CN203721503U

CN203721503U - Automatic forming, carbonizing and cleaning all-in-one machine for preparing aluminum electrolytic capacitor

Info

Publication number: CN203721503U
Application number: CN201420122668.9U
Authority: CN
Inventors: 欧阳忠东; 刘毅然
Original assignee: SHENZHEN XINGCHUANG JIA TECHNOLOGY Co Ltd
Current assignee: SHENZHEN XINGCHUANG JIA TECHNOLOGY Co Ltd
Priority date: 2014-03-18
Filing date: 2014-03-18
Publication date: 2014-07-16
Anticipated expiration: 2024-03-18

Abstract

The utility model discloses an automatic forming, carbonizing and cleaning all-in-one machine for preparing an aluminum electrolytic capacitor. The automatic forming, carbonizing and cleaning all-in-one machine for preparing the aluminum electrolytic capacitor comprises a rack, a machining unit, an automatic input unit and an automatic output unit, the machining unit comprises multiple independent work stations, a machining system and a conveying mechanism, wherein the independent work stations are arranged in the length direction of the rack, the machining system is correspondingly connected with the work stations respectively and is used for completing the processes of forming, carbonizing and cleaning, and the conveying mechanism is used for conveying the carrier frame from the automatic input unit to the work stations and among the work stations and for conveying the carrier frame in the work stations to the automatic output unit. According to the automatic forming, carbonizing and cleaning all-in-one machine for preparing the aluminum electrolytic capacitor, the work stations and the machining system corresponding to the work stations are arranged in the machining unit, under the function of the conveying mechanism, the machining of the forming, the carbonizing and the cleaning of the aluminum electrolytic capacitor can be completed at one time, the machining process is simplified, and meanwhile, under the work of the automatic input unit and the automatic output unit, the automatic machining of the forming, the carbonizing and the cleaning is achieved.

Description

A kind of prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one

Technical field

the utility model belongs to the process equipment field of preparing aluminium electrolytic capacitor, relate to a kind of prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one.

Background technology

in preparing aluminium electrolytic capacitor, conventionally need to change into aluminium electrolytic capacitor, carbonization, cleaning, and on existing market, change into the machine that changes into of employing, the carbonization machine that carbonization adopts, clean the cleaning machine adopting, be independently each other, that is to say, wait changing into after end of aluminium electrolytic capacitor, deliver to and in carbonization machine, carry out carbonization, finally deliver in cleaning machine and clean again, it is complicated that the whole like this course of processing becomes, and need to repeatedly carry out loading and unloading, the equipment simultaneously needing is more, makes processing cost higher.

Summary of the invention

technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, provide a kind of improved prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one.

for solving the problems of the technologies described above, the utility model adopts following technical scheme:

a kind of prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, prepare aluminium electrolytic capacitor and comprise and pack aluminium electrolytic capacitor into step in corresponding carrier, described all-in-one comprises frame, be arranged on the automatic input unit of the machining cell in frame, the feed end that is separately positioned on machining cell and discharge end and output unit automatically;

particularly, machining cell comprises a plurality of relatively independent station arranging along the length direction of frame, correspondingly with a plurality of stations respectively connect and change into for completing, the system of processing of carbonization, cleaning, and for by carrier from automatic input unit be delivered in station, for by carrier between a plurality of stations, for the carrier that is positioned at station being delivered to the transmission mechanism of automatic output unit.

preferably, transmission mechanism comprises for the carrier of filling aluminium electrolytic capacitor to the short transverse lifting of frame and the jacking system of decline, for the carrier of filling aluminium electrolytic capacitor is moved to the crossing system of a station along the length direction of frame.

