CN202949011U - Automatic container formation system of lead-acid battery - Google Patents
Automatic container formation system of lead-acid battery Download PDFInfo
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- CN202949011U CN202949011U CN2012205502975U CN201220550297U CN202949011U CN 202949011 U CN202949011 U CN 202949011U CN 2012205502975 U CN2012205502975 U CN 2012205502975U CN 201220550297 U CN201220550297 U CN 201220550297U CN 202949011 U CN202949011 U CN 202949011U
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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
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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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model discloses an automatic container formation system of a lead-acid battery, which comprises an acid liquor input device, acid liquor adding nozzles, an acid liquor backflow device, an acid liquor cooling device and an acid liquor circulating tank. An acid liquor drawing pipe is fixedly arranged in a transfer tunnel of each acid liquor adding nozzle, the acid liquor backflow device comprises an acid liquor backflow pipe, a plurality of acid liquor backflow collecting pipes and a plurality of acid liquor backflow branch pipes, each acid liquor backflow collecting pipe is connected to the acid backflow pipe, the acid liquor backflow branch pipes which are connected to the acid liquor backflow collecting pipes are connected to the acid liquor drawing pipes, the acid cooling device comprises a liquor drawing device, a liquor collecting tank and a cool air cooling device, wherein the liquor drawing device is connected to the acid liquor backflow pipe, the liquor collecting tank is connected to the liquor drawing device, the cool air cooling device is connected to the liquor collecting tank, the acid liquor circulating tank is connected to the cool air cooling device, the acid input pipe is connected to the acid liquor circulating tank. The automatic container formation system has the advantages of small size, simplicity in operation, stable formation quality, and environmental protection.
Description
Technical field
The utility model relates to lead acid accumulator production field, particularly a kind of system that is internalized into of lead acid accumulator.
Background technology
Lead acid accumulator changes into the green plate (pole plate that does not change into) that refers to bone dry and is placed on and carries out electrolysis in dilute sulfuric acid electrolyte, through redox, make respectively the lead monoxide of positive plate become brown lead oxide, make the lead monoxide of negative plate become the process of biscuit lead; The quality that changes into all will directly have influence on the performance of lead acid accumulator.Therefore, changing into is the very crucial procedure of lead acid accumulator manufacturing.At present, the chemical synthesizing method of domestic lead acid accumulator has two kinds, and the one, the outer method (slot type changes into) that changes into, namely green plate changes into the electrolytic bath charging; The 2nd, formation method after namely first green plate being assembled into storage battery, then adds the electrolyte charging to change into; Wherein, the method that changes into outward has the more manageable advantage of technique, but large for the volume of the customizations grooving that changes into outward, take up space, and operation sequence is comparatively complicated, simultaneously, the acid mist that forms in formation process can distribute from the electrolytic bath of open type, serious environment pollution; Though and formation method has advantages of that the simple and easy and environmental pollution of operational degree is little, and the cooling of electrolyte realized by cooling water, the temperature of the electrolyte in lead acid accumulator can't be grasped, cause easily that to change into quality unstable.
In view of above-mentioned reason, the inventor furthers investigate the defective of above-mentioned lead-acid battery formation method, is then produced by this case.
The utility model content
It is little that the purpose of this utility model is to provide a kind of volume, operates simple and easyly, changes into steady quality, and the system that automatically is internalized into of the lead acid accumulator of protection of the environment.
