CN109192919A - Electrolyte filling method for carbon fiber storage battery - Google Patents

Abstract

The present invention relates to a kind of electrolyte filling methods for carbon fiber storage battery, comprising the following steps: carbon fiber storage battery is put into vacuum tank by step 1 by feeding mechanism, and the fluid reservoir being connected to vacuum tank is arranged beside vacuum tank；Step 2 vacuumizes vacuum tank, and priming device is directed at carbon fiber storage battery inlet；Step 3, it opens priming device and the electrolyte solution in fluid reservoir is injected into carbon fiber storage battery, complete fluid injection operation, first pass through transport mechanism for carbon fiber storage battery and be delivered to vacuum tank end, vacuum tank is taken out by the carbon fiber storage battery that discharging mechanism completes fluid injection again, is so far completed the process.The invention is intended to provide a kind of electrolyte filling method for carbon fiber storage battery that can be improved carbon fiber storage battery injecting electrolytic solution efficiency.

Description

Electrolyte filling method for carbon fiber storage battery

Technical field

The present invention relates to carbon fiber storage battery processing technique fields, and in particular to a kind of carbon fiber storage battery electrolyte filling method.

Background technique

There are many manufacturing procedure for manufacturing carbon fiber storage battery, wherein having a procedure is to fill to add to carbon fiber storage battery Electrolyte.And the addition of electrolyte is added after slot cover sealing, then through the liquid injection hole in slot cover.

The electrolyte not flowed in usual carbon fiber storage battery, and the electrolyte filled is to be absorbed in carbon fiber storage On AGM diaphragm in battery, but with the raising of accumulator capacity, the chemical substance in battery is more and more, and density is also got over Come it is bigger, merely by AGM diaphragm itself electrolyte fully absorb it is more and more difficult.

Summary of the invention

The invention is intended to provide it is a kind of can be improved carbon fiber storage battery injecting electrolytic solution efficiency for carbon fiber electric power storage The electrolyte filling method in pond.

Base case: the electrolyte filling method for carbon fiber storage battery, comprising the following steps:

Carbon fiber storage battery is put into vacuum tank by step 1 by feeding mechanism, and the liquid storage being connected to vacuum tank is arranged Tank；

Step 2 vacuumizes vacuum tank, and using priming device be connected to carbon fiber storage battery inlet, priming device with It is connected between fluid reservoir；

Step 3, opening priming device, will be in fluid reservoirs using the pressure difference between carbon fiber storage battery and priming device Electrolyte solution inject carbon fiber storage battery, complete fluid injection operation, carbon fiber storage battery is delivered to very by transport mechanism Slack tank end, then vacuum tank is taken out by the carbon fiber storage battery that discharging mechanism completes fluid injection, so far complete the process.

The beneficial effect of this base case is:

1, by the cooperation of feeding mechanism, transport mechanism, priming device and discharging mechanism, the fluid injection work of mechanization is completed Make, compare artificial fluid injection, improve working efficiency, is suitable for battery batch machining.

2, fluid injection is completed in vacuum tank, fluid reservoir is arranged outside vacuum tank, utilizes the negative pressure in fluid reservoir and vacuum tank Difference is fully absorbed so that electrolyte is flowed out in battery by pressure influence automatically by AGM diaphragm, overcomes AGM diaphragm to electrolyte Absorb difficult problem.

Further, the vacuum degree of vacuum tank is 0-200Pa in step 2.Vacuum degree under the setting can guarantee electrolyte It is fully absorbed by AGM film.

Further, carbon fiber storage battery places three layers in vacuum tank in step 1.It can so guarantee multilayer carbon fiber Battery completes fluid injection in vacuum tank, substantially increases the fluid injection efficiency of carbon fiber storage battery.

Further, it before the carbon fiber storage battery in step 1 is put into vacuum tank, first to be vacuumized.Avoid antivacuum shape Extraneous air is brought into the vacuum state in vacuum tank and destroying vacuum tank by the carbon fiber storage battery of state.

