CN208923268U - Centrifugal liquid-injection equipment and its linkage - Google Patents
Centrifugal liquid-injection equipment and its linkage Download PDFInfo
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- CN208923268U CN208923268U CN201821234371.6U CN201821234371U CN208923268U CN 208923268 U CN208923268 U CN 208923268U CN 201821234371 U CN201821234371 U CN 201821234371U CN 208923268 U CN208923268 U CN 208923268U
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- main body
- linkage
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- fluid
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Abstract
The utility model discloses a centrifugal liquid-injection equipment and its linkages, wherein the linkage includes a fixed pedestal and an arrying main body, wherein the arrying main body has a bearing space, for carrying a battery main body, the arrying main body is rotatably connected at the fixed pedestal, and the arrying main body can change during rotation is housed inside the battery main body in the bearing space and the angle between horizontal plane.
Description
Technical field
The utility model relates to a field of batteries, in particular to one centrifugal liquid-injection equipment and its linkage.
Background technique
It is well known that lithium battery has many advantages, such as that the service life is long, performance is good, pollution is small, by the favor of the majority of consumers,
It is widely used in the various fields such as new energy, traffic, electronic communication, space flight military project.Lithium battery relies primarily on lithium ion and exists
Moving back and forth between anode and cathode and then completion charging and discharging work.The electrolyte of lithium battery is the ion in lithium battery
The carrier of movement can guarantee that lithium battery has sufficient lithium ion past between a positive electrode and a negative electrode during charging and discharging
It returns.Specifically, most of lithium batteries on the market include a battery main body and an electrolyte, wherein the battery main body includes
One core and a shell, the core and the electrolyte are housed inside in an accommodating chamber of the shell.Further, described
Core includes an anode pole piece, a cathode pole piece and an insulation diaphragm, and the insulation diaphragm makes described in a winding manner
Anode pole piece and the cathode pole piece are set to the insulation diaphragm spaced reciprocally, and the electrolyte impregnates the positive pole
Piece, the cathode pole piece and the insulation diaphragm.When the lithium ion in the electrolyte is in the anode pole piece and institute
When stating abjection between cathode pole piece and being embedded in, the lithium battery obtains voltage, and can externally provide electric energy.
Further, when the electrolyte fills the accommodating chamber of the full shell, and sufficiently impregnates the core,
The lithium battery can obtain stable performance.Specifically, when the electrolyte fills the freely empty of the full battery main body
Between, that is, it is gap, the insulation diaphragm between the core and the shell and the gap between the insulation diaphragm, described
The gap between gap and the cathode pole piece and the insulation diaphragm between anode pole piece and the insulation diaphragm, and energy
Enough when sufficiently impregnating the anode pole piece and the cathode pole piece, the lithium battery can obtain stable service performance and longer
Service life.Once the electrolyte fails to be sufficiently wet the anode pole piece and the cathode pole piece, then it will affect lithium
Shuttle of the ion between the anode pole piece and the cathode pole piece, causes the resistance of the lithium battery interior to increase, and influences
Service performance, discharge capacity and the service life of the lithium battery.But, on the one hand, the freely sky of the lithium battery
It is interior to be filled with air, it is on the other hand, described when the injection rate of the only described electrolyte is much larger than the volume of the free space
Electrolyte can sufficiently impregnate the anode pole piece and the cathode pole piece.Therefore, the electrolyte is injected into the battery
In the free space of main body, and the free space is full of so that the anode pole piece and the cathode pole piece can be by
Sufficiently infiltration becomes a great problem of lithium battery in the fabrication process.
In the manufacturing process of existing lithium battery, what is generallyd use is negative pressure liquid injection method.Specifically, by the battery master
The inside of body is evacuated, so that the inside of the battery main body forms a subnormal ambient, the shell of the battery main body
Accommodating chamber when being connected to a fluid injection chamber of an extraneous priming device, the intracavitary institute of the fluid injection of the priming device
It states electrolyte to be pressed into the accommodating chamber of the battery main body by atmospheric pressure effect or artificial pressurization, and fills institute
Free space is stated, the anode pole piece and the cathode pole piece are infiltrated.But in the actual operation process, lead to
Crossing the mode that negative pressure liquid injection method is injected the electrolyte in the battery main body, there is also many problems.Firstly, will be described
It is formed inside battery main body during subnormal ambient completes to fluid injection, is easy because of occurring leaking so that the battery main body
The accommodating chamber and extraneous pressure difference reduce or reach pressure equilibrium and be difficult to be utilized pressure difference make the electrolyte into
Enter in the accommodating chamber of the battery main body.Secondly, process is tedious for entire injection process, the fluid injection time is longer, causes lithium electric
The production cycle in pond is long, increases production cost.In addition, being needed single institute in the manufacturing process of existing lithium battery successively
It states in battery main body and is evacuated, and then complete negative pressure liquid injection, operating efficiency is low, high labor cost.Moreover, the battery master
Body successively carries out vacuumizing operation and fluid injection operation, the battery main body needs be fixed respectively from a variety of different devices and
It splits, the friction between the battery main body and fluid injection relevant apparatus is increased, so that the shell of the battery main body holds
It is easily worn during fluid injection and even destroys, influence the final product quality of lithium battery.
Utility model content
One of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the centrifugation
One electrolyte can be filled in an accommodating chamber of an at least battery main body by formula liquid-injection equipment.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment is filled the electrolyte to the accommodating chamber of the battery main body using centrifugal force effect.