the technical solution of the utility model is such: a kind of system that automatically is internalized into of lead acid accumulator, comprise acid solution input unit and acid adding mouth, this acid adding mouth has the acid solution input channel, the acid solution transfer passage that is connected with this acid solution input channel, and the acid solution delivery outlet that is connected with this acid solution transfer passage, this acid solution input unit comprises the acid solution tank, acid solution input pipe and some acid solution collecting pipes, this acid solution tank and this acid solution input pipe are connected, each acid solution collecting pipe is connected with this acid solution input pipe respectively, the corresponding lead acid accumulator setting of this acid solution collecting pipe, and be connected with some acid solution inlet branch on each acid solution collecting pipe, the filling opening setting of the corresponding lead acid accumulator of each acid solution inlet branch, on each acid solution inlet branch, the acid adding mouth is installed all, and be connected with the acid solution input channel of acid adding mouth, also include the acid solution reflux, acid solution cooling device and recycle acid tank, be installed with acid extracting pipe in above-mentioned acid solution transfer passage, and the first end of above-mentioned acid extracting pipe stretches out outside above-mentioned acid solution transfer passage, the second end of above-mentioned acid extracting pipe extends in the bottom of lead acid accumulator through above-mentioned acid solution delivery outlet, above-mentioned acid solution reflux comprises the acid solution return duct, some acid solution backflow collecting pipes and some acid solution backflow arms, each above-mentioned acid solution backflow collecting pipe all is connected with above-mentioned acid solution return duct, the corresponding lead acid accumulator setting of above-mentioned acid solution backflow collecting pipe, the acid solution backflow arm that connects on above-mentioned acid solution backflow collecting pipe and the first end of acid extracting pipe are connected, above-mentioned acid solution cooling device comprises the pumping device that the acid solution in lead acid accumulator is extracted out, the liquid collecting tank that the acid solution that pumping device is extracted out is collected and acid solution is carried out cooling cold air cooling device, above-mentioned liquid collecting tank has liquid inlet and liquid outlet, the input of above-mentioned pumping device and above-mentioned acid solution return duct are connected, the output of above-mentioned pumping device and the liquid inlet of above-mentioned liquid collecting tank are connected, the input of the liquid outlet of above-mentioned liquid collecting tank and above-mentioned cold air cooling device is connected, the output of above-mentioned cold air cooling device and above-mentioned recycle acid tank are connected, above-mentioned recycle acid tank and above-mentioned acid solution input pipe are connected.
Above-mentioned acid solution transfer passage parallels with the axis at the vertical place of above-mentioned acid extracting pipe, and the axis at above-mentioned acid solution input channel and above-mentioned acid extracting pipe vertical place is perpendicular.
Convex with snap ring on the first end lateral wall of above-mentioned acid extracting pipe, be concaved with in above-mentioned acid solution transfer passage for this snap ring and snap in fixing installation groove.
Also include support, above-mentioned support is provided with the mounting table of placing for lead acid accumulator, and is in the upper frame above this mounting table, and above-mentioned acid solution tank and above-mentioned recycle acid tank all are arranged on above-mentioned upper frame.
above-mentioned acid solution tank comprises diluted acid tank and concentrated acid tank, the diluted acid feed tube that flows out for pickle is installed on above-mentioned diluted acid tank, the concentrated acid feed tube that flows out for concentrated acid liquid is installed on above-mentioned concentrated acid tank, the cooling sour feed tube that flows out for cooling acid solution is installed on above-mentioned recycle acid tank, on above-mentioned acid solution input pipe, a four-way pipe is installed, the first port of above-mentioned four-way pipe and above-mentioned diluted acid feed tube are connected, the second port and above-mentioned concentrated acid feed tube are connected, the 3rd port and above-mentioned cooling sour feed tube are connected, the 4th port and above-mentioned acid stream input pipe are connected, and the diluted acid switch valve of controlling this diluted acid feed tube conducting or cut-off is installed on above-mentioned diluted acid feed tube, the concentrated acid switch valve of controlling this concentrated acid feed tube conducting or cut-off is installed on above-mentioned concentrated acid feed tube, the cooling sour switch valve of controlling this cooling sour feed tube conducting or cut-off is installed on above-mentioned cooling sour feed tube, the master switch valve of controlling this acid solution input pipe conducting or cut-off is installed on above-mentioned acid solution input pipe.
Above-mentioned pumping device comprises vacuum tank and vacuum pump, above-mentioned acid solution return duct and above-mentioned vacuum pump are connected with above-mentioned vacuum tank respectively, the liquid inlet of above-mentioned liquid collecting tank is connected through the first feed tube and above-mentioned vacuum tank, the first switch valve of controlling this feed tube conducting or cut-off is installed on above-mentioned the first feed tube, and above-mentioned acid solution return duct is provided with the second switch valve of controlling this acid solution return duct conducting or cut-off.
