CN205973383U - Elevator rope anti -swing puts mechanism - Google Patents
Elevator rope anti -swing puts mechanism Download PDFInfo
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- CN205973383U CN205973383U CN201620813034.7U CN201620813034U CN205973383U CN 205973383 U CN205973383 U CN 205973383U CN 201620813034 U CN201620813034 U CN 201620813034U CN 205973383 U CN205973383 U CN 205973383U
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- wire rope
- guider
- elevator
- pin
- elevator wire
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Abstract
The utility model relates to an operation about in preventing putting the opening of structure of elevator rope anti -swing puts mechanism, elevator rope, a guider set up on the car and with this open end homonymy of preventing putting the structure, prevent putting and link to each other with slider after the closed end of structure passes the 2nd guider, the homonymy at elevator guide rail is fixed through first fixed bolster to the threaded rod, two swing arms pass through the second fixed bolster to be fixed on the threaded rod, and can be around fixing the axle luffing motion on the second fixed bolster, two swing arm other ends and the 2nd guider link to each other, there is adjusting device between two swing arms, second grade damping spring sets up in this adjusting device and slider line of centres position, two cable stayed spring one end lie in the 2nd guider upper end and lower extreme respectively, the other end sets up at the threaded rod both ends relatively. The utility model discloses novel structure, the dependable performance, installation, debugging convenience, the especially marine elevator of effectual solution elevator rope, big lifting height elevator rope sway a difficult problem.
Description
Technical field
This utility model is related to a kind of anti-wabbler mechanism of elevator wire rope, can effectively solve elevator wire rope especially
Lift on ships, big hoisting depth elevator wire rope flapping issue, flexibly, conveniently.This utility model mechanism can apply and solve
The anti-of elevator wire rope including traction steel-cable, compensation steel wire rope and speed limiter wire rope waves technical barrier.
Background technology
Developing rapidly with elevator industry, elevator miscellaneous emerges in an endless stream.In recent years, express elevator, marine electric
The demand of terraced, full outdoor elevators grows with each passing day, but elevator wire rope elevator run, ship rock, wind blow in the case of shake
Pendulum makes the normal operation of elevator limited.Up to the present, commonly used method be make steel wire rope, car, to reform closed loop, use
Swelling device makes elevator wire rope tensioner, and it is bigger that elevator wire rope waves the expanding force more seriously needing.This method is no
Increased steel wire rope, sedan-chair frame, the pulling force of counterweight frame in shape, increase each wheel shaft radial shear power, thus accelerate elevator wire rope,
Return the abrasion of rope sheave, bearing, shorten service life, meanwhile, this method is also difficult to solve big hoisting depth elevator wire rope
Flapping issue.
Content of the invention
For overcoming the shortcomings of above-mentioned prior art presence, this utility model provides a kind of anti-wabbler mechanism of elevator wire rope,
Elevator wire rope flapping issue can effectively be solved, flexibly, conveniently.
This utility model adopts following technical schemes:
A kind of anti-wabbler mechanism of elevator wire rope, this mechanism is arranged on lift car operating path in elevator hoistways, its
It is characterised by:Described mechanism has the anti-sway structure of one first guider and an one end open, and elevator wire rope is anti-sway at this
Run up and down in the opening of structure, this first guider is arranged on car and the opening homonymy with this anti-sway structure, should
Anti-sway structure setting is on this first guider operating path, after this anti-sway structure closed end passes through the second guider, last
End is connected with carriage;One threaded rod be arranged on two the first fixed supports and parallel with cage guide, two first
Fixed support is fixed on the homonymy of this cage guide, and two swing arms are arranged on the length of this threaded rod by the second fixed support
The center place on the upper side in direction, and can swing up and down around the axle being fixed on this second fixed support, this two swing arms are another
End is connected with the second guider both sides respectively, arranges adjusting means between two swing arms, and one or two grades of damping springs are arranged on
This adjusting means and the position of the carriage stream oriented device line of centres, two oblique pull spring one end are separately positioned on this second guiding
The top and bottom of the lifting plate in device centre position, the other end is then oppositely arranged on this threaded rod two ends.