Another effect of the utility model is to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment enables to the battery main body to rotate, and by the electrolyte during battery main body rotation
In filling to the accommodating chamber of the battery main body.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment is able to maintain the battery main body rotation, and by institute during keeping the battery main body to be in rotation
State the air discharge in the accommodating chamber of battery main body.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The electrolyte automatically can be injected the battery main body during battery main body rotates by core type liquid-injection equipment
The accommodating chamber in.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment can be while filling in the accommodating chamber of the electrolyte to the battery main body by the battery
Gas discharge in the accommodating chamber of main body.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment enables to continue into the electrolyte of the accommodating chamber of the battery main body in the work of centrifugal force
It is moved with lower towards the accommodating chamber bottom, and then constantly sufficiently squeezes the air in the accommodating chamber of the battery main body
Out to extraneous.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment fills the speed of liquid and the speed of battery main body rotation into the accommodating chamber of the battery main body
Degree is positively correlated, that is to say, that the speed of the battery main body rotation is faster, into the accommodating chamber of the battery main body
The speed of the electrolyte is faster.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment can automatically stop the appearance to the battery main body when battery main body stops rotating
It receives intracavitary injection electrolyte, the electrolyte is avoided to overflow.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment includes an operation post, a priming device and a linkage, and the operation post is able to drive the fluid injection
Device and linkage rotation, and then during rotation, the electrolyte can be injected institute by the priming device
It states in the accommodating chamber of battery main body.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the note
Liquid device can switch between an opening state and a closed state, when the priming device is in the opening state,
The priming device can fill the electrolyte to the accommodating chamber of the battery main body;At the priming device
When the closed state, the priming device stops filling the electrolyte into the accommodating chamber of the battery main body,
The electrolyte is avoided to overflow pollution battery main body and operating environment.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment can automatically switch between the opening state and the closed state.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment automatically can switch to described beat by the closed state during rotation
Open state.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment automatically can be switched to described beat by the closed state under the action of the centrifugal force
Open state, and then fill the electrolyte to the accommodating chamber of the battery main body during rotation.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment is when rotation speed is gradually reduced, in the accommodating chamber in Xiang Suoshu battery main body
The speed for filling the electrolyte is also gradually reduced, and then can control rotation speed to control the institute for injecting the battery main body
State the amount of the electrolyte in accommodating chamber.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment can stop filling out into the accommodating chamber of the battery main body when stopping rotating
Fill the electrolyte.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment automatically can be switched to the closing by the opening state under the effect of elasticity
State.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment provides a fluid injection main body and an active agent, wherein the fluid injection main body has one to enter
Mouth channel, an active tunnel and an exit passageway, the active agent are movably held in the institute of the fluid injection main body
It states in active tunnel, wherein by controlling relative position of the active agent in the active tunnel of the fluid injection main body
Mode, enable to the priming device automatically to switch between the opening state and the closed state.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The active agent of the priming device of core type liquid-injection equipment has an allocation space, wherein empty by controlling the distribution
Between mode with the relative position of the access road and the exit passageway, the flow direction of the electrolyte can be controlled.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein when described
When the allocation space of active agent is connected to the access road and the exit passageway, the priming device is in described and beats
Open state, the electrolyte can flow to the exit passageway from the access road, and enter the described of the battery main body
In accommodating chamber, when the access road of the fluid injection main body and the mutually indepedent exit passageway, at the priming device
In closed state.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
Core type liquid-injection equipment can accurately control the amount into the electrolyte in the accommodating chamber of the battery main body, Jin Er
It ensures and avoids the electrolysis while electrolyte can sufficiently infiltrate the anode pole piece and cathode pole piece of the battery main body
Liquid waste.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The amount of the electrolyte can be stored in advance in core type liquid-injection equipment, and then accurately controls the injection rate of the electrolyte, favorably
It can be fully filled the accommodating chamber of the battery main body in the electrolyte, and make the positive pole of the battery main body
Piece and cathode pole piece can sufficiently be infiltrated.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the note
The fluid injection main body of liquid device has a liquid separation channel and a liquid storage space, wherein the liquid separation channel is connected to the liquid storage sky
Between, the capacity in the liquid storage space can be distribution accurately controlled, and when the priming device is in the closed state, the activity is main
The allocation space of body is connected to the access road and the liquid separation channel, and it is empty that the electrolyte can fill the liquid storage
Between;When the priming device is in the open state, the allocation space is connected to the exit passageway and the liquid separation channel, and makes
The electrolyte in the liquid storage space can to flow to the outlet from the liquid storage space under the influence of centrifugal force logical
Road.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The active agent of the priming device of core type liquid-injection equipment can be during the priming device rotates automatically
It is moved in the active tunnel of the fluid injection main body, so that the priming device switches to institute from the closed state
State opening state.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The active agent of the priming device of core type liquid-injection equipment is can be under the influence of centrifugal force in the fluid injection main body
The active tunnel in move, and the priming device is enabled to automatically to switch to the opening from the closed state
State.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The priming device of core type liquid-injection equipment provides an elastic body, and the elastic body is arranged at the institute of the fluid injection main body
Active tunnel is stated, when the priming device is in the opening state, the active agent squeezes the elastic body, and institute
The elastic acting force for stating the elastic body that active agent is subject to enables to the active agent automatically from the opening
State switches to the closed state.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The linkage of core type liquid-injection equipment can carry the battery main body, and the linkage can change change institute
The angle between battery main body and horizontal plane is stated, and then adjusts the extending direction of the accommodating chamber of the battery main body, with benefit
The air in the accommodating chamber is discharged while filling the electrolyte to the accommodating chamber of the battery main body.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the company
Dynamic device can change the corner dimension that the battery main body and horizontal plane are formed, and on the one hand be conducive to the battery main body in turn
The accommodating chamber in air discharge, on the other hand can be avoided the electrolyte and overflowed out of described accommodating chamber.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the company
Dynamic device can switch between an original state and a rotation status, when the linkage is in the original state,
The extending direction of the accommodating chamber of the battery main body can be perpendicular to horizontal plane, when the linkage is in rotation status
When, the extending direction of the accommodating chamber of the battery main body and vertical direction generate a tilt angle, in order to by the electricity
Solution liquid is filled in the accommodating chamber of the battery main body while the air that is discharged in the accommodating chamber.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the company
Dynamic device provides a fluid-directing needle, and the fluid-directing needle can will be described in the mode being inserted into the accommodating chamber of the battery main body
Electrolyte is filled to the accommodating chamber, so be conducive to the electrolyte enter the accommodating chamber while institute can be discharged
State the air in accommodating chamber.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein it is described from
The linkage of core type liquid-injection equipment includes a fixed pedestal and an arrying main body, and the arrying main body is rotationally pacified
Loaded on the fixed pedestal, so that being housed inside the inclination angle with horizontal plane of the battery main body of the arrying main body
Degree can be changed.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein described hold
Carrying main body includes a connecting element and a loading element, wherein the loading element is movably disposed in the connection member
Part, so can change it is described be set between the fluid-directing needle of the connecting element and the battery main body it is opposite away from
From.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein described hold
Carrying main body further comprises two linkage parts, and two linkage part both ends are rotatably coupled the loading element respectively
With the fixed pedestal so that the loading element by can relative to the connecting element slide in a manner of be arranged at institute
State connecting element.
Another of the utility model is designed to provide a centrifugal liquid-injection equipment and its linkage, wherein the load
Construction element further comprises a guide fixture, and the guide fixture can guide the battery main body to lead into the carrying
In one bearing space of body, and it can be avoided the battery main body and topple over during rotation.
According to the one aspect of the utility model, the utility model provides a linkage comprising:
One fixed pedestal;With
One arrying main body, wherein the arrying main body has a bearing space, it is described to hold to be used to carry a battery main body
It carries main body and is rotatably connected at the fixed pedestal, the arrying main body can change during rotation to be housed inside
The battery main body in the bearing space and the angle between horizontal plane.
One embodiment according to the present utility model, the linkage include a drain main body, the drain main body quilt
It is set to the arrying main body, the drain main body can obtain an electrolyte, and keep the mistake of rotation in the arrying main body
The electrolyte is filled to an accommodating chamber of the battery main body in journey.
One embodiment according to the present utility model, the arrying main body and the fixed pedestal are pivotally connected.
One embodiment according to the present utility model, the angular range between the arrying main body and the fixed pedestal
Are as follows: 90 ° to 180 °, wherein including 90 ° and 180 °.
One embodiment according to the present utility model, the arrying main body include a connecting element and a loading element,
Described in loading element be movably disposed in the connecting element, wherein the connecting element is by being rotatablely arranged at
State fixed pedestal.
One embodiment according to the present utility model, side of the loading element can be slided relative to the connecting element
Formula is arranged at the connecting element.
One embodiment according to the present utility model, the drain main body include a fluid-directing needle and a catheter, wherein institute
Fluid-directing needle is stated with a reservoir channel, the catheter has a flow-guiding channel, and the catheter connects the fluid-directing needle and institute
Fluid injection main body is stated, and the flow-guiding channel is connected to the reservoir channel of the fluid-directing needle and the outlet of the fluid injection main body
Channel, and the reservoir channel of the fluid-directing needle is connected to the bearing space.
One embodiment according to the present utility model, the arrying main body further comprise two linkage parts, two institutes
It states linkage part both ends and is rotatably coupled the loading element and the fixed pedestal respectively.
One embodiment according to the present utility model, the loading element further comprises a guide fixture, described to draw
It leads fixing piece and is installed in the bearing space.
One embodiment according to the present utility model, the guide fixture are magnet.
