CN201044211Y - Automatization formation equipment - Google Patents

Abstract

The utility model relates to automatic formation equipment for automatic formation processing of a plurality of bearing disks inserted with objects and comprises a main frame, a transmission unit which is arranged on the main frame and can convey the bearing disks along one horizontal direction, a formation section which corresponds to a first end of the main frame and can allow the objects of the bearing disks to be made formation processing as well as a cleaning and drying section which is arranged at downstream of the formation section and can clean and absorb the moisture of the objects. With this, the utility model can ensure that the bearing disks are automatically conveyed, are made formation processing as well as cleaning and drying operation in turn, can finish conveyance, formation processing as well as cleaning and drying operation by taking advantage of automation operation, can increase the productivity and decrease the cost, and is suitable for practicality.

Description

The automation formation device

Technical field

The utility model relates to a kind of formation device, particularly relate to a kind of conducting polymer solid-state capacitor that makes and change into processing, can carry automatically and in order, change into and handle and the clean dry operation, can reach the automation formation device that promotes the production capacity and the effect that reduces cost.

Background technology

General conducting polymer solid-state capacitor (hereinafter to be referred as capacitor), before complete back and use, all must be through changing into processing, so that producing, the surface of capacitor lures electric body oxide scale film, change into liquid and change into reaction through dipping in regular turn and change into the processing meeting to make, clean, dry ... as to wait processing procedure, and when changing into reaction, meeting is diversified in specifications according to capacitor, and make the processing procedure that changes into of each capacitor, electrode tip voltage and electric current change along with electrolytic bath, progressive finishing, and also can could will change into liquid and thoroughly clean through the manufacturing process for cleaning of multiple tracks.

That is to say, can be except changing into processing through the multiprogramming, cleaning, drying also are the work flows that needs multiple tracks, and each road operation procedure all must be manually to move.And existing capacitor change into processing, all be to use the single-channel type electrolytic bath, make and must carry out multiple tracks when changing into processing procedure, must over and over again move, insert, take out, not only be difficult to the automation mode to change into operation, and cost height, production capacity are low.

This shows that above-mentioned existing formation device obviously still has inconvenience and defective, and demands urgently further being improved in structure and use.In order to solve the problem of above-mentioned existence, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but do not see always that for a long time suitable design finished by development, and common product does not have appropriate structure to address the above problem, this obviously is the problem that the anxious desire of relevant dealer solves.Therefore how to found a kind of automation formation device of new structure, real one of the current important research and development problem that belongs to, also becoming the current industry utmost point needs improved target.

Because the defective that above-mentioned existing formation device exists, the design people is based on being engaged in this type of product design manufacturing abundant for many years practical experience and professional knowledge, and the utilization of cooperation scientific principle, actively studied innovation, in the hope of founding a kind of automation formation device of new structure, can improve general existing formation device, make it have more practicality.Through constantly research, design, and, create the utility model that has practical value finally through after studying sample and improvement repeatedly.

Summary of the invention

The purpose of this utility model is, overcome the defective that existing formation device exists, and provide a kind of automated job that utilizes to finish carrying, change into and handle and the clean dry operation, and the automation formation device that can promote production capacity, reduce cost, be very suitable for practicality.

The purpose of this utility model and to solve its technical problem be to adopt following technical scheme to realize.According to a kind of automation formation device that the utility model proposes, be to carry out automation for most trays to change into processing, and all be plugged with most objects in the described tray; This formation device comprises: a frame is to extend along a horizontal direction, and has a first end and a second end opposite with this first end; A supply unit is mounted on this frame, has an actuator and a chain group that is subjected to this actuator driving, and this chain group turns round along this horizontal direction, and has most the location divisions that uniformly-spaced are provided with and supply the tray placement positioning; One changes into section, to first end that should frame, and have most along this horizontal direction side by side and to electrolytic bath that should tray that supply unit carries, at least one drive described electrolytic bath along one perpendicular to the vertical direction of this horizontal direction with respect to tray produce the actuator of lifting, most electrode units that are arranged on the electrolytic bath top and at least one drive described electrode unit with respect to tray produce contact or away from actuator; And clean dry section, be arranged on this along this horizontal direction and change into the section downstream, and having most along this horizontal direction setting and to rinse bath, most the absorbing units that are disposed on described rinse bath one side that should tray that supply unit carries and at least one drives rinse bath and absorbing unit vertically produces the actuator of lifting with respect to tray, described absorbing unit respectively has one corresponding to the water adsorbent element bottom the tray.