Described anti-sway structure includes two leading arms and a pin, and this block is arranged between two leading arms, shape
Become the closed end of anti-sway structure, this closed end is connected with carriage after the second guider guides, this two leading arms
Form the opening of anti-sway structure with this pin, this opening is respectively provided with a roller, when cage operation can be with first through out-of-date roller
Guider contacts.
Described elevator wire rope is located in the anti-sway structure that this pin is formed with two leading arms and tight with pin
Get together.
Described leading arm is provided with swinging arm device, and one-level damping spring is placed in up and down two of the buffer board on swinging arm device
Side, threaded rod is passed through one-level damping spring and is fixed with guide plate, and roller is arranged on this swinging arm device.
Described mechanism also includes regulating block, and the upper and lower ends of described threaded rod are respectively provided with a regulating block, and this regulation is fast
One end be arranged on this threaded rod, the other end is connected with oblique pull spring.
Further, this regulating block and oblique pull spring are pin connection.
Two described swing arms are connected by axle with this second support bracket fastened side respectively, make this two swing arms can
Swing up and down around this axle.
Described swing arm is provided with multiple position adjustments holes.
The opening of described anti-sway structure is U-shaped opening or V-type opening.
Described pin is gear wheel.
Described pin material adopts nylon, high-strength alloy, plastic cement, or rubber.
Described threaded rod two ends are arranged on described cage guide by one second fixed support respectively.
The anti-wabbler mechanism of elevator wire rope that this utility model provides, structure is novel, dependable performance, installs, debugs conveniently,
Can determine according to the hoisting depth of elevator in hoistway that arranging this elevator wire rope on cage operation path in whole hoistway prevents shaking
The quantity of swinging mechanism.But the first guider in mechanism runs up and down due to being integrally fixed on car and with car,
Therefore, cage operation path in whole elevator hoistways only need to arrange first guider.Also dependent on elevator steel
The degree that cord is waved is different, takes cross one another mode to be installed.So-called cross one another mode is installed, and refers in electricity
In stair shaft road, the left side in cage operation path and right side transpostion interval arrange this anti-wabbler mechanism.It should be noted that taking
When interleaved mode is installed, need, on car both sides, one the first guider is respectively installed.
Mechanism, on the premise of not increasing wire rope tension-force, effectively solves elevator wire rope especially marine electric
Terraced, big hoisting depth elevator wire rope waves a difficult problem.
Brief description
Tu1Shi this utility model mechanism mounting structure front view;
Tu2Shi this utility model mechanism mounting structure top view;
Fig. 3 is this utility model mechanism embodiment structure diagonal two side figure;
Fig. 4 is the first support bracket fastened structural representation in this utility model embodiment;
Fig. 5 is the structural representation of regulating block in this utility model embodiment;
Fig. 6 is the second support bracket fastened structural representation in this utility model embodiment;
Fig. 7 is swing arm structural representation in this utility model embodiment;
Fig. 8 is adjusting means structural representation in this utility model embodiment;
Fig. 9 is carriage structural representation in this utility model embodiment;
Figure 10 is the second guider structural representation in this utility model embodiment;
Figure 11 is leading arm structural representation in this utility model embodiment;
Figure 12 is swinging arm device structural representation in this utility model embodiment.
