CN203991660U - The sleeve return mechanism of aluminium foil mill - Google Patents
The sleeve return mechanism of aluminium foil mill Download PDFInfo
- Publication number
- CN203991660U CN203991660U CN201420318694.9U CN201420318694U CN203991660U CN 203991660 U CN203991660 U CN 203991660U CN 201420318694 U CN201420318694 U CN 201420318694U CN 203991660 U CN203991660 U CN 203991660U
- Authority
- CN
- China
- Prior art keywords
- sleeve
- conveyer
- bracket
- track
- drive
- 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 - Lifetime
Links
- 239000005030 aluminium foil Substances 0.000 title claims abstract description 17
- 230000005540 biological transmission Effects 0.000 claims abstract description 35
- 241001149930 Protura <class> Species 0.000 claims abstract description 14
- 230000000694 effects Effects 0.000 claims description 18
- 230000007423 decrease Effects 0.000 claims description 3
- 238000005516 engineering process Methods 0.000 abstract description 5
- 238000009856 non-ferrous metallurgy Methods 0.000 abstract description 2
- 238000004519 manufacturing process Methods 0.000 description 9
- 230000007547 defect Effects 0.000 description 2
- 230000035939 shock Effects 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- FGRBYDKOBBBPOI-UHFFFAOYSA-N 10,10-dioxo-2-[4-(N-phenylanilino)phenyl]thioxanthen-9-one Chemical compound O=C1c2ccccc2S(=O)(=O)c2ccc(cc12)-c1ccc(cc1)N(c1ccccc1)c1ccccc1 FGRBYDKOBBBPOI-UHFFFAOYSA-N 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000013016 damping Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000003801 milling Methods 0.000 description 1
- 230000004043 responsiveness Effects 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Landscapes
- Specific Conveyance Elements (AREA)
Abstract
The utility model belongs to non-ferrous metallurgy technology field, proposes a kind of sleeve return mechanism of aluminium foil mill.The sleeve return mechanism of the aluminium foil mill proposing has the sleeve conveyer (6) for delivery of sleeve; Sleeve conveyer includes to place track and the transmission mechanism of sleeve; Track is horizontally disposed structure, and the two ends of track lay respectively at cone head of decoiling machine, coiling machine conehead under; Sleeve
laterallybe arranged on the track of sleeve conveyer (6), and the track of sleeve conveyer (6) is stretched out respectively at the two ends of length sleeve direction; Corresponding sleeve is provided with the bracket in order to stop sleeve, and bracket is two covers that are positioned at sleeve conveyer length direction two ends; Corresponding every cover bracket (11) is provided with to drive the lowering or hoisting gear of its lifting.The utility model has solved sleeve sideslip, stuck phenomenon in transmission process; Guaranteed sleeve traveling comfort.
Description
Technical field
The utility model belongs to non-ferrous metallurgy technology field, is specifically related to a kind of sleeve return mechanism of aluminium foil mill.
Background technology
Sleeve return mechanism is requisite parts in whole aluminium foil mill production line, its effect is first the empty set cylinder after uncoiler uncoiling to be unloaded down by arrival end sleeve lowering or hoisting gear, then by transmitting guide rail, empty set cylinder is sent to the below of coiling machine, by port of export sleeve lowering or hoisting gear, empty set cylinder is installed on the conehead case of coiling machine again, treats that coiling machine coiled strip is used.
As shown in Figure 1, traditional sleeve return mechanism generally comprises arrival end sleeve lowering or hoisting gear 1, tilting guide rail bracket 2, stop assembly 3 and port of export sleeve lowering or hoisting gear 4 surge; Described tilting guide rail bracket 2 is two, and the tilting guide rail bracket 2 described in two is symmetrical arranged, and on the tilting guide rail bracket 2 described in each, is connected with baffle plate; Tilting guide rail bracket 2 is from uncoiler bipyramid head below, pass through the base of aluminium foil mill below, to coiling machine bipyramid head below, distance between two the above baffle plates of tilting guide rail bracket is determined by the specification of sleeve, on the center line of tilting guide rail bracket, be provided with the stop assembly that surges, and the described stop assembly that surges is positioned at the below of milling train; The described stop assembly 3 that surges is steelframes of the Welding Structure form that can be rotated around fixed pivot by a Hydraulic Cylinder, for keeping off the empty set cylinder that rolls and come from uncoiler, because once only need a upper sleeve, and the empty set cylinder of putting on guide rail bracket may more than one; When coiling machine needs upper bush, by Hydraulic Cylinder steelframe, around fixing point, rotate the sleeve of letting pass; A shears being started by hydraulic cylinder is respectively set below the conehead of uncoiler, coiling machine, and it first rises, and can between uncoiler bipyramid head, catch empty set cylinder, then declines, and sleeve is shelved on tilting guide rail bracket; Equally, another bracket that batches pusher side conehead below rises, and the sleeve on guide rail is held up to bipyramid head center, allows the smooth closing sleeve of bipyramid head.