The purpose of this utility model and solve its technical problem and can also be able to be further achieved by the following technical measures.

Aforesaid automation formation device, it also includes a pan feeding storage station that is arranged on this frame first end outside, this pan feeding storage station has a support body, an actuator, a chain group that is installed on this support body and driven by this actuator, one is installed on this support body and with tray and changes into the carrying unit that section is moved by this chain group top towards this, this chain group is moved from lower to upper along this vertical direction running and with tray, and the portions that bear that have most individual uniformly-spaced settings and supply the tray placement positioning, this carrying unit has a slide rail that extends along this horizontal direction, a slide that is installed on this slide rail, one drives the actuator that this slide slides along this slide rail, a lifting cylinder pressure that is installed on this slide, one is subjected to horizontal cylinder pressure that this lifting cylinder pressure drives and two driven by this horizontal cylinder pressure to produce to stretch out and the jaw of retraction, and described jaw is subjected to the driving meeting that tray is produced clamping and release.

Aforesaid automation formation device, it also includes a discharging storage station that is arranged on this frame the second end outside, this discharging storage station has a support body, an actuator, a chain group that is installed on this support body and driven by this actuator, one is installed on this support body and with tray and is moved to the carrying unit at this chain group top by this clean dry section, this chain group is moved from top to bottom along this vertical direction running and with tray, and the portions that bear that have most individual uniformly-spaced settings and supply the tray placement positioning, this carrying unit has a slide rail that extends along this horizontal direction, a slide that is installed on this slide rail, one drives the actuator that this slide slides along this slide rail, a lifting cylinder pressure that is installed on this slide, one is subjected to horizontal cylinder pressure that this lifting cylinder pressure drives and two driven by this horizontal cylinder pressure to produce to stretch out and the jaw of retraction, and described jaw is subjected to the driving meeting that tray is produced clamping and release.

Aforesaid automation formation device, it also comprises a position and puts the station temporarily at the pan feeding that this changes into the section upstream, and this pan feeding is put the station temporarily and is had a pre-immersion trough and one and drive this pre-immersion trough vertically produces lifting with respect to tray actuator.

Aforesaid automation formation device, it also comprises a position and puts the station temporarily in the discharging in this clean dry section downstream.

Aforesaid automation formation device, the wherein said electrolytic bath that changes into section respectively has a main room and at least one is arranged at the overflow chamber of this main room one side, and this changes into section and also has a backflash and the pump that liquid pump is delivered to electrolytic bath that changes into that will be back to this backflash that is conducted with described overflow chamber, and constitutes a circulation circuit by electrolytic bath, backflash, pump.

Aforesaid automation formation device, the wherein said section that changes into also has a cover body and a heating unit that makes this cover body internal temperature and change into the liquid temp coupling that is located at the electrolytic bath top.

Aforesaid automation formation device, the absorbing unit of wherein said clean dry section also respectively have spool and actuator of controlling described spool and water adsorbent element rotation that two confessions water adsorbent element is in the form of a roll reeled.

Aforesaid automation formation device, it also comprises a control unit, this control unit has an input interface and a CPU, and this CPU sends that signal controls that this pan feeding storage station, supply unit, pan feeding are put the station temporarily, changed into section, clean dry section and discharging storage station produce running.

Aforesaid automation formation device, wherein said clean dry section also has a circulation channel unit that is communicated with rinse bath and a bubble generation unit, this circulation channel unit has first aqua storage tank that imports pure water, pure water pump with institute's splendid attire in first aqua storage tank is delivered to wherein two positions at second pump than the rinse bath in downstream, second aqua storage tank that reclaims the water of rinse bath, one the water pump in second aqua storage tank delivered to and be positioned at than the 3rd pump of the rinse bath of upstream and the delivery pipe that is arranged at this than the rinse bath of upstream, this bubble generation unit has most and is arranged on wireway in the rinse bath and one air is directed at the air source of described wireway, and described wireway has most ventholes.

