阅读说明：本技术 带有降低酸分层结构的铅酸蓄电池 (With reduction acid lead-acid accumulator layered ) 是由 吴祥磊 于 2019-09-12 设计创作，主要内容包括：用于带有降低酸分层结构的铅酸蓄电池,包括搅拌件,所述搅拌件滑动连接于电池槽的内部,所述搅拌件包括第一组件和第二组件,所述第一组件包括收纳件和竖板,且所述竖板装配式连接所述第二组件；所述第二组件与所述竖板之间形成导流腔,且所述导流腔与所述收纳件连通,所述导流腔用于将电池液向所述收纳件内引导；所述收纳件的底端开设高低不同的第一通孔和第二通孔。本发明在蓄电池的电池槽内安装有特殊结构的搅拌件,使蓄电池在振动、摇摆的状态下,通过搅拌件在电池槽内的移动进行初步搅拌,同时利用电解液的自身回流,使蓄电池内的电解液得到充分的搅拌,保持蓄电池的容量,提高蓄电池的使用寿命。(For with reduction acid lead-acid accumulator layered, including stirring parts, the stirring parts are slidably connected to the inside of battery case, and the stirring parts include first assembly and the second component, the first assembly includes collecting part and riser, and the riser assembled connects second component；Diversion cavity is formed between second component and the riser, and the diversion cavity is connected to the collecting part, the diversion cavity is for guiding battery fluid into the collecting part；The bottom end of the collecting part opens up the different first through hole and the second through-hole of height.The present invention is equipped with the stirring parts of special construction in the battery case of battery, make battery in the state of vibrating, waving, it is tentatively stirred by mobile in battery case of stirring parts, itself reflux of electrolyte is utilized simultaneously, stir the electrolyte in battery adequately, the capacity for keeping battery, improves the service life of battery.)

1. one kind is with reduction acid lead-acid accumulator layered, it is characterised in that: including stirring parts (3), the stirring parts (3) it is slidably connected to the inside of battery case (2), the stirring parts (3) are used to carry out the internal electrolyte of the battery case (2) Preliminary stirring；

The stirring parts (3) include first assembly (31) and the second component (32), the first assembly (31) include collecting part and Riser (316), and the riser (316) assembled connects second component (32)；Second component (32) is erected with described Diversion cavity is formed between plate (316), and the diversion cavity is connected to the collecting part, the diversion cavity is used for battery fluid to institute State guidance in collecting part；The bottom end of the collecting part opens up the different first through hole (311) and the second through-hole (314) of height, institute First through hole (311) and second through-hole (314) are stated for flowing back into originally the electrolyte of the collecting part by power Position carries out electrolyte and is stirred for.

2. according to claim 1 with reduction acid lead-acid accumulator layered, it is characterised in that: the collecting part Including the first storage pond (313) and the second storage pond (315) being interconnected, and the height of first storage pond (313) is small In the height of second storage pond (315)；The bottom end of first storage pond (313) opens up the first through hole (311), institute The bottom end for stating the second storage pond (315) opens up second through-hole (314).

3. according to claim 2 with reduction acid lead-acid accumulator layered, it is characterised in that: described first receives The inside of Na Chi (313) is separated by spoiler (312), and the spoiler (312) surface opens up through-hole.

4. according to claim 2 with reduction acid lead-acid accumulator layered, it is characterised in that: described second receives Na Chi (315) is downwardly extending the riser (316) far from the side bottom end of first storage pond (313), and described the The bottom end of two storages pond (315) opens up feed inlet (317)；The feed inlet (317) is for being connected to second storage pond (315) With the diversion cavity.

5. feature exists with acid lead-acid accumulator layered is reduced according to any one of claim 2-4 In: second component (32) includes fastener (321), side protective plate (322) and backboard (324), the top of the backboard (324) It is fixed with fastener (321), the fastener (321) and the end of second storage pond (315) are connected together；The backboard (324) be vertically equipped at both sides of the edge the side protective plate (322), and the side protective plate (322), the backboard (324) with The riser (316) forms the diversion cavity.

6. according to claim 5 with reduction acid lead-acid accumulator layered, it is characterised in that: described second group Part (32) further includes deflector (323) and diversion trench (325), and the deflector (323) is fixed on the backboard (324) equipped with institute The side surface of side protective plate (322) is stated, the diversion trench (325) is opened in the bottom end of the backboard (324).

7. according to claim 6 with reduction acid lead-acid accumulator layered, it is characterised in that: the diversion trench It (325) include inverted v-shaped structure, and the diversion trench (325) is opened in the end center of the backboard (324).

Technical field

The invention belongs to battery technology fields, in particular to reduction acid lead-acid accumulator layered.

Background technique

The electrolyte of lead-acid accumulator is dilution heat of sulfuric acid；The quality of dilute sulfuric acid has the service life of lead-acid accumulator, performance It influences；The working environment of lead-acid accumulator can also have an impact electrolyte.

In a certain range, concentration of electrolyte is bigger, and sulfuric acid concentration is bigger in plate active material；Active material utilization Height, capacity also will increase；But concentration of electrolyte is excessively high, solution resistance increases, and viscosity also increases, and seepage velocity is low, while from Electric discharge is accelerated, and battery capacity declines instead.Concentration of electrolyte is excessively high, and partition corrosion is also corresponding to be accelerated, and can shorten making for battery Use the service life.

When environment temperature is lower and it is long placed in when not in use, the electrolyte of battery can precipitate, there is the phenomenon that acid layering, The concentration for not only influencing electrolyte each section, reduces the capacity of battery, and is precipitated for a long time it is also possible to accelerating to bottom baffles Corrosion；Artificial simply rock is difficult effective solution this problem after being long placed in precipitating.

Summary of the invention

The present invention is in view of the deficienciess of the prior art, provide for reduction acid lead acid storage battery layered Pond, specific technical solution are as follows:

A kind of lead-acid accumulator reduction acid layering agitating device, including stirring parts, the stirring parts are slidably connected to battery The inside of slot, the stirring parts are for tentatively stirring the electrolyte inside the battery case；

The stirring parts include first assembly and the second component, and the first assembly includes collecting part and riser, and described Riser assembled connects second component；Diversion cavity, and the diversion cavity are formed between second component and the riser It is connected to the collecting part, the diversion cavity is for guiding battery fluid into the collecting part；It opens the bottom end of the collecting part If height different first through hole and the second through-hole, the first through hole and second through-hole are used for the electricity of the collecting part Solution liquid flows back into origin-location by power, carries out electrolyte and is stirred for.

Further, the collecting part includes interconnected the first storage pond and the second storage pond, and described first receives The height of Na Chi is less than the height in second storage pond；The bottom end in first storage pond opens up the first through hole, described The bottom end in the second storage pond opens up second through-hole.

Further, the inside in first storage pond is separated by spoiler, and the flow-disturbing plate surface opens up through-hole.

Further, the second storage pond is downwardly extending described perpendicular far from the side bottom end in first storage pond Plate, and the bottom end in second storage pond opens up feed inlet；The feed inlet is for being connected to the second storage pond and described leading Flow chamber.

Further, second component includes fastener, side protective plate and backboard, is fixed with card at the top of the backboard Part, the fastener and the end in second storage pond are connected together；It is anti-that the side is vertically equipped at the backboard both sides of the edge Backplate, and the side protective plate, the backboard and the riser form the diversion cavity.

Further, second component further includes deflector and diversion trench, and the deflector is fixed on the backboard and sets There is the side surface of the side protective plate, the diversion trench is opened in the bottom end of the backboard.

Further, the diversion trench includes inverted v-shaped structure, and the diversion trench is opened in the end of the backboard At the heart.

The beneficial effects of the present invention are: the present invention is equipped with the stirring parts of special construction in the battery case of battery, make Battery is under the vibration of external force, swinging condition, even if the smaller movement realized using stirring parts in battery case of dynamics It is tentatively stirred, while being flowed back using the self power of electrolyte, stirred the electrolyte in battery adequately, make The concentration of electrolyte tends to be unified, keeps the capacity of battery, improves the service life of battery.

Detailed description of the invention

Fig. 1 shows the structural schematic diagram with reduction acid lead-acid accumulator layered of the embodiment of the present invention；

Fig. 2 shows the structural schematic diagrams of the first assembly of the embodiment of the present invention；

Fig. 3 shows the structural schematic diagram of the second component of the embodiment of the present invention；

Fig. 4 shows the overlooking structure diagram of the first assembly of the embodiment of the present invention；

Fig. 5 shows the structural schematic diagram that the first assembly of the embodiment of the present invention is connect with the second component；

The structural schematic diagram that Fig. 6 shows the backboard of the embodiment of the present invention and riser is connect.

It is as shown in the figure: 1, battery, 2, battery case, 21, sliding slot, 3, stirring parts, 31, first assembly, 311, first through hole, 312, spoiler, the 313, first storage pond, the 314, second through-hole, the 315, second storage pond, 316, riser, 317, feed inlet, 32, Second component, 321, fastener, 322, side protective plate, 323, deflector, 324, backboard, 325, diversion trench.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to embodiments, to the present invention It is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not used to Limit the present invention.

The present invention provides a kind of with reduction acid lead-acid accumulator layered, including stirring parts 3, the stirring parts 3 It is slidably connected to the inside of battery case 2, the stirring parts 3 are used to tentatively stir the electrolyte inside the battery case 2, It is more uniform to realize that the electrolyte of various concentration in battery mixes under the movement of stirring parts 3；

The stirring parts 3 include first assembly 31 and the second component 32, and the first assembly 31 includes collecting part and riser 316, and 316 assembled of the riser connects second component 32；It is formed between second component 32 and the riser 316 Diversion cavity, and the diversion cavity is connected to the collecting part, the diversion cavity is for guiding battery fluid into the collecting part； The bottom end of the collecting part opens up the different first through hole 311 and the second through-hole 314 of height, the first through hole 311 and described Second through-hole 314 is used to the electrolyte of the collecting part flowing back into origin-location by power, carries out electrolyte and is stirred for；It is logical Crossing makes electrolyte rise the mode then to fall from through-hole, mixes the electrode solution of various concentration more fully.

Specifically, the collecting part includes interconnected first storage pond 313 and the second storage pond 315, and described the The height in one storage pond 313 is less than the height in second storage pond 315；The bottom end in first storage pond 313 opens up described The bottom end of first through hole 311, second storage pond 315 opens up second through-hole 314；It is real by the through-hole of different height Now carry out the mixing of different degree.

As an improvement of the above technical solution, the inside in first storage pond 313 is separated by spoiler 312, and institute It states 312 surface of spoiler and opens up through-hole；The spoiler 312 be used for enter it is described first storage pond 313 electrolyte into Row flow-disturbing mixes the electrolyte entered in first storage pond 313.

As an improvement of the above technical solution, the side bottom of the second storage pond 315 far from first storage pond 313 End is downwardly extending the riser 316, and the bottom end in second storage pond 315 opens up feed inlet 317；The feed inlet 317 for being connected to the second storage pond 315 and the diversion cavity；Electrolyte is delivered up by the diversion cavity, due to Diversion cavity it is small in size, electrolyte is easily delivered up by diversion cavity in swing, is effectively provided for the conveying of electrolyte Convenience.

Specifically, second component 32 includes fastener 321, side protective plate 322 and backboard 324, the top of the backboard 324 Portion is fixed with fastener 321, and the fastener 321 and the end in second storage pond 315 are connected together；324 two sides of backboard Edge is vertically equipped with the side protective plate 322, and the side protective plate 322, the backboard 324 and the riser 316 formation The diversion cavity.Second component 32 further includes deflector 323 and diversion trench 325, and the deflector 323 is fixed on the back Plate 324 is equipped with the side surface of the side protective plate 322, is drained by the deflector 323 to the conveying of electrolyte.

As an improvement of the above technical solution, the diversion trench 325 is opened in the bottom end of the backboard 324.The water conservancy diversion Slot 325 includes inverted v-shaped structure, and the diversion trench 325 is opened in the end center of the backboard 324；Special construction The diversion trench 325 is conducive to the aggregation of electrolyte, convenient to be entered electrolyte collection in diversion cavity by the diversion trench 325 It is conveyed.

Fig. 1 shows the overall structure diagram of the embodiment of the present invention；Illustratively, as shown in Figure 1, stirring parts 3 are installed In the battery case 2 in battery 1, and stirring parts 3 are mounted in the battery case 2 of each single lattice；Illustratively, the battery Slot 2 and the mounting means of stirring parts 3 have the stirring parts 3 to be slidably connected in sliding slot 21；And sliding slot 21 is opened in battery case 2 At inner sidewall；Stirring parts 1 are made of first assembly 31 and the second component 32.

Fig. 2 shows the structural schematic diagrams of the first assembly of the embodiment of the present invention；Illustratively, as shown in Fig. 2, first group Part 31 includes that pond is stored in two the first interconnected storage ponds 313 and the second storage pond 315, the first storage pond 313 and second 315 top is open design, and the top in the first storage pond 313 and the second storage pond 315, on a horizontal line, first receives Receive and be fixed with spoiler 312 in pond 313, spoiler 312 by the first storage pond 313 be divided into two but still with the second storage pond 315 connections；But the height in the first storage pond 313 is greater than the height in the second storage pond 315；It opens the bottom end in the first storage pond 313 If first through hole 311, the bottom end in the second storage pond 315 opens up the second through-hole 314, when the electrolyte inside collecting part is less, Electrolyte is mainly discharged by the second through-hole 314, and when the electrolyte inside collecting part is more, electrolyte is mainly by first through hole 311 and second through-hole 314 be discharged.The width in other second storage pond 315 is greater than the first storage pond 313, the second storage pond 315 Left end bottom is downwardly extending riser 316, thus of same size, the second receipts of the width of riser 316 and the second storage pond 315 It receives pond 315 and riser 316 can be slidably connected between sliding slot 21, slided in battery case 2 for realizing stirring parts 3.

Fig. 3 shows the structural schematic diagram of the second component of the embodiment of the present invention；Illustratively, as shown in figure 3, described Two components 32 include backboard 324, and the two sides of dorsulum 324 are equipped with side protective plate 322, and backboard 324 and side protective plate 322 1 It is body formed；The side that backboard 324 is equipped with side protective plate 322 is equipped with deflector 323, and deflector 323 is parallel with side protective plate 322； Diversion trench 325 is offered in the bottom end of backboard 324, diversion trench 325 therein uses inverted v-shaped structure, but not limited to this.It is carrying on the back The top fastener 321 of plate 324, for fastener 321 for the fixation to the second component 32, the quantity of fastener 321 includes but is not limited to two It is a.

Fig. 4 shows the overlooking structure diagram of the first assembly of the embodiment of the present invention；Illustratively, as shown in figure 4, One storage pond 313 and the second storage pond 315 are integrally formed, while the second storage pond 315 is opened equipped with that side bottom end of riser 316 If feed inlet 317, feed inlet 317 is for the electrolyte in diversion cavity to be transported in collecting part.

Fig. 5 shows the first assembly of the embodiment of the present invention and the attachment structure schematic diagram of the second component；Illustratively, such as Shown in Fig. 5, the section of first assembly 31 uses top for linear, and bottom end is step type；First assembly 31 and the second component 32 Between be cooperatively connected.

The top view that Fig. 6 shows the riser of the embodiment of the present invention and backboard is connect；Illustratively, as shown in fig. 6, backboard 324 two sides are vertically equipped with side protective plate 322, while two side contacts of side protective plate 322 and riser 316, are located at riser 316 The inside of side protective plate 322；The side opposite with riser 316 of side protective plate 322 is equipped with deflector 323, and deflector 323 is equipped with more A, the present invention is set by deflector 323 and is illustrated there are three for.

The embodiment of the present invention when in use, is respectively mounted stirring parts 3, battery in each battery case 2 of battery 1 first When vibration occurs or waving, stirring parts 3 can move up and down in battery case 2, be realized in battery case 2 by mobile stirring parts 3 The preliminary stirring of electrolyte；Simultaneously when vibrating or waving, high concentration electrolyte can reach the inside of collecting part by diversion cavity, It is flowed back according to vibration with the severe degree waved, when degree is small, high concentration electrolyte can only largely reach the second storage pond In 315, origin-location is flowed back into since power is acted on from the second through-hole 314；When degree is big, high concentration electrolyte can reach One storage pond 313 and the second storage 315 position of pond, since power effect flows back from first through hole 311 and the second through-hole 314 To origin-location, stirring purpose is eventually arrived at.

In addition battery is realized there are two types of vibration or the modes waved: first, the plumbic acid used on mobile tool stores Battery, electric power storage vibration is driven when tool movable type and is waved, and is cooperated the internal stirring parts 3 installed that can effectively solve electrolyte and is divided Layer；Second, in the lead-acid accumulator not used on power driven tools for a long time, can by artificial or machine vibration with wave, cooperation is internal The stirring parts 3 of installation solve electrolyte stratification.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.