CN206657743U - Capacitor lead-out wire forming liquid temperature control equipment - Google Patents
Capacitor lead-out wire forming liquid temperature control equipment Download PDFInfo
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- CN206657743U CN206657743U CN201720462337.3U CN201720462337U CN206657743U CN 206657743 U CN206657743 U CN 206657743U CN 201720462337 U CN201720462337 U CN 201720462337U CN 206657743 U CN206657743 U CN 206657743U
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- electrolytic bath
- forming liquid
- reservoir
- backflash
- out wire
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Abstract
The utility model provides a kind of capacitor lead-out wire forming liquid temperature control equipment, it includes electrolytic bath, backflash, reservoir and freezing unit, the electrolytic bath, backflash, reservoir and freezing unit are sequentially communicated, the electrolytic bath, backflash and reservoir also form closed-loop path, and the reservoir and freezing unit also form closed-loop path.Compared with prior art, the utility model has following beneficial effect:1st, because chemical conversion lead-out wire temperature meets design requirement in slave mode, forming liquid electrical conductivity;2nd, the height of formation voltage and chemical conversion temperature-time change, are controlled by freezing unit cool time;3rd, require that different temperature is met using grading control during multistage chemical conversion;4th, change water cooling and cool down forming liquid indirectly, economize on resources.
Description
Technical field
A kind of capacitor lead-out wire forming liquid temperature control equipment is the utility model is related to, belongs to capacitor parts technology
Field.
Background technology
Capacitor lead-out wire formation process, flatten terminal part mainly for lead-out wire and carry out electrochemical processing, that is,
Apply voltage and current in specific forming liquid to be allowed to react, surface forms oxide-film, and forming liquid temperature is rapid in processing procedure
Rise, electrical conductivity changes therewith, and its is specific as follows:
1st, temperature rises electrical conductivity and becomes big;
2nd, electrical conductivity size determines formation voltage size;
3rd, it is relevant with electrical conductivity, voltage x current to be melted into the time;
4th, oxide thickness with crystal shape, it is relevant with voltage x current and electrical conductivity.
In summary, forming liquid is wished at a certain specific temperature,(Relative conductivity is in certain section)Apply solid
Determine voltage x current, acquisition is pre-designed requirement.
The content of the invention
For in the prior art the defects of, the purpose of this utility model is to provide a kind of capacitor lead-out wire forming liquid temperature
Control device.
The utility model is achieved through the following technical solutions:
The utility model provides a kind of capacitor lead-out wire forming liquid temperature control equipment, and it includes electrolytic bath, backflow
Groove, reservoir and freezing unit, the electrolytic bath, backflash, reservoir and freezing unit are sequentially communicated, the electrolytic bath, returned
Chute and reservoir also form closed-loop path, and the reservoir and freezing unit also form closed-loop path.
Preferably, the reservoir is also connected with a liquid pool.
Preferably, the bottom of the electrolytic bath and middle part are respectively equipped with matrixes for embossing and temperature sensor, describedization
The bottom and middle part of grooving are respectively equipped with matrixes for embossing and temperature sensor, and the upper portion side wall of electrolytic bath is provided with metering hole, electrolytic bath
Bottom be provided with return port, the matrixes for embossing is provided with cushion hole.
Preferably, the backflash is provided with liquid limiter.
A kind of capacitor lead-out wire forming liquid temperature control equipment as the aforementioned, it comprises the following steps:
S1, it is on switching again after turning on the power switch, each Solenoid ball valve limiter is in "on" position, liquid pool chemical conversion
Liquid, forming liquid is in working condition in electrolytic bath;
S2, freezing unit turn on the power switch, 28 ~ 30 DEG C of upper limit alarm temperature 50 Cs of offering question;
S3, when capacitor lead-out wire is powered up piezoelectricity into electrolytic bath and is fluidized to, in electrolytic bath forming liquid temperature by
Step improves, when temperature is opened more than the Solenoid ball valve of 35 DEG C of connection backflashes, and meanwhile it is cold by cold-rolling mill is had already passed through in reservoir
But forming liquid is constantly supplemented and circulated into electrolytic bath by Solenoid ball valve;
S4, in order to produce hydraulic shock when preventing electrolytic bath fluid infusion, supplement forming liquid from chemical conversion trench bottom into and through
Uniformly mixing overcomes because liquid surge influences lead-out wire formation effect matrixes for embossing aperture;
High temperature forming liquid in S5, backflash reaches limiter position, and limiter sends signal, and Solenoid ball valve is opened liquid
Body is sent into liquid reserve tank and mixed with having freezed electrolytic bath body fluid;
Should " cell body limiter position " to be electrolytic bath flow into high temperature forming liquid to backflash when reaching a certain height, limiter
Send signal to convey liquid to liquid reserve tank, prevent backflash from overflowing.
