CN105679995B - A kind of electrolyte negative pressure absorbing device - Google Patents

Abstract

The present invention relates to a kind of alkaline dry battery electrolyte negative pressure absorbing device, including bottom plate (1), with being fixedly installed top plate (3) at the top of the column (2) of bottom plate fixation, column, hypanthium rotating mechanism (6) is provided with driving shaft (4), the hypanthium rotating mechanism (6) is along the circumferential direction evenly equipped with the hypanthium (8) of multiple installation batteries (7)；Also include negative pressure absorbing structure (9), the negative pressure absorbing mechanism (9) is used to make battery (7) inject the electrolyte into after being under negative pressure state in battery (7)；Also include hypanthium conveying mechanism (15), the hypanthium conveying mechanism (15) is used to hypanthium (8) being sent into hypanthium station.Overcome electrolyte under atmospheric pressure state and absorb the problem of insufficient, there is provided the injection of electrolyte and absorption process are combined together by a kind of device, the device, and the absorption efficiency of electrolyte is high.

Description

A kind of electrolyte negative pressure absorbing device

Technical field

The present invention relates to alkaline dry battery technical field, more particularly to a kind of alkaline dry battery electrolyte negative pressure absorbing to fill Put.

Background technology

Injecting mechanism in basic dry cell zinc injection glue and electrolytic solution machine is the critical component of the machine, and it can be directly influenced The measuring accuracy and properties of product of electrolyte injection, alkaline dry battery electrolyte injecting mechanism of the prior art is typically using electricity Pond is directly moved up and down in injection process using cam mechanism to reach.The China that Authorization Notice No. is CN100459231C is specially Profit, a kind of alkaline dry battery electrolyte vacuum absorption device, including base, column and top plate are disclosed, is set on base and top plate There is the main shaft that inverter motor inputs rotary power through gear, the hypanthium rotating mechanism of Multi-layer synchronous rotation is provided with main shaft, often Layer is uniformly distributed along the circumference multiple hypanthium stations, drives cup and hypanthium to form sealing space by guide rod, connects the tracheae portion of vavuum pump Part is opened by vacuum valve and connects confined space, so as to realize battery under vacuum negative pressure condition Electolyte-absorptive to anode ring In diaphragm paper.The structure can efficiently be rapidly completed imbibition process, reach electrolyte saturation, avoid electrolyte from splashing, and improve production Product electrical property and drip-preventing function, the blank of battery electrolyte absorption equipment is filled up.

But the technical scheme is in use, although the infiltration rate of electrolyte can be improved, which increases and take out Vacuum plant, the process for adding alkaline dry battery electrolyte injection.

The content of the invention

An object of the present invention is in view of the deficiencies of the prior art, to overcome electrolyte under atmospheric pressure state and absorb not The problem of abundant, there is provided the injection of electrolyte and absorption process are combined together by a kind of device, the device, utilize a set of mechanism Complete, and the absorption efficiency of electrolyte is high.

Top is fixedly installed at the top of a kind of electrolyte negative pressure absorbing device, including bottom plate, the column fixed with bottom plate, column Plate, vertically arranged driving shaft is provided with the bottom plate and top plate, the driving shaft conveys power by motor driven gear, institute State and hypanthium rotating mechanism is provided with driving shaft, the hypanthium rotating mechanism is along the circumferential direction evenly equipped with the support of multiple installation batteries Cup；Also include negative pressure absorbing structure, the negative pressure absorbing mechanism is used to make the battery electrolyte be noted after being under negative pressure state Enter in the battery；The hoisting mechanism for driving the negative pressure absorbing mechanism to move up and down, the hoisting mechanism include being fixed on top The first cam below plate, is provided with cam helical groove on the periphery of first cam, and the cam helical groove is slidably connected Have bearing connection, the quantity of the bearing connection is equal with the hypanthium station slot number, in addition to the bearing connection The guide rod that connects and can move up and down, the guide rod slide up and down through the axle sleeve in each layer working rotary table along axle sleeve；It is described Negative pressure absorbing mechanism includes the first cylinder, injection rod and the second cylinder, and the injection rod includes first body of rod and second body of rod, institute Stating first body of rod includes piston portion, vertical portion and electrolyte passage, and second body of rod is flexible pipe；First cylinder includes Cavity and liquid outlet, the piston portion coordinate with the cavity movable seal；Second cylinder is arranged on described first The lower section of body, second cylinder are provided with dynamic fluid passage, inlet and the capillary for being arranged on its outer wall of electrolysis liquid stream Hole；The liquid outlet of first cylinder connects with the inlet of second cylinder；Electrolyte enters institute by second body of rod Electrolyte passage is stated, the end of the electrolyte passage has connector；The negative pressure absorbing mechanism is fixedly installed by connecting rod Integrally do on the guide rod and with the guide rod synchronization lifting motion, and the injection rod is driven along described the by cylinder The inwall of one cylinder moves up and down；Also include hypanthium conveying mechanism, the hypanthium conveying mechanism, which is used to the hypanthium being sent into, to be held in the palm In cup station.