Wherein:1- traction steel-cable, 2- cage guide, 3- presses guide plate, 4- first fixed support, 5- installing hole, and 6- bores a hole,
The anti-sway structure of 7-, 9- regulating block, 11- pin-and-hole, 13- sells, 15- threaded rod, 16- oblique pull spring, 19- second fixed support, 20- axle
Hole, 24- axle, 25- swing arm, 26- bearing block, 27- hole back-up ring, 28- bearing, 29- guide pipe, 30- position adjustments hole, 31-
End is stifled, 32- screw, 33- adjusting means, 34- hole, 35- adjustable plate, 36- hole, 38- adjusting set, 39- fixing hole, 40- sliding panel,
41- adjustment pin, 43- split pin, bis- grades of damping springs of 44-, 45- bolt, 49- carriage, 50- hole, 52- hole, 53- copper sheathing,
54- second guider, 56- hole, 57- lifts plate, 58- guide plate, 59- bolt, 60- pin, 61- axle, 62- leading arm, 63-
Guide pipe, 65- guide plate, 66- axle, 67- threaded rod, 68- nut, 69- one-level damping spring, 70- swinging arm device, 71- plate,
72- bearing block, 73- bearing, 74- buffer board, 75- long lumbar hole, 76- axle, 77- hole, 78- roller, 79- nut, 80- first guides
Device, 81- car, 82- compensates steel wire rope, 83- nut, 85- installing hole, 86- breach, and 87- car top returns rope sheave.
Specific embodiment
Below with embodiment and combine accompanying drawing and further illustrate this utility model, so that this utility model art
Technical staff can easily implement this utility model.
Fig. 1, Fig. 2 are mounting structure main views in elevator hoistways for the anti-wabbler mechanism of this utility model elevator wire rope and bow
View, this mechanism is arranged on cage guide 2 or elevator hoistways inwall on the operating path of lift car 81 in elevator hoistways
Or on other steel construction elevator well frames, mechanism can be used for traction steel-cable in elevator, compensates steel wire rope and limiter of speed
The anti-of steel wire rope waves.The present embodiment is taking traction steel-cable 1 and compensation steel wire rope 82 as a example.Traction steel-cable 1 passes through car 81
After the car top at top returns rope sheave 87, two ends are separately fixed at the top that main frame puts machine beam and counterweight frame, compensate steel wire rope 82 one end solid
It is scheduled on car 81 bottom, the other end is fixed on counterweight frame bottom, the present embodiment mechanism passes through to press guide plate 3 to prop up two first fixations
Frame 4 and second fixed support 19 are fixed on the homonymy of cage guide 2, thus mechanism and cage guide 2 are fixed on one
Rise.It has the anti-sway structure 7 of one first guider 80 and an one end open, and the opening of this anti-sway structure 7 can be U-shaped opening
Mouth or V-type opening.First guider 80 is arranged on car 81 and the opening homonymy with this anti-sway structure 7, should
Anti-sway structure 7 is arranged on this first guider 80 operating path, and this anti-sway structure 7 closed end passes through the second guider 54
Afterwards, end is connected with carriage 49, and the second guider 54 stretches out to this anti-sway structure 7 and play the guiding role.Traction steel
Cord 1 is run in this anti-sway structure 7 up and down, and when car runs about 81, traction steel-cable 1 and compensation steel wire rope 82 exist
Run up and down along car 81 running orbit in this anti-sway structure 7, when car 81 passes through this mechanism, this mechanism can be along along car 81
Rise or descent direction swings up or down.