According to the other side of the utility model, the utility model further provides for a centrifugal liquid-injection equipment comprising:
One operation post, wherein the operation post includes a support base and is rotatably installed on the one of the support base
Annular working platform;
One priming device, wherein the priming device is arranged at the annular working platform;And
An at least linkage, wherein the linkage is arranged at the annular working platform, wherein the gearing fills
It sets and further comprises:
One fixed pedestal;With
One arrying main body, wherein the arrying main body has a bearing space, it is described to hold to be used to carry a battery main body
It carries main body and is rotatably connected at the fixed pedestal, the arrying main body can change during rotation to be housed inside
The battery main body in the bearing space and the angle between horizontal plane.
Detailed description of the invention
Fig. 1 is the schematic perspective view of a centrifugal liquid-injection equipment of a preferred embodiment according to the present utility model.
Fig. 2A is that the part-structure of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model shows
It is intended to.
Fig. 2 B is the decomposition diagram of the centrifugal liquid filling equipment of above-mentioned preferred embodiment according to the present utility model.
Fig. 3 A is the electrolyte filling method of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model
First stage process schematic.
Fig. 3 B is the electrolyte filling method of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model
Second stage process schematic.
Fig. 3 C is the electrolyte filling method of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model
Phase III process schematic.
Fig. 3 D is the electrolyte filling method of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model
Fourth stage process schematic.
Fig. 3 E is the electrolyte filling method of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model
5th phase process schematic diagram.
Fig. 4 is the stereochemical structure signal of the centrifugal liquid-injection equipment of above-mentioned preferred embodiment according to the present utility model
Figure.
Specific embodiment
It is described below for disclosing the utility model so that those skilled in the art can be realized the utility model.It retouches below
Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It is retouched following
The basic principle of the utility model defined in stating can be applied to other embodiments, deformation scheme, improvement project, etc. Tongfangs
The other technologies scheme of case and the spirit and scope without departing from the utility model.
It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper",
The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed
System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, without
It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore on
Stating term should not be understood as limiting the present invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.
Referring to Figure of description 1 to Fig. 3 E, a centrifugal liquid-injection equipment of the preferred embodiment according to the utility model
It will be set forth in following description, the centrifugal liquid-injection equipment 100 is suitable for for an electrolyte 200 being filled at least
In one accommodating chamber 301 of one battery main body 300, and then a lithium battery can be made, and to exist in the lithium battery sufficient
Lithium ion with round-trip between the anode pole piece and cathode pole piece of the battery main body 300 so that the lithium battery energy
Enough stably accomplish charging and discharging work.Closer, the centrifugal liquid-injection equipment 100 acted on using centrifugal force so that
It is full of the enough electrolyte 200 in the accommodating chamber 301 of the battery main body 300, and then can sufficiently impregnate described
The anode pole piece and cathode pole piece of battery main body 300, so that as obtained by the battery main body 300 and the electrolyte 200
The lithium battery has good service performance, while having ensured the service life of the lithium battery.
Specifically, referring to attached drawing 1 to Fig. 2 B, the centrifugal liquid-injection equipment 100 includes an operation post 10, at least a note
Liquid device 20 and at least a linkage 30, the priming device 20 and the linkage 30 are installed in the operation
Platform 10, the operation post 10 is able to drive the priming device 20 and the linkage 30 rotates.Further, the battery
Main body 300 can be fixed in the linkage 30, and the battery main body 300 is same with the rotation of the rotating body 30
Step rotation, the priming device 20 can obtain the electrolyte 200, and the priming device 20 is in 10 band of note operation post
It moves the electrolyte 200 during the priming device 20, the linkage 30 and the battery main body 300 rotate
It is filled in the accommodating chamber 301 of the battery main body 300.The workbench 10 is able to drive multiple priming devices 20
It is rotated with the device 30 that chooses to install, so that multiple priming devices 20 can simultaneously infuse the electrolyte 200 respectively
In the accommodating chamber 301 for entering multiple battery main bodies 300, so that the fluid injection efficiency of the centrifugal liquid-injection equipment 100 is improved,
The activity duration is saved, the production cycle of lithium battery is had compressed.
Further, referring to attached drawing 1, the operation post 10 includes a support base 11 and an at least annular working platform 12,
The annular working platform 12 is installed in the support base 11, and the linkage 30 is arranged at the annular working platform
12, the priming device 20 is installed in the linkage 30, and the annular working platform 12 can be driven around the branch
Support group seat 11 rotates, and then drives the linkage 30, the priming device 20 and be fixed on the linkage 30
300 synchronous rotary of battery main body, and enable to the priming device 20 that can fill electrolyte 200 to the battery
In the accommodating chamber 301 of main body 300.Preferably, the annular working platform 12 is symmetrically installed on the support base 11,
That is, the annular working platform 12 and the central axes having the same of the support base 11, and then can be avoided the annular working
Platform 12 during rotation run-off the straight and cause the battery main body 300 the accommodating chamber 301 in the electrolyte
200 overflow and pollute the battery main body 300 and operating environment.
Preferably, the annular working platform 12 of the operation post 10 may be implemented as disk, multiple fluid injection dresses
Set 20 and multiple linkages 30 be evenly arranged in the periphery of the annular working platform 12, and then in the annular work
Make the rotation of platform 12 angular speed it is certain in the case where, the priming device 20, the linkage 30 and be fixed on the company
The centrifugal force that the battery main body 300 of dynamic device 30 is subject to can reach maximum.
Optionally, the cyclic annular workbench 12 of the operation post 10 may be implemented as circular rod, the priming device
20 and the linkage 30 be installed in the annular working platform 12.Optionally, the cyclic annular work of the operation post 10
Platform 12 may be implemented as column, such as cylindric, cylinder shape.It should be understood that the specific implementation of the annular working platform 12
Mode is merely exemplary, can't be the limitation of the content and range to centrifugal priming device 100 described in the utility model.
Also, the chamfered shape of the annular working platform 12 is unrestricted, and the chamfered shape of the annular working platform 12 can be carried out
For but be not limited to round, ellipse, polygon etc..
It is noted that the particular number of the annular working platform 12 is also unrestricted, although in Figure of description
The particular number that illustrate only the annular working platform 12 is one, but in other implementations, the annular work
Making platform 12 also may be implemented as two or more, such as, multiple annular working platforms 12 are stacked and placed on spaced reciprocally
The support base 11, and the priming device 20 and the linkage 30 are installed in each annular working platform 12,
The centrifugal liquid-injection equipment 100 is injected into the accommodating chamber 301 of more battery main bodies 300 simultaneously
The electrolyte saves production cost in favor of improving operating efficiency.
According to one preferred embodiment of the utility model, the support base 11 is perpendicular to horizontal plane, the annular working platform
12 are installed in the support base 11 in the mode vertical relative to the support base 11, that is, the annular working platform 12
It is parallel to the horizontal plane, and the annular working platform 12 can be driven and be rotated around the support base 11, and then drives the note
Liquid device 20, the linkage 30 and the rotation of the battery main body 300 for being fixed on the linkage 20, avoid described
The electrolyte 200 that linkage 20 injects the battery main body 300 overflows in rotary course and causes the electrolyte
200 wastes.In the other embodiments of the utility model, the annular working platform 12 is removably installed in the branch support group
Seat 11.
Optionally, in the utility model others embodiment, referring to attached drawing 4, the support base 11 is held in
Parallel water plane, the annular working platform 12 are installed in the branch support group in the mode vertical relative to the support base 11
Seat 11, that is, the annular working platform 12 and horizontal plane are conducive to save operating space.