Beneficial effects of the present invention：

(1) the invention provides a kind of electrolyte negative pressure absorbing device, the electrolyte in injection mechanism in the device is inhaled Debit's formula is negative pressure absorbing, i.e., the absorption environment of electrolyte is subnormal ambient, and in such a case, the assimilation effect of electrolyte is more It is good, and the aerial time is leaked cruelly, electrolyte is unlikely to deteriorate.

(2) present invention note electrolyte and will create that subnormal ambient is ingenious to realize the function of the two simultaneously using mechanism. In mechanism, using the ingenious combination of injection rod and the second cylinder, the stream of electrolyte can be realized below the cooperation of the two Logical, electrolyte can enter the second cylinder by injection rod, and then enter to the battery；At the same time, the technical program energy Air extraction structure is enough utilized, the gas in battery is extracted, relative negative pressuren zone is formed in inside battery, is now electrolysed liquid energy Enough to be sprayed along the pore of the second cylinder to surrounding, one side negative pressure can preferably realize the absorption of electrolyte, the opposing party Can being formed for face electrolyte is sprayed and dispersed to surrounding, uniform absorption；And after electrolyte enters in the battery of negative relative, by Less in gas content, it is small with the contact probability of air, is unlikely to deteriorate.

As a preferred embodiment, also include being arranged on the extraction sector connected below first cylinder and with liquid cabin, should Extraction sector includes the gas passage of both ends open, and the first opening of the gas passage is passed in the liquid cabin, and it second is opened Mouth is passed through in the battery.The technical program in the presence of extraction sector by battery case air suction out, after again by its to Under squeeze into, the gas can advantageously promote electrolyte as another power from pore to surrounding that sprayed from of driving electrolyte Absorption and infiltration.

As a preferred embodiment, the inlet of the liquid outlet of first cylinder and second cylinder passes through soft pipe connection. Flexible pipe has the characteristics of deformable, quick detachable.

As a preferred embodiment, also include cooling gas check valve, the cooling gas check valve be arranged on first opening with it is described The junction of liquid cabin；Also include liquid non-return valve, the liquid non-return valve is arranged on the liquid outlet and the inlet Junction, the liquid can flow into the inlet by the liquid outlet.During work, electrolyte enters the electrolyte passage Interior, injection rod moves down, and is connected to the connector with the liquid outlet and the inlet, the electrolyte enters to institute After stating in fluid passage, electrolyte is in fluid passage, because the aperture of pore is smaller, its insufficient pressure with by electrolyte by Fluid passage discharges；Then, injection rod moves up, and the air in battery moves to liquid cabin in the presence of extraction sector It is interior, increase with the displacement of injection rod, form negative pressuren zone gradually in battery, now electrolyte in the presence of pressure difference by hair Pore sprays to surrounding, for absorbing；Finally, injection rod continues to move downward, and it is further projected electrolyte simultaneously by pore Again the electrolyte of a new round is injected into electrolyte passage.In this technical scheme, in cooling gas check valve and liquid non-return valve Its effect can more accurately be realized.

As a preferred embodiment, the bullet that the cooling gas check valve includes one end open, one end is closed, and the bullet The position of cone is provided with outlet otch；The cone of the bullet is open towards described first.The cooling gas check valve is not Unidirectional gas flowing can be only carried out, while the bullet can prevent liquid from flowing into battery by the first opening by liquid cabin It is interior.