Shown in Figure 3, this anti-sway structure 7 includes two leading arms 62 and a pin 60, the preferred Buddhist nun of this pin 60
The gear wheel of imperial material, traction steel-cable 1 is located in nylon pin 60 and the anti-sway structure 7 of two leading arm 62 formation and and Buddhist nun
Imperial gear wheel closely gets together.This pin 60 is used to block traction steel-cable 1, and the benefit of preferably gear wheel is, in traction steel
When cord 1 moves up and down, gear wheel can rotate, and can reduce the abrasion of traction steel-cable 1.This nylon gear wheel is arranged on two guiding
Between arm 62, formed anti-sway structure 7 closed end, this closed end pass through the second guider 54 guide after with carriage 49 phase
Even, the opening that this two leading arm 62 forms anti-sway structure 7 with this nylon gear wheel is respectively provided with a roller 78, when car 81 runs
Can contact with the first guider 80 through out-of-date roller 78.One threaded rod 15 be arranged on two the first fixed supports 4 and with
Cage guide 2 is parallel, and two the first fixed supports 4 are fixed on the homonymy of this cage guide 2, and threaded rod 15 passes through second fixing
Frame 19, and the second fixed support 19 is fixed on the center of this threaded rod 15 length direction, two swing arms 25 pass through second
Fixed support 19 is arranged on the center place on the upper side of this threaded rod 15 length direction, and can be around being fixed on the second fixed support 19
Axle 24 swing up and down, this two swing arm 25 other ends are connected with the second guider 54 both sides respectively, two swing arms 25
Between setting 33,1 grades of damping springs 44 of adjusting means be arranged on this adjusting means 33 and carriage 49 stream oriented device center even
Line position, when two grades of damping springs 44 are arranged on the point midway of adjusting means 33 and the carriage 49 stream oriented device line of centres,
The distribution of power is relatively good, and two grades of damping springs 44 adopt standard compression spring, primarily serves the effect by compression and damping, two
Oblique pull spring 16 one end is separately positioned on lifting plate 57 top and bottom in this second guider 54 centre position, and the other end is then
It is oppositely arranged at the breach 86 on the regulating block 9 at this threaded rod 15 two ends, and with the pin 13 through the pin-and-hole 11 on regulating block 9
To connect.
Threaded rod 15 two ends are respectively passed through the first fixed support 4 shown in a Fig. 4 and are arranged on cage guide 2.Solid first
The side of fixed rack 4 is provided with two installing holes 5, and four pressure guide plates 3 are each passed through the installing hole 5 on two the first fixed supports 4
Fixing with cage guide 2, two pressure guide plates 3 are each passed through two installing holes 85 and cage guide 2 on the second fixed support 19
Fixing, thus two the first fixed supports 4 and the second fixed support 19 are passed through to press guide plate 3 and cage guide 2 to be fixed on one
Rise.First fixed support 4 horizontal direction is provided with perforation 6, and threaded rod 15 two ends respectively penetrate on first fixed support 4
In perforation 6 and fixing.Fig. 5 is the structural representation of regulating block 9, at two oblique pull springs 16 two ends corresponding with threaded rod 15 and
The centrosymmetry position of opposite thread bar 15 length direction is each to arrange a regulating block 9, and one end of this regulation fast 9 is fixed on this screw thread
On bar 15, the other end is connected with oblique pull spring 16.Regulating block 9 is used for fixing one end of oblique pull spring 16, when moving up and down
Also act as the tensile force adjusting oblique pull spring 16, make U-shaped breach be in horizontality, regulating block 9 and oblique pull spring 16 connection end
It is provided with pin-and-hole 11, regulating block 9 is sold by the round shackle that pin 13 is each passed through on this pin-and-hole 11 and oblique pull spring 16 with oblique pull spring 16
Connect.First guider 80 is loaded on car 81 and the homonymy with U-shaped breach, for guide roller 78 along the first guider
80 operations.Compensate steel wire rope 82 to be located at car 81 bottom and be connected with car 81 integral.
As shown in fig. 6, structure such as Fig. 7 of swing arm 25, it has a guide pipe 29 to the structure of the second fixed support 19, should
Guide pipe 29 one end is welded with a bearing block 26, and multiple position adjustments holes 30 are distributed with guide pipe 29, this position adjustments hole 30
Axial direction and horizontal plane, guide pipe 29 other end blocks up 31 stifled jails with the end of Intermediate Gray screw 32.Bearing block 26 is built with axle
Hold 28, in the outside of bearing 28 equipped with hole back-up ring 27.Bearing block 26 is used for installing bearing 28, back-up ring 27 and welding guide pipe
29.Back-up ring 27 is used to block bearing 28, is allowed to not drop out.Bearing 28 be used for reducing swing arm 25 around axle 24 swing when rub
Wipe resistance, be allowed to swing more flexible.Guide pipe 29 is used for adjusting adjusting means 33 position, and to adjusting means 33, carriage
49 play the guiding role, and act, to the second guider 54, the effect of being connected.Position adjustments hole 30 is passed through adjustment pin 41 and is filled to adjusting
Put 33 and play fixed position effect.End is blocked up 31, screw 32 and is provided to fix the second guider 54.Two swing arm 25 one end
It is connected with axle 24 with the axis hole 20 of this second fixed support 19 both sides respectively, make this two swing arms 25 can be around axle about 24
Swing.Two swing arm 25 other ends are then each passed through the adjusting set 38 in adjusting means 33, the copper sheathing 53 on carriage 49
Afterwards, it is attached with the screw 32 on swing arm 25 with the bolt 59 through two holes 55 on the second guider 54 respectively.
Adjusting means 33 structure asks for an interview Fig. 8, and it includes an adjustable plate 35, and two have the adjusting set 38 of fixing hole 39 respectively
Firmly in the hole 34 on press-in adjustable plate 35, and guarantee axis and the horizontal plane of fixing hole 39.In adjusting means 33 two
Individual adjusting set 38 is respectively fitted on the guide pipe 29 of two swing arms 25, and passes through the fixing hole in adjusting set 38 with adjustment pin 41
39 and swing arm 25 on position adjustments hole 30, adjusting means 33 is carried out position with two swing arms 25 and fixes, for prevent adjust
Section pin 41 skids off, and can insert split pin 43 in the hole on adjustment pin 41 top, and open the opening of split pin 43.
, as shown in fig. 9, it includes sliding panel 40 and two copper sheathings 53, this two copper sheathings 53 are respectively firmly for carriage 49
In two holes 50 of press-in sliding panel 40 both sides, this two copper sheathings 53 are respectively fitted on the guide pipe 29 of two swing arms 25.Two
Level damping spring 44 is set on bolt 45, and is each passed through the hole 52 at carriage 49 center and the hole at adjusting means 33 center
Carriage 49 and adjusting means 33 are coupled together by 36.
As Figure 10, the second guider 54 includes one piece of guide plate 58, fixes two copper sheathings 53, leading on guide plate 58
To the both sides of plate 58 same side length direction symmetric channel line position be respectively provided with one piece lifting plate 57, oblique pull spring 16 not with regulation
The round shackle of block 9 connection end is placed between this two blocks lifting plates 57, sequentially passes through the hole 56 lifting on plate 57, oblique pull spring with pin
Round shackle on 16, makes lifting plate 57 link together with oblique pull spring 16.
As shown in figure 11, it includes a guide plate 65 to leading arm 62, and one is welded in the guide pipe 63 of this guide plate 65 one end, leads
It is provided with axle 66 to plate 65, swinging arm device 70 is arranged on this axle 66.Two one-level damping springs 69 are respectively placed in swinging arm device 70
On buffer board 74 both sides up and down, threaded rod 67 pass through two one-level damping springs 69 and buffer board 74 on long lumbar hole 75,
Fixing with guide plate 65 with nut 68.The guide pipe 63 of two leading arm 62 one end is each passed through two on the second guider 54
After individual copper sheathing 53, it is directed to pipe 63 with bolt and is fixed together with carriage 49.Pin 60 is placed between two leading arms 62,
It is loaded on through on the axle 61 of two leading arms 62.Two nuts 83 adjusting the elastic force of one-level damping spring 69 are located at respectively
The both sides of two one-level damping springs 69.Roller 78 is installed on the axle 76 on swinging arm device 70, is tightened with nut 79.
Swinging arm device 70 such as Figure 12, it includes one block of plate 71 carrying hole 77, and axle 76 is from the rear side press-in plate 71 of plate 71
Hole 77 in.It is welded with one piece of buffer board 74 carrying long lumbar hole 75 at plate 71 above horizontal center line, on the left of buffer board 74,
It is welded with a bearing block 72, in bearing block 72 built with bearing 73 at horizontal center line before plate 71.The effect of swinging arm device 70 is
When roller 78 and the first guider 80 Contact have an impact force, at this moment swinging arm device 70 will swing around axle 66,
When swinging arm device 70 swings, the buffer board 74 being welded on swinging arm device 70 will compress the one-level damping spring 69 of stress side,
Thus playing the effect of damping, buffering.
