schematic diagram showing a battery device 100 installed in a house 10, FIG. 2 is a cross-sectional view showing a cross section of the battery device 100 when viewed from the front, and FIG. 3 is a diagram of the battery device 100 when viewed from the side. It is sectional drawing which shows a cross section.

  As shown in FIG. 1, the battery device 100 is provided in the facility 10, and is discharged to the various household electrical appliances 12 in the facility 10 and generated by the commercial power from the lead-in line 11 a or the solar power generation device 13. It is a device that charges power. The facility 10 is a typical house, for example, and is hereinafter referred to as a house 10. In the house 10, a distribution board 11, various home appliances 12, a solar power generation device 13, a home control device 14, a battery device 100, and the like are provided.

The distribution board 11 is a power system that supplies commercial power (AC power) supplied from the lead-in wire 11a to various home appliances 12 and the like. The various home appliances 12 correspond to the electric appliances of the present invention. For example, Eco Cute (electric water heater, Kansai Electric Power Co., Ltd.) uses CO ₂ as a refrigerant of a heat pump cycle and boils hot water by the heat of the outside air. Registered trademark), home air conditioner, refrigerator, television, and lighting. In addition, in addition to the commercial power from the distribution board 11, various home appliances 12 (mainly eco-cute among various devices) were charged with the power obtained by the solar power generation device 13 described later and the battery device 100. It is also activated by electric power.

  The solar power generation device 13 is a power generation unit that directly converts solar energy into electrical energy by a solar cell and obtains electric power (DC power). The obtained electric power is AC-converted by a power conditioner 13a and is used in various ways. Supplied to the home appliance 12. Or the electric power obtained by the solar power generation device 13 is charged to the battery apparatus 100 with direct current power via the power conditioner 13a.

  The home control device 14 performs operation control of the various home appliances 12, the solar power generation device 13, the battery device 100, and the like, thereby performing power transmission and reception that matches the user's request and economical power. It is a control device that can be used. The home control device 14 is connected to the distribution board 11, various home appliances 12, the solar power generation device 13 (power conditioner 13 a), and the battery device 100, and forms a so-called HEMS (Home Energy Management System). Yes.

  As shown in FIGS. 2 and 3, the battery device 100 is installed on the floor 15 in the house 10, and the battery 120, the battery installation unit 130, and the electrical component 140 are accommodated in the case 110. Has been formed. A plurality of legs 150 are provided on the lower surface of the battery installation part 130 of the battery device 100, and a bottom plate part 160 is connected to an intermediate part of each leg 150.

The case 110 is a rectangular parallelepiped container that is flattened in the front-rear direction. In the case 110, the left and right wall portions in FIG. 2 are a side wall portion 111 and a side wall portion 112, respectively, and the front wall portion with respect to the paper surface of FIG. 2 (the left wall portion in FIG. 3). Is the front wall 113. The front wall portion 113 is assembled to the case 110 with bolts or the like, and can be attached to and detached from the case 110. The front wall portion 113 is normally used in a mounted state, but is removed at the time of initial construction or various maintenance, and the front portion of the case 110 is opened. Said front wall part 113 respond | corresponds to the wall part in this invention. In the case 110, the upper wall portion is an upper wall portion 114, and the rear wall portion is a rear wall portion 115. Further, in the case 110 , the lower wall portion is a bottom plate portion 160. Details of the bottom plate portion 160 will be described later.

  The battery 120 is a secondary battery for DC power that can be charged and discharged, and is formed of a plurality of battery packs that form a rectangular parallelepiped. Here, the plurality of battery packs are divided into upper and lower two stages in the case 110, and are arranged in one row in each stage. The plurality of battery packs are electrically connected in series. A battery pressure valve 122 that is opened according to the internal pressure of the battery 120 is provided on the front surface 121 of the battery 120. That is, the battery pressure valve 122 is normally closed and is opened (opened) when the internal pressure of the battery 120 exceeds a predetermined pressure value.

  The battery installation part 130 is formed as a plate-like member that is disposed between the side wall parts 111 and 112 at the intermediate part in the vertical direction in the case 110 and that the flat part is horizontal. Two battery installation sections 130 are provided separated in the vertical direction so as to correspond to the battery 120 divided into two stages as described above. Each battery 120 divided into two upper and lower stages is placed on the upper side of each battery installation unit 130. Furthermore, the battery 120 is firmly fixed to the case 110 or the battery installation part 130 by a bracket or the like (not shown).