The utility model compared with prior art has tangible advantage and beneficial effect.By above technology contents as can be known, for achieving the above object, according to automation formation device of the present utility model, be to carry out automation for most trays to change into processing, and all be plugged with most objects in the described tray, this formation device comprise object that a frame, supply unit that is installed on this frame and can transports tray, one can make tray change into processing change into section and one be arranged on this change into the section downstream and can clean object, the clean dry section of adsorption moisture.This frame is to extend along a horizontal direction, and has a first end and a second end opposite with this first end.This supply unit has an actuator and a chain group that is subjected to this actuator driving, and this chain group can turn round along this horizontal direction, and has most the location divisions that uniformly-spaced are provided with and supply the tray placement positioning.This changes into section is to first end that should frame, and have most along this horizontal direction side by side and to electrolytic bath that should tray that supply unit carries, at least one can drive described electrolytic bath along one perpendicular to the vertical direction of this horizontal direction with respect to tray produce the actuator of lifting, most electrode units that are arranged on the electrolytic bath top and at least one can drive described electrode unit with respect to tray produce contact or away from actuator.This clean dry section is to be arranged on the downstream that this changes into section along this horizontal direction, and having most along this horizontal direction setting and to rinse bath, most the absorbing units that are disposed on described rinse bath one side that should tray that supply unit carries and at least one can drive rinse bath and absorbing unit vertically produces the actuator of lifting with respect to tray, described absorbing unit respectively has one corresponding to the water adsorbent element bottom the tray.

By technique scheme, the utility model automation formation device has following advantage and beneficial effect at least: the utility model utilizes this supply unit, changes into the cooperation running of section and clean dry section, can make the tray that is plugged with object, automatically and in order carry, change into the operation of processing and clean dry, can reach lifting production capacity and purpose that reduces cost and effect.

In sum, the utility model can utilize automated job to finish carrying, change into and handle and the clean dry operation, and can promote production capacity, reduces cost, and is very suitable for practicality.The utlity model has above-mentioned plurality of advantages and practical value, no matter it all has bigger improvement on product structure or function, obvious improvement is arranged technically, and produced handy and practical effect, and more existing formation device has the outstanding effect of enhancement, thereby being suitable for practicality more, and having the extensive value of industry, really is a new and innovative, progressive, practical new design.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, and for above-mentioned and other purposes, feature and advantage of the present utility model can be become apparent, below especially exemplified by preferred embodiment, and conjunction with figs., be described in detail as follows.

Description of drawings

Fig. 1 is the combining structure plane graph of the utility model preferred embodiment.

Fig. 2 is that front-view schematic diagram is amplified in the part at a pan feeding storage of the above-mentioned preferred embodiment of the utility model station.

Fig. 3 is the schematic side view at the pan feeding storage station of the above-mentioned preferred embodiment of the utility model.

Fig. 4 is the part amplification front-view schematic diagram that pan feeding of the above-mentioned preferred embodiment of the utility model is put the station temporarily.

Fig. 5 is the part amplification front-view schematic diagram that one of the above-mentioned preferred embodiment of the utility model changes into section.

Fig. 6 is the schematic side view that changes into section of the above-mentioned preferred embodiment of the utility model.

Fig. 7 is schematic diagram that changes into the liquid stream of the above-mentioned preferred embodiment of the utility model.

Fig. 8 is the schematic diagram that section has the current potential that progressively raises that changes into of the above-mentioned preferred embodiment of the utility model.

Fig. 9 is that schematic side view is amplified in the part of a clean dry section of the above-mentioned preferred embodiment of the utility model, illustrates that an actuator can drive an ablution groove and produce lifting with respect to a tray.

Figure 10 is that schematic side view is amplified in the part of an absorbing unit of the above-mentioned preferred embodiment of the utility model.

Figure 11 is the front-view schematic diagram of the absorbing unit of the above-mentioned preferred embodiment of the utility model.

Figure 12 is the clean cycle stream schematic diagram of the above-mentioned preferred embodiment of the utility model.

Figure 13 is the part amplification front-view schematic diagram that a station and a discharging storage station are put in discharging of the above-mentioned preferred embodiment of the utility model temporarily.

Figure 14 is the discharging storage station schematic side view of the above-mentioned preferred embodiment of the utility model.

Figure 15 is the block schematic diagram of a control unit of the above-mentioned preferred embodiment of the utility model.

Embodiment

For further setting forth the utility model is to reach technological means and the effect that predetermined goal of the invention is taked, below in conjunction with accompanying drawing and preferred embodiment, to according to its embodiment of automation formation device, structure, feature and the effect thereof that the utility model proposes, describe in detail as after.

See also Fig. 1, Fig. 2 and shown in Figure 3, the preferred embodiment of the utility model automation formation device, it is the processing that changes into of carrying out automation for most trays 100, and all be plugged with most objects 101 (present embodiment is a capacitor) in the described tray 100, this formation device, it comprises a frame 10, a supply unit 20 that is installed on this frame 10 and can transports tray 100, a pan feeding storage station 30 that is arranged on these frame 10 1 sides, station 40 is put temporarily at the pan feeding in these 20 downstreams, pan feeding storage station in a position, position changes into section 50 what this pan feeding was put 40 downstreams, station temporarily, one is arranged on the clean dry section 60 that this changes into section 50 downstreams, station 70 is put in a discharging that is arranged on these clean dry section 60 downstreams temporarily, discharging storage the station 80 and control units 90 (referring to shown in Figure 15) that are arranged on these frame 10 opposite sides.

Above-mentioned frame 10 is to extend along horizontal direction X, and has the opposite the second end 12 of a first end 11 and and this first end 11.

Above-mentioned supply unit 20, having one is first actuator 21 and first a chain group 22 that intermittently driven by this first actuator 21 of example with the servo motor, this first chain group 22 can turn round along this horizontal direction X, and has most individual uniformly-spaced settings and bear portion 221 for first of tray 100 placement positioning.

Above-mentioned pan feeding storage station 30, be arranged on the outside of the first end 11 of this frame 10, and to have that one first support body 31, one be installed on this frame 10 and with the servo motor be the second chain group 33, carrying unit 34 that is installed in these first support body, 31 tops that second actuator 32, of example is subjected to that this second actuator 32 intermittently drives.

This second chain group 33, can along one perpendicular to the vertical direction Y of this horizontal direction X running and tray 100 can be moved from lower to upper, and have most and uniformly-spaced be provided with and bear portion 331 for second of tray 100 placement positioning.

This carries unit 34, has a slide rail 341 that extends along this horizontal direction X, a slide 342 that is installed on this slide rail 341, one can drive the 3rd actuator 343 that this slide 342 slides along this slide rail 341, a lifting cylinder pressure 344 that is installed on this slide 342, one driven by this lifting cylinder pressure 344 can to bear portion 221 with respect to first of the first chain group 22 to produce that the horizontal cylinder pressure 345 of liftings and two are driven by this horizontal cylinder pressure 345 to produce to stretch out and the jaw 346 of retraction, start the 3rd actuator 343, can make this slide 342 one to gripping position (shown in the imaginary line in Fig. 2 left side) that should the second chain group, 33 tops and one to moving between the placement location (shown in the solid line on Fig. 2 right side) of first end 11, starting this horizontal cylinder pressure 345 can make 346 pairs of trays of described jaw 100 produce clamping and release, start this lifting cylinder pressure 344 tray 100 is upwards picked up by these second chain group, 33 tops, or bear portion 221 towards first of corresponding first end 11 and place downwards.

See also shown in Figure 4, above-mentioned pan feeding is put station 40 temporarily, be arranged on the first end 11 of this frame 10, and placement location corresponding to this slide 342, and have one to the tray 100 that should supply unit 20 be carried and the pre-immersion trough 41 that contains water and one can drive this pre-immersion trough 41 vertically Y produce the fourth drive member 42 of liftings with respect to tray 100, this fourth drive member 42 is a servo electric jar.

See also Fig. 5 and shown in Figure 6, the above-mentioned section 50 that changes into of present embodiment, have along this horizontal direction X side by side and to one first electrolytic bath 51 that should supply unit 20 tray that carries 100, one second electrolytic bath 52, one the 3rd electrolytic bath 53, one can drive simultaneously this first, second, the 3rd electrolytic bath 51,52,53 along five actuator 54 of vertical direction Y with respect to tray 100 generation liftings, three respectively to should first, second, the 3rd electrolytic bath 51,52,53 electrode unit 55, one can drive described electrode unit 55 and produce the lifting actuator 56 of conducting or outage with respect to tray 100, one be located at this first, second, the 3rd electrolytic bath 51,52, the cover body 57 of 53 tops, reach one and can make the air themperature of cover body 57 inside and change into the heating unit 58 that liquid temp is complementary, wherein:

The 5th actuator 54 is servo electric jar;

