CN201201052Y - Lead ingot prilling automatic production line - Google Patents
Lead ingot prilling automatic production line Download PDFInfo
- Publication number
- CN201201052Y CN201201052Y CNU2008200293286U CN200820029328U CN201201052Y CN 201201052 Y CN201201052 Y CN 201201052Y CN U2008200293286 U CNU2008200293286 U CN U2008200293286U CN 200820029328 U CN200820029328 U CN 200820029328U CN 201201052 Y CN201201052 Y CN 201201052Y
- Authority
- CN
- China
- Prior art keywords
- lead
- lead pig
- cake
- sprocket
- pig
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Abstract
The utility model belongs to the equipment for automatically cutting an assembly line of grains of soft meal at the cold state, in particular to a lead ingot granulation automatic production line. The equipment is characterized in that the equipment mainly comprises a transfer feeder, a lead ingot cake cutting mechanism(3) and a granulating machine(4), wherein a batch bin(22) of the transfer feeder is connected with a lower anvil groove(28) of the lead ingot cake cutting mechanism(3), which is connected with a feeding port of the granulating machine(4), and a machine frame of the granulating machine(4) is fixedly provided with a power mechanism which is in transmission connection with a granulating mechanism through a transfer mechanism. The lead ingot granulation automatic production line can ceaselessly and automatically cut the lead ingot into lead grains in the cold state, and the automatic production line equipment has the advantages of simple structure, high working efficiency, energy resource conservation, low lead material consumption and low environmental pollution.
Description
Technical field
The utility model belongs to a kind of the equipment that the grain flow waterline is cut apart automatically, particularly lead bullion granulation automatic assembly line are carried out in the soft metal under cold conditions.
Background technology
At present, in the lead-acid accumulator manufacturing, produce the lead-power machine of lead powder and need make raw material with the lead button about 50g.The acquisition of lead button, traditional method are with being separated into lead button after the market pot fusing with lead pig (the heavy 45kg of every ingot).So not only waste also serious environment pollution of a large amount of energy, the plumbous material of loss.In order fundamentally to address these problems, just must adopt the new technology that lead pig directly is divided into lead button under cold conditions, this new technology is linked to be transfer matic, will improve production work efficiency, elevating mechanism manufacture level.
Summary of the invention
The purpose of this utility model provides a kind of lead bullion granulation automatic assembly line, it can continuously be divided into lead button automatically with lead pig under cold conditions, this transfer matic production equipment is simple in structure, work efficiency is high, save the energy, reduce plumbous material loss, reduce environmental pollution.
Another purpose of the present utility model provides a kind of lead bullion granulation automatic assembly line, this device by its feeding, cut cake, granulation mechanism and realize the transfer matic production process.
The technical solution of the utility model is: design a kind of lead bullion granulation automatic assembly line; it is characterized in that: which comprises at least feed mechanism; lead pig cake cutter structure 3; comminutor 4; the hopper 22 of feed mechanism docks with the following anvil groove 28 of lead pig cake cutter structure 3; the following anvil groove 28 of lead pig cake cutter structure 3 docks with the charging aperture of comminutor 4; be fixed with actuating unit on the frame of comminutor 4; actuating unit is in transmission connection by transmission mechanism and granulation mechanism; realize that at last feed mechanism delivers to lead pig in the following anvil groove 28 of lead pig cake cutter structure 3; lead pig cake cutter structure 3 is cut into the charging aperture that plumbous cake is sent into comminutor 4 with lead pig, and comminutor 4 is cut into granular full-automatic process with plumbous cake.
Described feed mechanism comprises lead pig accumulating mechanism 1 and lead pig hoisting mechanism 2, the stirring fork 14 that the hopper 22 of lead pig hoisting mechanism 2 is fixed on lead pig accumulating mechanism 1 turns over the prong place after the turnback, delivers in the hopper 22 of lead pig hoisting mechanism 2 after making the stirring fork 14 of lead pig accumulating mechanism 1 that lead pig is turned over turnback.