A preferred embodiment according to the present utility model, 20 energy of the priming device of the centrifugal liquid-injection equipment 100
It is enough to switch between an opening state and a closed state, wherein when the priming device is in the opening state, it is described
Priming device 20 can fill the electrolyte 200 to the accommodating chamber 301 of the battery main body 300;When the note
When liquid device 20 is in the closed state, the priming device 20 stops the accommodating chamber to the battery main body 300
The filling electrolyte 200 in 301, so that can be full of in the accommodating chamber 301 of the battery main body 300 enough
The electrolyte 200 is avoided to waste while electrolyte 200.Further, the priming device 20 can automatically exist
Switch between the opening state and the closed state, to control the receiving for injecting the battery main body 300 in time
The amount of the electrolyte 200 in chamber 301.
Further, the priming device 20 can automatically switch from the closed state under the influence of centrifugal force
To the opening state.Specifically, referring to attached drawing 2B, the priming device 20 includes a fluid injection main body 21 and an active agent
22, wherein the fluid injection main body 21 has an access road 211, an active tunnel 212 and an exit passageway 213, the work
Dynamic channel 212 is connected to the access road 211 and the exit passageway 213, and the active agent 22 is movably kept
In in the active tunnel 212 of the fluid injection main body 21, by controlling the active agent 22 described in the fluid injection main body 21
The mode of relative position in active tunnel 212 enables to the priming device 20 in the opening state and the closing
Automatically switch between state.Specifically, the active agent 22 of the priming device 20 has an allocation space 221,
By changing the allocation space 221 of the active agent 22 and the access road 211 and the institute of the fluid injection main body 21
The mode of the relative position of exit passageway 213 is stated, and then changes the flow direction of the electrolyte 200, so that the fluid injection fills
Setting 20 can automatically switch between the opening state and the closed state.
In a preferred embodiment of the utility model, when the allocation space 221 of the active agent 22 is connected to
When the access road 211 and the exit passageway 213, the priming device 20 is in the opening state, the electrolyte
200 can enter the active tunnel 212 from the access road 211, and can be flow to from the active tunnel 212 it is described go out
Mouth channel 212, and then be able to enter in the accommodating chamber 301 of the battery main body 300.When the fluid injection main body 21 stops institute
State the access road 211 and the exit passageway 213 of fluid injection main body 20, and make the access road 211 and it is described go out
When mouth channel 213 is mutually indepedent, the priming device 20 is in close state, and the priming device 20 stops to the battery master
In the accommodating chamber 310 of body 300.
Specifically, the active agent 22 can be under the influence of centrifugal force in the activity of the fluid injection main body 21
It is moved in channel 212, and then the entrance of the allocation space 221 of the active agent 22 and the fluid injection main body 21 is logical
The relative position of road 211 and the exit passageway 213 changes, so that the priming device 20 is described in the open shape
Switch between state and the closed state.That is, when the annular working platform 12 is driven and drives the priming device
During 20 rotations, the centrifugal force that the active agent 22 is subject in rotary course can be in the active tunnel 212
It is mobile, and the allocation space 221 of the active agent 21 is made to be connected to the access road 211 and the exit passageway
213, so that the electrolyte 200 can flow to the exit passageway 213 from the access road 211.
Referring to Figure of description 2B, priming device 20 further comprises an elastic element 23 and a barrier element 24, wherein
The elastic element 23 and the barrier element 24 are arranged at the active tunnel 212 of the fluid injection main body 21, the bullet
Property element 23 and the barrier element 24 are located at the two sides of the active agent 22, and the active agent 22 can be
It is moved between the elastic element 23 and the barrier element 24.The elastic element 23 has elasticity, when the active agent
22 under the influence of centrifugal force can be mobile towards the elastic element 23, and squeezes the elastic element 23, and can be connected to
The access road 211 and the exit passageway 213, when the centrifugal force that the active agent 22 is subject to reduces, the elasticity is first
Part 23 acts on the elastic force of the active agent 22 so that the active agent 22 is mobile towards the barrier element 24, and makes
It obtains the access road 211 and the exit passageway 213 is mutually indepedent.
Further, referring to attached drawing 2B, the active agent 22 include a press section 222, a channel forming portion 223 and
One blocking portion 224, the allocation space 221 correspond to the channel forming portion 223, the press section 222 and the blocking portion
224 are respectively formed in the both ends of the channel forming portion 223.Preferably, the press section 222, the channel forming portion 223 with
And the blocking portion 224 is integrally formed.When the fluid injection main body 21 of the priming device 20 is in close state, the work
The blocking portion 224 of dynamic main body 22 is close to the barrier element 24,213 phase of the access road 211 and the exit passageway
It is mutually independent;Rotated when under drive of the priming device 20 in the annular working platform 12, the active agent 22 be subject to from
Mental and physical efforts enable to the active agent 22 mobile towards the elastic element 23, the channel shape of the active agent 22
It is gradually corresponding with the access road 211 and the exit passageway 213 at portion 223, and then the allocation space 212 is connected to
The access road 211 and the exit passageway 213, the priming device 20 are in the opening state, the electrolyte 200
The allocation space 212 can be entered from the exit passageway 213, and flowed out by the exit passageway 213, and then can be into
In the accommodating chamber 301 for entering the battery main body 300.Meanwhile the press section 222 of the active agent 22 squeeze it is described
Elastic element 23, so that the elastic element 23 deforms.
During the linkage 20 rotation, the electrolyte 200 can constantly be injected the battery master
In the accommodating chamber 301 of body 300.Also, the rotation speed of the priming device 20 is accelerated, what the active agent 22 was subject to
Centrifugal force also increases with it, and the deformation degree of the elastic element 23 is increased.When the rotation speed of the priming device 20
Degree reduces, and the centrifugal force that the active agent 22 is subject to reduces, and the elastic element 23 makees the elasticity of the active agent 22
The active agent 22 is firmly enabled to move from the elastic element 23 towards the barrier element 24, the active agent
The 22 channel forming portion 223 is arranged with 213 mutual dislocation of the access road 211 and the exit passageway, so that institute
It states access road 211 and the exit passageway 213 is mutually indepedent, further, when the blocking portion of the active agent 22
After 224 by the blocking stopping of the barrier element 24, the priming device 20 restores to the closed state.That is,
The active agent 22 can be moved automatically in the active tunnel 212 under the action of centrifugal force and elastic force, and be made
The priming device 20 can automatically switch between the opening state and the closed state.
Specifically, in a specific embodiment of the utility model, the channel shape of the active agent 22
It is less than the size of the press section 222 and the blocking portion 224 at the size in portion 223, thus right in the channel forming portion 223
The position answered forms the allocation space 221.Preferably, the press section 222, the channel forming portion 223 and the resistance
Stopper 224 is implemented as cylindrical body, wherein the diameter dimension of the channel forming portion 223 is less than the press section 222 and described
The diameter dimension of blocking portion 224, to form the allocation space 221 in the corresponding position of the channel forming portion 223.Into one
With walking, the active tunnel 212 of the diameter and the fluid injection main body 21 of the press section 222 and the blocking portion 224 is straight
Diameter is adapted, and enables the press section 222 and the blocking portion 224 to distinguish the access road 211 and the outlet is logical
The opposite opening in road 213, and then when the priming device 20 is in original state, the access road 211 and the outlet
Channel 213 remains independently of each other to avoid causing the electrolyte 200 to waste.