according to concrete an enforcement and preferred aspect of the present utility model, jacking system comprises along the length direction of frame and is positioned at two material lift plates of station both sides tops, the bin that is fixedly connected with and material lift plate is sling with two material lift plates, be arranged in parallel with material lift plate and pass the material bar of bin, two sliding seat that are fixedly installed on respectively material bar two ends and can move up and down along the short transverse of frame, and the transmission component for driving sliding seat to move up and down, described bin can be movably arranged on along the length direction of material bar on material bar, on bin, be also provided with and expect bar screwed hole in the same way, crossing system comprises with screwed hole and matches and merge along the screw mandrel of material pole length direction setting and be arranged on the stepping motor for driving screw mandrel to rotate in sliding seat, and screw mandrel rotates and promotes bin and move left and right.

further, preferably, transmission component comprises lifting drive motors, along frame length direction, is arranged on the rotating shaft that can rotate around self axis of frame both sides, the sprocket wheel that is arranged on rotating shaft two ends, is arranged on the chain on each sprocket wheel, described chain one end is connected with a sidepiece of sliding seat, the other end is hung and is provided with balancing weight, and lifting drive motors and stepping motor are positioned at same end or the heterodoxy of frame.

more preferably, material bar has two at least, and two material bars are arranged in parallel, and bin comprises a plurality of crossbeams that distribute along material pole length direction, and screwed hole is arranged on the described crossbeam that is positioned at machining cell feed end or discharge end.Wherein, crossbeam has three at least, and is uniformly distributed along the length direction of described material bar.

according to another concrete enforcement and preferred aspect of the present utility model, crossing system also comprises the holder being fixedly installed on material bar, screw mandrel one end is through screwed hole and holder is rotationally connected, the rotation axis of the other end and stepping motor is in transmission connection, on holder, be provided with bearing, an end of screw mandrel is arranged in bearing.

preferably, material lift plate is under the driving of screw mandrel, the width of a station of take is the period of motion, and the carrier in automatic input unit is moved in described station, the carrier in station is moved to next station and the carrier in station is moved in automatic output unit.

preferably, automatically input unit comprises the below that is positioned at station and the input bracket that can simultaneously place a plurality of carriers, the input driving mechanism for driving described input bracket to move along the short transverse of described frame, described input driving mechanism comprises input drive motors, the first screw rod that vertically arranges and rotated by described input drive motors driving, and described input bracket matches and moves up and down along with the rotation of described the first screw rod with described the first screw rod.

preferably, automatically output unit comprises and is positioned at the below of described station and can places the output bracket of a plurality of carriers, the output driving mechanism moving along the short transverse of frame for driver output bracket simultaneously, described output driving mechanism comprises output drive motors, the second screw rod that vertically arranges and rotated by described output drive motors driving, and described output bracket matches and moves up and down along with the rotation of described the second screw rod with described the second screw rod.

due to the employing of technique scheme, the utility model compared with prior art has following features:

the utility model is by a plurality of relatively independent stations and the system of processing corresponding with station are set in machining cell, under transmission mechanism effect, once complete the processing of the changing into of aluminium electrolytic capacitor, carbonization, cleaning, simplify the course of processing, reduce production costs, simultaneously under the co-operation of automatic input unit and automatic output unit, realization changes into, the automation of carbonization, cleaning processing, in addition, the utility model is simple in structure, and it is convenient to implement.

Accompanying drawing explanation

below in conjunction with accompanying drawing and specific embodiment, the utility model is described in more detail.

fig. 1 is the structural representation of the all-in-one of automatically changing into of adopting of the utility model, carbonization, cleaning;

fig. 2 is the transmission mechanism structural representation of all-in-one in Fig. 1;

wherein: 1, frame; 2, machining cell; 20, station; 21, transmission mechanism; 210 jacking systems; 211, crossing system; A, material lift plate; B, bin; B1, screwed hole; B2, crossbeam; C, material bar; D, sliding seat; E, transmission component; E1, lifting drive motors; E2, rotating shaft; E3, sprocket wheel; E4, chain; F, screw mandrel; G, stepping motor; H, balancing weight; I, holder; J, bearing; 3, automatic input unit; 30, input bracket; 31, input driving mechanism; 310, the first screw rod; 4, automatic output unit; 40, output bracket; 41, output driving mechanism; 410, the second screw rod.