Described lead pig accumulating mechanism 1 comprises the reducing motor 11, stirring axle 12, bearing 13 of reducing motor 8, minor sprocket 9, drive sprocket 10, the upset fork of frame 5, two preceding sprocket wheels 6, preceding sprocket shaft 7, conveyer chain, two stirring forks 14, holder chain rail 15, two material drag chains 16, back sprocket shaft 17, two back sprocket wheels 18; Reducing motor 8 and holder chain rail 15 are connected on the frame 5, preceding sprocket shaft 7 and stirring axle 12 are connected on the bearing 13 of frame 5 by bearing, back sprocket shaft 17 is connected on the bearing block of frame 5, two preceding sprocket wheels 6 are connected on the preceding sprocket shaft 7, two back sprocket wheels 18 are connected on the sprocket shaft 17 of back, two material drag chains 16 are connected on preceding sprocket wheel 6 and the back sprocket wheel 18, middle by 15 supports of holder chain rail, two stirrings fork 14 is fixed on the stirring axle 12 by expansion set, reducing motor 11 is connected with stirring axle 12, and minor sprocket 9 is in transmission connection by driving-chain and drive sprocket 10.
Described lead pig hoisting mechanism 2 comprises hoist cylinder 19, balladeur train 20, four guide wheels 21, hopper 22, column 23; Hoist cylinder 19 lower ends are hinged on the frame 5, and the upper end is hinged on balladeur train 20 and the hopper 22, and four guide wheels 21 are connected on the balladeur train 20, and balladeur train 20 rolls with the guide pillar of column 23 by guide wheel 21 and is connected.
Described lead pig cake cutter structure 3 comprises cuts cake cutter 24, shears oil cylinder 25, door frame guide rail 26, locating piece 27, following anvil groove 28; Door frame guide rail 26 upper ends are connected with shears oil cylinder 25, shears to be fixed with on the oil cylinder 25 and cuts cake cutter 24, and the lower end is connected with locating piece 27 and following anvil groove 28, and the discharging opening of cutting anvil groove 28 under the cake docks with the charging aperture of comminutor 4.
Described granulation mechanism comprises a plurality of drifts and corresponding with it die.
There are two compression rollers to changeing synchronously in described granulation mechanism, is distributed with concavo-convex staggered boss and groove on the curved surfaces of compression roller.
Characteristics of the present utility model are: feed mechanism is sent into lead pig under the driving of driving motor and is cut cutting under the cake that the cake device docks with lead pig and cut cake in the anvil groove; plumbous cake enters in the comminutor by the charging aperture that docks with comminutor, finishes the lead bullion granulation process continuously.Wherein, feed mechanism comprises driving motor, chain, stirring fork, upset reducing motor, hoist cylinder, hopper; Reducing motor links by gear and chain, and the upset reducing motor is connected with the stirring fork shaft, and hoist cylinder is connected with the hopper axle; Reducing motor drive bar chain is transferred to stirring prong place with lead pig and stops operating, the upset reducing motor drives the stirring fork, lead pig turned over be put in the hopper, hoist cylinder promotes hopper and docks and be obedient to inclination at the anvil groove of cutting under the cake that makes hopper and lead pig cut the cake device under the effect of stop together with lead pig, and lead pig slips into and cuts in the cake device under the gravity effect; Cutting the cake device comprises and cuts the cake oil cylinder, cuts the cake cutter, cuts anvil groove and activity orientation piece under the cake; Cut the cake oil cylinder and cut the cake cutter and fixedly connected, cut anvil groove under the cake cut the cake cutter under fixedly connected with bracing frame; Cut the cake oil cylinder and move up and down to drive and cut the cake cutter lead pig is cut into plumbous cake, plumbous cake enters in the comminutor by charging aperture; Comminutor comprises granulation mechanism, and the rotation of granulation mechanism makes plumbous cake finally be squeezed into lead button.The utility model is earlier cut the cake device to the lead pig of strip by lead pig and is cut into plumbous cake along cross section and is cut into lead button by comminutor again, and this interlock is crossed automatically and finished.Have only lead pig to cut cake device unit at present, can only be cut into plumbous cake, and need artificial single continuing, waste man-hour into lead pig.The utility model can not only finally be produced lead pig lead button automatically and can intermittently put into lead pig in batch, and the workman is off-line working intermittently.For realize the workman intermittently off-line working the utility model be provided with the lead pig storage and transportation apparatus, on its material drag chain, once can put some lead pigs, lead pig is cut and is fallen into comminutor after the cake and cut out lead button to cutting the cake device by automatic transport then.