Preferably, in a preferred embodiment of the utility model, the priming device 20 of centrifugal liquid-injection equipment 100
The fluid injection main body 21 there is a control amount room 214 and the liquid separation channel 215 that be connected to control amount room 214, wherein described in divide
Liquid channel 215 is connected to the active tunnel 212, and the liquid separation channel 215 can be connected to the access road 211 and described point
With space 221, so that the electrolyte 200 is able to enter in control amount room 214.The priming device 20 further comprises one
Main body 25 is controlled, the control main body 25 is operably disposed in control amount room 214, and the control main body 25 can be controlled
The reservoir quantity of the electrolyte 200 is made, and then can be controlled in advance into the accommodating chamber 301 of the battery main body 300
The electrolyte 200 amount, to avoid causing the electrolyte to waste.
Specifically, referring to Fig. 2 B, the control main body 25 includes a moving member 251 and a regulating part 252, wherein described
Regulating part 252 is arranged at the moving member 251, and the moving member 251 is in a manner of corresponding to the opening of control amount room 214
It is operably mounted in control amount room 214, and form one between the moving member 251 and the fluid injection main body 21
Liquid storage space 2141, the liquid storage chamber 2141 is connected to the liquid separation channel 215 that is, the volume of the moving member 251 occupies institute
The segment space of control amount room 214 is stated, the remaining space not being occupied is the liquid storage space 2141, the liquid storage space 2141
For storing the electrolyte 200.Also, the size of the moving member 251 is adapted with the size of control amount room 214, with
The moving member 251 is enabled to close the opening of control amount room 214, to avoid the electrolysis in control amount room 214
Liquid 200 overflows, and pollutes external environment.Further, the regulating part 252 is by pushing the moving member 251 in the control amount
The mode moved in room 214 adjusts the size in the liquid storage space 2141, is stored in the liquid storage space 2141 with control
The amount of the electrolyte 200.Specifically, the moving member 251 is mobile towards close 215 side of liquid separation channel, it is described
The capacity in liquid storage space 2141 reduces, and is suitable for the lesser battery main body 300 of the accommodating chamber 301;When the moving member
251 is mobile far from the liquid separation channel 215, then the capacity in the liquid storage space 2141 increases, be suitable for the accommodating chamber 301 compared with
The big battery main body 300 is controlled so as to the size of the accommodating chamber 301 previously according to the battery main body 300
The amount for making the electrolyte 200 is conducive to the appearance that the electrolyte 200 can be fully filled the battery main body 300
It receives chamber 301, and the anode pole piece of the battery main body 300 and cathode pole piece is sufficiently infiltrated, and not will cause institute
The waste of electrolyte 200 is stated, the applicability and practicability of the centrifugal liquid-injection equipment 100 are improved.
Preferably, the regulating part 252 of the control main body 25 may be implemented as spiral micrometer, i.e. micrometer,
Scale by controlling the spiral micrometer can accurately adjust that the moving member moves in control amount room 214 away from
From, and then the amount of capacity of the liquid storage chamber 2141 is grasped, to cooperate the accommodating chamber of the different battery main bodies 300
301 size.It should be understood that the specific embodiment of the regulating part 252 can't be as just example to this reality
With the limitation of the content and range of the novel centrifugal liquid-injection equipment 100.
Further, the access road 211, the liquid separation channel 215 and the exit passageway 213 be spaced reciprocally
It is formed in the fluid injection main body 21, wherein the exit passageway 213 and the liquid separation channel 215 are formed in the fluid injection main body
21 top, the access road 211 is formed in the lower part of the fluid injection main body 21, and the liquid separation channel 215 is positioned at described
Between access road 211 and the exit passageway 213.When the priming device 20 is in original state, the active agent
22 press section 222 corresponds to the exit passageway 213, and the exit passageway 213 is corresponding with the active tunnel 212
Be closed by mouth, the channel forming portion 223 of the active agent 22 corresponds to the access road 211 and the liquid separation
Channel 215, the allocation space 221 are connected to the access road 211 and the liquid separation channel 215,200 energy of electrolyte
It is enough successively to enter the fluid injection main body by the access road 211, the allocation space 221 and the liquid separation channel 215
It in the 21 liquid storage space 2141, and is stored in the device for storing liquid 20, the priming device 20 is in described at this time
Closed state.It is rotated when under drive of the priming device 20 in the annular working platform 12, the active agent 22 is being centrifuged
It is mobile towards described 23 one end of elastic body in the active tunnel 212 under the action of power, the active agent 22 it is described
Channel forming portion 223 can correspond to the exit passageway 213 and the liquid separation channel 215, and then the allocation space 221 connects
Lead to the liquid separation channel 215 and the exit passageway 213, the electrolyte 200 in the liquid storage space 2141 be subject to from
The effect of mental and physical efforts is so that the electrolyte 200 enters the allocation space 221 from the liquid storage space 2141, and then goes out described in
Mouth channel 213 is flowed out, and is able to enter in the accommodating chamber 301 of the battery main body 300.That is, the electrolyte
200 can be previously stored in the liquid storage space 2141 of the fluid injection main body 21, and then be conducive to described in control entrance
Amount in the accommodating chamber 301 of battery main body 300.
It is worth noting that, the fluid injection main body 20 may be implemented as that the electrolyte 200 is allowed to pass through the entrance
Channel 211 and locating allocation space 221 flow out from the exit passageway 213, and are able to enter the institute of the battery main body 300
It states in accommodating chamber 301.In addition, the fluid injection main body 20 also may be implemented as allowing the electrolyte 200 logical through the entrance
Road 211, the allocation space 221 and the liquid separation channel 215, are pre-stored in the liquid storage space 2141, then from institute
It states liquid storage space 2141, the allocation space 221 and the exit passageway 213 to flow out, and is able to enter the battery main body 300
The accommodating chamber 301 in.Those skilled in the art it should also be understood that the specific embodiment of the fluid injection main body 20 only
Only as an example, can't be the limitation of the content and range to centrifugal liquid-injection equipment 100 described in the utility model.
Referring to Figure of description 2B, according to a specific embodiment party of centrifugal liquid-injection equipment 100 described in the utility model
Formula, the linkage 30 of the centrifugal liquid-injection equipment 100 include a fixed pedestal 31, an arrying main body 32 and one
Drain main body 33, wherein the arrying main body 32 is movably connected in the arrying main body 32, the arrying main body 32 has
There is a bearing space 320, the battery main body 300 is housed inside the bearing space 320, and the drain main body 33 is set
In the bearing space 320 of the arrying main body 32, the drain main body 33 is connected to the note of the priming device 20
Liquid main body 21, and then the electrolyte 200 flowed out from the exit passageway 213 of the priming device 20 can be injected institute
State the battery main body 300 in bearing space 320.
Further, the fixed pedestal 31 of the linkage 30 is installed in the annular working platform 12, in institute
It states during annular working platform 12 drives the priming device 20 and the linkage 30 to rotate, the drain main body 33 will
The electrolyte 200 injects in the accommodating chamber 301 of the battery main body 300, while by one in the accommodating chamber 301
Air 400 is discharged, and then is conducive to the electrolyte 200 and fills up the accommodating chamber 301, and sufficiently impregnate the battery main body
300 anode pole piece and cathode pole piece, so that the lithium electricity as obtained by the battery main body 300 and the electrolyte 200
Pond has good service performance.