This is first years old, second, the 3rd electrolytic bath 51,52,53, see also shown in Figure 7, it respectively has one first respectively, second, the 3rd main room 511,521,531, and two be arranged at respectively this first, second, the 3rd main room 511,521, first of 531 2 sides, second, the 3rd overflow chamber 512,522,532, and this changes into section 50 and also has one and first, second, the 3rd overflow chamber 512,522,532 backflashes that are conducted 59 and one can deliver to first with the liquid pump that changes into that is back to this backflash 59, second, the 3rd main room 511,521,531 first pump 59 ', and by first, second, the 3rd electrolytic bath 51,52,53, backflash 59, first pump 59 ' constitutes a circulation circuit, and this is first years old, second, the 3rd main room 511,521, each installation of 531 liquid inlet place is provided with a slice dispersion plate 511 ', 521 ', 531 '.And, utilize described electrode unit 55 to be preset with different magnitudes of voltage, can make first, second, third electrolytic bath 51,52,53 have the current potential (as shown in Figure 8) that progressively raises, and the 3rd electrolytic bath 53 finish change into reaction after, can produce discharge process, discharge changing into the current potential of accumulating in the reaction.51,52,53 splendid attires of this first, second, third electrolytic bath change into about 65 ℃ of liquid temp, utilize this heating unit 58 (as shown in Figure 6) hot-air to be blasted the inside of this cover body 57, can make the atmosphere temperature rising of cover body 57 inside, and be complementary with the temperature that changes into liquid, can avoid steam to run into cold air and produce the phenomenon of dewfall.

See also Fig. 1, Fig. 9 is to shown in Figure 12, above-mentioned clean dry section 60, be to be arranged on the downstream that this changes into section 50 along this horizontal direction X, and have along this horizontal direction X be provided with and to should supply unit 20 tray that carries 100 first, second, the 3rd rinse bath 61,62,63, four be disposed on this first, second, the 3rd rinse bath 61,62, the absorbing unit 64 of 63 1 sides, two can drive this first, second, the 3rd rinse bath 61,62,63 with absorbing unit 64 vertically Y produce the 6th actuator 65 of liftings with respect to tray 100, one with this first, second, the 3rd rinse bath 61,62, the 63 circulation channel units 66 that are connected, and a bubble generation unit 67, wherein:

The 6th actuator 65 is servo electric jar;

The 3rd rinse bath 63, the position in the downstream of this second rinse bath 62,62 downstreams of this second rinse bath at first rinse bath 61;

Described absorbing unit 64, respectively have spool 642 that a water adsorbent element 641 corresponding to tray 100 bottoms, two confessions water adsorbent element 641 in the form of a roll reel and one and can control the 7th actuator 643 that described spool 642 and water adsorbent element 641 are rotated, this water adsorbent element 641 is the strong paper of water absorbing force, the still untapped water adsorbent element 641 of wherein reeling on spool 642 then reclaims the water adsorbent element of having used 641 on another spool 642.

This circulation channel unit 66, as shown in figure 12, have first aqua storage tank 661 that can import pure water, one and the pure water pump of institute's splendid attire in first aqua storage tank 661 can be delivered to second aqua storage tank 663 of water in second pump 662 of this second, third rinse bath 62,63, recyclable this second, third rinse bath 62,63, the 3rd pump 664 and the delivery pipe 665 that is arranged at this first rinse bath 61 that the water pump in second aqua storage tank 663 can be delivered to this first rinse bath 61.

This bubble generation unit 67, have three wireway 671 and air sources 672 that air can be directed at described wireway 671 that are arranged in the first, second, third above-mentioned rinse bath 61,62,63, described wireway 671 has most ventholes 671 ', and starting this air source 672 can produce micro air bubble by venthole 671 ', and object 101 is produced preferable clean effect.And one of them the 6th actuator 65 is be responsible for to drive first rinse bath 61 and two positions descending operation at the absorbing unit 64 of these first rinse bath, 61 upstream and downstream, another the 6th actuator 65 be responsible for driving 62,63 and two of second, third rinse baths respectively the position at the descending operations of the absorbing unit 64 in these first, second rinse bath 62,63 downstreams.

Station 70 is put in above-mentioned discharging temporarily, is an empty station on processing procedure, tray 100 is not done any processing, only provides and finishes clean tray 100 dislocations location.

See also Figure 13 and shown in Figure 14, above-mentioned discharging storage station 80, be arranged on the second end 12 outsides of this frame 10, and to have that one second support body 81, one be installed on this frame 10 and with the servo motor be the 3rd chain group 83, carrying unit 84 that is installed in these second support body, 81 tops that the 8th actuator 82, of example is subjected to that the 8th actuator 82 intermittently drives.