Description of drawings
Below in conjunction with the embodiment accompanying drawing the utility model is described further.
Fig. 1 is the example structure schematic diagram.
Fig. 2 is an embodiment lead pig accumulating mechanism side view.
Fig. 3 is an embodiment lead pig accumulating mechanism front view.
Fig. 4 is an embodiment lead pig hoisting mechanism front view.
Fig. 5 is an embodiment lead pig hoisting mechanism side view.
Fig. 6 is a lead pig cake cutter structure schematic diagram.
Fig. 7 is embodiment 1 a comminutor structural representation.
Fig. 8 is embodiment 1 a comminutor butt joint compression roller cross sectional representation.
Fig. 9 is the axle side structure schematic diagram of embodiment 1 comminutor butt joint compression roller.
Among the figure: 1, lead pig accumulating mechanism; 2, lead pig hoisting mechanism; 3, lead pig cake cutter structure; 4, comminutor; 5, frame; 6, preceding sprocket wheel; 7, preceding sprocket shaft; 8, reducing motor; 9, minor sprocket; 10, drive sprocket; 11, reducing motor; 12, stirring axle; 13, bearing; 14, stirring fork; 15, holder chain rail; 16, material drag chain; 17, back sprocket shaft; 18, back sprocket wheel; 19, hoist cylinder; 20, balladeur train; 21, guide wheel; 22, hopper; 23, column; 24, cut the cake cutter; 25, shear oil cylinder; 26, door frame guide rail; 27, locating piece; 28, following anvil groove; 7-1, frame; 7-2, right plate; 7-3, driven compression roller; 7-4, change-speed gearing; 7-5, reducing motor; 7-6, feed well; 7-7, active compression roller; 7-8, active compression roller hollow shaft sleeve; 7-9, outer panel; 7-10, driven compression roller hollow shaft sleeve; 7-11, left plate; 7-12, push rod; 7-13, apical axis; 7-14, plumbous cake; 7-15, driving gear; 7-16, driven gear.
The specific embodiment
Fig. 2 is an embodiment lead pig accumulating mechanism side view, Fig. 3 is embodiment lead pig accumulating mechanism 1 front view, as Fig. 2, shown in Figure 3, lead pig accumulating mechanism 1 comprises the reducing motor 11, stirring axle 12, bearing 13 of reducing motor 8, minor sprocket 9, drive sprocket 10, the upset fork of frame 5, two preceding sprocket wheels 6, preceding sprocket shaft 7, conveyer chain, two stirring forks 14, holder chain rail 15, two material drag chains 16, back sprocket shaft 17, two back sprocket wheels 18; Reducing motor 8 and holder chain rail 15 are directly installed on the frame 5, preceding sprocket shaft 7 and stirring axle 12 are installed on the bearing 13 of frame 5 by bearing, back sprocket shaft 17 is installed on the bearing block of frame 5, two preceding sprocket wheels 6 are installed on the preceding sprocket shaft 7, two back sprocket wheels 18 are installed on the sprocket shaft 17 of back, two material drag chains 16 are connected on preceding sprocket wheel 6 and the back sprocket wheel 18, middle by 15 supports of holder chain rail, two stirring fork 14 usefulness expansion sets are fixed on the stirring axle 12, reducing motor 11 is connected with stirring axle 12, and minor sprocket 9 is in transmission connection by driving-chain and drive sprocket 10.
Fig. 4 is an embodiment lead pig hoisting mechanism front view, and Fig. 5 is an embodiment lead pig hoisting mechanism side view.Lead pig hoisting mechanism 2 comprises hoist cylinder 19 as shown in Figure 4 and Figure 5,20, four guide wheels 21 of balladeur train, hopper 22, column 23; Hoist cylinder 19 lower ends are hinged on the frame 5, and hoist cylinder 19 upper ends are hinged on balladeur train 20 and the hopper 22, and four guide wheels 21 are installed on the balladeur train 20, and balladeur train 20 rolls with the guide pillar of column 23 by guide wheel 21 and is connected.