Specifically, the arrying main body 32 is pivotally connected with the fixed pedestal 31, when the linkage 30 is in
When original state, the fixed pedestal 31 of the linkage 30 and the annular working platform keep horizontal, while the company
The arrying main body 32 of dynamic device 30 and the fixed pedestal 31 keep plumbness, are housed inside the bearing space 320
The extending direction of the interior battery main body 300 is vertical with the annular working platform 12;When the linkage 30 is in the ring
Start to rotate under the drive of shape workbench 12, the arrying main body 32 by centrifugal force is acted on around 32 turns of the fixed pedestal
Dynamic, the angle between the arrying main body 32 and the fixed pedestal 31 is gradually increased, so that being housed inside the bearing space
The angle between the battery main body 300 and the fixed pedestal 31 in 320 is gradually increased, that is, the battery main body 300
It is gradually in heeling condition, being conducive to will into the electrolyte 200 in the accommodating chamber 301 of the battery main body 300
The air 400 in the accommodating chamber 300 of the battery main body 300 is discharged.When the rotation speed of the annular working platform 12
Degree increases, and the angle between the arrying main body 32 and the fixed pedestal 31 also increases with it, and makes the battery main body
300 can keep horizontal with the fixed pedestal 31, that is, the centrifugal force energy that the arrying main body 32 is subject to during rotation
Enough so that the angle between the arrying main body 32 and the fixed pedestal 31 turns to 180 ° from 90 °, be conducive to described in increase
The centrifugal force that electrolyte 200 is subject to, and accelerate the electrolyte 200 under the action of the centrifugal force into the battery main body 300
Speed in the accommodating chamber 301, and the air 400 that can be rapidly discharged in the accommodating chamber 301.It should can
With understanding, the angle between the arrying main body 32 and the fixed pedestal 31 can be maintained between 90 ° to 180 °
Any position, i.e., during rotation, angle between the battery main body 300 and the fixed pedestal 31 can be by
It is maintained at any position between 90 ° to 180 °.The battery main body 300 can generate inclined angular dimension and can't be pair
The limitation of the content and range of centrifugal liquid-injection equipment 100 described in the utility model.
Further, referring to Figure of description 2B, the arrying main body 32 is including a connecting element 321 and by movably
It is set to a loading element 322 of the connecting element 321, wherein the loading element 322 is held in the connecting element
321 lower part, the bearing space 320 are formed between the connecting element 321 and the loading element 322, the connection
Element 322 is rotatably connected at the fixed pedestal 31, and the drain main body 33 is installed in the connecting element 321.
The drain main body 33 includes a fluid-directing needle 331 and a catheter 332, wherein the fluid-directing needle 331 has a reservoir channel
3311, the catheter 332 has a flow-guiding channel 3321, and the catheter 332 connects the fluid-directing needle 331 and the fluid injection
Main body 21, and the flow-guiding channel 3321 be connected to the fluid-directing needle 331 the reservoir channel 3311 and the fluid injection main body 21
The exit passageway 213, the electrolyte 200 can flow to described from the exit passageway 213 of the fluid injection main body 21
The reservoir channel 3311 of fluid-directing needle 331.Further, the fluid-directing needle 331 is parallel to described with the fluid-directing needle 331
The mode of the extending direction of connecting element 321 is fixed in the connecting element 321, and the fluid injection of the fluid-directing needle 331
Channel 3311 is connected to the bearing space 320, and then the electrolyte 200 can be injected to the institute in the bearing space 320
It states in the accommodating chamber 301 of battery main body 300.
Further, the loading element 322 is arranged in a manner of it can slide relative to the connecting element 321
The connecting element 321, so that the fluid-directing needle 331 is able to enter the accommodation space of the battery main body 300
In 301, be conducive to rapidly inject the electrolyte 200 in the accommodating chamber 301, while the appearance can rapidly be discharged
The air 400 received in chamber 301.Specifically, it is opened when under drive of the linkage 30 in the annular working platform 12
Begin to rotate, the loading element 322 can be slided towards the connecting element 321, so that being housed inside the bearing space 320
The interior battery main body 300 is close to the fluid-directing needle 331, and with the quickening of rotation speed, enables the fluid-directing needle 331
The electrolyte 200 is injected the battery main body by the mode in enough accommodating chambers 301 to be inserted into the battery main body 300
In 300 accommodating chamber 301.
Specifically, referring to Fig. 2 B, the connecting element 321 further comprise an interconnecting piece 3212 and one extend it is described
One maintaining part 3213 of interconnecting piece 3212, the maintaining part 3213 are arranged at the lower part of the interconnecting piece 3212, and the company
Element 321 is connect with an accommodation space 3211 and a sliding groove 3214, the accommodation space 3211 is formed in the interconnecting piece
3212, the sliding groove 3214 is formed between the interconnecting piece 3212 and the maintaining part 3213.The loading element 322
Further comprise a supporting part 3221 and a sliding part 3222, wherein the sliding part 3222 from the supporting part 3221 integrally
It upwardly extends, the sliding part 3222 can move in the sliding groove 3214 of the connecting element 321, and in the company
Connect the interconnecting piece 3212 of element 321, the supporting part 3221 of the loading element 322 and the sliding part 3222 it
Between form the bearing space 320, the size of the bearing space 320 changes with the movement of the sliding part 3222, into
And the relative position for changing the sliding part 3222 can change the battery main body being contained in the bearing space 320
Relative distance between 300 and the fluid-directing needle 331.
Referring to attached drawing 2B, the arrying main body 32 further comprises two linkage parts 323, two linkage parts
323 are separately connected the sliding part 3222 and the fixed pedestal 31 of the loading element 322.Further, the fixation
Pedestal 31 includes a fixed part 311 and a mounting portion 312, and the mounting portion 312 extends the fixed part 311, the gearing
One upper end 3231 of component 323 is pivotally connected in the lower part 3122 of the mounting portion 312, opposite with the upper end 3231
A lower end 3232 be pivotally connected in the sliding part 3222 of the loading element 322.In the linkage part 323
While the upper end 3231 is rotated around the fixed pedestal 31, the lower end 3232 of the linkage part 323 is around institute
The sliding part 3222 for stating loading element 322 rotates, and pulls the sliding part 3222 in the institute of the connecting element 321
Sliding in sliding groove 3214 is stated, and then changes the battery master for being placed in the supporting part 3221 of the loading element 322
Relative distance between body 300 and the fluid-directing needle 331, so that the fluid-directing needle 331 is able to enter the battery main body 300
In the accommodating chamber 301.
Preferably, the fixed part 311 of the fixed pedestal 31 has a guiding channel 3111, the priming device 20
It is installed in such a way that the access road 211 of the fluid injection main body 21 is corresponding with the guiding channel 3111 described solid
Determine the fixed part 311 of pedestal 31, and then be connected to the access road 211 and the guiding channel, so that the electrolyte
200 can enter the access road 211 by the guiding channel 3111.
Furthermore, it is understood that that is, described linkage 30 does not start to rotate when the linkage 30 is in original state
When, the battery main body 300 of the supporting part 3221 is placed in far from the fluid-directing needle 331, and the linkage part 323 tilts
Ground connects the fixed pedestal 31 and the loading element 322;Start to rotate when the linkage 30 is driven, the carrying
The centrifugal force that main body 32 is subject to enables the connecting element 321 to rotate relative to the fixed pedestal 31, and then the company
The angle connect between element 321 and the fixed pedestal 31 increases, while being connected to the gearing of the loading element 322
Angle between component 323 and the fixed pedestal 31 increases, and the linkage part 323 pulls the sliding part 3222 described
Sliding in sliding groove 3214, and then shorten the distance between the battery main body 300 and the fluid-directing needle 331, so that described lead
Liquid needle 331 is able to enter in the accommodating chamber 301 of the battery main body 300.Preferably, when the connecting element 321 is being revolved
When keeping level with the fixed pedestal 31 during turning, the linkage part 323 can also be kept with the fixed pedestal 31
When horizontal, at this point, the fluid-directing needle 331 can be fully inserted into the accommodating chamber 301 of the battery main body 300, the electricity
Solution liquid 200 can flow through the flow-guiding channel of the catheter 332 from the exit passageway 213 of the fluid injection main body 21
3321, the reservoir channel 3311 of the fluid-directing needle, and be able to enter the accommodating chamber 301 of the battery main body 300
Bottom.During the annular working platform 12 continues to keep rotation, the electrolyte 200 constantly injects the battery master
In the accommodating chamber 301 of body 300, under the influence of centrifugal force, held into the electrolyte 200 in the accommodating chamber 301
The continuous bottom for moving to the accommodating chamber 301, and the air 400 in the accommodating chamber 301 is squeezed out, thus the electricity
The accommodating chamber 301 can be full of by solving liquid 200, enable the anode pole piece of the battery main body 300 and cathode pole piece abundant
It is infiltrated.