This design in the ideal situation sleeve is from uncoiling pusher side along tilting guide rail bracket, to arrive and to batch pusher side smoothly, and aluminium foil mill at home and abroad substantially use be all also this structure, As time goes on, its some defects have been manifested gradually.Its some defect may be ignored by initial production producer, but the fast development along with modern science and technology, the raising of every production cost, increase day by day to aluminium foil products demand on market, businessman also has higher requirement to equipment, reduces production costs, enhances productivity, uses manpower and material resources sparingly etc.In recent years, the maximum drawback of increasing this old-fashioned structure of customers' responsiveness: sleeve is led and rolled in rolling process at tilting, easily stuck on two side shields of tilting guide rail bracket, can not move on, often need manually repeatedly to intervene, waste time and energy, also affect production efficiency, sometimes clash into when serious and can cause sleeve to damage, production line interrupts, and increases production cost.Analyze its reason and be, sleeve moves on tilting guide rail, is a free accelerator that speed is more and more faster, and its velocity magnitude is uncontrollable, finally causes bumpy motion, and left and right sideslip easily occurs, stuck in tilting guide rail bracket.How to address this problem better, to have become many insiders instantly jointly to visit the problem of opinion, research.
Utility model content
For solving the problems of the technologies described above, the purpose of this utility model is the sleeve return mechanism that proposes a kind of aluminium foil mill.
The utility model adopts following scheme for completing above-mentioned purpose:
A sleeve return mechanism for aluminium foil mill, described sleeve return mechanism has the sleeve conveyer for delivery of sleeve; Described sleeve conveyer includes to place the track of sleeve and the transmission mechanism moving horizontally in orbit in order to drive sleeve; In order to place the described track of sleeve, be horizontally disposed structure, and the two ends of described track lay respectively at cone head of decoiling machine, coiling machine conehead under; Need the sleeve of carrying to be laterally placed on the track of sleeve conveyer, and the track of sleeve conveyer is stretched out respectively at the two ends of length sleeve direction; The described track of sleeve conveyer for can be under the effect of transmission mechanism between cone head of decoiling machine, coiling machine conehead uniform motion, and drive the sleeve of placing in orbit from the arrival end of sleeve conveyer, to move to the structure of the port of export of sleeve conveyer; Corresponding described sleeve is provided with the bracket in order to stop sleeve, and described bracket is two covers, and the bracket described in every cover is two that are symmetrical set; The described bracket of two covers lays respectively at the two ends of sleeve conveyer length direction, and two described brackets of every cover are positioned at the both sides of sleeve conveyer width; Bracket described in corresponding every cover is provided with to drive the lowering or hoisting gear of its lifting, form the rise structure of the empty set cylinder that reception uncoiler unloads down of described bracket under the effect of the corresponding lowering or hoisting gear of institute, and form the rise under the effect of the corresponding lowering or hoisting gear of institute of described bracket and by sleeve conveyer track, be sent to the empty set cylinder of the port of export, empty set cylinder is risen to the structure of coiling machine position of center line.
Described lowering or hoisting gear in order to driven bracket lifting is swinging lift device; Described lowering or hoisting gear includes long arm swing, short swing arm and oscillating oil cylinder; Described long arm swing and the corresponding setting one by one of described bracket, described bracket connects firmly the one end at long arm swing; The other end of described long arm swing is hinged by one end of jointed shaft and short swing arm, and described jointed shaft is fixed in supporting seat II; The other end of described short swing arm and the cylinder rod of oscillating oil cylinder are hinged; The base of described oscillating oil cylinder and supporting seat I are hinged, and described short swing arm is moved under the effect of oscillating oil cylinder, thereby drive long arm swing to rotate and drive bracket to rise or decline around jointed shaft.