  The dimensions of the battery 120 and the battery installation part 130 in the front-rear direction are set to be smaller than the dimensions of the case 110 in the front-rear direction, and in particular, the front surface 121 of the battery 120 and the battery installation part in which the battery pressure valve 122 is formed. A gap portion 116 having a predetermined interval is formed between the front end portion of 130 and the inner surface of the front wall portion 113 of the case 110 facing the front end portion. The predetermined interval in the gap 116 means that when the battery pressure valve 122 of the battery 120 is opened and the liquid from the inside of the battery 120 leaks to the outside of the battery 120, the leaked liquid passes through the gap 116 and will be described later. It is a gap that can be dropped to the bottom plate portion 160 to be moved. The dimension of the clearance 116 is set to about 30 to 80 mm, for example. The gap 116 corresponds to the gap of the present invention.

The electrical component 140 is a device that controls charging / discharging of the battery 120. The electrical component 140 is, for example, an inverter for converting AC power from the power system to DC power and charging the battery 120, or converting DC power of the battery 120 to AC power and discharging it to various home appliances 12. And a control unit for controlling the operation of the inverter. The electrical component 140 is disposed on the upper side of the battery 120 in the case 110. That is, in the case 110, a space is formed between the uppermost end of the battery 120 and the upper wall 114 of the case 110, and the electric component 140 is disposed in this space.

  A plurality of legs 150 that extend toward the floor 15 and support the battery installation unit 130 are provided on the lower surface of the battery installation unit 130 on the lower side of the two battery installation units 130. And the baseplate part 160 which comprises the bottom part of the case 110 and is arrange | positioned in the horizontal direction is connected to each intermediate part of the longitudinal direction of the some leg part 150. As shown in FIG.

  Each of the plurality of legs 150 includes a first leg 151, a second leg 152, and a substrate 153. Here, the plurality of leg portions 150 are defined as three leg portions 150, and two of the three leg portions 150 are arranged on the left and right ends when viewed from the front of the battery device 100, and the remaining one is in the center portion. Has been placed.

  Each first leg 151 is a block-like member, and the vertical dimension is set to the dimension from the lower surface of the battery installation portion 130 on the lower side to the upper surface of the bottom plate portion 160. The upper end surface of each first leg portion 151 is joined to the lower surface of the battery installation portion 130. And the lower end surface of each 1st leg part 151 is joined to the upper surface of the baseplate part 160. As shown in FIG.

The bottom plate portion 160 is a plate-like wall portion that forms the bottom portion of the case 110. The area of the flat surface portion of the bottom plate portion 160 is set to be equal to the area of the horizontal cross section of the case 110. On the outer peripheral portion of the bottom plate portion 160, an edge standing portion 161 that is edged upward is formed. In the bottom plate portion 160, the outer side surfaces of the edge portions 161 facing the side wall portions 111 and 112 and the rear wall portion 115 are in contact with and joined to the inner surfaces of the side wall portions 111 and 112 and the rear wall portion 115. Since the front wall portion 113 is detachable from the case 110, the outer side surface of the rim portion 161 facing the front wall portion 113 in the bottom plate portion 160 abuts against the inner surface of the front wall portion 113. ing.

Furthermore, each second leg 152 is a block-like member, like each first leg 151, and the vertical dimension is the same as or slightly longer than each first leg 151. Is set to The upper end surface of each second leg portion 152 is joined to the lower surface of the bottom plate portion 160. Therefore, each first leg portion 151 and second leg portion 152 are joined to the bottom plate portion 160 with the bottom plate portion 160 interposed therebetween. Furthermore, the first leg 151 and the second leg 152 are arranged so that the axes extending in the vertical direction coincide with each other on the same line, and the first leg 151 and the second leg 152 are as if one. It is formed like a leg. A lower end face of each second leg 152 is joined to the flat substrate 153 having the same area as the area of the horizontal cross section of the casing 110.

  The vertical dimension A of the leg 150 is set to about 350 to 450 mm. Moreover, the dimension B from the floor surface 15 to the lower surface of the bottom plate part 160 is set to about 200 to 250 mm. That is, the lower end position of the battery 120 is raised from the floor 15 by the dimension obtained by adding the dimension A and the plate thickness of the battery installation part 130.

  An acid resistant mat 162 having acid resistance against acids such as sulfuric acid and nitric acid is provided on the upper surface of the bottom plate portion 160 over the entire upper surface. Furthermore, a liquid leak detection unit 170 that detects liquid leaking from the inside of the battery 120 is provided above the acid-resistant mat 162. For example, when a sensor cable or the like is used to detect acid adhering to the surface, the liquid leak detection unit 170 warns the user with a buzzer, sound, or the like. When a sensor cable is used as the liquid leak detection unit 170, the sensor cable may be routed so as to be arranged, for example, in the left-right direction of the bottom plate part 160.