Above-mentioned vacuum tank is provided with the atmospheric valve that this vacuum tank is carried out emptying.
above-mentioned cold air cooling device comprises drawing liquid pump, cooling tank and condenser, the input of above-mentioned drawing liquid pump is connected through the liquid outlet of the second feed tube and above-mentioned liquid collecting tank, above-mentioned condenser is connected through ajutage and above-mentioned cooling tank, above-mentioned cooling tank is provided with liquid inlet and liquid outlet, above-mentioned drawing liquid delivery side of pump is connected through the liquid inlet of the 3rd feed tube and above-mentioned cooling tank, the liquid outlet of above-mentioned cooling tank is connected through the 4th feed tube and above-mentioned recycle acid tank, above-mentioned the second feed tube is provided with the 3rd switch valve of controlling this second feed tube conducting or cut-off, above-mentioned the 3rd feed tube is provided with the 4th switch valve of controlling the 3rd feed tube conducting or cut-off, above-mentioned the 4th feed tube is provided with the 5th switch valve of controlling the 4th feed tube conducting or cut-off.
Also include electrical control cubicles, above-mentioned diluted acid switch valve, concentrated acid switch valve, cooling sour switch valve, master switch valve, the first switch valve, second switch valve, atmospheric valve, the 3rd switch valve, the 4th switch valve and the 5th switch valve are electrically-controlled valve, are provided with in above-mentioned electrical control cubicles to control the valve control module that each above-mentioned electrically-controlled valve is worked respectively.
after adopting technique scheme, automatically the system that is internalized into of lead acid accumulator of the present utility model, during work, first add in lead acid accumulator by acid solution input unit and the acid adding mouth acid solution that ratio is deployed, by pumping device, a part of acid solution in lead acid accumulator is drawn to the acid solution arm that confluxes through acid extracting pipe again, and the acid solution backflow collecting pipe of flowing through, the acid solution return duct, pumping device and liquid collecting tank are to the cold air cooling device, the cold air cooling device carries out cooling by cold air to this acid solution, cooled acid solution flow in the recycle acid tank again, and by acid solution input unit and acid adding mouth, cooled acid solution is added in lead acid accumulator, make the acid solution in lead acid accumulator form a circulating cooling state, thereby the acid solution in lead acid accumulator can not heated up in electrolytic process, remain under the normal temperature state, avoided distributing because of the higher acid mist that produces of temperature of the acid solution in lead acid accumulator, prevented the generation of acid mist, improve staff's working condition, the useful life of extension device, protection of the environment, be used to simultaneously carry out cooling to cold air to acid solution, the temperature adjustable of cold air, the temperature of the acid solution in lead acid accumulator can be grasped, avoid to support because of the temperature of acid solution in lead acid accumulator the unsettled problem of quality that changes into that causes of holding, and need not the customizations grooving, have volume little, operate easy advantage.
Description of drawings
Fig. 1 is stereogram of the present utility model;
Fig. 2 is the stereogram of another angle of the utility model;
Fig. 3 is the A section enlarged drawing of Fig. 2;
Fig. 4 is the stereogram of acid adding mouth in the utility model;
Fig. 5 is the cut-away view of acid adding mouth in the utility model;
Fig. 6 is the constitutional diagram (omitting acid solution tank and recycle acid tank) of workbench and acid solution input unit, acid solution reflux and recycle acid tank in the utility model;
Fig. 7 is the A section enlarged drawing of Fig. 6;
Fig. 8 is the stereogram of acid solution cooling device in the utility model;
Fig. 9 is the stereogram of another angle of acid solution cooling device in the utility model.