Further, the discharging mechanism in step 3 completes the discharging of carbon fiber storage battery under the vacuum degree of 0-200Pa Journey.Outside air during discharging is avoided to enter in vacuum tank the vacuum degree for destroying vacuum tank, so that the vacuum in vacuum tank Degree remains relatively stable.

Further, transport mechanism includes conveyer belt, is evenly equipped with several partitions along direction of transfer on conveyer belt, adjacent separator it Between form placed cavity.Battery is placed in placed cavity, is moved with conveyer belt, when moving at discharging mechanism, conveyer belt overturning, and electricity Pond is first fallen on partition, is slid further along the surface of partition, is avoided battery from directly falling caused damage, partition can give electricity The certain buffer function in pond, while placed cavity is set, so that battery is regularly arranged on a moving belt, battery is avoided to accumulate.

Detailed description of the invention

Fig. 1 is continuous carbon fiber electric power storage of the present invention for using in the electrolyte filling method embodiment of carbon fiber storage battery The cross-sectional view of pond liquid-injection equipment；

Fig. 2 is the bottom view of feeding mechanism in Fig. 1；

Fig. 3 is the top view of feeding mechanism in Fig. 1；

Fig. 4 is the enlarged drawing of part A in Fig. 1；

Fig. 5 is the enlarged drawing of part B in Fig. 1；

Fig. 6 is the top view of priming device and transport mechanism in Fig. 1.

Specific embodiment

Below by the further details of explanation of specific embodiment:

Appended drawing reference in Figure of description includes: vacuum tank 1, conveyer belt 2, partition 3, battery 4, the first turntable 5, first Cover board 6, first through hole 7, the first supporting plate 8, connecting shaft 9, feeding cylinder 10, shaft 11, the first pump bowl 12, strut 13, guide rod 14, cam path 15, the second turntable 16, the second through-hole 17, the second cover board 18, the second supporting plate 19, the second pump bowl 20, incomplete tooth Wheel 21, outlet tube 23, goes out liquid spray head 24, plate 25, general pipeline 26, fluid reservoir 27 at gear 22.

Technical solution of the present invention is clearly and completely described below in conjunction with attached drawing, it is clear that described implementation Example is a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill Personnel's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, merely to Convenient for description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " second ", " third " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

Embodiment:

The continuous carbon fiber storage battery liquid filling equipment that electrolyte filling method for carbon fiber storage battery uses, such as Fig. 1 institute Show, including rack, vacuum tank 1 is fixed in rack, the transport mechanism for transmitting battery 4, transport mechanism are equipped in vacuum tank 1 Including conveyer belt 2, several partitions 3 are evenly equipped with along direction of transfer on conveyer belt 2, form placed cavity between adjacent separator 3.

In conjunction with shown in Fig. 2, Fig. 3, the top in rack positioned at transport mechanism left end is equipped with feeding mechanism, and feeding mechanism includes The first turntable 5 of rotation connection on the rack, the first turntable 5 are equipped with and are distributed along the circumference with three identical feed zones, into Material region includes the first through hole 7 being arranged on the first turntable 5, and the size of first through hole 7 is equal to the size of battery 4.First turn 5 right end of disk runs through the side wall of vacuum tank 1, and one of feed zone is located in vacuum tank 1.It is located at first on 1 outer wall of vacuum tank The first supporting plate 8 is fixed with below turntable 5, the first supporting plate 8 can cover two feed zones outside vacuum tank 1, the first supporting plate 8 Upper end and 5 lower end of the first turntable offset.It is located at the first turntable 5 on 1 outer wall of vacuum tank and is fixedly arranged above the first cover board 6, the first lid 6 lower end of plate and 5 upper end of the first turntable offset, and the first turntable 5 is located in rack and is fixedly arranged above feeding cylinder 10,10 lower end of feeding cylinder It offsets with 5 upper end of the first turntable.Feeding cylinder 10 is located above a feed zone outside vacuum tank 1, and the first cover board 6 is located at vacuum Above another feed zone outside tank 1, the first cover board 6 can cover the feed zone.