  Next, the operation and effect of battery device 100 based on the above configuration will be described.

  In the house 10, when using various home appliances 12, the power from the power system (hereinafter, system power), the power obtained by the solar power generation device 13 (hereinafter, generated power), or the battery device 100 Charged power (hereinafter referred to as charge power) is used. The home control device 14 determines whether or not the usage time zone of the system power is an inexpensive time zone, whether or not the amount of generated power obtained by the solar power generation device 13 is sufficient, and further charging in the battery device 100. Depending on whether the amount of power is sufficient, etc., the most economical power or a combination of power is selected, and power is supplied to various home appliances 12.

  For example, when the household control device 14 uses the above-mentioned various home appliances 12, when using the generated power, the generated power becomes surplus, and if the charge amount of the battery device 100 is not full, the surplus power Is charged into the battery device 100. At this time, necessary electric power conversion (AC-DC conversion) is performed by the electric component 12 (inverter), and charging is performed.

  In addition, when the home control device 14 uses the above-mentioned various home appliances 12, if the power consumption is large and the system power and the generated power are insufficient, if the battery device 100 has charging power, the home control device 14 starts from the battery device 100. Discharge to various home appliances 12. At this time, necessary electric power conversion (DC-AC conversion) is performed by the electric component 12 (inverter), and discharge is performed.

  Here, the battery device 100 is usually installed on the floor 15 of the house 10. In the house 10, it is necessary to consider the prevention of breakage due to water intrusion into the battery 120 during underfloor inundation due to heavy rain or snow accumulation due to heavy snow.

  On the other hand, in the present embodiment, a plurality of leg portions 150 extending from the lower surface of the battery installation portion 130 on which the battery 120 is placed to the floor surface 15 are provided. Therefore, since the position of the lower end surface of the battery 120 can be raised from the floor surface 15 by an amount corresponding to the length of the leg portion 150, the battery 120 is immersed in water by infiltration of water due to underfloor water or snow, It can be prevented from being damaged.

  At this time, the intermediate portions in the vertical direction of the plurality of leg portions 150 are connected to each other in the horizontal direction by the bottom plate portion 160. Therefore, since the intermediate part of the several leg part 150 can be mutually supported by the baseplate part 160, the rigidity of the several leg part 150 whole can be improved, and between the several leg parts 150 expands or narrows. The occurrence of such deformation can be suppressed and sufficient strength can be ensured.

  Further, the leg 150 is formed of the first leg 151 and the second leg 152, and the first leg 151 and the second leg 152 are joined so as to sandwich the bottom plate 160. I have to. Therefore, the battery device 100 includes the bottom plate portion 160 connected to the leg portion 150 by assembling the second leg portion 152, the bottom plate portion 160, and the first leg portion 151 from the floor surface 15 and joining them together. Can be easily formed.

  Further, the bottom plate portion 160 forms the bottom portion of the case 110. In the case where the battery 120 includes the battery pressure valve 122, the gap portion 116 is provided in the case 110. When the internal pressure of the battery 120 increases due to misuse, overcharge, or the like when the battery 120 is used, and exceeds a predetermined pressure, the battery pressure valve 122 is opened to avoid damage to the battery 120. Then, the electrolytic solution and the like inside the battery pressure valve 122 leak to the outside of the battery 120, but the leaked liquid falls through the gap 116 and accumulates in the bottom plate 160. Therefore, the liquid leaking from the battery 120 does not flow out of the case 110.

  Further, the front wall portion 113 is detachable from the case 110, and an edge standing portion 161 is formed at a portion of the bottom plate portion 160 facing the front wall portion 113. Therefore, even when the front wall portion 113 of the case 110 is removed for maintenance or the like, the rim portion 161 serves as a weir. Therefore, the leakage of the battery 120 accumulated on the bottom plate portion 160 is caused by the case 120. 110 does not flow out of the outside.

  In addition, since the liquid leak detection unit 170 is provided on the upper surface of the bottom plate part 160, the liquid leak detection unit 170 can detect the liquid leak, and the user can quickly respond to the liquid leak based on the detection result. Treatment can be performed. For example, a sensor cable is used as the liquid leak detection unit 170, and the sensor cable is routed so as to be arranged in the left-right direction of the bottom plate part 160, whereby the liquid leak detection area can be expanded. Therefore, the detection accuracy can be increased.

  In addition, since the acid-resistant mat 162 is provided on the upper surface of the bottom plate portion 160, the battery liquid accumulated in the bottom plate portion 160 can be received by the acid-resistant mat 162, and damage due to corrosion of the bottom plate portion 160 can be reduced.

  In addition, since the electrical component 140 is arranged above the battery 120 in the case 110, even if liquid leaks from the battery 120, the electrical component 140 in the case 110 is not applied to the battery 120. It is possible to prevent the electric component 140 from being damaged due to liquid leakage.

(Other embodiments)
In the first embodiment, the leg portion 150 includes the first leg portion 151 and the second leg portion 152 and is joined so as to sandwich the bottom plate portion 160, but is not limited thereto. That is, the first leg portion 151 and the second leg portion 152 are integrally formed as a leg portion 150, a through hole is provided in the bottom plate portion 160, the leg portion 150 is passed through the through hole, and the inner peripheral surface of the through hole is formed. You may make it join the site | part which contact | abuts with the outer peripheral surface of the leg part 150 mutually.

  Moreover, the board | substrate 153 in the leg part 150 should just be set as needed, and may be abolished.

  Further, the length of the leg portion 150, that is, the dimension from the floor surface 15 to the lower end position of the battery 120 is not limited to 350 to 450 mm, but predicted flooding in underfloor flooding or the like that may occur around the house 10. What is necessary is just to set according to a water level.

  Further, the edge stand 161 in the bottom plate portion 160 does not need to be provided on the entire circumference of the bottom plate portion 160, and may be provided at least on the side facing the front wall portion 113 that is detachable. Further, in the case where the entire circumference of the bottom plate portion 160 is joined to the inner surface of the case 110, the edging portion 161 may be eliminated.

  Moreover, although this battery apparatus 100 was demonstrated as what is installed in the common house 10, it is widely applicable also to the battery apparatus installed in a public facility.

11 Distribution board (electric power system)
11a service line (power system)
12 Home appliances (electrical equipment)
13 Photovoltaic power generator (power generation unit)
DESCRIPTION OF SYMBOLS 100 Battery apparatus 110 Case 113 Front wall part 116 Crevice part (gap)
DESCRIPTION OF SYMBOLS 120 Battery 121 Front 122 Battery pressure valve 130 Battery installation part 140 Electrical component 150 Leg part 151 First leg part 152 Second leg part 160 Bottom plate part 161 Edge stand part 162 Acid-resistant mat 170 Liquid leak detection part

Claims (6)

In a battery device including a battery (120) that enables discharge to an electric device (12) and charging of electric power from an electric power system (11, 11a) or a power generation unit ( 13 ),
A battery installation part (130) in which the battery (120) is placed;
A plurality of legs (150) extending from the battery installation part (130) toward the lower floor (15) and supporting the battery installation part (130);
A bottom plate portion (160) for connecting a plurality of the leg portions (150) in the vertical direction between the bottom plate portions (160) ,
The battery (120) and the battery installation part (130) are accommodated in a case (110),
The bottom plate part (160) forms the bottom part of the case (110),
A battery pressure valve (122) opened according to the internal pressure of the battery (120) is provided on the front surface (121) of the battery (120),
A gap having a predetermined gap between the battery (120) and the battery installation part (130) and the wall part (113) of the case (110) facing the front surface (121) of the battery (120). (116) is formed,
The wall (113) is detachable from the case (110),
A battery device characterized in that an edged portion (161) that is edged upward is formed at a portion of the bottom plate (160) that faces the wall (113) .   The gap (116) passes through the gap (116) when the battery pressure valve (122) is opened and liquid from the inside of the battery (120) leaks to the outside of the battery (120). The battery device according to claim 1, wherein the battery device is configured to be able to drop to the bottom plate portion (160). Each of the plurality of legs (150) is formed of a first leg (151) and a second leg (152) divided in the longitudinal direction,
Wherein each of said first leg portion (151) second leg (152), according to claim 1, characterized in that so as to sandwich the bottom plate portion (160) is joined to the bottom plate (160) or The battery device according to claim 2 . The liquid leakage detection part (170) which detects the liquid leakage from the said battery pressure valve (122) is provided in the said baseplate part (160), The any one of Claims 1-3 characterized by the above-mentioned. The battery device described in one . The battery device according to any one of claims 1 to 4, wherein an acid-resistant mat (162) is provided on an upper surface of the bottom plate portion (160). An electrical component (140) for controlling the discharging or charging of the battery (120);
The battery according to any one of claims 1 to 5 , wherein the electrical component (140) is disposed above the battery (120) in the case (110). apparatus.

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