In figure:
Acid solution tank 11 diluted acid tanks 111
Concentrated acid tank 112 diluted acid feed tubes 113
Concentrated acid feed tube 114 input pipes 12
Four-way pipe 121 acid solution collecting pipes 13
Acid solution inlet branch 14 acid adding mouths 2
Acid solution input channel 21 acid solution transfer passages 22
Acid solution delivery outlet 23 acid solution refluxes 3
Acid solution return duct 31 acid solution backflow collecting pipes 32
Acid solution backflow arm 33 acid solution cooling devices 4
Liquid collecting tank 42 cold air cooling devices 43
Drawing liquid pump 431 cooling tanks 432
The second feed tube 45 ajutages 46
The 3rd feed tube 47 the 4th feed tube 48
The cooling sour feed tube 51 of recycle acid tank 5
Support 6 mounting tables 61
Acid extracting pipe 8 snap rings 81
Diluted acid switch valve 91 concentrated acid switch valves 92
Cooling sour switch valve 93 master switch valves 94
Switch valve 95,96,97,98,99
Embodiment
Automatically the system that is internalized into of a kind of lead acid accumulator of the present utility model as shown in Fig. 1-9, comprises acid solution input unit, acid adding mouth 2, acid solution reflux 3, acid solution cooling device 4, recycle acid tank 5, support 6 and electrical control cubicles 7.
described acid adding mouth 2 is a column construction, has acid solution input channel 21 on this acid adding mouth 2, the acid solution transfer passage 22 that is connected with this acid solution input channel 21, and the acid solution delivery outlet 23 that is connected with this acid solution transfer passage 22, the interior setting of this acid solution transfer passage 22 has acid extracting pipe 8, and acid solution transfer passage 22 parallels with the axis at acid extracting pipe 8 vertical places, acid solution input channel 21 is perpendicular with the axis at acid extracting pipe 8 vertical places, the first end of this acid extracting pipe 8 stretches out outside acid solution transfer passage 22, the second end of this acid extracting pipe 8 is in acid solution delivery outlet 23 extends to the bottom of lead acid accumulator 100, convex with snap ring 81 on the first end lateral wall of this acid extracting pipe 8, be concaved with on the upper end madial wall of acid solution transfer passage 22 for this snap ring 81 and snap in fixing installation groove, coordinating of groove acid extracting pipe 8 can be fixed on acid adding mouth 2 by snap ring 81 with installation.
Described support 6 is provided with for several lead acid accumulators 100 mounting tables 61 placed side by side, and is in the upper frame 62 of this mounting table 61 tops.
described acid solution input unit comprises acid solution tank 11, acid solution input pipe 12 and some acid solution collecting pipes 13, acid solution tank 11 comprises diluted acid tank 111 and concentrated acid tank 112, this diluted acid tank 111, concentrated acid tank 112 and recycle acid tank 5 are placed side by side on upper frame 62, the diluted acid feed tube 113 that flows out for the pickle in diluted acid tank 111 is installed on the bottom sidewall of this diluted acid tank 111, the diluted acid switch valve 91 of controlling these diluted acid feed tube 113 conductings or cut-off is installed on diluted acid feed tube 113, the concentrated acid feed tube 114 that flows out for the concentrated acid liquid in concentrated acid tank 112 is installed on the bottom sidewall of concentrated acid tank 112, the concentrated acid switch valve 92 of controlling these concentrated acid feed tube 114 conductings or cut-off is installed on this concentrated acid feed tube 114, the top of recycle acid tank 5 offers liquid inlet, the bottom offers liquid outlet, the cooling sour feed tube 51 that flows out for the acid solution in this recycle acid tank 5 is installed on the liquid outlet of this recycle acid tank 5, the cooling sour switch valve 93 of controlling these cooling sour feed tube 51 conductings or cut-off is installed on this cooling sour feed tube 51, one end of acid solution input pipe 12 is equipped with four-way pipe 121, the first port and the diluted acid feed tube 113 of this four-way pipe 121 are connected, the second port and concentrated acid feed tube 114 are connected, the 3rd port and cooling sour feed tube 51 are connected, the 4th port is connected with acid stream input pipe 12, and the master switch valve 94 of controlling these acid solution input pipe 12 conductings or cut-off is installed on acid solution input pipe 12, each acid solution collecting pipe 13 is connected with acid solution input pipe 12 respectively, the corresponding lead acid accumulator 100 of acid solution collecting pipe 13 arranges, and be connected with some acid solution inlet branch 14 on each acid solution collecting pipe 13, the filling opening setting of the corresponding lead acid accumulator 100 of each acid solution inlet branch 14, on each acid solution inlet branch 14, acid adding mouth 2 is installed all, and is connected with the acid solution input channel 21 of acid adding mouth 2.