As a preferred embodiment, the pore section is tubaeform；Outer wall of the pore along second cylinder Intensive setting.

As a preferred embodiment, described hypanthium rotating mechanism is provided with 2-5 layers along the uniform spacing of driving shaft；The hypanthium rotation Rotation mechanism includes ring flange, is arranged on the working rotary table of the ring flange, and support mould rotating disk, the support are provided with the working rotary table Mould rotating disk has been uniformly arranged hypanthium station groove, and the hypanthium station groove is used to dispose the hypanthium, the hypanthium bottom and working rotary table In the same horizontal position, the working rotary table below hypanthium is provided with sealing ring and spring.

As a preferred embodiment, described hypanthium conveying mechanism includes the track support for being fixedly installed on bottom plate both sides, the rail Supporting plate is provided with road support, the number of plies of hypanthium rotating mechanism is identical described in the number of plies of the supporting plate, and is on same level, institute The hypanthium entrance and track export that conveying hypanthium is provided with supporting plate are stated, the hypanthium is entered by hypanthium entrance and through track export Remove.

As a preferred embodiment, the first cylinder bottom wall also includes liquid tank, the liquid outlet passes through with the inlet The liquid tank and soft pipe connection.

As a preferred embodiment, the electrolyte passage section is into inverted T-shaped, including Vertical Channel and horizontal channel, the water The top of flat passage is higher than the liquid outlet.

Brief description of the drawings

For the technical scheme of the clearer explanation embodiment of the present invention, required use in being described below to embodiment Accompanying drawing be briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for ability For the those of ordinary skill in domain, on the premise of not paying creative work, it is attached other can also to be obtained according to these accompanying drawings Figure.

Fig. 1 is a kind of structural representation of electrolyte negative pressure absorbing device.

Fig. 2 is negative pressure absorbing mechanism and the attachment structure schematic diagram of guide rod.

Fig. 3 is partly cut-away's schematic diagram of negative pressure absorbing mechanism.

Fig. 4 is liquid outlet and the close-up schematic view at inlet position.

Fig. 5 is the structural representation of cooling gas check valve.

Fig. 6 is the outer wall close-up schematic view of the second cylinder.

Fig. 7 is the structural representation of first body of rod.

Fig. 8 is the structural representation of hypanthium conveying mechanism.

Fig. 9 is the structural representation of support mould rotating disk.

Embodiment

The technical scheme in the embodiment of the present invention is clearly and completely illustrated below in conjunction with the accompanying drawings.

Embodiment

As shown in Figures 1 and 2, a kind of electrolyte negative pressure absorbing device, including bottom plate 1, the column 2, vertical fixed with bottom plate Column top is fixedly installed top plate 3, is provided with vertically arranged driving shaft 4 on the bottom plate 1 and top plate 3, the driving shaft 4 by Motor 5 conveys power with moving gear 50, is provided with hypanthium rotating mechanism 6 on the driving shaft 4, and the hypanthium rotating mechanism 6 is along circle Circumferential direction is evenly equipped with the hypanthium 8 of multiple installation batteries 7；Also include negative pressure absorbing structure 9, the negative pressure absorbing mechanism 9 is used to make institute State after battery 7 is under negative pressure state and inject the electrolyte into the battery 7；The negative pressure absorbing mechanism 9 is driven to move up and down Hoisting mechanism 10, the hoisting mechanism 10 includes the first cam 11 for being fixed on the lower section of top plate 3, in the circle of first cam 11 Cam helical groove 110 is provided with side face, the cam helical groove 110 slidably connects bearing connection 111, the bearing connection 111 quantity is equal with the station slot number of hypanthium 8, in addition to is connected and can move up and down with the bearing connection 111 Guide rod 12, the guide rod 12 slides up and down through the axle sleeve 13 in each layer working rotary table along axle sleeve；