The underface that first supporting plate, 8 lower end is located at the first cover board 6 is fixed with the first pump bowl 12, and the first supporting plate 8 is equipped with The first venthole being connected to the first pump bowl 12 is communicated with the first outgassing nonreturn valve, the first pump bowl 12 in first venthole When pumping, the air of 8 top of the first supporting plate can be discharged in the first pump bowl 12 by the first outgassing nonreturn valve.First pumping Slide plate is slidably connected in cylinder 12, slide plate lower end is fixed with strut 13, and 13 lower end of strut is fixed with guide rod 14.First pump bowl 12 side wall upper parts are equipped with gas vent, are equipped with exhaust check valve in gas vent, when the first pump bowl 12 resets, the first pump bowl 12 Interior gas is discharged to the external world by exhaust check valve.

Rack is equipped with the first driving mechanism for driving feeding mechanism to run, and the first driving mechanism includes rotation connection Shaft 11 on the rack is fixed with partial gear 21 in shaft 11, and 5 lower end of the first turntable is fixed with connecting shaft 9, connecting shaft Be fixed on 9 with 21 meshed gears 22 of partial gear, the gear ratio of partial gear 21 and gear 22 is 1:3.Shaft 11 The cam path 15 slided for guide rod 14 is offered on side wall, cam path 15 refers to the curve wheel profile with standard component cam herein The consistent groove of shape.

Discharging mechanism is equipped in rack below the right end of transport mechanism.Discharging mechanism includes being rotatablely connected on the rack The second turntable 16, the second turntable 16 is equipped with and is distributed along the circumference with three identical discharging regions, and discharging region includes setting The second through-hole 17 on the second turntable 16, the size of the second through-hole 17 are equal to the size of battery 4.

The side wall of vacuum tank 1 is run through in second turntable, 16 left end, and one of discharging region is located in vacuum tank 1.Vacuum tank 1 It is located at below the second turntable 16 on side wall and is fixed with the second supporting plate 19,19 left end of the second supporting plate is run through the side wall of vacuum tank 1 and prolonged It extends in vacuum tank 1, the second supporting plate 19 can cover a discharging region in vacuum tank 1 and outside vacuum tank 1 One discharging region, 19 upper end of the second supporting plate and 16 lower end of the second turntable offset.It is located on the second turntable 16 on 1 outer wall of vacuum tank Side is fixed with the second cover board 18, and the second cover board 18 is located at the surface of the second supporting plate 19,18 lower end of the second cover board and the second turntable 16 upper ends offset, and the second cover board 18 can cover a discharging region.It is located at below the second turntable 16 in rack and is fixed with feeding table, Feeding table right end tilts down.

19 lower end of the second supporting plate outside vacuum tank 1 is fixed with the second pump bowl 20, and the second pump bowl 20 is located at second The underface of cover board 18, the second supporting plate 19 are equipped with the second venthole being connected to the second pump bowl 20, connect in the second venthole It is connected with the second outgassing nonreturn valve, when the second pump bowl 20 is evacuated, the gas of 19 top of the second supporting plate passes through the second outgassing nonreturn valve Into in the second pump bowl 20.The structure of second pump bowl 20 is consistent with the setting of the first pump bowl 12.Rack is equipped with and is used for The second driving mechanism of discharging mechanism operation is driven, the second driving mechanism is consistent with the setting of the first driving mechanism.

As shown in connection with fig. 6, the priming device for the fluid injection into battery 4 is additionally provided in rack, priming device includes fixing The fluid reservoir 27 for being used to store electrolyte on the rack.Priming device includes the outlet tube 23 being fixed in placed cavity, is owned Outlet tube 23 is intersected at one and is connected to form general pipeline 26 at this, and general pipeline 26 runs through the side wall of vacuum tank 1 and extends to vacuum Outside tank 1, the partial turn that general pipeline 26 is located at outside vacuum tank 1 is connected on fluid reservoir 27.