described acid solution reflux 3 comprises acid solution return duct 31, some acid solution backflow collecting pipes 32 and some acid solution backflow arms 33, each acid solution backflow collecting pipe 32 all is connected with acid solution return duct 31, the corresponding lead acid accumulator 100 of acid solution backflow collecting pipe 32 arranges, be connected with some acid solution backflow arms 33 on each acid solution backflow collecting pipe 32, the filling opening setting of these acid solution backflow arm 33 corresponding lead acid accumulators 100, each acid solution backflow arm 33 is connected in the first end of acid extracting pipe 2, the switch valve 95 of controlling this acid solution return duct conducting or cut-off is installed on acid solution return duct 31.
described acid solution cooling device 4 comprises pumping device 41, liquid collecting tank 42 and cold air cooling device 43, described pumping device 41 comprises vacuum tank 411 and vacuum pump 412, acid solution return duct 31 is connected with vacuum tank 411 respectively with vacuum pump 412, vacuum tank 411 is stacked on liquid collecting tank 42, the top of this liquid collecting tank 42 offers liquid inlet, the bottom offers liquid outlet, the liquid inlet of this liquid collecting tank 42 is connected with vacuum tank 411 through the first feed tube 44, and the switch valve 96 of controlling these the first feed tube 44 conductings or cut-off is installed on this first feed tube 44, described cold air cooling device 43 comprises drawing liquid pump 431, cooling tank 432 and condenser 433, the input of drawing liquid pump 431 is connected through the liquid outlet of the second feed tube 45 with liquid collecting tank 42, the switch valve 97 of controlling these the second feed tube 45 conductings or cut-off is installed on this second feed tube 45, condenser 433 is connected through ajutage 46 and cooling tank 432, this condenser 433 is positioned on a rack 101 jointly with cooling tank 432, this cooling tank 432 is provided with liquid inlet and liquid outlet, the output of drawing liquid pump 431 is connected through the liquid inlet of the 3rd feed tube 47 with cooling tank 432, the 3rd feed tube 47 is provided with the switch valve 98 of controlling the 3rd feed tube 47 conductings or cut-off, the liquid outlet of cooling tank 432 is connected through the liquid inlet of the 4th feed tube 48 with recycle acid tank 5, the 4th feed tube 48 is provided with the switch valve 99 of controlling the 4th feed tube 48 conductings or cut-off.In the utility model, vacuum tank 411 is provided with the atmospheric valve 411a that this vacuum tank 411 is carried out emptying, can regulate the interior pressure of vacuum tank 411 by this atmospheric valve 411a.
Described diluted acid switch valve 91, concentrated acid switch valve 92, cooling sour switch valve 93, master switch valve 94, switch valve 95,96,97,98,99 reaches atmospheric valve 411a and is electrically-controlled valve, and is provided with the valve control module (not shown) that each electrically-controlled valve of control is worked respectively in electrical control cubicles 7.
automatically the system that is internalized into of lead acid accumulator of the present utility model, during work, electrical control cubicles 7 is controlled diluted acid and is driven valve valve 91, concentrated acid switch valve 92, cooling sour switch valve 93, master switch valve 94, switch valve 95, 96, 97, 98, 99 open respectively, pickle in diluted acid tank 111 through diluted acid feed tube 113 to acid solution input pipe 12, the concentrated acid liquid of concentrated acid tank 112 through concentrated acid feed tube 114 to acid solution input pipe 12, the interior pickle of acid solution input pipe 12 is mixed with the concentrated acid liquid phase also successively through acid solution collecting pipe 13, acid solution inlet branch 14, the acid solution input channel 21 of acid adding mouth 2, the acid solution transfer passage 22 of acid adding mouth 2 and the acid solution delivery outlet 23 of acid adding mouth 2 are to lead acid accumulator 100, at this moment, the suction that utilizes vacuum pump 412 to produce, a part of acid solution in lead acid accumulator can be drawn to the acid solution arm 33 that confluxes through acid extracting pipe 8, and flow through acid solution backflow collecting pipe 32 and acid solution return duct 31 to vacuum tank 411, acid solution in vacuum tank 411 through the first feed tube 44 to liquid collecting tank 42, the interior acid solution of liquid collecting tank 42 flow to the second feed tube 45 by drawing liquid pump 431, and through the 3rd feed tube 47 to cooling tank 432, and the cold air that condenser 433 produces flows in cooling tank 432 through ajutage 46, acid solution in cooling tank 432 is undertaken cooling by the cold air that condenser 433 produces like this, the temperature of the acid solution in cooling tank 432 is reduced, the interior cooling acid solution of cooling tank 432 flows in recycle acid tank 5 through the 4th feed tube 48, the interior cooling acid solution of recycle acid tank 5 flows into acid solution input pipe 12 through cooling sour feed tube 51, and successively through acid solution collecting pipe 13, acid solution inlet branch 14, the acid solution input channel 21 of acid adding mouth 2, the acid solution transfer passage 22 of acid adding mouth 2 and the acid solution delivery outlet 23 of acid adding mouth 2 are to lead acid accumulator 100, like this, acid solution in lead acid accumulator 100 can form a circulating cooling state, acid solution acid solution in electrolytic process in lead acid accumulator 100 can not heated up, also the inner heat that produces of lead acid accumulator 100 can be taken out of, lead acid accumulator is played cooling effect, make the acid solution in lead acid accumulator 100 can remain the normal temperature state, avoided distributing because of the higher acid mist that produces of temperature of the acid solution in lead acid accumulator 100, prevented the generation of acid mist, improve staff's working condition, the useful life of extension device, protection of the environment, be used to simultaneously carry out cooling to the cold air that condenser 433 produces to the acid solution in cooling tank 432, the temperature adjustable of the cold air that condenser 433 produces, the temperature of the acid solution in lead acid accumulator 100 can be grasped, avoid to support because of the temperature of lead acid accumulator 100 interior acid solutions the unsettled problem of quality that changes into that causes of holding, and need not the customizations grooving, small volume, and a whole process controls by electrical control cubicles 7, operates simple and easy.Automatically the system that is internalized into of lead acid accumulator of the present utility model, after being in cyclic process, acid solution in lead acid accumulator 100 diluted acid switch valve 91 and concentrated acid switch valve 92 can be closed, can control concentrated acid switch valve 92 by electrical control cubicles 7 when the density of the acid solution in lead acid accumulator 100 is rarer opens, the interior acid solution density of lead acid accumulator 100 can be adjusted at any time, thereby can guarantee lead acid accumulator acidity density constant.
In the utility model, in order to improve the acid adding operating efficiency, automatically the system that is internalized into of lead acid accumulator also includes the mounting panel 102 that the acid adding mouth 2 above all filling openings of each lead acid accumulator 100 is connected and installs, this mounting panel 102 is provided with the lift cylinder 103 of controlling these mounting panel 102 oscilaltion campaigns, control the acid adding actuator of acid adding mouth 2 by this lift cylinder 103, make the acid adding action comparatively accurate.
Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present utility model to its suitable variation or modification of doing.