Embodiment

as depicted in figs. 1 and 2, the present embodiment provides automatically changing into of preparing that aluminium electrolytic capacitor uses, carbonization, cleaning all-in-one, prepares aluminium electrolytic capacitor and comprises and pack aluminium electrolytic capacitor into step in corresponding carrier, and described all-in-one comprises: frame 1; Be arranged on the machining cell 2 in frame; Be arranged on the automatic input unit 3 of the aluminium electrolytic capacitor of machining cell 2 feed ends, be arranged on the automatic output unit 4 of the aluminium electrolytic capacitor of machining cell 2 discharge ends.

above-mentioned machining cell 2 comprises a plurality of relatively independent station 20 arranging along the length direction of frame 1, correspondingly with a plurality of stations 20 respectively connect and change into for completing, the system of processing (not shown) of carbonization, cleaning, and for by carrier from automatic input unit 3 be delivered in station 20, for by carrier between a plurality of stations 20, for the carrier that is positioned at station 20 being delivered to the transmission mechanism 21 of automatic output unit 4.

further, transmission mechanism 21 comprise for by the carrier of filling aluminium electrolytic capacitor along the short transverse lifting of described frame 1 and the jacking system 210 of decline, for the carrier of filling aluminium electrolytic capacitor is moved to the crossing system 211 of a described station 20 along the length direction of described frame 1.

more specifically, in this example, jacking system 210 comprises along the length direction of frame 1 and is positioned at two material lift plate A of station 20 both sides tops, the bin B that is fixedly connected with and material lift plate A is sling with two material lift plate A, be arranged in parallel with material lift plate A and pass the material bar C of bin B, two sliding seat D that are fixedly installed on respectively material bar C two ends and can move up and down along the short transverse of frame 1, and the transmission component E for driving sliding seat D to move up and down, described bin B can be movably arranged on along the length direction of material bar C on material bar C, on bin B, be also provided with and expect bar C screwed hole B1 in the same way, crossing system 211 comprises with screwed hole B1 and matches and merge along the screw mandrel F of material bar C length direction setting and be arranged on the upper stepping motor G for driving screw mandrel F to rotate of sliding seat D, and screw mandrel F rotates and promotes bin B and move left and right.

above-mentioned transmission component E comprises lifting drive motors E1, along frame 1 length direction, is arranged on the rotating shaft E2 that can rotate around self axis of frame 1 both sides, the sprocket wheel E3 that is arranged on rotating shaft E2 two ends, is arranged on the chain E4 on each sprocket wheel E3, described chain E4 mono-end is connected (being fixedly connected with) with a sidepiece of sliding seat D, the other end that hangs over chain that is provided with balancing weight H(balancing weight coupling type is hung in the other end), lifting drive motors E1 and stepping motor G are positioned at same end or the heterodoxy of frame 1.In Fig. 1, lifting drive motors E1 and stepping motor G are positioned at the heterodoxy of frame 1, and in Fig. 2, lifting drive motors E1 and stepping motor G are positioned at the same end of frame 1, and its two kinds of modes all can meet the normal work of transmission mechanism 21.

yet in practical operation, station 20 has six at least, material bar C has two at least, and two material bar C are arranged in parallel, bin B comprises a plurality of crossbeam B2 that distribute along material pole length direction, and screwed hole B1 is arranged on the described crossbeam B2 that is positioned at machining cell 2 feed ends or discharge end.Wherein, crossbeam B2 has three at least, and is uniformly distributed along the length direction of described material bar C.

simultaneously, crossing system 211 also comprises the holder I being fixedly installed on material bar C, screw mandrel F mono-end is through screwed hole B2 and holder I is rotationally connected, the rotation axis of the other end and stepping motor G is in transmission connection, and is provided with bearing J on holder I, and an end of screw mandrel F is arranged in bearing J.