As shown in connection with fig. 4, the end part seal of outlet tube 23 is communicated with out liquid spray head 24 on outlet tube 23, out liquid spray head 24 The axis for going out liquid direction and outlet tube 23 it is vertical, plate 25 is slidably connected in outlet tube 23, the size of plate 25 is greater than The size of the inlet opening of liquid spray head 24.25 upper end of plate is fixed with upper limit position block, and 25 lower end of plate is fixedly connected with slide bar, slide bar Lower end is run through the side wall of outlet tube 23 and is extended to outside outlet tube 23, and the part that strut 13 is located at outside outlet tube 23 is fixed with lower limit Position block, is located on outlet tube 23 and the junction of strut 13 is equipped with sealing ring.Upper limit position block and lower position block are set, avoid inserting It is detached from 25 sliding process of plate with outlet tube 23.

Electrolyte filling method for carbon fiber storage battery, comprising the following steps:

Step 1 before carbon fiber storage battery is put into vacuum tank, will first be vacuumized, and then pass through feeding mechanism for carbon fiber Dimension battery is put into vacuum tank, and the fluid reservoir being connected to vacuum tank is arranged beside vacuum tank；Specifically, wherein to be injected The vertical array in feeding cylinder of battery 4.Start motor, motor-driven rotatable shaft 11 rotates, the tooth of partial gear 21 and gear 22 Number than be 1:3, then partial gear 21 with shaft 11 rotation one circle, band moving gear 22 rotate one third circle, the first turntable 5 with Gear 22 rotates a feed zone.When first through hole 7 is turned to below feeding cylinder, the battery 4 in feeding cylinder is by gravity It falls into first through hole 7, the first supporting plate 8 provides a supporting role battery 4.When first turntable 5 continues to rotate, in feeding cylinder Battery 4 and 5 upper surface of the first turntable offset, and can not fall, when first through hole 7 turns to the first 6 lower section of cover board, the first cover board 6, Sealing area is formed between first through hole 7 and the first supporting plate 8, i.e. battery 4 is located in the sealing area.Shaft 11 rotates, and leads It being slided in cam path 15 to bar 14, guide rod 14 and cam path 15 form cam mechanism, according to the kinetic characteristic of cam mechanism, Guide rod 14 does vertical linear reciprocating motion.Guide rod 14 drives strut 13 to move downward, and pump bowl upper space increases, and extracts Gas in the sealing area, so that the sealing area forms vacuum environment, first through hole 7 drives battery 4 to turn to vacuum tank 1 It is interior.

Step 2 vacuumizes vacuum tank, and the vacuum degree of vacuum tank is 0-200Pa, and priming device is connected to carbon fiber Battery inlet；Battery 4 is fallen on conveyer belt 2 out of first through hole 7 by gravity.Since battery 4 is in rotation process In, the first pump bowl 12 has taken the gas in battery 4 and in first through hole 7 away.When therefore turning in vacuum tank 1, battery 4 In vacuum environment.Battery 4 is sent into the process of vacuum tank 1, the vacuum state in vacuum tank 1 will not be destroyed, will not influence The fluid injection of other batteries 4 in vacuum tank 1.Battery 4 is fallen in placed cavity, is moved right with conveyer belt 2.As shown in connection with fig. 4, it passes The dynamic placed cavity with top can carry out fluid injection with placing battery 4, but the placed cavity of lower part is unable to placing battery 4, therefore is arranged and inserts Plate 25.