Transmission mechanism in order to the rail moving of drive sleeve conveyer is chain-drive mechanism; Described transmission mechanism includes power transmission shaft, hydraulic motor, drive sprocket, driven sprocket and in order to the roller chain of stop sleeve; Described roller chain is two that are symmetrical set, the two ends of described roller chain lay respectively at cone head of decoiling machine, coiling machine conehead under; Roller chain described in two forms the track of sleeve conveyer; Described in each, the two ends of roller chain all have the sprocket wheel in order to the running of driven roller chain; Being positioned at two roller chains all connects firmly with described power transmission shaft with the sprocket wheel of one end; Described driven sprocket is nested with on described power transmission shaft, and connects firmly with described power transmission shaft; Described driven sprocket coordinates with the drive sprocket that is connected to hydraulic motor output by chain, form described drive sprocket under the effect of hydraulic motor, drive described driven sprocket to rotate, described driven sprocket drives described power transmission shaft, sprocket wheel and roller chain to rotate, thereby realizes the structure that drive sleeve conveyer moves.
The arrival end of described sleeve conveyer and the port of export are provided with to place end baffle I and the end baffle II that sleeve departs from sleeve conveyer, and are positioned in the end baffle II described in the sleeve conveyer port of export and have the rubber slab in order to protection sleeve surface.
The sleeve return mechanism of a kind of aluminium foil mill the utility model proposes, adopts technique scheme, has following beneficial effect:
1, in order to carry the sleeve conveyer of sleeve to adopt horizontally disposed structure, guaranteed sleeve traveling comfort, the both sides of sleeve conveyer are without rib, fundamentally efficiently solve sleeve sideslip, stuck phenomenon in transmission process.
2, lowering or hoisting gear adopts swing type, compares with traditional lift, has saved at the underground dell of placing lowering or hoisting gear that digs, and from the civil engineering angle of engineering, considers, simplifies a lot; From the pipe arrangement route angle of Hydraulic Station, valve platform, consider, hydraulic cylinder travel also reduces a lot, and hydraulic cylinder price has lowered, and pipe cabling is also simplified a lot, saves many tubing.
3, the transmission mechanism of sleeve conveyer adopts chain-drive mechanism, after empty set cylinder is put on track by uncoiling pusher side lowering or hoisting gear, rely on the effect of static friction power between sleeve and chain to move forward with chain, there is stable drive, compact conformation, feature that resistance to shock loads ability is strong; Drive sprocket is controlled by hydraulic motor simultaneously, and speed can need to regulate according to difference.
4, the arrival end of sleeve conveyer, the port of export are all designed with end baffle, can prevent from de-orbiting when sleeve is sent to end, on outlet side baffle plate, be added with that one deck is shock-resistant, the rubber slab of damping, can play and batch the sleeve positioning action of pusher side, simultaneously again can protection sleeve surface not damaged, improve surface quality of strips; Compare with traditional structure, deducted original hydraulic pressure stop assembly and corresponding a set of hydraulic control valve platform, the hard spacing i.e. safety of machinery of employing is reliable again, has saved production cost, has improved production efficiency and product quality.
Accompanying drawing explanation
Fig. 1 is the structural representation of prior art middle sleeve return mechanism.
Fig. 2 is structural representation of the present utility model.
Fig. 3, Fig. 4 are the structural representation of lowering or hoisting gear in the utility model.
Fig. 5 is the structural representation of drive transmission device in the utility model.
In figure: 1, arrival end sleeve lowering or hoisting gear, 2, tilting guide rail bracket, 3, hydraulic pressure stop assembly, 4, port of export sleeve lowering or hoisting gear, 5, lowering or hoisting gear, 6, sleeve conveyer, 7, end baffle II, 8, short swing arm 9, long arm swing, 10, oscillating oil cylinder, 11, bracket, 12, crossbeam, 13, bearing, 14, positioning sleeve, 15, sprocket wheel, 16, power transmission shaft, 17, driven sprocket, 18, supporting seat II, 19, roller chain, 20, supporting seat I, 21, end baffle I, 22, drive sprocket, 23, hydraulic motor.