When S6, liquid reserve tank temperature are more than 36 DEG C, temperature controller is signaled to freezing unit and starts to be melted into reservoir
Liquid carries out circulating cooling, is spaced 5 minutes due to dropping to 25 DEG C from 45 DEG C using the direct-cooled 60kg forming liquids of forming liquid, makes liquid reserve tank
Forming liquid Bao Chi≤25 DEG C;
S7, due to a part of forming liquid can be consumed in formation process, it is spacing when liquid reserve tank forming liquid is reduced to certain position
Device sends signal, and open link liquid pool by controller carries out fluid infusion with the direct Solenoid ball valve of reservoir, reaches certain position
Limiter sends signal and stops fluid infusion;
S8, send signal alarm prompting when entering the forming liquid of freezing unit cooling more than 50 DEG C;
In S9, electrolytic bath feed liquor and go out liquid balance pass through backflash limiter, as the more backflashes of feed liquor go out liquid lack when liquid level
Rise, send signal fluid infusion stopping;
S10, when the forming liquid in electrolytic bath exceed set temperature when, alarm stop chemical conversion;
S11, above signal transmission, the control of temperature setting limiter, Solenoid ball valve action are complete by controller man-machine interface
Into.
Compared with prior art, the utility model has following beneficial effect:
1st, because chemical conversion lead-out wire temperature meets design requirement in slave mode, forming liquid electrical conductivity;
2nd, the height of formation voltage and chemical conversion temperature-time change, are controlled by freezing unit cool time;
3rd, require that different temperature is met using grading control during multistage chemical conversion;
4th, change water cooling and cool down forming liquid indirectly, economize on resources.
Brief description of the drawings
By reading the detailed description made with reference to the following drawings to non-limiting example, other spies of the present utility model
Sign, objects and advantages will become more apparent upon:
Fig. 1 is the structural representation of capacitor lead-out wire forming liquid temperature control equipment in the utility model;
Fig. 2 is the front view of electrolytic bath in the utility model;
Fig. 3 is the side view of electrolytic bath in the utility model;
Fig. 4 is the top view of matrixes for embossing in the utility model;
In figure:1st, electrolytic bath;2nd, backflash;3rd, reservoir;4th, unit is freezed;5th, liquid pool;6th, magnetic valve;11st, it is embossed
Plate;12nd, temperature sensor;13rd, metering hole;21st, liquid limiter;111st, cushion hole.
Embodiment
The utility model is described in detail with reference to specific embodiment.Following examples will be helpful to this area
Technical staff further understands the utility model, but does not limit the utility model in any form.It should be pointed out that to ability
For the those of ordinary skill in domain, without departing from the concept of the premise utility, various modifications and improvements can be made.
These belong to the scope of protection of the utility model.
As shown in Fig. 1 ~ 4, the utility model provides a kind of capacitor lead-out wire forming liquid temperature control equipment, and it includes
Electrolytic bath 1, backflash 2, reservoir 3 and freezing unit 4, electrolytic bath 1, backflash 2, reservoir 3 and freezing unit 4 connect successively
Logical, electrolytic bath 1, backflash 2 and reservoir 3 also form closed-loop path, and reservoir 3 and freezing unit 4 also form closed-loop path.
Reservoir 3 is also connected with a liquid pool 5, the liquid between each closed-loop path and reservoir 3 and liquid pool 5
The break-make of liquid is controlled on path by magnetic valve 6.
The bottom and middle part of electrolytic bath 1 are respectively equipped with matrixes for embossing 11 and temperature sensor 12, and the upper portion side wall of electrolytic bath 1 is set
Restricted orifice 13, the bottom of electrolytic bath 1 are provided with return port, and matrixes for embossing 11 is provided with cushion hole 111.
Backflash 2 is provided with liquid limiter 21.