Step 3, opening priming device will be in fluid reservoir using the pressure difference between carbon fiber storage battery and priming device Electrolyte solution inject carbon fiber storage battery, complete fluid injection operation, first pass through transport mechanism and be delivered to carbon fiber storage battery Vacuum tank end, then vacuum tank is taken out by the carbon fiber storage battery that discharging mechanism completes fluid injection, so far complete the process.When out When liquid pipe 23 turns to top with conveyer belt 2, plate 25 is no longer stopped the feed liquor of liquid spray head 24 out by gravity slide downward Hole, liquid spray head 24 is opened out, and electrolyte is flowed out in battery 4 by the suction function of vacuum tank 1, carries out fluid injection to battery 4.Knot It closes shown in Fig. 5, when outlet tube 23 turns to lower part with conveyer belt 2, plate 25 is blocked out liquid spray head 24 by gravity, is reduced The outflow and waste of electrolyte.Battery 4 completes fluid injection in the transportational process of conveyer belt 2, and battery 4 transports extremely with conveyer belt 2 When right end, the overturning of battery 4 is fallen on partition 3, and conveyer belt 2 continues to move, and battery 4 is fallen in the second through-hole 17.Second drives The course of work of motivation structure is consistent with the first driving mechanism, and the second turntable 16 is by the intermittent rotation of driving.Second through-hole 17 is from true It after being produced in slack tank 1, falls on feeding table, is slided along feeding table, be sent to next process processing.Second through-hole 17 continues When turning between the second cover board 18 and the second supporting plate 19, the second pump bowl 20 will obtain gas and extract out in second through-hole 17, so that Vacuum state is kept in second through-hole 17.Second through-hole 17 is continued to rotate to vacuum tank 1, receives the battery 4 fallen.

What has been described above is only an embodiment of the present invention, and the common sense such as well known specific structure and characteristic are not made herein in scheme Excessive description, technical field that the present invention belongs to is all before one skilled in the art know the applying date or priority date Ordinary technical knowledge can know the prior art all in the field, and have using routine experiment hand before the date The ability of section, one skilled in the art can improve and be implemented in conjunction with self-ability under the enlightenment that the application provides This programme, some typical known features or known method should not become one skilled in the art and implement the application Obstacle.It should be pointed out that for those skilled in the art, without departing from the structure of the invention, can also make Several modifications and improvements out, these also should be considered as protection scope of the present invention, these all will not influence the effect that the present invention is implemented Fruit and patent practicability.The scope of protection required by this application should be based on the content of the claims, the tool in specification The records such as body embodiment can be used for explaining the content of claim.

Claims (6)

1. being used for the electrolyte filling method of carbon fiber storage battery, it is characterised in that: the following steps are included:

Carbon fiber storage battery is put into vacuum tank by step 1 by feeding mechanism, and the fluid reservoir being connected to vacuum tank is arranged；

Step 2 vacuumizes vacuum tank, and is connected to carbon fiber storage battery inlet, priming device and liquid storage using priming device It is connected between tank；

Step 3 opens priming device, using the pressure difference between carbon fiber storage battery and priming device, by the electricity in fluid reservoir Electrolyte solution injects carbon fiber storage battery, completes fluid injection operation, carbon fiber storage battery is delivered to vacuum tank by transport mechanism End, then vacuum tank is taken out by the carbon fiber storage battery that discharging mechanism completes fluid injection, so far complete the process.

2. the electrolyte filling method according to claim 1 for carbon fiber storage battery, it is characterised in that: vacuum tank in step 2 Vacuum degree be 0-200Pa.

3. the electrolyte filling method according to claim 1 for carbon fiber storage battery, it is characterised in that: carbon fiber in step 1 Battery places three layers in vacuum tank.

4. the electrolyte filling method according to claim 1 for carbon fiber storage battery, it is characterised in that: the carbon fiber in step 1 Before dimension battery is put into vacuum tank, first to be vacuumized.

5. the electrolyte filling method according to claim 1 for carbon fiber storage battery, it is characterised in that: the discharging in step 3 Mechanism completes the discharging process of carbon fiber storage battery under the vacuum degree of 0-200Pa.

6. the electrolyte filling method according to claim 1 for carbon fiber storage battery, it is characterised in that: transport mechanism includes passing It send band, is evenly equipped with several partitions along direction of transfer on conveyer belt, forms placed cavity between adjacent separator.