Claims (9)
1. the system that automatically is internalized into of a lead acid accumulator, comprise acid solution input unit and acid adding mouth, this acid adding mouth has the acid solution input channel, the acid solution transfer passage that is connected with this acid solution input channel, and the acid solution delivery outlet that is connected with this acid solution transfer passage, this acid solution input unit comprises the acid solution tank, acid solution input pipe and some acid solution collecting pipes, this acid solution tank and this acid solution input pipe are connected, each acid solution collecting pipe is connected with this acid solution input pipe respectively, the corresponding lead acid accumulator setting of this acid solution collecting pipe, and be connected with some acid solution inlet branch on each acid solution collecting pipe, the filling opening setting of the corresponding lead acid accumulator of each acid solution inlet branch, on each acid solution inlet branch, the acid adding mouth is installed all, and be connected with the acid solution input channel of acid adding mouth, it is characterized in that: also include the acid solution reflux, acid solution cooling device and recycle acid tank, be installed with acid extracting pipe in above-mentioned acid solution transfer passage, and the first end of above-mentioned acid extracting pipe stretches out outside above-mentioned acid solution transfer passage, the second end of above-mentioned acid extracting pipe extends in the bottom of lead acid accumulator through above-mentioned acid solution delivery outlet, above-mentioned acid solution reflux comprises the acid solution return duct, some acid solution backflow collecting pipes and some acid solution backflow arms, each above-mentioned acid solution backflow collecting pipe all is connected with above-mentioned acid solution return duct, the corresponding lead acid accumulator setting of above-mentioned acid solution backflow collecting pipe, the acid solution backflow arm that connects on above-mentioned acid solution backflow collecting pipe and the first end of acid extracting pipe are connected, above-mentioned acid solution cooling device comprises the pumping device that the acid solution in lead acid accumulator is extracted out, the liquid collecting tank that the acid solution that pumping device is extracted out is collected and acid solution is carried out cooling cold air cooling device, above-mentioned liquid collecting tank has liquid inlet and liquid outlet, the input of above-mentioned pumping device and above-mentioned acid solution return duct are connected, the output of above-mentioned pumping device and the liquid inlet of above-mentioned liquid collecting tank are connected, the input of the liquid outlet of above-mentioned liquid collecting tank and above-mentioned cold air cooling device is connected, the output of above-mentioned cold air cooling device and above-mentioned recycle acid tank are connected, above-mentioned recycle acid tank and above-mentioned acid solution input pipe are connected.
2. the system that automatically is internalized into of lead acid accumulator according to claim 1, it is characterized in that: above-mentioned acid solution transfer passage parallels with the axis at the vertical place of above-mentioned acid extracting pipe, and the axis at above-mentioned acid solution input channel and above-mentioned acid extracting pipe vertical place is perpendicular.
3. the system that automatically is internalized into of lead acid accumulator according to claim 1, is characterized in that: convex with snap ring on the first end lateral wall of above-mentioned acid extracting pipe, be concaved with in above-mentioned acid solution transfer passage for this snap ring and snap in fixing installation groove.
4. the system that automatically is internalized into of lead acid accumulator according to claim 1, it is characterized in that: also include support, above-mentioned support is provided with the mounting table of placing for lead acid accumulator, with the upper frame that is in this mounting table top, above-mentioned acid solution tank and above-mentioned recycle acid tank all are arranged on above-mentioned upper frame.
5. the system that automatically is internalized into of according to claim 1 or 4 described lead acid accumulators, it is characterized in that: above-mentioned acid solution tank comprises diluted acid tank and concentrated acid tank, the diluted acid feed tube that flows out for pickle is installed on above-mentioned diluted acid tank, the concentrated acid feed tube that flows out for concentrated acid liquid is installed on above-mentioned concentrated acid tank, the cooling sour feed tube that flows out for cooling acid solution is installed on above-mentioned recycle acid tank, on above-mentioned acid solution input pipe, a four-way pipe is installed, the first port of above-mentioned four-way pipe and above-mentioned diluted acid feed tube are connected, the second port and above-mentioned concentrated acid feed tube are connected, the 3rd port and above-mentioned cooling sour feed tube are connected, the 4th port and above-mentioned acid stream input pipe are connected, and the diluted acid switch valve of controlling this diluted acid feed tube conducting or cut-off is installed on above-mentioned diluted acid feed tube, the concentrated acid switch valve of controlling this concentrated acid feed tube conducting or cut-off is installed on above-mentioned concentrated acid feed tube, the cooling sour switch valve of controlling this cooling sour feed tube conducting or cut-off is installed on above-mentioned cooling sour feed tube, the master switch valve of controlling this acid solution input pipe conducting or cut-off is installed on above-mentioned acid solution input pipe.