A kind of capacitor forming liquid temperature control equipment as the aforementioned, it comprises the following steps:
S1, it is on switching again after turning on the power switch, each Solenoid ball valve limiter is in "on" position, liquid pool chemical conversion
Liquid, forming liquid is in working condition in electrolytic bath;
S2, freezing unit turn on the power switch, 28 ~ 30 DEG C of upper limit alarm temperature 50 Cs of offering question;
S3, when capacitor lead-out wire is powered up piezoelectricity into electrolytic bath and is fluidized to, in electrolytic bath forming liquid temperature by
Step improves, when temperature is opened more than the Solenoid ball valve of 35 DEG C of connection backflashes, and meanwhile it is cold by cold-rolling mill is had already passed through in reservoir
But forming liquid is constantly supplemented and circulated into electrolytic bath by Solenoid ball valve;
S4, in order to produce hydraulic shock when preventing electrolytic bath fluid infusion, supplement forming liquid from chemical conversion trench bottom into and through
Uniformly mixing overcomes because liquid surge influences lead-out wire formation effect matrixes for embossing aperture;
High temperature forming liquid in S5, backflash reaches cell body limiter position, and limiter sends signal, and Solenoid ball valve is opened
Liquid feeding liquid reserve tank is mixed with having freezed forming liquid;
When S6, liquid reserve tank temperature are more than 36 DEG C, temperature controller is signaled to freezing unit and starts to be melted into reservoir
Liquid carries out circulating cooling, is spaced 5 minutes due to dropping to 25 DEG C from 45 DEG C using the direct-cooled 60kg forming liquids of forming liquid, makes liquid reserve tank
Forming liquid Bao Chi≤25 DEG C;
S7, due to a part of forming liquid can be consumed in formation process, it is spacing when liquid reserve tank forming liquid is reduced to certain position
Device sends signal, and open link liquid pool by controller carries out fluid infusion with the direct Solenoid ball valve of reservoir, reaches certain position
Limiter sends signal and stops fluid infusion;
S8, send signal alarm prompting when entering the forming liquid of freezing unit cooling more than 50 DEG C;
In S9, electrolytic bath feed liquor and go out liquid balance pass through backflash limiter, as the more backflashes of feed liquor go out liquid lack when liquid level
Rise, send signal fluid infusion stopping;
S10, when the forming liquid in electrolytic bath exceed set temperature when, alarm stop chemical conversion;
S11, above signal transmission, the control of temperature setting limiter, Solenoid ball valve action are complete by controller man-machine interface
Into.
Specific embodiment of the utility model is described above.It is to be appreciated that the utility model not office
It is limited to above-mentioned particular implementation, those skilled in the art can make various deformations or amendments within the scope of the claims,
This has no effect on substantive content of the present utility model.
Claims (4)
1. a kind of capacitor lead-out wire forming liquid temperature control equipment, it is characterised in that including electrolytic bath, backflash, reservoir
With freezing unit, the electrolytic bath, backflash, reservoir and freezing unit are sequentially communicated, the electrolytic bath, backflash and liquid storage
Groove also forms closed-loop path, and the reservoir and freezing unit also form closed-loop path.
2. capacitor lead-out wire forming liquid temperature control equipment as claimed in claim 1, it is characterised in that the reservoir is also
It is connected with a liquid pool.
3. capacitor lead-out wire forming liquid temperature control equipment as claimed in claim 1, it is characterised in that the electrolytic bath
Bottom and middle part are respectively equipped with matrixes for embossing and temperature sensor, and the upper portion side wall of electrolytic bath is provided with metering hole, the bottom of electrolytic bath
Provided with return port, the matrixes for embossing is provided with cushion hole.
4. capacitor lead-out wire forming liquid temperature control equipment as claimed in claim 1, it is characterised in that on the backflash
Provided with liquid limiter.
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CN201720462337.3U CN206657743U (en) | 2017-04-28 | 2017-04-28 | Capacitor lead-out wire forming liquid temperature control equipment |
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CN201720462337.3U CN206657743U (en) | 2017-04-28 | 2017-04-28 | Capacitor lead-out wire forming liquid temperature control equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106952749A (en) * | 2017-04-28 | 2017-07-14 | 南通南铭电子有限公司 | Capacitor lead-out wire forming liquid temperature control equipment and its temprature control method |
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2017
- 2017-04-28 CN CN201720462337.3U patent/CN206657743U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106952749A (en) * | 2017-04-28 | 2017-07-14 | 南通南铭电子有限公司 | Capacitor lead-out wire forming liquid temperature control equipment and its temprature control method |
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