The specific embodiment
With specific embodiment, the utility model is illustrated by reference to the accompanying drawings:
As shown in Figure 2, a kind of sleeve return mechanism of aluminium foil mill, described sleeve return mechanism has the sleeve conveyer for delivery of sleeve; Described sleeve conveyer 6 includes to place the track of sleeve and the transmission mechanism moving horizontally in orbit in order to drive sleeve; In order to place the described track of sleeve, be horizontally disposed structure, and the two ends of described track lay respectively at cone head of decoiling machine, coiling machine conehead under; Need the sleeve of carrying to be laterally placed on the track of sleeve conveyer 6, and the track of sleeve conveyer 6 is stretched out respectively at the two ends of length sleeve direction; The described track of sleeve conveyer 6 for can be under the effect of transmission mechanism between cone head of decoiling machine, coiling machine conehead uniform motion, and drive the sleeve of placing in orbit from the arrival end of sleeve conveyer, to move to the structure of the port of export of sleeve conveyer; Corresponding described sleeve is provided with the bracket 11 in order to stop sleeve, and described bracket 11 is two covers, and the bracket 11 described in every cover is two of being symmetrical set; The described bracket 11 of two covers lays respectively at the two ends of sleeve conveyer length 6 directions, and two described brackets of every cover are positioned at the both sides of sleeve conveyer 6 widths; Bracket 11 described in corresponding every cover is provided with to drive the lowering or hoisting gear of its lifting, forms rise under the effect of the corresponding lowering or hoisting gear of the institute structure of the empty set cylinder that reception uncoiler unloads down of described bracket 11; And form described bracket dragged the empty set cylinder that is sent to the port of export by sleeve conveyer track under the effect of corresponding lowering or hoisting gear, empty set cylinder is risen to the structure of coiling machine position of center line.
As shown in Figure 3, Figure 4, more in order to the structure of lowering or hoisting gear described in driven bracket lifting, and be ripe technical pattern, at this, do not do too much explanation; In this embodiment, described lowering or hoisting gear is swinging lift device; Described lowering or hoisting gear includes long arm swing 9, short swing arm 8 and oscillating oil cylinder 10; Described long arm swing 9 and the corresponding setting one by one of described bracket 11, described bracket 11 connects firmly the one end at long arm swing 10; The other end of described long arm swing 9 is hinged by one end of jointed shaft and short swing arm 8, and described jointed shaft is fixed in supporting seat II 18; The cylinder rod of the other end of described short swing arm 8 and oscillating oil cylinder 10 is hinged; The base of described oscillating oil cylinder 10 and supporting seat I 20 are hinged, and described short swing arm 8 is moved under the effect of oscillating oil cylinder 10, thereby drive long arm swing 9 to rotate and drive bracket 11 to rise or decline around jointed shaft.
As shown in Figure 5, more in order to the structure of the transmission mechanism of the rail moving of drive sleeve conveyer, and be ripe technical pattern, at this, do not do too much explanation; In this embodiment, described transmission mechanism is chain-drive mechanism; Described transmission mechanism includes power transmission shaft 16, hydraulic motor 23, drive sprocket 22, driven sprocket 17 and in order to the roller chain 19 of stop sleeve; Described roller chain 19 is two of being symmetrical set, the two ends of described roller chain 19 lay respectively at cone head of decoiling machine, coiling machine conehead under; Roller chain described in two forms the track of sleeve conveyer, and described in each, the two ends of roller chain 19 all have the sprocket wheel 15 in order to the running of driven roller chain; Being positioned at two roller chains all connects firmly with described power transmission shaft 16 with the sprocket wheel of one end; Described driven sprocket 17 is nested with on described power transmission shaft 16 and with described power transmission shaft 16 and connects firmly; Described driven sprocket 17 coordinates with the drive sprocket 22 that is connected to hydraulic motor 23 outputs by chain, form described drive sprocket 22 under the effect of hydraulic motor 23, drive described driven sprocket 17 to rotate, described driven sprocket 17 drives described power transmission shaft 16, sprocket wheel 15 and roller chain 19 to rotate, thereby realizes the structure that drive sleeve conveyer moves.
The arrival end of described sleeve conveyer 6 and the port of export are provided with to prevent that sleeve from departing from end baffle I 21 and the end baffle II 7 of sleeve conveyer, and are positioned in the end baffle II 21 described in the sleeve conveyer port of export and have the rubber slab in order to protection sleeve surface.Described end baffle I 21 and end baffle II 7 are steelframe Welding Structure, and together with connecting firmly with the base of described sleeve conveyer by bolt, the base of sleeve conveyer is fixed on foundation ground by foundation bolt.