The 3rd chain group 83 can and can be moved tray 100 from top to bottom along vertical direction Y running, and has most individual uniformly-spaced settings and bear portion 831 for the 3rd of tray 100 placement positioning.

This carries unit 84, has a slide rail 841 that extends along this horizontal direction X, a slide 842 that is installed on this slide rail 841, one can drive the 9th actuator 843 that this slide 842 slides along this slide rail 841, a lifting cylinder pressure 844 that is installed on this slide 842, one is subjected to horizontal cylinder pressure 845 that this lifting cylinder pressure 844 drives and two driven by this horizontal cylinder pressure 845 can to produce to stretch out and the jaw 846 of retraction, start the 9th actuator 843, can make this slide 842 one to the gripping position (shown in the solid line in Figure 13 left side) of should discharging putting station 70 temporarily and one to moving between the placement location (shown in the imaginary line on Figure 13 right side) at the 3rd chain group 83 tops, start this horizontal cylinder pressure 845 and can make 846 pairs of trays of jaw 100 produce clamping and release, start this lifting cylinder pressure 844 and can make tray 100 be picked up or place.

See also control unit shown in Figure 15, above-mentioned 90, having one can change into operation and input interface 91 and a CPU 92 of predetermined registration operation flow process and parameter condition according to required; This CPU 92, can send a signal S2 according to operating process and parameter condition in order to control first actuator 21 and the first chain group, 22 levels are turned round, signal S31 in order to control second actuator 32 and 33 liftings of the second chain group are turned round, one in order to control the 3rd actuator 343 and to make carrying unit 34 carry the signal S32 of trays 100, one in order to control lifting cylinder pressure 344, the signal S33 of horizontal cylinder pressure 345 and extracting or release tray 100, one in order to control fourth drive member 42 and to make tray 100 carry out the signal S4 of preimpregnation, one in order to control the 5th actuator 54 and to make tray 100 change into the signal S51 of processing, one in order to control electrode unit 55 and make first, second, the 3rd electrolytic bath 51,52,53 produce the signal S521 of different magnitudes of voltage, S522, S523, one in order to control the signal S53 of first pump 59 ', signal S54 in order to control heating unit 58, one in order to control this lifting actuator 56 so that electrode unit 55 produces the signal S55 of conductings or outage, one in order to control the 6th actuator 65 and tray 100 cleaned and dry signal S61, a signal S62 who rotates in order to control spool 642, one in order to control second pump, the 3rd pump 662,664 and make first, second, the 3rd rinse bath 61,62,63 produce the signal S63 of boiler water circulation, one in order to control this air source 672 with first, second, the 3rd rinse bath 61,62,63 produce the signal S64 of micro air bubble, one in order to control lifting cylinder pressure 844, the signal S81 of horizontal cylinder pressure 845 and extracting or release tray 100, one in order to controlling the 9th actuator 843 and to make the signal S82 of carrying unit 84 carrying trays 100, and one in order to control the 8th actuator 82 and to make the signal S83 of the 3rd chain group 83 liftings running.

Utilize this this supply unit 20 of control unit 90 may command, pan feeding storage station 30, pan feeding to put station 40 temporarily, change into section 50, clean dry section 60, discharging storage station 80 produce running, and can reach the purpose of automated job.

Please consult Fig. 1 again, Fig. 2 and shown in Figure 3, when desiring to change into processing, operating personnel need only be plugged on the tray 100 that is plugged with object 101 one by one second of this pan feeding storage station 30 and bear in the portion 331, utilize this second actuator 32 to drive the second chain group 33, just can make tray 100 move from lower to upper, and when tray 100 has moved to first support body, 31 tops, the slide of carrying unit 34 is transposition system gripping position, and utilize lifting cylinder pressure 344 to drive these horizontal cylinder pressure 345 liftings, this horizontal cylinder pressure 345 drives jaw 346 and opens, clamping, just tray 100 second can be born portion 331 and picks up from this, and starting the 3rd actuator 343 just can make tray 100 be moved to placement location by the gripping position, and placement positioning bears in the portion 221 in first of this first chain group 22, and is positioned at this pan feeding just and puts station 40 temporarily.