that is to say, material lift plate A is under the driving of screw mandrel F, the width of a station 20 of take is the period of motion, and 3 carrier in automatic input unit is moved in described station 20, the carrier in station 20 moved to next station 20 and the carrier in station 20 is moved in automatic output unit 4.

in addition, above-mentioned automatic input unit 3 comprises the below that is positioned at station 20 and the input bracket 30 that can simultaneously place a plurality of carriers, the input driving mechanism 31 for driving described input bracket 30 to move along the short transverse of described frame 1, described input driving mechanism 31 comprises input drive motors, the first screw rod 310 that vertically arranges and rotated by described input drive motors driving, and described input bracket 30 matches and moves up and down along with the rotation of described the first screw rod 310 with described the first screw rod 310.

automatically output unit 4 comprises and is positioned at the below of described station 20 and can places the output bracket 40 of a plurality of carriers, the output driving mechanism 41 moving along the short transverse of frame for driver output bracket simultaneously, described output driving mechanism 41 comprises output drive motors (not shown), the second screw rod 410 that vertically arranges and rotated by described output drive motors driving, and described output bracket 40 matches and moves up and down along with the rotation of described the second screw rod 410 with described the second screw rod 410.

the present embodiment prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one be specifically implemented as follows (take the left side of frame be output unit, the right is that input unit is example):

semi-finished product aluminium electrolytic capacitor is packed in carrier, then a plurality of carriers are folded is located at together, under dolly running, be transferred in automatic input unit, under the effect of input pallet and the first screw rod, carrier automatic-ascending to carrier height, then under the transmission mechanism effect of machining cell, specifically by two material lift plates (width of a carrier that laterally moves right, the width of a station namely), then first carrier is lifted, be moved to the left the width of (reset condition) carrier, now, carrier be positioned at first station directly over, then under the work of jacking system, first carrier is put into first station, meanwhile, under the effect of automatic input unit, second carrier has been positioned at the initial condition of first carrier, two material lift plates continue to decline downwards, depart from first carrier, then the width of a carrier continues to move right, laterally insert to second carrier, then regulate two material lift plates to continue to rise, while making first carrier and second carrier all be positioned on two material lift plates, then regulate two to be moved to the left, make first carrier be positioned at (second carrier is positioned on the first station) on the second station, so repeatedly, realize carrier at input unit to machining cell, carrier automatically transmits between adjacent station, in addition, when first carrier drives to last station, now two flitch are positioned at initial condition, under the effect of jacking system, by two material lift plates, will be positioned at all station carriers lifts, then under crossing system effect, by two material lift plates to carrier width of Left Drive, first carrier is positioned on the output pallet of output unit, then two material lift plates decline, second carrier moves in last station, export pallet simultaneously and at the second screw rod, move down the height of a carrier, the like, second folded being located on the first carrier of carrier, then export the height that pallet continues a carrier of decline, so repeatedly, realization is delivered to the carrier that is positioned at station the automatic transmission of output unit.

the object of above-described embodiment is to allow person skilled in the art can understand content of the present utility model and implement according to this, can not limit protection range of the present utility model with this.All equivalences of doing according to the utility model Spirit Essence change or modify, within all should being encompassed in protection range of the present utility model.

Claims

One kind prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, the described aluminium electrolytic capacitor of preparing comprises and packs aluminium electrolytic capacitor into step in corresponding carrier, described all-in-one comprises frame, is arranged on automatic input unit and the automatic output unit of the machining cell in described frame, the feed end that is separately positioned on described machining cell and discharge end

It is characterized in that: described machining cell comprises a plurality of relatively independent station arranging along the length direction of described frame, correspondingly with a plurality of described stations respectively connect and change into for completing, the system of processing of carbonization, cleaning, and transmission mechanism, described transmission mechanism for by described carrier from described automatic input unit be delivered in described station, for by described carrier between a plurality of described stations, for the described carrier that is positioned at described station being delivered to described automatic output unit.
According to claim 1 prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, it is characterized in that: described transmission mechanism comprise for by the carrier of filling aluminium electrolytic capacitor along the short transverse lifting of described frame and the jacking system of decline, for the carrier of filling aluminium electrolytic capacitor is moved to the crossing system of a described station along the length direction of described frame.
3. according to claim 2ly prepare automatically changing into that aluminium electrolytic capacitor uses, carbonization, clean all-in-one, it is characterized in that: described jacking system comprises along the length direction of described frame and is positioned at two material lift plates of described station both sides tops, the bin that is fixedly connected with and described material lift plate is sling with two described material lift plates, be arranged in parallel with described material lift plate and pass the material bar of described bin, two sliding seat that are fixedly installed on respectively described material bar two ends and can move up and down along the short transverse of described frame, and the transmission component for driving described sliding seat to move up and down, described bin can be movably arranged on along the length direction of described material bar on described material bar, on described bin, be also provided with and described material bar screwed hole in the same way, described crossing system comprises with described screwed hole and matches and merge along the screw mandrel of described material pole length direction setting and be arranged on the stepping motor for driving described screw mandrel to rotate in described sliding seat, and described screw mandrel rotates and promotes described bin and move left and right.
4. according to claim 3ly prepare automatically changing into that aluminium electrolytic capacitor uses, carbonization, clean all-in-one, it is characterized in that: described transmission component comprises lifting drive motors, along described frame length direction, be arranged on the rotating shaft that can rotate around self axis of described frame both sides, be arranged on the sprocket wheel at described rotating shaft two ends, be arranged on the chain on sprocket wheel described in each, described chain one end is connected with a sidepiece of described sliding seat, the other end is hung and is provided with balancing weight, described lifting drive motors and described stepping motor are positioned at same end or the heterodoxy of described frame.
According to claim 4 prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, it is characterized in that: described material bar has two at least, and two described material bars are arranged in parallel, described bin comprises a plurality of crossbeams that distribute along described material pole length direction, and described screwed hole is arranged on the described crossbeam that is positioned at described machining cell feed end or discharge end.
According to claim 5 prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, it is characterized in that: described crossbeam has three at least, and be uniformly distributed along the length direction of described material bar.
According to claim 3 prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, it is characterized in that: described crossing system also comprises the holder being fixedly installed on described material bar, described screw mandrel one end is through described screwed hole and described holder is rotationally connected, the rotation axis of the other end and described stepping motor is in transmission connection, on described holder, be provided with bearing, an end of described screw mandrel is arranged in described bearing.
According to claim 3 prepare that aluminium electrolytic capacitor uses automatically change into, carbonization, cleaning all-in-one, it is characterized in that: described material lift plate is under the driving of described screw mandrel, the width of a described station of take is the period of motion, and the carrier in described automatic input unit is moved to and in described station, by the carrier in described station, moves to next described station and the carrier in described station is moved in described automatic output unit.
9. according to claim 1ly prepare automatically changing into that aluminium electrolytic capacitor uses, carbonization, clean all-in-one, it is characterized in that: described automatic input unit comprises the below that is positioned at described station and the input bracket that can simultaneously place a plurality of described carriers, for the input driving mechanism that drives described input bracket to move along the short transverse of described frame, described input driving mechanism comprises input drive motors, vertically arrange and driven and the first screw rod of rotation by described input drive motors, described input bracket matches and moves up and down along with the rotation of described the first screw rod with described the first screw rod.
10. according to claim 1ly prepare automatically changing into that aluminium electrolytic capacitor uses, carbonization, clean all-in-one, it is characterized in that: described automatic output unit comprises the below that is positioned at described station and the output bracket that can simultaneously place a plurality of described carriers, for the output driving mechanism that drives described output bracket to move along the short transverse of described frame, described output driving mechanism comprises output drive motors, vertically arrange and driven and the second screw rod of rotation by described output drive motors, described output bracket matches and moves up and down along with the rotation of described the second screw rod with described the second screw rod.