The utility model in use, the rod chamber work of sleeve conveyer 6 arrival end oscillating oil cylinders 10, cylinder rod is return, short swing arm 8 actions, drive long arm swing 9 rise to uncoiler center line under, the bracket 11 that is connected to long arm swing 9 one end is caught empty set cylinder, and cone head of decoiling machine case retreats and makes conehead separated with empty set cylinder; Then the rodless cavity work of oscillating oil cylinder 10, cylinder rod stretches out, and long arm swing 9 is fallen, and empty set cylinder is put into the arrival end of sleeve conveyer track, and oscillating oil cylinder works on, and bracket and sleeve depart from; Empty set cylinder is delivered to the port of export of sleeve conveyer track under the effect of transmission mechanism, then the rod chamber work of the oscillating oil cylinder 10 of sleeve conveyer 6 ports of export, cylinder rod is return, short swing arm 8 actions, drive long arm swing 9, bracket and empty set cylinder rise to coiling machine center line under, the coiling machine closing sleeve that advances, then the rodless cavity work of oscillating oil cylinder 10, cylinder rod stretches out, and long arm swing 9 is fallen, and bracket and sleeve depart from.
Claims (4)
1. a sleeve return mechanism for aluminium foil mill, is characterized in that: described sleeve return mechanism has the sleeve conveyer (6) for delivery of sleeve; Described sleeve conveyer includes to place the track of sleeve and the transmission mechanism moving horizontally in orbit in order to drive sleeve; In order to place the described track of sleeve, be horizontally disposed structure, and the two ends of described track lay respectively at cone head of decoiling machine, coiling machine conehead under; Need the sleeve of carrying to be horizontally installed on the track of sleeve conveyer (6), and the track of sleeve conveyer (6) is stretched out respectively at the two ends of length sleeve direction; The described track of sleeve conveyer (6) for can be under the effect of transmission mechanism between cone head of decoiling machine, coiling machine conehead uniform motion, and drive the sleeve of placing in orbit from the arrival end of sleeve conveyer (6), to move to the structure of the port of export of sleeve conveyer; Corresponding described sleeve is provided with the bracket in order to stop sleeve, and described bracket is two covers, and the bracket described in every cover is two that are symmetrical set; The described bracket (11) of two covers lays respectively at the two ends of sleeve conveyer length direction, and two described brackets (11) of every cover are positioned at the both sides of sleeve conveyer (6) width; Bracket (11) described in corresponding every cover is provided with to drive the lowering or hoisting gear of its lifting, forms rise under the effect of the corresponding lowering or hoisting gear of the institute structure of the empty set cylinder that reception uncoiler unloads down of described bracket (11); And form the rise under the effect of the corresponding lowering or hoisting gear of institute of described bracket and by sleeve conveyer track, be sent to the empty set cylinder of the port of export, empty set cylinder is risen to the structure of coiling machine position of center line.
2. the sleeve return mechanism of aluminium foil mill according to claim 1, is characterized in that: the described lowering or hoisting gear in order to driven bracket lifting is swinging lift device; Described lowering or hoisting gear includes long arm swing (9), short swing arm (8) and oscillating oil cylinder (10); Described long arm swing (9) and described bracket (11) corresponding setting one by one, described bracket (11) connects firmly the one end in long arm swing (9); The other end of described long arm swing (9) is hinged by one end of jointed shaft and short swing arm (8), and described jointed shaft is fixed in supporting seat II; The cylinder rod of the other end of described short swing arm (8) and oscillating oil cylinder (10) is hinged; Base and the supporting seat I of described oscillating oil cylinder (10) are hinged, and described short swing arm is moved under the effect of oscillating oil cylinder, thereby drive long arm swing to rotate and drive bracket to rise or decline around jointed shaft.
