A kind of bundling aluminium ingot hoisting tool special
Technical field
The utility model is related to work piece hoisting field, is particularly suited for the hoisting tool special of bundling aluminium ingot.
Background technology
The molten cast aluminium ingot of aluminium manufacturer, bundling, because that cannot lift, is transported, such one into a square bag usually using fork truck after stacking
Come, the overhead traveling crane in workshop leaves unused, and causes underutilization of resources, furthermore, due to the limitation of forklift lifting height so that finished product is piled up
Height can only be limited in fork truck, cause the space waste of workshop short transverse, the existing suspender in market to clamp suspension using lever again
Structure (lifting of aluminium ingot is not required to clamp), complex structure is heavier, is not suitable for the lifting of bundling aluminium ingot.
The content of the invention
The purpose of this utility model is to propose that one kind can coordinate manual special hanger with crane, lifts bundling aluminium ingot, is carried
Utilization rate of equipment and installations high.Compared to the existing suspender in market, have the characteristics that:Simplify structure, using manually operated, maneuverability, letter
It is single practical;Newly-increased safe locking mechanism, is prevented effectively from accident generation;Suspension hook structure is redesigned, optimizes distribution of force, reduction office
Portion's stress, mitigates weight, material-saving.
It is that, up to this purpose, the present invention uses following technical scheme:
We design a bundling aluminium ingot hoisting tool special.As Figure 1-4, this lifting device is for manually operated,
It is made up of main spandrel girder, suspension ring, locking nut, secondary spandrel girder, suspension hook, coupled support plate and locking piece.On the main spandrel girder
It is provided with center and screwed hole is installed;Suspension ring, the suspension ring are made up of lifting hole(eyelet), suspension ring axle, and suspension ring axle front end is provided with screw thread, are held by master
Screwed hole is installed and is connected with main spandrel girder in the center of weight beam;Locking nut, the locking nut is spirally connected with suspension ring, with main spandrel girder
Compress, play locking effect, keep away suspension ring loosening;Secondary spandrel girder, the secondary spandrel girder is installed on main spandrel girder two ends, secondary spandrel girder
Two ends are provided with support shaft;Suspension hook, the suspension hook is connected with hinge arrangement with secondary spandrel girder, and suspension hook is provided with lever, can be by living
Dynamic lever makes suspension hook be rotated in the support shaft of secondary spandrel girder, and active lever is provided with elongated hole;Coupled support plate, the gearing branch
Fagging is provided with sleeve, is sleeved on the suspension ring axle, can within the specific limits be moved up and down relative to suspension ring axle, interlock plate
Two ends are provided with support shaft, and support shaft is arranged in the elongated hole on the suspension hook active lever, and side suspension hook is in the secondary spandrel girder
Support on when rotating, drive the active lever on suspension hook to rotate, so as to drive the interlock plate to move down, and by interlock plate
Opposite side suspension hook is driven to rotate in the opposite direction, so that suspension hook opens;Locking piece, the locking piece is provided with supporting plate, draws
Bar and fixed cover, fixed cover are welded in main spandrel girder top, and former and later two in pull bar two fixed covers of insertion, are propped up in line
Fagging is welded and fixed with pull bar front end, and pull bar can within the specific limits be moved forward and backward in fixed cover, after both sides suspension hook closes up,
The interlock plate, by support shaft jack-up, makes interlock plate form fixed interval (FI) with main spandrel girder by the active lever on suspension hook, this
When is pushed into locking piece between interlock plate and main spandrel girder by pull bar by locking piece so that interlock plate must not be moved up and down,
Rotated so as to lock suspension hook, it is to avoid hook block skids and opens in hoisting process, security incident occurs.
Wherein, to reach uniform force, the purpose of local stress is reduced, suspension hook power of vertical direction in lifting is individually applied
Be added on secondary backbar, greatly reduce the joint stress of suspension hook and active lever, so can not only reduce the material of suspension hook into
This, also eliminates potential safety hazard, makes overall force analysis more simple and clear, is easy to do more accurate local strengthening.
The beneficial effects of the utility model:Simplify structure, reduce failure, it is simple real using manually operated, maneuverability
With;Newly-increased safe locking mechanism, is prevented effectively from accident generation;Suspension hook structure is redesigned, optimizes distribution of force, reduce local answering
Power, mitigates weight, material-saving.
Brief description of the drawings
Fig. 1 is the front view of the special hanger structural representation that the utility model specific embodiment is provided.
Fig. 2 is the side view of the special hanger structural representation that the utility model specific embodiment is provided.
Fig. 3 is the top view of the special hanger structural representation that the utility model specific embodiment is provided.
Fig. 4 is the stereogram of the special hanger structural representation that the utility model specific embodiment is provided.
In figure:
1st, main spandrel girder;2nd, secondary spandrel girder;3rd, suspension ring;4th, locking nut;5th, coupled support plate;6th, suspension hook;7th, movable bar
Bar;8th, locking piece.
Specific embodiment
To solve the problems, such as to be previously mentioned in background technology, we design a bundling aluminium ingot hoisting tool special.As schemed
Shown in 1-4, this lifting device is manually operated, by main spandrel girder, suspension ring, locking nut, secondary spandrel girder, suspension hook, coupled support
Plate and locking piece are constituted.The main spandrel girder is provided with center and installs screwed hole;Suspension ring, the suspension ring are by lifting hole(eyelet), suspension ring axle group
Into suspension ring axle front end is provided with screw thread, and install screwed hole by the center of main spandrel girder is connected with main spandrel girder;Locking nut, institute
State locking nut to be spirally connected with suspension ring, compressed with main spandrel girder, play locking effect, keep away suspension ring loosening;Secondary spandrel girder, the pair is held
Weight beam is installed on main spandrel girder two ends, and secondary spandrel girder two ends are provided with support shaft;Suspension hook, the suspension hook is with hinge arrangement and secondary load-bearing
Beam is connected, and suspension hook is provided with lever, by active lever suspension hook can be made to be rotated in the support shaft of secondary spandrel girder, on active lever
It is provided with elongated hole;Coupled support plate, the coupled support plate is provided with sleeve, is sleeved on the suspension ring axle, can be relative to hanging
Annulate shaft is moved up and down within the specific limits, and interlock plate two ends are provided with support shaft, and support shaft is arranged on the suspension hook active lever
Elongated hole in, when side suspension hook is rotated in the support of the secondary spandrel girder, drive suspension hook on active lever rotate so that band
Move the interlock plate to move down, and drive opposite side suspension hook to rotate in the opposite direction by interlock plate, so that suspension hook opens;Lock
Determine part, the locking piece is provided with supporting plate, pull bar and fixed cover, fixed cover is welded in main spandrel girder top, former and later two into
One straight line, pull bar is inserted in two fixed covers, and supporting plate is welded and fixed with pull bar front end, and pull bar can be in fixed cover in certain model
Enclose interior movable, after both sides suspension hook closes up, the interlock plate, by support shaft jack-up, makes company by the active lever on suspension hook
Dynamic plate forms fixed interval (FI) with main spandrel girder, and locking piece at this moment is pushed into interlock plate with main spandrel girder by locking piece by pull bar
Between so that interlock plate must not be moved up and down, so as to lock suspension hook rotation, it is to avoid hook block skids and opens in hoisting process, occurs
Security incident.
Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by specific embodiment.
Fig. 1-4 is the special hanger structural representation that the utility model specific embodiment is provided.
As Figure 1-4, this lifting device is manually operated, by main spandrel girder 1, secondary spandrel girder 2, suspension ring 3, locking nut
4th, coupled support plate 5, suspension hook 6, active lever 7, pull bar 8, fixed cover 9 and supporting plate 10 are constituted.The main spandrel girder 1 is provided with
Center is installed by screwed hole;The suspension ring 3 are made up of lifting hole(eyelet), suspension ring axle, and suspension ring axle front end is external screw thread, by main spandrel girder
Dress screwed hole of feeling at ease is connected with main spandrel girder;Locking nut 4, the locking nut 4 is spirally connected with suspension ring 3, is pressed with main spandrel girder 1
Tightly, locking effect is played, suspension ring 3 is kept away and is loosened;Secondary spandrel girder 2, the secondary spandrel girder 2 is installed on the two ends of main spandrel girder 1, secondary load-bearing
The two ends of beam 2 are provided with support shaft;The suspension hook 6 is connected with hinge arrangement with secondary spandrel girder 2, and suspension hook 6 is provided with active lever 7, can
Suspension hook 6 is set to be rotated in the support shaft of secondary spandrel girder 2 by active lever 7, active lever 7 is provided with elongated hole;It is described to interlock branch
Fagging 5 is provided with sleeve, is sleeved on the axle of the suspension ring 3, can be moved up and down in the certain limit of suspension ring axial direction, coupled support
The two ends of plate 5 are provided with support shaft, and support shaft is inserted in the elongated hole on the suspension hook active lever 7, and side suspension hook 6 is in the secondary load-bearing
When being rotated in the support shaft of beam 2, the active lever 7 on suspension hook 6 is driven to rotate, so as to drive the coupled support plate 5 to moving down
It is dynamic, and drive opposite side suspension hook 6 to rotate in the opposite direction by coupled support plate 5, so that suspension hook 6 opens;On the locking piece
Be provided with pull bar 8, fixed cover 9 and supporting plate 10, fixed cover is welded in the top of main spandrel girder 2, former and later two in line, pull bar is inserted
Enter in two fixed covers, supporting plate is welded and fixed with pull bar front end, pull bar can within the specific limits be moved forward and backward in fixed cover,
After both sides suspension hook 6 closes up, the coupled support plate 5, by the upward jack-up of support shaft, makes company by the active lever 7 on suspension hook 6
Dynamic supporting plate 5 and main spandrel girder 1 form fixed interval (FI), at this moment will by pull bar 8 by supporting plate 10 be pushed into coupled support plate 5 with
Between main spandrel girder 1 so that coupled support plate 5 must not be moved up and down, so as to lock suspension hook 6 rotate, it is to avoid hook in hoisting process
Hang 6 skiddings to open, security incident occur.
Wherein, to reach uniform force, the purpose of local stress is reduced, the power of the vertical direction in lifting of suspension hook 6 is independent
It is applied on secondary backbar 2, greatly reduces the joint stress of suspension hook 6 and active lever 7, so can not only reduces suspension hook 6
Material cost, also eliminates potential safety hazard, makes overall force analysis more simple and clear, is easy to do more accurate local strengthening.
Know-why of the present utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality
With new principle, and can not by any way be construed to the limitation to the utility model protection domain.Based on explanation herein,
Those skilled in the art associates other specific embodiments of the present utility model by would not require any inventive effort,
These modes are fallen within protection domain of the present utility model.