6. the system that automatically is internalized into of lead acid accumulator according to claim 5, it is characterized in that: above-mentioned pumping device comprises vacuum tank and vacuum pump, above-mentioned acid solution return duct and above-mentioned vacuum pump are connected with above-mentioned vacuum tank respectively, the liquid inlet of above-mentioned liquid collecting tank is connected through the first feed tube and above-mentioned vacuum tank, the first switch valve of controlling this feed tube conducting or cut-off is installed on above-mentioned the first feed tube, and above-mentioned acid solution return duct is provided with the second switch valve of controlling this acid solution return duct conducting or cut-off.
7. the system that automatically is internalized into of lead acid accumulator according to claim 6, it is characterized in that: above-mentioned vacuum tank is provided with the atmospheric valve that this vacuum tank is carried out emptying.
8. the system that automatically is internalized into of lead acid accumulator according to claim 6, it is characterized in that: above-mentioned cold air cooling device comprises drawing liquid pump, cooling tank and condenser, the input of above-mentioned drawing liquid pump is connected through the liquid outlet of the second feed tube and above-mentioned liquid collecting tank, above-mentioned condenser is connected through ajutage and above-mentioned cooling tank, above-mentioned cooling tank is provided with liquid inlet and liquid outlet, above-mentioned drawing liquid delivery side of pump is connected through the liquid inlet of the 3rd feed tube and above-mentioned cooling tank, the liquid outlet of above-mentioned cooling tank is connected through the 4th feed tube and above-mentioned recycle acid tank, above-mentioned the second feed tube is provided with the 3rd switch valve of controlling this second feed tube conducting or cut-off, above-mentioned the 3rd feed tube is provided with the 4th switch valve of controlling the 3rd feed tube conducting or cut-off, above-mentioned the 4th feed tube is provided with the 5th switch valve of controlling the 4th feed tube conducting or cut-off.
9. the system that automatically is internalized into of lead acid accumulator according to claim 8, it is characterized in that: also include electrical control cubicles, above-mentioned diluted acid switch valve, concentrated acid switch valve, cooling sour switch valve, master switch valve, the first switch valve, second switch valve, atmospheric valve, the 3rd switch valve, the 4th switch valve and the 5th switch valve are electrically-controlled valve, are provided with in above-mentioned electrical control cubicles to control the valve control module that each above-mentioned electrically-controlled valve is worked respectively.
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CN2012205502975U CN202949011U (en) | 2012-10-23 | 2012-10-23 | Automatic container formation system of lead-acid battery |
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CN2012205502975U CN202949011U (en) | 2012-10-23 | 2012-10-23 | Automatic container formation system of lead-acid battery |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102916228A (en) * | 2012-10-23 | 2013-02-06 | 福建省三净环保科技有限公司 | Automatic container formation system for lead-acid storage battery |
WO2017065710A1 (en) * | 2015-10-12 | 2017-04-20 | Zesar Kalipçilik Sanayi̇ Ve Ti̇caret Ltd. Şti̇. | Vertical battery charging station with acid circulation |
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2012
- 2012-10-23 CN CN2012205502975U patent/CN202949011U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102916228A (en) * | 2012-10-23 | 2013-02-06 | 福建省三净环保科技有限公司 | Automatic container formation system for lead-acid storage battery |
CN102916228B (en) * | 2012-10-23 | 2015-10-28 | 福建省三净环保科技有限公司 | Lead acid accumulator be automatically internalized into system |
WO2017065710A1 (en) * | 2015-10-12 | 2017-04-20 | Zesar Kalipçilik Sanayi̇ Ve Ti̇caret Ltd. Şti̇. | Vertical battery charging station with acid circulation |
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