3. the sleeve return mechanism of aluminium foil mill according to claim 1, is characterized in that: the transmission mechanism in order to the rail moving of drive sleeve conveyer is chain-drive mechanism; Described transmission mechanism includes power transmission shaft (16), hydraulic motor (23), drive sprocket (22), driven sprocket (17) and in order to the roller chain (19) of stop sleeve; Described roller chain (19) is two of being symmetrical set, the two ends of described roller chain (19) lay respectively at cone head of decoiling machine, coiling machine conehead under; Roller chain described in two (19) forms the track of sleeve conveyer; The two ends of roller chain described in each (19) all have the sprocket wheel (15) in order to the running of driven roller chain; Being positioned at two roller chains all connects firmly with described power transmission shaft (16) with the sprocket wheel (15) of one end; Described driven sprocket (17) is nested with upper at described power transmission shaft (16) and connects firmly with described power transmission shaft (16); Described driven sprocket (17) coordinates with the drive sprocket (22) that is connected to hydraulic motor (23) output by chain, form described drive sprocket under the effect of hydraulic motor, drive described driven sprocket to rotate, described driven sprocket drives described power transmission shaft, sprocket wheel and roller chain to rotate, thereby realizes the structure that drive sleeve conveyer moves.
4. the sleeve return mechanism of aluminium foil mill according to claim 1; it is characterized in that: the arrival end of described sleeve conveyer and the port of export are provided with to place end baffle I (21) and the end baffle II (7) that sleeve departs from sleeve conveyer, and be positioned in the end baffle II (7) described in the sleeve conveyer port of export and there is the rubber slab in order to protection sleeve surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420318694.9U CN203991660U (en) | 2014-06-16 | 2014-06-16 | The sleeve return mechanism of aluminium foil mill |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420318694.9U CN203991660U (en) | 2014-06-16 | 2014-06-16 | The sleeve return mechanism of aluminium foil mill |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203991660U true CN203991660U (en) | 2014-12-10 |
Family
ID=52031726
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420318694.9U Expired - Lifetime CN203991660U (en) | 2014-06-16 | 2014-06-16 | The sleeve return mechanism of aluminium foil mill |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203991660U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106378359A (en) * | 2016-10-21 | 2017-02-08 | 广东冠邦科技有限公司 | Four-roll hydraulic copper foil rolling mill |
CN107054978A (en) * | 2017-06-02 | 2017-08-18 | 嘉兴鸿利机械有限公司 | The automatic storage rack of sleeve |
-
2014
- 2014-06-16 CN CN201420318694.9U patent/CN203991660U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106378359A (en) * | 2016-10-21 | 2017-02-08 | 广东冠邦科技有限公司 | Four-roll hydraulic copper foil rolling mill |
CN107054978A (en) * | 2017-06-02 | 2017-08-18 | 嘉兴鸿利机械有限公司 | The automatic storage rack of sleeve |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106639921B (en) | Automatic pipe rod conveyor | |
CN103611904B (en) | A kind of laterally shifting steel knockout mechanism | |
CN205739558U (en) | Bridge-type is stretched ship loader | |
CN203991660U (en) | The sleeve return mechanism of aluminium foil mill | |
CN203529405U (en) | Lifting device of packaging transport vehicle | |
CN203359408U (en) | Tension device for belt conveyor | |
CN206511617U (en) | Tray lift conveying mechanism | |
CN201186760Y (en) | Bar or pipe hexagon-shaping device | |
CN201770018U (en) | Automatic packing device special for oil bushing production line | |
CN202639980U (en) | Pipe cutting and loading device | |
CN202897366U (en) | Oil drill joint production line electric induction furnace material lifting mechanism | |
CN207200138U (en) | Hydraulic type multiple cable lifts conveying device | |
CN203345716U (en) | Automatic overturning upright conveying equipment for flange plate formed by three H-shaped section steel plates | |
CN106410734B (en) | A kind of portable iron bag uncovery equipment electric power system | |
CN102530733A (en) | Large radial gate lifting equipment and lifting method thereof | |
CN202481683U (en) | Storage distributing device | |
CN209601972U (en) | A kind of engineering machinery hoisting apparatus of hydraulic-driven | |
CN201720729U (en) | Horizontal automatic chain conveyor for conveying cylinder body | |
CN204265274U (en) | A kind of monkey | |
CN104326202B (en) | A kind of tiered warehouse facility | |
CN102513463B (en) | Multi-station automatic rear discharging device | |
CN203529336U (en) | Package transport vehicle | |
CN204195386U (en) | A kind of loading and unloading lowering or hoisting gear for engine crankcase | |
CN204777700U (en) | Turnover mechanism is carried to aerated concrete block's layer board | |
CN203889614U (en) | Carrier frame for roller replacement |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |