JP4516098B2 - Storage battery - Google Patents

Description

  The present invention relates to a storage battery.

A concave portion is formed in a portion corresponding to each cell chamber of the battery case on the upper surface of the lid body, and an exhaust pipe is provided in the concave portion, and the upper face is covered with an upper lid, and each exhaust pipe is provided between the double lids. Storage batteries equipped with a liquid leakage prevention device that leads out gas discharged from the cell chamber via an exhaust passage communicating with the gas chamber and discharges the gas discharge port to the outside via a gas filter provided on the upper lid are generally widely known. It has been. In this type of storage battery, a storage battery equipped with an air lock mechanism has been developed and described in Patent Document 1 so that the electrolyte in each cell chamber does not leak outside when the storage battery rolls over.
That is, in the storage battery described in Patent Document 1, a gas exhaust tube is formed in the lid body applied to the battery case so as to correspond to the cell chamber of the battery case, and is formed on the outer periphery of the exhaust tube. An air lock mechanism is provided in which the surrounding partition wall is in contact with the surrounding partition wall provided on the back surface of the upper lid, so that the electrolyte flowing out from each cell chamber to the back surface of the upper lid during rollover When the storage battery is returned to the upright state from the fall state, the electrolytic solution in the surrounding partition wall is circulated into each cell chamber through the opening on the outer periphery of the exhaust tube. It is configured.
JP 57-143261 A

However, as is apparent from the description in the upper right column of lines 13 to 17 of the publication 7 of the above-mentioned Patent Document 1 and FIGS. 4 , 5, 6, and 7 , the baffle ( exhaust pipe ) 82 includes: Even if the electrolyte surface in the cell chamber reaches the lower end of the exhaust cylinder, in order to secure a place for exhaust gas to escape, the peripheral wall of the lower cylinder projecting from the base part 20 is placed on the lower end of the base. A through hole (not shown) having a long rectangular notch reaching the position of the liquid reflux opening 88 disposed in the portion 20 is formed, and the gas in the cell chamber is indicated by an arrow 90, that is, the gas It flows into the baffle 82 having a through-hole and proceeds upward, that is, ascends, and then proceeds upward from below as indicated by arrows 92 and 94 to reach the chamber 70. Although not illustrated, it is also known that a through hole made of a through hole is provided on the peripheral side wall of the lower cylinder of the exhaust pipe instead of the through hole made of the notch. However, the storage battery of the Patent Document 1, since the through hole of the in the peripheral side wall of the lower cylinder of the exhaust cylinder is formed, when the back from the fallen down state to the upright state, the rear surface of the upper lid The speed at which the total amount of the accumulated electrolyte returns to the cell chamber is slow . The same applies to a case where a through hole made of a through hole is formed in the peripheral side wall of the lower cylindrical body. Therefore, it is desired to quickly reflux rate at the time of return the battery to erect state.
The present invention solves such problems and provides a storage battery that satisfies the above-mentioned requirements.

As described in claim 1, the storage battery of the present invention communicates with each cell chamber formed through the cover plate on the upper surface of the battery case having a plurality of cell chambers that are partitioned by partition walls. A lid body in which an independent exhaust passage is formed by a surrounding partition wall that isolates and surrounds each of the adjacent exhaust cylinders is hermetically applied, and each lid body is independently provided on an upper surface of the lid body. Each cell chamber is provided with a gas discharge port for exhausting through at least one gas filter. of the storage battery provided with the air lock mechanism that electrolyte is prevented from leaking to the outside, bored a plurality of electrolyte recirculation hole in the cover plate of the outer periphery of the exhaust pipe, further to the of the stack lower extending downward from the rear surface of the cover plate By having the height H of the peripheral side wall of the body from the position of the electrolytic solution refluxed hole to the lower end, and is formed on the free peripheral side wall of the through hole made of a-out through hole or notch, inside of the peripheral side wall An air column pressure corresponding to the height H is generated .
Further, in the above storage battery, as claimed in claim 2, wherein the exhaust pipe is configured to form an opening surface of the upper end of the gas discharge side of the inclined opening surface, the opening of the lower end of the gas inlet side The surface is formed as an inclined opening surface.

According to the invention of claim 1, the pressure of the air column corresponding to the height H generated in the lower cylinder when the storage battery is returned from the overturned state to the upright state is applied to the lower end of the exhaust cylinder. As a result, the pressure that pushes the air upward increases, so the air in the battery case that replaces the electrolyte flowing down from the electrolyte reflux hole on the outer periphery accelerates the flow rate of the gas rising in the exhaust tube. Accordingly, the reflux rate of the electrolytic solution is accelerated, so that the reflux rate of the electrolytic solution into the cell chamber when returning to an upright state is faster than that of the conventional storage battery.
According to the invention of claim 2, thereby forming an opening surface of the upper end of the gas discharge side of the exhaust pipe on the inclined surface, so to form an opening surface of the lower end of the gas inlet side to the inclined opening surface, upper end since the formation of the liquid film on the opening surface of the opening surface and the lower end of the can be prevented, the liquid reflux can be performed smoothly without trouble upon reconstitution erecting when the exhaust or inverted to upright state.

An example of an embodiment of the present invention will be described with reference to the accompanying drawings.
FIG. 1 shows a top view of a rectangular box-shaped lid body made of a synthetic resin molding. A part of the upper surface of the lid plate 1a of the lid body indicated by reference numeral 1 is formed in a number corresponding to the number of cell chambers formed by partitioning the interior of the battery case in which the lid body 1 is provided by a partition wall. In the example, a rectangular concave surface 1a1 whose bottom surface is a surface area extending over six cell chambers is formed, and the following exhaust structure is configured in the space of the concave surface. That is, in the rectangular concave surface 1a1 space, a rectangular four-circumference frame 2 having a desired height is projected from the bottom surface of the concave space 1a1, that is, the upper surface of the lid plate 1a, along the four inner circumferential wall surfaces. . In the illustrated example, the height of the upper end is the same as or higher than the bottom surfaces of the concave grooves 1b and 1b for fitting cylindrical gas discharge ports (described later) formed on the left and right sides of the concave space 1a1. Say it. Further, on the upper surface of the lid plate 1a, in a recessed space surrounded by the four peripheral frames 2, at positions corresponding to the six cell chambers 40b, 40b,. The cover plate 1a is provided with exhaust holes 3a and liquid injection ports 4 communicating with the respective cell chambers, and the outer periphery of the cover plate 1a protrudes from the exhaust tube 3 passing through the cover plate 1a and the bottom surface of the cover plate 1a. One set of liquid injection cylinders 4a is arranged. Each exhaust cylinder 3 protruded to an appropriate height higher than the height of the four surrounding frame 2, and each liquid injection cylinder 4 a protruded to the same height as the four surrounding frame 2.
Further, six independent exhaust passages were formed in the four peripheral frames 2 as described below. That is, the four surrounding frames 2 are provided with partition walls 5a, 5a,... Projecting at the same height as the four surrounding frames 2 so as to isolate the adjacent exhaust tubes 3 and 3 from each other and surround each exhaust tube 3. Then, the six exhaust cylinders 3, 3,... Are partitioned into six independent exhaust passages 6a, 6a,. Further, in each independent exhaust passage 6a, it crosses the side of the exhaust cylinder 3 from the side surface of each independent liquid injection cylinder 4a, extends to the vicinity of one long side frame 2a of the four peripheral frame 2, and A partition wall 7a having the same height as that of the four peripheral frames 2a is projected so that each of the exhaust passages 6a is formed on the exhaust tube 3 side, and an inner passage 6a1 formed in a small chamber surrounding the exhaust passage 6a and the partition wall 7a. It was divided into an outer passage 6a2 communicating with the inner passage 6a1 through a gap 8a existing between the inner side surface of the long side frame 2a. Further, in the inner passage 6a1 formed in the small chamber, a partition wall 9a extending between the exhaust tube 3 and the partition wall 7a from the inner surface of the long side frame 2a and having the same height as the four peripheral frames 2 Thus, the gas that has entered the inner passage 6a1 from each cell chamber in the battery case via the exhaust tube 3 is prevented from being directly discharged from the gap 8a to the outer passage 6a2. After passing through the passage 6a3 formed between the partition wall 9a and the partition wall 7a, the passage distance is extended so as to be discharged from the gap 8a to the outer passage 6a2, thereby collecting the electrolyte mist. I tried to increase. Further, a splash-proof wall 10a having the same height as the partition wall 7a was projected from the outer surface to the side surface of the partition wall 7a so as to project into the outer passage 6a2. A plurality of the splash-proof walls 10a may be disposed so as to protrude into the outer passage 6a2.
In the drawing, 11 is a partition wall projecting downward from the back surface of the lid body 1 corresponding to the partition wall of the battery case to which the lid body 1 is applied, 12 is a positive terminal, 13 is a negative terminal, and 14 is a specific gravity liquid A surface indicator plug is shown.

FIG. 2 is a rear view of the upper lid 20 made of a synthetic resin having a size and shape suitable for being applied in contact with the upper surface of the four peripheral frames 2 of the lid body 1, and FIG. The top view of is shown. In the embodiment, the upper lid 20 has a box shape with a concave space formed on the back side.
The upper lid 20 includes a lid plate 20a and a four-circumferential side wall 20b extending downward from the four peripheral edges to a desired height, and the lower end of the four-circumferential side wall 20b applies the upper lid 20 to the four peripheral frames 2 of the lid main body 1. The outer wall 20b1 inserted into the gap between the four peripheral frame 2 and the outer peripheral surface of the concave surface 1a1, and the inner peripheral wall 20b2 in contact with the upper end of the four peripheral frame 2. It forms in the lower end which has the level | step difference for fitting latching which consists. Thus, the upper lid 20 is brought into contact with and engaged with the upper end of the four peripheral frame 2 of the lid main body 1 and is bonded to each other by heat fusion and adhesion. The lid plate 20a has six liquid injection holes formed at positions corresponding to the liquid injection cylinders 4a, 4a,... Of the lid main body 1 when placed on the lid main body 1. Further, independent exhaust passages corresponding to the six independent exhaust passages 6a, 6a,... Provided on the back surface of the lid body 1 were formed in the concave space on the back surface of the upper lid as follows.
More specifically, on the back surface of the lid plate 20a, there are six liquid injection ports 4, 4,... And liquid injection cylinders 4a, 4a,. Are arranged at the same height as the four peripheral side walls 20b1, and six liquid injection ports 4b, 4b,... The surrounding partition walls 5b, 5b,... Are flush with the surrounding wall 20b2 at positions corresponding to the surrounding partition walls 5a, 5a,... Projected from the upper surface of the lid plate 1a within the four peripheral frames 2 of the lid body 1. In this way, independent exhaust passages 6b, 6b, ... corresponding to the independent exhaust passages 6a, 6a, ... formed in the lid body 1 are formed. Further, the partition wall 7b is disposed at a position corresponding to the partition wall 7a disposed on the lid body 1, the partition wall 9b is disposed at a position corresponding to the partition wall 9a, and the position corresponding to the splash-proof wall 10a attached to the side surface of the partition wall 7a. Each of the spray walls 10b is disposed so as to protrude from the back surface of the lid plate 20a to the same height as the four-side wall 20b2, so that the gap 8a formed in the lid body 1, the inner passage 6a1 formed in the small chamber, and the outer side A gap 8b and an inner passage 6b1 and an outer passage 6b2 formed in the small chamber were formed at positions corresponding to the passage 6a2.

  In the illustrated example, the six exhaust passages 6a, 6a,... Formed in the lid body 1 and the six exhaust passages 6b, 6b formed in the upper lid 20 are clearly shown in FIGS. As shown, the left half and the right half of each of the left and right halves are divided by the central surrounding partition walls 5a and 5a so that the left and right objects are left and right, and when the upper lid 20 is superposed on the upper surface of the lid body 1, In the drawing, the three independent exhaust passages 6a, 6a, 6a on the left side of the lid body 1 and the three independent exhaust passages 6b, 6b, 6b on the left side of the upper lid 20 are communicated in the vertical direction. Exhaust passages 6, 6, 6 are formed, and these exhaust passages 6, 6, 6 communicate with an explosion-proof gas filter 21 provided in the left corner of the four-side wall 20b on the left side on the upper lid 20 side. On the other hand, in the drawing, the three independent exhaust passages 6a, 6a, 6a on the right side of the lid body 1 and the three independent exhaust passages 6b, 6b, 6b on the right side of the upper lid 20 are Communicate vertically The exhaust passages 6, 6, 6 are formed, and the exhaust passages 6, 6, 6 are formed in the right corner of the four-side wall 20b on the right side on the upper lid 20 side, and an explosion-proof gas filter 21 is provided. To communicate with.

  More specifically, as shown in FIG. 2, the three independent exhaust passages 6b, 6b, 6b on the upper lid 20 side extend into the left corner of the four-side wall 20b, and the three independent exhaust passages on the right side. The passages 6b, 6b, 6b extend to the right corner of the four-side wall 20b, and the left and right corners are divided into three exhaust passages 6b, 6b, 6b and 6b, 6b, 6b. The partition walls 5b, 5b, 5b and 5b, 5b, 5b are at the same level as the upper ends of the partition walls 5b, 5b, 5b, or lower, that is, on the side closer to the cover plate 20a of the upper cover 20, the outer end surfaces of these partitions. The gas filter mounting cylinders 22 and 22 to which the gas filter 21 for explosion prevention is mounted are fixed by any means such as press-fitting or bonding to each other, and are located on the sides of the respective filter mounting cylinders 22 and 22. Gas discharge ports 23, 23 communicating with the inside of the mounting cylinders 22, 22 are provided. In the illustrated example, cylindrical gas exhaust ports 23 and 23 are provided, and the inner ends thereof are opened to communicate with the filter mounting cylinders 22 and 22, respectively. Each of the cylindrical gas exhaust ports 23 and 23 is, for example, a cylinder having a hollow rectangular cross section, and the holes provided in the left and right short side walls of the four-side wall 20b are gas-liquid tightly penetrated and fixed. Thus, when the upper lid 20 is applied to the upper surface of the lid body 1, the left and right filter mounting cylinders 22 and 22 have upper surface openings at the outer ends of the left and right exhaust passages, respectively. The left and right gas exhaust ports 23 and 23 are located at the positions indicated by the circular phantom lines above the space portions 2c and 2c in the left and right corner portions of the four peripheral frames 2 of the lid body 1 and the lid body 1 1 is located in the above-described fitting grooves 1b and 1b on the left and right of the upper surface of 1.

  Thus, to assemble the lead-acid battery, in order to close the upper surface opening of the battery case 40 shown in FIGS. 11, 11,... Are fixed to the four peripheral side walls 40 a of the corresponding battery case 40 and the partition walls 40 c partitioning the inside of the battery case 40 into six cell chambers 40 b by heat fusion, adhesion, etc. The upper lid 20 is provided on the upper surface, and the four peripheral frames 2b of the upper lid 20 are fitted on the upper surface of the four peripheral frames 2 of the lid body 1, and are bonded to each other in a gas-liquid tight manner by heat fusion, adhesion, or the like. Thus, the surrounding partition walls 5a, 5a,..., 5b, 5b,... Are combined by the combination of the four peripheral side walls 20b of the upper lid 20 and the four peripheral frames 2 of the lid body 1. , And the independent exhaust passages 6a, 6a,... On the lid body 1 side surrounding the respective exhaust cylinders 3, 3,... And the exhaust passages 6b, 6b,. Each of the books has independent exhaust passages 6, 6,. In each exhaust passage 6,6, ..., a partition wall in which the partition walls 7a, 7b are combined, a partition wall in which the partition walls 9a, 9a are combined, and a splash-proof wall in which the splash-proof walls 10a, 10b are combined are obtained. A lead storage battery in which an inner passage, an outer passage, and a gap formed in a small chamber communicating with each other in the vertical direction are obtained. Thus, the electrolytic solution is injected from the liquid injection ports 4 and 4 of the upper lid 20 of the storage battery, and the electrode plates (not shown) accommodated in the cell chambers 40b, 40b,. The electrolyte solution is held, and a sealing plug (not shown) is applied to each liquid injection port 4 to constitute a lead storage battery.

  The gas generated in each cell chamber of the battery case at the time of charging or overcharging of the lead storage battery enters the respective exhaust passages 6, 6, ... through the corresponding exhaust pipes 3, 3, ... Next, the gas from each of the three independent exhaust passages 6, 6, 6 on the left side and the right side reaches the front space portions 2c, 2c, and then the left and right gas filters 21, The gas is exhausted from the left and right gas outlets 23 and 23 to the outside through the gas outlet 21 and the gas outlet 23, respectively.

  Thus, while the gas passes through each of the independent exhaust passages 6, 6,..., It collides with the various partition walls and splash-proof walls, so that the electrolyte mist in the gas is captured and only the gas is captured. Is discharged to the outside, so that liquid leakage in the exhaust is prevented. On the other hand, the collected electrolytes do not mix with each other. In order to flow down the electrolytic solution trapped in each of the independent exhaust passages 6, 6,... And return them to the cell chambers through the respective exhaust cylinders 3, 3,. It is necessary that the bottom surfaces of the individual exhaust passages 6, 6,... Corresponding to the upper surface of the cover plate 1a are inclined down slopes from the outer end side of the exhaust passages 6 to the exhaust holes 3a. is there.

Furthermore, in the storage battery illustrated above, even when the storage battery is inverted, an air lock mechanism is provided as described below so that liquid leakage is prevented.
That is, on the outer periphery of the exhaust tube 3 that penetrates the lid plate 1a of the lid body 1 and communicates with the inside of each cell chamber 40b of the battery case 40 and the concave space on the back surface of the upper lid 20. A plurality of liquid reflux holes for the electrolytic solution, and four liquid reflux holes 31, 31,...

Further, in the exhaust passage 6a of the lid body 1, the outer circumference of the upper cylinder 3A of the exhaust cylinder 3, Fig. 1, as clearly shown in FIG. 4, and presence of the annular space S _1, the lid plate It protrudes from the upper surface of the 1a provided with an annular partition wall 33a, a portion of the annular partition wall 33a, and a notch port 34 opening upward as allowed to communicate with the inner passage 6a1 of the outer annular space S _1.

  On the other hand, as shown in FIG. 2, the upper lid 20 is provided with the respective annular partition walls 33a, 33a, 33a, 33a, etc. disposed in the lid body 1 in independent exhaust passages 6b, 6b,. Are projected from the back surface of the upper lid 20 at positions opposite to the annular partition walls 33a. The annular partition walls 33b, 33b,.

Each of the partition walls 9a, 9a,... Disposed inwardly extending from the long side frame 2a of the four peripheral frame 2 of the lid body 1 has an annular partition 33a, each corresponding to its inner end. 33a,... Are formed so as to be combined with the outer peripheral side surfaces of the upper lid 20, and the partition walls 9b, 9b,. Are formed so as to be combined with the outer peripheral side surfaces of the corresponding annular partition walls 33b, 33b,.
Thus, the inner passages 6a1 formed in the small chambers of the exhaust passages 6a are formed as bypass passages around the annular partition wall 33a. 1 and FIG. 5, when the notches 34, 34,... Of the respective annular partition walls 33a, 33a,... Are arranged toward the long side walls 2a, 2a,. The gas discharged from the exhaust cylinder 3 collides with the long side walls 2a, 2a and then detours along the peripheral side walls of the respective annular partition walls 33a, 33a,. Since it enters into ..., the mist collection performance can be further improved.

Thus, when the upper lid 20 is airtightly applied to the upper surface of the lid body 1, the lower end of the annular partition wall 33b depending from the back surface of the upper lid 2 is located above the upper surface of the lid body 1 as shown in FIG. The upper end of the annular partition wall 33a extending to the upper end of the upper lid 20 is bonded to the upper end of the annular partition wall 33a by fusion, adhesion, or the like. With the cup-shaped covering portion 35 having a U-shaped cross section, a gap S ₂ exists above the exhaust tube _3, and a cup space S ₃ and an annular space S ₁ exist below the cup space S ₃ . The upper part was covered.
Further, the height of the annular partition wall 33a projecting on the upper surface from the lid plate 1a of the lid body 1, and accordingly, the upper surface opening end 34a of the notch 34 such as a rectangular shape with the upper end opened to the annular partition wall 33a. This height is preferably set at the same height as the lower end of the inclined opening surface 3a11 at the upper end of the exhaust hole 3a of the exhaust tube 3 or at a position lower than that. The opening surface 3a21 at the lower end of the exhaust tube 3 may be a horizontal opening surface, but is preferably an inclined surface. In this way, the storage battery was provided with an air lock mechanism.

  In the storage battery configured as described above, in a normal upright state, the gas containing mist generated in each cell chamber 40b is discharged from the exhaust tube 3 and the liquid reflux holes 31, 31,. The gas is discharged into the space in the cup-shaped covering portion 35 of the exhaust cylinder 3 and further led to the exhaust passage 6a, that is, the inner passage 6a1 and the outer passage 6a2 through the notch 34, and the gas exhaust is passed through the gas filter 21. The exhaust gas is exhausted from the outlet 23 to the outside. Meanwhile, the electrolytic solution captured in the exhaust passage 6a flows down into the cell chamber 40b from the liquid reflux holes 31, 31,... In this case, the outer peripheral surface of the intermediate portion 3C of the exhaust cylinder 3 is formed as a downward inclined surface, and the corners of the inner passage 6a1 below the notch 34 and the cylindrical body 32 that hangs at right angles from this are shown. When formed on the inclined surface 34b as shown in FIG. 5, the liquid reflux can be performed smoothly and rapidly.

When the storage battery equipped with the air lock mechanism is laid down or inverted, the electrolyte in each cell chamber 40b is not shown in the figure, and the exhaust tube 3 that is turned upside down and the liquid reflux holes 31 and 31 on the outer periphery thereof are arranged. , by ... the gas-liquid replacement with, the electrolyte, also initially flows out to the small room in the exhaust passage 6a1, immediately, the leaked electrolyte reservoir in the cup space S _3, before long, the exhaust of the exhaust cylinder 3 The upper end opening 3a11 of the hole 3a is closed. Then, the gas-liquid replacement is not performed through the exhaust tube 3 and the liquid reflux holes 31, 31,... On the outer periphery thereof, so-called air lock is generated, thereby preventing the leakage of the electrolyte without any further outflow of the electrolyte. Bring.

In the embodiment of the storage battery shown in the figure, the exhaust hole 3a of the exhaust cylinder 3 is, as shown in the drawing, the diameter of the hole of the upper cylindrical body 3A that opens to the exhaust passage 6a. By making the diameter significantly smaller than the hole diameter of the cylindrical body 3B, an effect of making it difficult to leak the electrolytic solution from the cell chamber when the storage battery is laid down or inverted is brought about.
Further, the upper end opening surface 3a11 of the small-diameter upper cylindrical body 3A and the lower end opening surface 3a21 of the large-diameter lower cylindrical body 3B are formed as inclined opening surfaces, respectively, so that the upper end opening surface and the lower end surface are formed. In addition, since the formation of a liquid film can be prevented, the exhaust of the storage battery in the upright state and the liquid recirculation when the storage battery is returned from the sideways or inverted state to the established state can be smoothly performed.
Further, the outer peripheral surface of the intermediate portion 3C of the upper cylindrical body 3A and the lower part cylinder 3B, as best seen in FIG. 5, by forming the downwardly inclined surface, it is possible to facilitate the stream of electrolyte .
As shown in FIGS. 4 and 6, the cylinder 32 surrounds the exhaust cylinder 3 and the liquid reflux holes 31, 31,... And the cell from the lid plate 1a of the lid body 1 By forming a cylindrical body that hangs down into the chamber 40b, a splash-proof effect is brought about. A part of the drooping cylinder 32 may be provided with a notch 32a that opens at the lower end.

In this state, when returned to the upright position of the basis of the storage battery, the liquid reflux hole 31, 31 to each cell chamber 40b by the weight of the electrolyte in the cup space S _3, ... it flows down through the cell chamber 40b returning within, according to the present invention, the peripheral side wall of the lower cylindrical body 3B of the exhaust cylinder 3 has a height H to the lower end from the position of the electrolytic solution reflux hole 31, and notch Kiya hole by forming the not name the peripheral side wall of the through hole and the like, electrolytic Ekikae Nagareana 31, in ... lower, the pressure electrolytic solution refluxed downward air column corresponding to the height H pressure is applied to the lower end of the gas exhaust pipe, the pressure pushing up the air becomes strong, gas-liquid replacement between the air and the electrolytic solution is performed more smoothly quickly, the liquid reflux rate to the cell chamber 40b becomes faster, Therefore, the liquid reflux time is significantly shortened compared to the liquid reflux time due to the weight of the electrolyte alone.

Next, comparative test examples are shown.
For comparison with the storage battery of the present invention shown in the illustrated embodiment, the lower cylindrical body 3B of the exhaust cylinder 3 of the storage battery of the present invention is modeled on the storage battery of Patent Document 1, and the electrolyte solution from the lower end of its peripheral side wall Prepare a conventional storage battery made by forming a through-hole consisting of a long rectangular notch that reaches the vicinity of the reflux hole 31, invert both storage batteries, leave them in the inverted state for 30 minutes, and then erect It was returned to the state, and when the time from the time when the electrolyte accumulated in the concave space of the upper lid was circulated back to the cell chamber and emptied was measured, it took 30 seconds with the conventional storage battery. The storage battery could be shortened to 10 seconds and 1/3.

As apparent from the above, it has a height H of the peripheral side wall of the lower cylinder 3B of the exhaust cylinder 3, so and was formed without peripheral side wall of the through hole made of a cut-out Kitani holes, therein to the height H can Rukoto caused the corresponding air column H in, to be able to reduce the liquid reflux time to the cell interior upon reconstitution a storage battery erected state, the above problems It has been solved .

The top view of the lid body of one example of implementation of the storage battery of this invention. The back view of the upper cover given to the upper surface of the cover main body. The upper side figure which removed a part of this upper cover of the storage battery assembled by sequentially applying the lid body and the upper cover to the upper surface of the battery case. Fig. 4 is a sectional view taken along line IV-IV in Fig. 3. FIG. 5 is an enlarged vertical sectional view taken along line V-V in FIG. 3. FIG. 6 is a top view with the upper lid of FIG. 5 removed.

1 Lid body
1a Cover plate
3 Exhaust pipe
3A upper cylinder
3B lower cylinder
3a Exhaust hole
20 Upper lid
23 Gas exhaust port
31 Electrolyte reflux hole
33a Annular bulkhead
33b Annular bulkhead
34 Notch
35 Cup cover
S ₁ annular space
S ₂ gap
S ₃ cup-shaped sky between
3 a1 1 Upper end opening surface
3a2 1 lower opening surface
H Height of the peripheral side wall of the lower cylinder

Claims (2)

On the upper surface of the battery case having a plurality of cell chambers, the interior of which is partitioned by a partition wall, the respective exhaust tubes communicating with the respective cell chambers formed through the cover plate are isolated from each other. In addition, a lid body in which an independent exhaust passage is formed by surrounding wall partitions is airtightly provided, and an independent exhaust passage corresponding to each independent exhaust passage of the lid body is provided on the back surface of the lid body. An air lock that has a double lid structure that is airtightly applied to the upper lid, has a gas exhaust port that exhausts air through at least one gas filter, and prevents the electrolyte in each cell chamber from leaking outside in the storage battery provided with the mechanism, the peripheral side wall of the exhaust pipe a plurality of electrolyte recirculation hole in the cover plate of the outer periphery of the bored and further extends downward from the rear surface of the lid plate of the stack the lower cylinder From the position of the electrolyte reflux hole. By forming it on a peripheral side wall having a height H to the end and having no through hole made of a through hole or a notch , the pressure of the air column corresponding to the height H is set inside the peripheral side wall. storage battery, characterized in that it was set to give rise. The chimney is configured to form an opening surface of the upper end of the gas discharge side of the inclined opening surface, according to claim 1, characterized in that the formation of the opening surface of the lower end of the gas inlet side to the inclined opening surface Storage battery.

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