Then, see also Fig. 1 and shown in Figure 4, this fourth drive member 42 can drive this pre-immersion trough 41 with respect to tray 100 liftings, and makes object 101 reach the purpose of preimpregnation.And this supply unit 20 can be moved by first end 11 tray 100 towards the second end 12, and make and to put station 40 through the tray 100 of preimpregnation temporarily by pan feeding and move to this and change into section 50, and as Fig. 5 and shown in Figure 6, utilize the 5th actuator 54 to drive first, second, the 3rd electrolytic bath 51,52,53 liftings, and utilize these lifting actuator 56 drive electrode unit 55 to produce conducting, what just can make that the object 100 of tray 100 promotes current potential in regular turn changes into reaction (referring to shown in Figure 8), simultaneously, as shown in Figure 7, start this first pump 59 ', just can make this first, second, the 3rd electrolytic bath 51,52, the liquid that changes in 53 reaches and circulates purpose, to produce preferable formation effect, and also be the effect (as shown in Figure 6) that utilizes this heating unit 58, and can make the atmosphere temperature rising of these cover body 57 inside, and with 65 ℃ that change into liquid be complementary, and can avoid steam to run into the cold air dewfall, and drop to this first, second, the 3rd electrolytic bath 51,52, in 53.

Then, see also Fig. 9, Figure 10, shown in Figure 11, this supply unit 20 can be moved tray 100 again, and make through the tray 100 that changes into reaction and move to this clean dry section 60 by changing into section 50, and make that still speckling with the object 101 that changes into liquid can adsorb action through the water adsorbent element 641 of first absorbing unit 64 earlier, and through the tray 100 behind the adsorption moisture, can utilize the 6th actuator 65 to drive these first rinse bath, 61 liftings again, and the object in the tray 100 101 is cleaned with pure water, and after four road adsorption moistures and the clean operation of three road pure water, just can make object 101 reach the clean dry operation.And as shown in figure 12, utilize the setting and the circulation of this circulation channel unit 66 to send water, pure water cleanliness factor the best in this second, third rinse bath 62,63, and the water after second, third rinse bath 62,63 uses can be pumped in this first rinse bath 61 again, and can reach the purpose of water-saving, cooperate the running of this bubble generation unit 67 again, then can utilize micro air bubble, make that clean effect is better.

At last, please consult Figure 13, shown in Figure 14 again, be displaced to discharging and put the tray 100 at station 70 temporarily, can utilize the cooperation at this discharging storage station 80 again, and can be successfully with tray 100 grippings, mobile, placement, and utilize the 3rd chain group 83 and with completed tray downwards band move, collect for operating personnel.

Therefore, formation device of the present utility model utilizes whole cooperation, pan feeding carrying, get and put, preimpregnation, change into processing, clean dry, discharging carrying ... etc., carry out continuously with the operation of automation fully, not only can save manpower, and can promote production capacity, reduce cost.

What deserves to be mentioned is, pan feeding of the present utility model is put station 40 temporarily, the sky station that can set the preimpregnation operation according to user demand for or be failure to actuate, that is to say, the capacitor that has need only carry out the processing that changes into together, but the capacitor that has then need to carry out twice above change into processing, and this need carry out changing into more than the twice capacitor of processing, after changing into processing, first road must carry out one carbonization treatment again, therefore, utilize this pan feeding to put the preimpregnation effect at station temporarily, can produce preferable formation effect so that when immersing first electrolytic bath 51 again through the capacitor of carbonization treatment.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model discloses as above with preferred embodiment, yet be not in order to limit the utility model, any those skilled in the art are not in breaking away from the technical solutions of the utility model scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, according to technical spirit of the present utility model to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (10)

1. an automation formation device is to carry out automation for most trays to change into processing, and all is plugged with most objects in the described tray; It is characterized in that this formation device comprises:

A frame is to extend along a horizontal direction, and has a first end and a second end opposite with this first end;

A supply unit is mounted on this frame, has an actuator and a chain group that is subjected to this actuator driving, and this chain group turns round along this horizontal direction, and has most the location divisions that uniformly-spaced are provided with and supply the tray placement positioning;

One changes into section, to first end that should frame, and have most along this horizontal direction side by side and to electrolytic bath that should tray that supply unit carries, at least one drive described electrolytic bath along one perpendicular to the vertical direction of this horizontal direction with respect to tray produce the actuator of lifting, most electrode units that are arranged on the electrolytic bath top and at least one drive described electrode unit with respect to tray produce contact or away from actuator; And

A clean dry section, be arranged on this along this horizontal direction and change into the section downstream, and having most along this horizontal direction setting and to rinse bath, most the absorbing units that are disposed on described rinse bath one side that should tray that supply unit carries and at least one drives rinse bath and absorbing unit vertically produces the actuator of lifting with respect to tray, described absorbing unit respectively has one corresponding to the water adsorbent element bottom the tray.

2. automation formation device as claimed in claim 1, it is characterized in that it also includes a pan feeding storage station that is arranged on this frame first end outside, this pan feeding storage station has a support body, an actuator, a chain group that is installed on this support body and driven by this actuator, one is installed on this support body and with tray and changes into the carrying unit that section is moved by this chain group top towards this, this chain group is moved from lower to upper along this vertical direction running and with tray, and the portions that bear that have most individual uniformly-spaced settings and supply the tray placement positioning, this carrying unit has a slide rail that extends along this horizontal direction, a slide that is installed on this slide rail, one drives the actuator that this slide slides along this slide rail, a lifting cylinder pressure that is installed on this slide, one is subjected to horizontal cylinder pressure that this lifting cylinder pressure drives and two driven by this horizontal cylinder pressure to produce to stretch out and the jaw of retraction, and described jaw is subjected to the driving meeting that tray is produced clamping and release.

3. automation formation device as claimed in claim 2, it is characterized in that it also includes a discharging storage station that is arranged on this frame the second end outside, this discharging storage station has a support body, an actuator, a chain group that is installed on this support body and driven by this actuator, one is installed on this support body and with tray and is moved to the carrying unit at this chain group top by this clean dry section, this chain group is moved from top to bottom along this vertical direction running and with tray, and the portions that bear that have most individual uniformly-spaced settings and supply the tray placement positioning, this carrying unit has a slide rail that extends along this horizontal direction, a slide that is installed on this slide rail, one drives the actuator that this slide slides along this slide rail, a lifting cylinder pressure that is installed on this slide, one is subjected to horizontal cylinder pressure that this lifting cylinder pressure drives and two driven by this horizontal cylinder pressure to produce to stretch out and the jaw of retraction, and described jaw is subjected to the driving meeting that tray is produced clamping and release.

4. automation formation device as claimed in claim 3, it is characterized in that it also comprises a position and puts the station temporarily at the pan feeding that this changes into the section upstream, this pan feeding is put the station temporarily and is had a pre-immersion trough and one and drive this pre-immersion trough vertically produces lifting with respect to tray actuator.

5. automation formation device as claimed in claim 4 is characterized in that it also comprises a position and puts the station temporarily in the discharging in this clean dry section downstream.

6. automation formation device as claimed in claim 1, it is characterized in that the wherein said electrolytic bath that changes into section respectively has a main room and at least one is arranged at the overflow chamber of this main room one side, and this changes into section and also has a backflash and the pump that liquid pump is delivered to electrolytic bath that changes into that will be back to this backflash that is conducted with described overflow chamber, and constitutes a circulation circuit by electrolytic bath, backflash, pump.

7. automation formation device as claimed in claim 1 is characterized in that the wherein said section that changes into also has a cover body and a heating unit that makes this cover body internal temperature and change into the liquid temp coupling that is located at the electrolytic bath top.

8. automation formation device as claimed in claim 1 is characterized in that the absorbing unit of wherein said clean dry section also respectively has spool and actuator of controlling described spool and water adsorbent element rotation that two confessions water adsorbent element is in the form of a roll reeled.

9. automation formation device as claimed in claim 5, it is characterized in that it also comprises a control unit, this control unit has an input interface and a CPU, and this CPU sends that signal controls that this pan feeding storage station, supply unit, pan feeding are put the station temporarily, changed into section, clean dry section and discharging storage station produce running.

10. automation formation device as claimed in claim 1, it is characterized in that wherein said clean dry section also has a circulation channel unit that is communicated with rinse bath and a bubble generation unit, this circulation channel unit has first aqua storage tank that imports pure water, pure water pump with institute's splendid attire in first aqua storage tank is delivered to wherein two positions at second pump than the rinse bath in downstream, second aqua storage tank that reclaims the water of rinse bath, one the water pump in second aqua storage tank delivered to and be positioned at than the 3rd pump of the rinse bath of upstream and the delivery pipe that is arranged at this than the rinse bath of upstream, this bubble generation unit has most and is arranged on wireway in the rinse bath and one air is directed at the air source of described wireway, and described wireway has most ventholes.

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