As shown in figure 3, the negative pressure absorbing mechanism 9 includes the first cylinder 90, the cylinder 92 of injection rod 91 and second, the note Penetrating bar 91 includes first body of rod 910 and second body of rod 911, first body of rod 910 include piston portion 9100, vertical portion 9101 and Electrolyte passage 9102, second body of rod 911 are flexible pipe；First cylinder 90 includes cavity 901 and liquid outlet 902, The piston portion 9100 coordinates with the movable seal of cavity 901；Second cylinder 92 is arranged on first cylinder 90 Lower section, second cylinder 92 is provided with the dynamic fluid passage 920 of electrolysis liquid stream, inlet 921 and is arranged on its outer wall Pore 922；The liquid outlet 902 of first cylinder connects with the inlet 921 of second cylinder；Electrolyte is by described Second body of rod 911 enters the electrolyte passage 9102, and the end of the electrolyte passage 9102 has connector 91020；It is described Negative pressure absorbing mechanism 9 is fixedly installed on the guide rod 12 and integrally with the guide rod 12 by connecting rod 14 and does synchronization lifting fortune It is dynamic, and the injection rod 91 is driven along the inwall of first cylinder 90 by cylinder and moved up and down；It is defeated also to include hypanthium Mechanism 15 is sent, the hypanthium conveying mechanism 15 is used to the hypanthium 8 being sent into hypanthium station.

In the present embodiment, the injection rod 91 is driven by cylinder, and the cylinder is fixed with the negative pressure absorbing mechanism 9 and set Put, injection rod 91 can move up and down under the induced effect of cylinder along the inwall of first cylinder 90, cylinder therein For prior art, just do not repeat herein.

As shown in figure 3, also include being arranged on the lower section of the first cylinder 90 and the extraction sector connected with liquid cabin 9010 13, the extraction sector 13 includes the gas passage 130 of both ends open, and the first opening 1301 of the gas passage 130 passes to described In liquid cabin 9010, its second opening 1302 is passed through in the battery 7.

As shown in figure 4, the inlet 921 of the liquid outlet 902 of first cylinder 90 and second cylinder 92 is by soft Pipe 16 connects.

As depicted in figs. 3 and 5, in addition to cooling gas check valve 170, the cooling gas check valve 170 are arranged on described first and opened Mouth 1301 and the junction of the liquid cabin 9010；Also include liquid non-return valve 171, the liquid non-return valve 171 is arranged on institute The junction of liquid outlet 902 and the inlet 921 is stated, the liquid can flow into the inlet by the liquid outlet 902 921。

Certainly, in the present embodiment, the cooling gas check valve 170 and liquid non-return valve 171 can use gas or liquid to use Check valve, it is only necessary to therebetween formed be used cooperatively.

As shown in figure 5, the bullet 1700 that the cooling gas check valve 170 includes one end open, one end is closed, and the cone Body is provided with outlet otch 1701 close to the position of cone；The cone of the bullet towards described first opening 1301.

As shown in fig. 6, the section of pore 922 is tubaeform；The pore 922 is along second cylinder 92 The intensive setting of outer wall.

As shown in Figure 1, Figure 2 and shown in Fig. 9, described hypanthium rotating mechanism 6 is provided with 2-5 layers along 4 uniform spacing of driving shaft；Institute Stating hypanthium rotating mechanism 6 includes ring flange 60, is arranged on the working rotary table 61 of the ring flange 60, is set on the working rotary table 61 There is support mould rotating disk 610, the support mould rotating disk 610 has been uniformly arranged hypanthium station groove 6100, and the hypanthium station groove 6100 is used to pacify The hypanthium 8 is put, the bottom of hypanthium 8 is provided with working rotary table 61 in the same horizontal position, the working rotary table below hypanthium Sealing ring 6101 and spring 6102.

As shown in Figure 1, Figure 2, shown in Fig. 8 and Fig. 9, described hypanthium conveying mechanism 15 includes being fixedly installed on the both sides of bottom plate 1 Track support 150, supporting plate 151 is provided with the track support 150, the layer of hypanthium rotating mechanism 6 described in the number of plies of the supporting plate 151 Number is identical, and is on same level, and the hypanthium entrance 1510 and track export of conveying hypanthium are provided with the supporting plate 151 1511, the hypanthium 8 is entered by hypanthium entrance 1510 and removed through track export 1511.In actual use, do not carry out The battery that electrolyte absorbs is entered by hypanthium entrance 1510, is discharged after injection by track export 1511, the negative pressure of electrolyte Soak time is 5 seconds or so, and the more common electrolyte absorption residence time doubles, and hypanthium 8 needs in the time of injecting fluid To match with the rotation time of the hypanthium rotating mechanism 6, at the same time, the upper and lower stroke and speed of negative pressure absorbing mechanism 9 And the stroke and speed of the up and down motion of injection rod 91 need entirety and electrolyte soak time and the rotary speed phase of hypanthium 8 Matching.

As shown in figure 4, the bottom wall of the first cylinder 90 of stating also includes liquid tank 903, the liquid outlet 902 and the feed liquor Mouth 921 is connected by the liquid tank 903 with flexible pipe 16.

As shown in fig. 7, the section of electrolyte passage 9102 is into inverted T-shaped, including Vertical Channel 91021 and horizontal channel 91022, the top 910220 of the horizontal channel 91022 is higher than the liquid outlet 902.

Workflow：

In real process, following steps are broadly divided into：

(1), battery enters position：Hypanthium 8 equipped with battery 7 is delivered to hypanthium station groove 6100 by hypanthium conveying mechanism 15；

(2), negative pressure absorbing mechanism liquor charging：The injection rod 91 of negative pressure absorbing structure 9 under the induced effect in cylinder along The inwall of first cylinder 90 moves down, and is moved to the liquid outlet 902 of first cylinder and the inlet of second cylinder 921 connections；Electrolyte enters the electrolyte passage 9102, the end of the electrolyte passage 9102 by second body of rod 911 With connector 91020, then electrolyte enters to fluid passage 920, and due to the effect of pressure, now electrolyte stops substantially 920 in the fluid passage；

(3), negative pressure absorbing mechanism air-breathing：Then, negative pressure absorbing structure 9 is overall moves down, and stop interior to battery 7 to work Position, then injection rod 91 move up, by driving extraction sector 13 to make its work, the air in battery 7 is absorbed, battery Interior gas is entered in the liquid cabin 9010；

(4), electrolyte flows out：Gas in battery 7 is extracted out gradually, and the electrolyte in fluid passage 920 is in pressure Carry out preliminary injection can be oozed out gradually under effect, and injection rod 91 moves down afterwards, in cooling gas check valve 170 and liquid non-return valve In the presence of 171, pressure is formed by the gas of discharge in liquid cabin 9010 and promotes electrolyte by being ejected in battery in 920, it is complete Into fluid injection；

(5), negative pressure absorbing mechanism integrally moves up, and injection rod negative relative absorbing mechanism moves down, and new round electrolyte is again Enter in the electrolyte passage 9102, wait the electrolyte of a new round to inject.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, the change or replacement that can readily occur in, It should all be included within the scope of the present invention.Therefore, protection scope of the present invention should be with the protection model of claims Enclose and be defined.

Claims (7)

1. it is fixedly installed at the top of a kind of electrolyte negative pressure absorbing device, including bottom plate (1), the column (2) fixed with bottom plate, column There is top plate (3), vertically arranged driving shaft (4) is provided with the bottom plate (1) and top plate (3), the driving shaft (4) is by motor (5) band moving gear (50) conveying power, it is characterised in that be provided with hypanthium rotating mechanism (6), the support on the driving shaft (4) Cup rotating mechanism (6) is along the circumferential direction evenly equipped with the hypanthium (8) of multiple installation batteries (7)；Also include negative pressure absorbing mechanism (9), The negative pressure absorbing mechanism (9) is used to make the battery (7) inject the electrolyte into after being under negative pressure state in the battery (7)； The hoisting mechanism (10) for driving the negative pressure absorbing mechanism (9) to move up and down, the hoisting mechanism (10) include being fixed on top plate (3) the first cam (11) below, is provided with cam helical groove (110), the cam on the periphery of first cam (11) Helicla flute (110) slidably connects bearing connection (111), quantity and the hypanthium (8) station of the bearing connection (111) Slot number is equal, in addition to the guide rod (12) that is connected and can move up and down with the bearing connection (111), and the guide rod (12) is worn The axle sleeve (131) crossed in each layer working rotary table slides up and down along axle sleeve；The negative pressure absorbing mechanism (9) includes the first cylinder (90), injection rod (91) and the second cylinder (92), the injection rod (91) include first body of rod (910) and second body of rod (911), First body of rod (910) includes piston portion (9100), vertical portion (9101) and electrolyte passage (9102), second body of rod (911) it is flexible pipe；First cylinder (90) includes cavity (901) and liquid outlet (902), the piston portion (9100) and institute State the cooperation of cavity (901) movable seal；Second cylinder (92) is arranged on the lower section of first cylinder (90), and described Two cylinders (92) are provided with dynamic fluid passage (920), inlet (921) and the pore for being arranged on its outer wall of electrolysis liquid stream (922)；The liquid outlet (902) of first cylinder connects with the inlet (921) of second cylinder；Electrolyte is by described Bipole body (911) enters the electrolyte passage (9102), and the end of the electrolyte passage (9102) has connector (91020)；The negative pressure absorbing mechanism (9) be fixedly installed on by connecting rod (14) on the guide rod (12) and integrally with it is described Guide rod (12) does synchronization lifting motion, and the injection rod (91) drives the inwall along first cylinder (90) by cylinder Move up and down；Also include hypanthium conveying mechanism (15), the hypanthium conveying mechanism (15) is used to the hypanthium (8) being sent into hypanthium In station；

Pore (922) section is tubaeform；Outer wall of the pore (922) along second cylinder (92) is intensive Set；

Described hypanthium rotating mechanism (6) is provided with 2-5 layers along the uniform spacing of driving shaft (4)；Hypanthium rotating mechanism (6) bag Include ring flange (60), be arranged on the working rotary table (61) of the ring flange (60), support mould is provided with the working rotary table (61) and is turned Disk (610), the support mould rotating disk (610) have been uniformly arranged hypanthium station groove (6100), and the hypanthium station groove (6100) is used to pacify The hypanthium (8) is put, hypanthium (8) bottom is with working rotary table (61) in the same horizontal position, the working rotary table below hypanthium It is provided with sealing ring (6101) and spring (6102)；

Described hypanthium conveying mechanism (15) includes the track support (150) for being fixedly installed on bottom plate (1) both sides, the track support (150) supporting plate (151) is provided with, the number of plies of hypanthium rotating mechanism (6) is identical described in the number of plies of the supporting plate (151), and is in On same level, the hypanthium entrance (1510) and track export (1511) of conveying hypanthium are provided with the supporting plate (151), it is described Hypanthium (8) is entered by hypanthium entrance (1510) and removed through track export (1511).

2. a kind of electrolyte negative pressure absorbing device as claimed in claim 1, it is characterised in that also include being arranged on described first The extraction sector (13) connected below body (90) and with liquid cabin (9010), the extraction sector (13) include the gas of both ends open Passage (130), the first opening (1301) of the gas passage (130) are passed in the liquid cabin (9010), its second opening (1302) it is passed through in the battery (7).

3. a kind of electrolyte negative pressure absorbing device as claimed in claim 1, it is characterised in that first cylinder (90) goes out liquid Mouth (902) is connected with the inlet (921) of second cylinder (92) by flexible pipe (16).

A kind of 4. electrolyte negative pressure absorbing device as claimed in claim 2, it is characterised in that also including cooling gas check valve (170), The cooling gas check valve (170) is arranged on the junction of first opening (1301) and the liquid cabin (9010)；Also include Liquid non-return valve (171), the liquid non-return valve (171) are arranged on the company of the liquid outlet (902) and the inlet (921) Place is met, the liquid can flow into the inlet (921) by the liquid outlet (902).

A kind of 5. electrolyte negative pressure absorbing device as claimed in claim 4, it is characterised in that cooling gas check valve (170) bag One end open, the bullet (1700) of one end closing are included, and the bullet is provided with outlet otch close to the position of cone (1701)；The cone of the bullet is open (1301) towards described first.

6. a kind of electrolyte negative pressure absorbing device as claimed in claim 1, it is characterised in that the first cylinder (90) bottom wall is also Including liquid tank (903), the liquid outlet (902) is connected with the inlet (921) by the liquid tank (903) and flexible pipe (16) It is logical.

7. a kind of electrolyte negative pressure absorbing device as claimed in claim 1, it is characterised in that the electrolyte passage (9102) is cut Face is into inverted T-shaped, including Vertical Channel (91021) and horizontal channel (91022), the top of the horizontal channel (91022) (910220) it is higher than the liquid outlet (902).