Fig. 6 is a lead pig cake cutter structure schematic diagram, and lead pig cake cutter structure 3 comprises and cuts cake cutter 24 as shown in Figure 6, shears oil cylinder 25, door frame guide rail 26, locating piece 27, following anvil groove 28; Door frame guide rail 26 upper ends are equipped with and are sheared oil cylinder 25, shear to be fixed with on the oil cylinder 25 and cut cake cutter 24, and locating piece 27 and following anvil groove 28 are equipped with in the lower end, and the discharging opening of cutting anvil groove 28 under the cake docks with the charging aperture of comminutor 4.
Fig. 7 is embodiment 1 a comminutor structural representation, is fixed with outer panel 7-9, the left plate 7-11 and the right plate 7-2 that are parallel to each other as shown in Figure 7 on the frame 7-1 of lead disc granulator 4, is connected with post rod mechanism on the outer panel 7-9.Be connected with granulating mechanism by bearing between left plate 7-11 and the right plate 7-2; granulation mechanism is two compression rollers to changeing synchronously; i.e. initiatively compression roller 7-7 and driven compression roller 7-3; be distributed with separate big or small identical and concavo-convex staggered boss and groove on the curved surfaces of two compression rollers; two compression rollers are hollow shafts of hollow-core construction; be with post rod mechanism in the hollow shaft; post rod mechanism is made of apical axis 7-13 and push rod 7-12; be equipped with on the outer panel 7-9 one with the apical axis 7-13 of hollow shaft sleeve off-centre; each bottom portion of groove of compression roller has through hole; the push rod 7-12 of post rod mechanism is housed in the through hole, and the what hollow shaft sleeve rotates relative to eccentric apical axis 7-13 together with post rod mechanism push rod 7-12 is ejected.Also be fixed with actuating unit on the frame 7-1, actuating unit is reducing motor 7-5, reducing motor 7-5 and change-speed gearing group are in transmission connection, be that gear and a change-speed gearing 7-4 engagement littler than change-speed gearing 7-4 is housed on the reducing motor 7-5 spindle nose, initiatively compression roller hollow shaft 7-8 is by connecting key one end fix either ratio gear 7-4, the other end is fixed and the driving gear 7-15 that changes is fixedlyed connected, be meshing with each other to the driving gear 7-15 of commentaries on classics and to the driven gear 7-16 that changes, because driven gear 7-16 is fixedlyed connected by connecting key with driven compression roller hollow shaft 7-10, so when reducing motor 7-5 rotates, driving change-speed gearing 7-4 rotates, change-speed gearing 7-4 rotates drive active compression roller hollow shaft 7-8 and the driving gear 7-15 that changes is rotated simultaneously, driving gear 7-15 rotates and drives and rotating synchronously changeing driven gear 7-16 that it meshes, thereby rotate and drive driven compression roller hollow shaft 7-10 and rotate simultaneously and make two compression rollers changeing driven gear 7-16, and the boss of two compression roller curved surfaces is corresponding with groove synchronously to rolling.The upper fixed of left plate 7-11 and right plate 7-2 has downward-sloping feed well 7-6, and feed well 7-6 outlet below is the joint of two compression rollers.
Fig. 9 is the axle side structure schematic diagram of embodiment 1 comminutor butt joint compression roller, and as shown in Figure 9, its active compression roller 7-7, the every row of driven compression roller 7-3 perimeter surface have two boss and two grooves of interlaced arrangement.Initiatively the boss of compression roller 7-7 is corresponding with the groove location of driven compression roller 7-3, with guarantee initiatively compression roller 7-7 and driven compression roller 7-3 synchronously when rolling the boss of active compression roller 7-7 can just in time aim at the groove of driven compression roller 7-3.
Fig. 8 is embodiment 1 a comminutor butt joint compression roller cross sectional representation.As shown in Figure 8 when plumbous cake enters active compression roller 7-7, driven compression roller 7-3 butt joint part, compression roller 7-7 rotates because the reducing motor 7-5 of actuating unit drives initiatively, engagement by change-speed gearing 7-4, make driven compression roller 7-3 moving to lift-over synchronously with active compression roller 7-7, plumbous cake 7-14 is squeezed into groove becomes lead button, ejected by push rod 7-12 then, fall from the opening part of frame 7-1.
Lead pig is hung by crane on the material drag chain 16 of lead pig accumulating mechanism 1 and discharges during use, chain is intermittently driven the prong place that the lead pig in front is delivered to stirring fork 14 by reducing motor 8, be located at herein optoelectronic switch by the lead pig shading, send signal, chain stops to carry, stirring fork 14 is begun to drive by reducing motor 11 and just changes, this lead pig is turned in the hopper 22 that is put into lead pig hoisting mechanism 2, be located at herein send signal near switch, the hoist cylinder 19 of lead pig hoisting mechanism 2 rise with hopper 22 together with lead pig promote with lead pig cake cutter structure 3 cut that anvil groove 28 docks under the cake, and hopper 22 can tilt, with cut cake under the oblique angle of anvil groove 28 consistent, what be located at oil cylinder top sends signal near switch, oil cylinder stops to rise, and lead pig can borrow deadweight to glide, and the shearing oil cylinder 25 of lead pig cake cutter structure 3 moves up and down continuously to drive and cuts cake cutter 24 and cut out one by one plumbous cake, following anvil groove 28 front ends are provided with activity orientation piece 27, can control the thickness of cake.The optoelectronic switch that is located at when the lead pig in the hopper 22 soon cuts does not herein have the lead pig shading; hoist cylinder 19 descends; and stirring fork 14 by reducing motor 11 beginning driver inversion to original position, begin next feeding and circulate, the plumbous cake that cuts out slips into comminutor 4 by chute and is cut into lead button.All auto-programming is loaded onto near switch or optoelectronic switch by each working link place that need control and is sent signal, then by programme-control.Belong to the commercially available prod near switch or optoelectronic switch, PLC, control program is controlled routinely with PLC and is required to carry out programming Control.
Present embodiment by chain, stirring fork in the drive of reducing motor, hoist cylinder with because the inclination of hopper produces deadweight glides and lead pig is sent into lead pig cut in cake device and the comminutor; uninterruptedly lead pig directly is cut into plumbous cake under cold conditions, is squeezed into lead button by plumbous cake again.Because the stop in the feed mechanism can be controlled the lifting of hoist cylinder; when hopper 22 under the Dutch cake during anvil groove 28 upper end positions; away from an end of cutting anvil groove 28 hoppers 22 under the cake continue to rise to cut cake under consistent the ending of anvil groove 28 gradients; make hopper at a slant with cut cake under the anvil groove dock; deadweight sliding force by lead pig; lead pig presses close to cut the cake cutter automatically; cutting the cake oil cylinder moves up and down to drive and cuts the cake cutter; cut the cake cutter when up lead pig glide; cut the cake cutter and lead pig is cut plumbous cake when descending; cut the activity orientation piece in the anvil groove 28 under the cake and controlled the distance of glide of lead pig, make and downcut plumbous cake thin and thick unanimity, ensured that plumbous cake enters the granulation quality in the comminutor.This lead bullion granulation automation line production process and device work efficiency height, the saving energy, the plumbous material loss of reduction, minimizing environmental pollution.
Claims (7)
1, lead bullion granulation automatic assembly line; it is characterized in that: it mainly comprises feed mechanism, lead pig cake cutter structure (3), comminutor (4); the hopper of feed mechanism (22) docks with the following anvil groove (28) of lead pig cake cutter structure (3); the following anvil groove (28) of lead pig cake cutter structure (3) docks with the charging aperture of comminutor (4); be fixed with actuating unit on the frame of comminutor (4), actuating unit is in transmission connection by transmission mechanism and granulation mechanism.
2, lead bullion granulation automatic assembly line according to claim 1, it is characterized in that: described feed mechanism comprises lead pig accumulating mechanism (1) and lead pig hoisting mechanism (2), the stirring fork (14) that the hopper (22) of lead pig hoisting mechanism (2) is fixed on lead pig accumulating mechanism (1) turns over the prong place after the turnback, delivers in the hopper (22) of lead pig hoisting mechanism (2) after making the stirring fork (14) of lead pig accumulating mechanism (1) that lead pig is turned over turnback.
3, lead bullion granulation automatic assembly line according to claim 2 is characterized in that: described lead pig accumulating mechanism (1) comprises frame (5), two preceding sprocket wheels (6), preceding sprocket shaft (7), reducing motor (8), minor sprocket (9), drive sprocket (10), reducing motor (11), stirring axle (12), bearing (13), two stirring forks (14), holder chain rail (15), two material drag chains (16), back sprocket shaft (17), two back sprocket wheels (18); Reducing motor (8) and holder chain rail (15) are connected on the frame (5), preceding sprocket shaft (7) and stirring axle (12) are connected on the bearing (13) of frame (5) by bearing, back sprocket shaft (17) is connected on the bearing block of frame (5), sprocket wheel (6) is connected on the preceding sprocket shaft (7) before two, two back sprocket wheels (18) are connected on the back sprocket shaft (17), two material drag chains (16) are connected on preceding sprocket wheel (6) and the back sprocket wheel (18), middle by holder chain rail (15) support, two stirrings forks (14) are fixed on the stirring axle (12) by expansion set, reducing motor (11) is connected with stirring axle (12), and minor sprocket (9) is in transmission connection by driving-chain and drive sprocket (10).
4, lead bullion granulation automatic assembly line according to claim 2 is characterized in that: described lead pig hoisting mechanism (2) comprises hoist cylinder (19), balladeur train (20), four guide wheels (21), hopper (22), column (23); Hoist cylinder (19) lower end is hinged on the frame (5), and the upper end is hinged on balladeur train (20) and the hopper (22), and four guide wheels (21) are connected on the balladeur train (20), and balladeur train (20) rolls with the guide pillar of column (23) by guide wheel (21) and is connected.
5, lead bullion granulation automatic assembly line according to claim 1 is characterized in that: described lead pig cake cutter structure (3) comprises cuts cake cutter (24), shears oil cylinder (25), door frame guide rail (26), locating piece (27), following anvil groove (28); Door frame guide rail (26) upper end is connected with shears oil cylinder (25), shears to be fixed with on the oil cylinder (25) and cuts cake cutter (24), and the lower end is connected with locating piece (27) and following anvil groove (28), and the discharging opening of cutting anvil groove (28) under the cake docks with the charging aperture of comminutor (4).
6, lead bullion granulation automatic assembly line according to claim 1 is characterized in that: described granulation mechanism comprises a plurality of drifts and corresponding with it die.
7, lead bullion granulation automatic assembly line according to claim 1 is characterized in that: there are two compression rollers to changeing synchronously in described granulation mechanism, is distributed with concavo-convex staggered boss and groove on the curved surfaces of compression roller.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008200293286U CN201201052Y (en) | 2008-06-06 | 2008-06-06 | Lead ingot prilling automatic production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008200293286U CN201201052Y (en) | 2008-06-06 | 2008-06-06 | Lead ingot prilling automatic production line |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201201052Y true CN201201052Y (en) | 2009-03-04 |
Family
ID=40423363
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNU2008200293286U Expired - Fee Related CN201201052Y (en) | 2008-06-06 | 2008-06-06 | Lead ingot prilling automatic production line |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201201052Y (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102189265A (en) * | 2011-06-03 | 2011-09-21 | 合肥锻压集团蚌埠压力机制造有限公司 | Lead sheet cold cutting pelleter |
CN102294487A (en) * | 2011-08-17 | 2011-12-28 | 合肥锻压集团蚌埠压力机制造有限公司 | Lead ingot slicing device |
CN102303119A (en) * | 2011-05-16 | 2012-01-04 | 安徽奥力机械科技有限公司 | Full-automatic lead ingot granulating machine |
CN102328090A (en) * | 2011-09-13 | 2012-01-25 | 余华乔 | Fully-automatic production equipment for cold granulation of lead ingot |
CN103170634A (en) * | 2013-04-09 | 2013-06-26 | 安徽奥力机械科技有限公司 | Adjustable lead granule frame-type slitting mill |
CN105772736A (en) * | 2016-05-18 | 2016-07-20 | 大英德创精工设备有限公司 | Lead granule pelleting device and method |
CN112745006A (en) * | 2020-12-30 | 2021-05-04 | 安阳艾尔旺新能源环境有限公司 | Drying and granulating device |
-
2008
- 2008-06-06 CN CNU2008200293286U patent/CN201201052Y/en not_active Expired - Fee Related
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102303119A (en) * | 2011-05-16 | 2012-01-04 | 安徽奥力机械科技有限公司 | Full-automatic lead ingot granulating machine |
CN102189265A (en) * | 2011-06-03 | 2011-09-21 | 合肥锻压集团蚌埠压力机制造有限公司 | Lead sheet cold cutting pelleter |
CN102294487A (en) * | 2011-08-17 | 2011-12-28 | 合肥锻压集团蚌埠压力机制造有限公司 | Lead ingot slicing device |
CN102328090A (en) * | 2011-09-13 | 2012-01-25 | 余华乔 | Fully-automatic production equipment for cold granulation of lead ingot |
CN103170634A (en) * | 2013-04-09 | 2013-06-26 | 安徽奥力机械科技有限公司 | Adjustable lead granule frame-type slitting mill |
CN103170634B (en) * | 2013-04-09 | 2016-02-17 | 安徽奥力机械科技有限公司 | A kind of adjustable lead frame slitting mill |
CN105772736A (en) * | 2016-05-18 | 2016-07-20 | 大英德创精工设备有限公司 | Lead granule pelleting device and method |
CN105772736B (en) * | 2016-05-18 | 2018-04-24 | 大英德创精工设备有限公司 | A kind of lead button prilling granulator and lead button prilling process |
CN112745006A (en) * | 2020-12-30 | 2021-05-04 | 安阳艾尔旺新能源环境有限公司 | Drying and granulating device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101428347B (en) | Lead bullion granulation automation line production process and apparatus | |
CN201524802U (en) | Automatic product line for lead ingot granulation | |
CN201201052Y (en) | Lead ingot prilling automatic production line | |
CN201357309Y (en) | Numerical control reinforcing steel bar shearing production line | |
CN201143523Y (en) | Slitter edge automatic processing system | |
CN202239634U (en) | Full-automatic production equipment for cold granulation of lead ingots | |
CN202318558U (en) | Novel full-automatic plate charging machine for brick machine | |
CN104664574A (en) | Multifunctional fermenting grain turning machine with spiral fence, and use method thereof | |
CN201703840U (en) | Automatic feeding device capable of controlling quantity | |
CN2925123Y (en) | Food pre-powdering equipment | |
CN201807669U (en) | Automatic feeding device dedicated for shearing and processing thick plates | |
CN201324990Y (en) | Elevator | |
CN202191945U (en) | Waste tire lifting and feeding device | |
CN203265781U (en) | Cast bar positioning cutting device | |
CN203197209U (en) | Automatic sand filling device | |
CN202480262U (en) | Curbstone chamfering machine | |
CN213996232U (en) | Recycled concrete recovery system | |
CN201683176U (en) | Bead feeding machine for pointed bead embryo | |
CN210546857U (en) | Full-automatic interior decompression of storehouse awl clean-up equipment | |
CN103658288A (en) | Hardware tool discharging device and feeding equipment special for hardware tool discharging device | |
CN203649096U (en) | Hardware tool discharge device and feed equipment special for hardware tool discharge device | |
CN202192084U (en) | Device for shearing, blanking and turning hot rolled blanks | |
CN210525456U (en) | Brick making production line | |
CN204352959U (en) | Biomass fuel comprehensive breaker | |
CN211305684U (en) | Novel lathe autoloading device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder |
Address after: 710021 Xi'an economic and Technological Development Zone, Fengcheng, No., No. 12 road, No. 98 Patentee after: China energy saving and environmental protection equipment Limited by Share Ltd Address before: 710021 Xi'an economic and Technological Development Zone, Fengcheng, No., No. 12 road, No. 98 Patentee before: Xi'an Qiyuan Mechanical and Electrical Equipment Co., Ltd. |
|
CP01 | Change in the name or title of a patent holder | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20090304 Termination date: 20170606 |
|
CF01 | Termination of patent right due to non-payment of annual fee |