Further, when the rotation speed reduction of the annular working platform 12, it is fixed in the annular working platform 12
The priming device 20 it is synchronous with the rotation speed of the linkage 30 reduce, and then the connecting element 321 with it is described solid
Determine angle between pedestal 31 to reduce, at the same be connected to the loading element 322 the linkage part 323 and the fixation
Angle between pedestal 31 reduces, and the linkage part 323 pushes the sliding part 3222 to slide in the sliding groove 3214,
So that the fluid-directing needle 331 gradually comes out out of the battery main body 300 the accommodating chamber 301, and it is gradually distant from institute
Battery main body 300 is stated, enables and fills the battery main body 300 of the electrolyte 200 from quilt in the bearing space 320
It takes out.
It is noted that the linkage 30 and the priming device 20 can synchronous matching, avoid leading described
When liquid needle 331 does not enter the accommodating chamber 301 of the battery main body 300, the electrolyte 200 is from the fluid-directing needle 331
Outflow in the reservoir channel 3311, while also can be avoided the fluid-directing needle 331 and separating rear institute with the battery main body 300
The still lasting outflow of electrolyte 200 is stated, and then is conducive to that the electrolyte 200 is avoided to pollute the battery main body 300 and operation ring
Border, while it is unrestrained also to avoid the electrolyte 200.That is, the centrifugal liquid-injection equipment 100 allows the electrolysis
Liquid 200 is after the accommodating chamber 301 that the fluid-directing needle 331 enters the battery main body 300, from the institute of the fluid-directing needle 331
Outflow in reservoir channel 3311 is stated, and is entered in the accommodating chamber 301 of the battery main body 300, and in the fluid-directing needle
Before 331 separate with the battery main body 300, stops the electrolyte 200 and flowed out from the fluid injection main body 20.
Referring to Fig. 2 B, the loading element 322 further comprises a guide fixture 3223, the guide fixture 3223
The installation of the battery main body 300 can be guided, and the battery main body 300 is stably fixed in the loading element
322, it is separated during rotation with the loading element 322 to avoid the battery main body 300.Preferably, the guidance
Fixing piece 3223 is arranged at the supporting part 3221, the guidance fixed part 3223 in a manner of being embedded in the supporting part 3221
It can guide described in 32211 entrance of an opening of the battery main body 300 from the supporting part 3221 of the loading element 322
In bearing space 320, and after the battery main body 300 enters bearing space 320, the guide fixture 3223 makes
The battery main body 300 is held stably in the bearing space 320, avoids the battery main body 300 in the mistake of rotation
The gravity being subject in journey described to topple over or separate with the loading element 322.Preferably, the guidance is solid
Determine part 3223 and be implemented as magnet, the shell of the battery main body 300 is made for metal material, 3223 energy of guide fixture
Battery main body 300 described in enough inspirations, which is automatically entered in the bearing space 320 and then saved, installs the battery main body 300
Time is conducive to improve operating efficiency.It is noted that the material of the battery main body 300 is merely exemplary, Bu Nengcheng
For the limitation of content and range to centrifugal liquid-injection equipment 100 described in the utility model.Also, the battery main body 300
Shape is unrestricted, and the shape of the cross section of the battery main body 300 can be implemented as but be not limited to round, ellipse, pros
Shape, rectangle etc..
In addition, the centrifugal liquid-injection equipment 100 can also provide others in the utility model others embodiment
Guidance mode, such as can be in the loading member with for guiding the battery main body 300 to be installed in the bearing space 320
Chamfering is arranged in the mounted position of part 322, and chamfering position is corresponding with the opening 32211 of the supporting part 3221.
It, will be according to an electrolyte filling method of a centrifugal liquid-injection equipment of the utility model referring to Figure of description 3A to Fig. 3 E
It is set forth in following description.
Figure of description 3A shows the first stage of the electrolyte filling method: one battery main body 300 of guidance enter it is described from
In one bearing space 320 of core type liquid-injection equipment 100, and an accommodating chamber 301 of the battery main body 300 is connected to the carrying
Space 320.Preferably, attract shell battery as made from metal material by the magnetic guide fixture 3223 of tool
One opening 32211 of main body 300 from a supporting part 3221 of a loading element 322 enters in the bearing space 320, into institute
The extending direction for stating the accommodating chamber 301 of the battery main body 300 in bearing space 320 is vertical with horizontal plane holding.
The second stage of the electrolyte filling method is shown in Figure of description 3B: the battery main body 300 being driven to rotate,
And it will be in an electrolyte 200 filling a to accommodating chamber 301 of the battery main body 300.In second stage, the annular work of driving one
To make platform 12 to rotate around a support base 11, the annular working platform 12 drives a priming device 20 and a linkage 30 rotation,
And the battery main body 300 being carried in the bearing space 320 of the linkage 30 is rotated, the battery main body
Tilt angle between 300 and the annular working platform 12 increases, and the electrolyte 200 is made to be able to enter the battery master
In the accommodation space 301 of body 300, transported under the influence of centrifugal force into the electrolyte 200 in the accommodating chamber 301
It moves to the bottom of the accommodation space 301.
It further comprise step in the second stage: by the way that a fluid-directing needle 331 is inserted into the battery main body 300
Mode the electrolyte 200 is injected in the accommodating chamber 301 of the battery main body 300.Specifically, by rotating
The mode of the supporting part 3221 and 331 relative distance of fluid-directing needle that change the carrying battery main body 300 in the process makes
It obtains the fluid-directing needle 331 to be inserted into the accommodating chamber 301 of the battery main body 300, and then the fluid-directing needle 331 is described
Reservoir channel 3311 is connected to the accommodating chamber 301.More specifically, starting to rotate when the linkage 30 is driven, the company
The centrifugal force that one arrying main body 32 of dynamic device 30 is subject to enables a connecting element 321 of the arrying main body 32 opposite
It is rotated in the fixed pedestal 31 of the linkage 30, and then between the connecting element 321 and the fixed pedestal 31
Angle increase, while being rotatably connected at a linkage part 323 of the loading element 322 around 31 turns of the fixed pedestal
Dynamic, the linkage part 323, which pulls, extends a sliding part 3222 of the supporting part 3221 towards the connecting element 321
The distance between sliding, and then shorten the battery main body 300 for being placed in the supporting part 3221 and the fluid-directing needle 331.
A preferred embodiment according to the present utility model further comprises step in the second stage: described in connection
An access road 211, an allocation space 221 and an exit passageway 213 for priming device 20, so that the electrolyte 200 exists
The access road 211 and the allocation space 221 can successively be passed through in rotary course, and from the exit passageway 2133
It flow in the reservoir channel 3311 of the fluid-directing needle 331.Further, an active agent 22 of the priming device 20 exists
The centrifugal force being subject in rotary course moves the active agent 22 in an active tunnel 212 of the priming device 20
It is dynamic, and make the allocation space 221 of the active agent 22 and 213 phase of the access road 211 and the exit passageway
It is corresponding, and then it is connected to the access road 211 and the exit passageway 213.
It further comprise step in the second stage in the another preferred embodiment of the utility model: connection institute
State a liquid storage space 2141, a liquid separation channel 215, the allocation space 221 and the exit passageway of priming device 20
213, so that the electrolyte 200 can successively pass through the access road 211 and the allocation space in rotary course
221, and from the reservoir channel 3311 that the exit passageway 2133 flow to the fluid-directing needle 331.Further, the note
The centrifugal force that the active agent 22 of liquid device 20 is subject in rotary course makes the active agent 22 in the fluid injection
Moved in the active tunnel 212 of device 20, and make the active agent 22 the allocation space 221 and it is described go out
Mouth channel 213 and the liquid separation channel 215 for being connected to the liquid storage space 2141 are corresponding, and then the liquid storage space 2141
The interior electrolyte 200 lower reservoir channel 3311 that can flow to the fluid-directing needle 331 used in centrifugal force.
The phase III of the electrolyte filling method is shown in Figure of description 3C: increasing the inclination of the battery main body 300
Angle, and the electrolyte 200 is kept to continue into the accommodating chamber 301 of the battery main body 300.Specifically,
Increase the tilt angle of the battery main body 300 by way of spinning up speed, and then increases and enter the battery main body
The centrifugal force effect that electrolyte 200 in 300 accommodating chamber 301 is subject to, the electrolyte 200 can be in the work of centrifugal force
The bottom of the accommodating chamber 30 is moved under, and the air 400 in the accommodating chamber 301 is squeezed out.Preferably, by adding
Fast rotation speed enables to the extending direction of the accommodating chamber 301 of the battery main body 300 to be consistent with horizontal plane,
That is, the inclination angle between the battery main body 300 and the annular working platform 12 can reach 180 °, so that described in
The centrifugal force that the electrolyte 200 in battery main body 301 is subject to is maximum, is on the one hand conducive to the electrolyte 200 and squeezes out institute
The air 400 in accommodating chamber 301 is stated, on the other hand, the centrifugal force that the electrolyte 200 is subject to enables to the electrolysis
Liquid 200 is held in the accommodating chamber 301, and is not easy to overflow out of described accommodating chamber 301.
The fourth stage of the electrolyte filling method is shown in Figure of description 3D: reducing the inclination of the battery main body 300
Angle.Specifically, when the electrolyte 200 in the accommodating chamber 301 for entering the battery main body 300 will be filled with institute
Accommodating chamber 301 is stated, the rotation speed of the annular working platform 12 slows down, and is fixed in the fluid injection of the annular working platform 12
Device 20 and the rotation speed of the linkage 30 synchronize slow down, and then the connecting element 321 and the fixed pedestal 31
Between angle reduce, while being connected between the linkage part 323 and the fixed pedestal 31 of the loading element 322
Angle reduce, the linkage part 323 pushes the sliding part 3222 to slide in the sliding groove 3214, so that described lead
Liquid needle 331 gradually comes out out of the battery main body 300 the accommodating chamber 301.
The fourth stage of the electrolyte filling method is shown in Figure of description 3E: being stopped rotating, so that the battery main body
300 accommodating chamber 301 extends perpendicularly to horizontal plane.And then the appearance of the battery main body 300 can be kept
The mode for extending perpendicularly to horizontal plane of chamber 301 received takes out the battery main body 300 out of described bearing space 320,
To complete the injection process of the battery main body 300.
According to the one aspect of the utility model, the utility model further provides for the electrolyte filling method of a battery main body, wherein
The electrolyte filling method includes the following steps:
(a) battery main body 300 is driven to rotate;
(b) it fills in an electrolyte 200 a to accommodating chamber 301 of the battery main body 300;And
(c) angle between horizontal plane of the battery main body 300 is adjusted.
It will be appreciated by those skilled in the art that above embodiments are only for example, wherein the feature of different embodiments
It can be combined with each other, do not explicitly pointed out in the accompanying drawings with obtaining being readily conceivable that according to the content that the utility model discloses
Embodiment.
It should be understood by those skilled in the art that foregoing description and the embodiments of the present invention shown in the drawings are only used as
It illustrates and is not intended to limit the utility model.The purpose of this utility model completely and effectively realizes.The function of the utility model
Energy and structural principle show and illustrate in embodiment, under without departing from the principle, the embodiments of the present invention
Can there are any deformation or modification.
Claims (11)
1. a linkage characterized by comprising
One fixed pedestal;With
One arrying main body, wherein the arrying main body has a bearing space, for carrying a battery main body, the carrying master
Body is rotatably connected at the fixed pedestal, the arrying main body can change during rotation be housed inside it is described
The battery main body in bearing space and the angle between horizontal plane.
2. linkage according to claim 1, wherein the linkage includes a drain main body, the drain main body
It is arranged at the arrying main body, the drain main body can obtain an electrolyte, and keep rotation in the arrying main body
The electrolyte is filled to an accommodating chamber of the battery main body in the process.
3. linkage according to claim 2, wherein the arrying main body and the fixed pedestal are pivotally connected.
4. linkage according to claim 2, wherein the angle model between the arrying main body and the fixed pedestal
It encloses are as follows: 90 ° to 180 °.
5. linkage according to claim 2, wherein the arrying main body includes a connecting element and a loading element,
Wherein the loading element is movably disposed in the connecting element, wherein the connecting element is rotatablely arranged at
The fixed pedestal.
6. linkage according to claim 5, wherein the loading element relative to the connecting element can slide
Mode be arranged at the connecting element.
7. linkage according to claim 2, wherein the linkage is suitable for the application of in a priming device, wherein institute
Stating drain main body includes a fluid-directing needle and a catheter, wherein the fluid-directing needle has a reservoir channel, the priming device packet
A fluid injection main body is included, the fluid injection main body has an exit passageway, and the catheter has a flow-guiding channel, and the catheter connects
The fluid-directing needle and the fluid injection main body are connect, and the flow-guiding channel is connected to the reservoir channel and the note of the fluid-directing needle
The exit passageway of liquid main body, and the reservoir channel of the fluid-directing needle is connected to the bearing space.
8. linkage according to claim 6, wherein the arrying main body further comprises two linkage parts, two
The linkage part both ends are rotatably coupled the loading element and the fixed pedestal respectively.
9. linkage according to claim 8, wherein the loading element further comprises a guide fixture, it is described
Guide fixture is installed in the bearing space.
10. linkage according to claim 9, wherein the guide fixture is magnet.
11. a centrifugal liquid-injection equipment characterized by comprising
One operation post, wherein the operation post includes a support base and the annular for being rotatably installed on the support base
Workbench;
One priming device, wherein the priming device is arranged at the annular working platform;And
According to claim 1 to any linkage in 10, wherein the linkage is arranged at the annular work
Make platform.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821234371.6U CN208923268U (en) | 2018-08-02 | 2018-08-02 | Centrifugal liquid-injection equipment and its linkage |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821234371.6U CN208923268U (en) | 2018-08-02 | 2018-08-02 | Centrifugal liquid-injection equipment and its linkage |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208923268U true CN208923268U (en) | 2019-05-31 |
Family
ID=66701696
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821234371.6U Active CN208923268U (en) | 2018-08-02 | 2018-08-02 | Centrifugal liquid-injection equipment and its linkage |
Country Status (1)
Country | Link |
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CN (1) | CN208923268U (en) |
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2018
- 2018-08-02 CN CN201821234371.6U patent/CN208923268U/en active Active
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