During installation, be each passed through installing hole 5 on two the first fixed supports 4 with six pressure guide plates 3 and one second solid
Installing hole 85 on fixed rack 19, the first fixed support 4, the second fixed support 19 are fixedly installed togather with cage guide 2,
Thus being installed together anti-for this elevator wire rope wabbler mechanism and cage guide 2, and make traction steel-cable 1 or compensate steel wire
Rope 82 is located in nylon pin 60 and the U-shaped opening of two leading arm 62 formation, and closely gets together with nylon pin 60.To
U-shaped opening direction adjusts adjusting means 33, makes adjusting means 33 compress two grades of damping springs 44, in two grades of damping spring 44 elastic force
In the presence of promote carriage 49 move along the guide pipe 29 on swing arm 25 to U-shaped opening direction.Meanwhile, slide dress
Put 49 drives, two leading arms 62 together fixed thereto to move to U-shaped opening direction together, thus drive be loaded on axle 61,
Nylon pin 60 between two leading arms 62 moves together, until being tightly close in traction steel-cable 1 or compensation steel wire rope 82
Together, to keep two grades of damping springs 44 to have certain pressure.Next adjust the one-level being located at buffer board both sides about 74
Damping spring 69 makes the pressure size of two springs the same.Finally adjusting two oblique pull springs 16, so that U-shaped opening is in horizontal
State.When elevator rises, rotate around axle 61 with traction steel-cable 1 nylon pin 60 closely, positioned at traction steel-cable 1
The guide plate 65 of both sides effectively prevents traction steel-cable 1 from waving forwards, backwards, makes to drag in the presence of two grades of damping spring 44 pressure
Draw steel wire rope 1 with nylon pin 60 all the time closely, effectively prevent traction steel-cable 1 from waving to the left and right.When on car 81
During rising, it is arranged on car 81 and can contact with roller 78 with first guider 80 of U-shaped opening homonymy, now one-level damping
Spring 69, two grades of damping springs 44, oblique pull springs 16 all play cushioning effect.Continue to rise with car 81, roller 78 can edge
The first guider 80 to run, at this moment traction steel-cable 1 and nylon pin 60 are temporarily disengaged from, oblique pull spring 16 below is drawn
Stretch, ensure in the presence of pulling force roller 78 and the first guider 80 without departing from.Car 81 continues to rise, Buddhist nun in the process
Imperial pin 60 can first be contacted with compensation steel wire rope 82, prevents compensation steel wire rope 82 from vacillating now to the left, now to the right.With rear roller 78 and guider
80 disengagings, make car 81 pass through the anti-wabbler mechanism of elevator wire rope.Under the collective effect of upper and lower two oblique pull springs 16,
U-shaped opening is made still to keep horizontality.When nylon pin 60 is contacted with compensation steel wire rope 82, this elevator wire rope is prevented waving
Two pieces of guide plates 65 of system have been located in compensating both sides before and after steel wire rope 82, thus preventing compensation steel wire rope 82 from waving forwards, backwards.
When elevator declines, nylon pin 60 can be close to compensation steel wire rope 82 and rotate around axle 61, prevent from compensating steel wire rope 82 to the left and right
Wave, effectively prevent compensation steel wire rope 82 from waving forwards, backwards positioned at the guide plate 65 compensating steel wire rope 82 both sides.When under car 81
During fall, it is arranged on car 81 and can contact with roller 78 with first guider 80 of U-shaped opening homonymy, now one-level damping
Spring 69, two grades of damping springs 44, oblique pull springs 16 all play cushioning effect.Continue to decline with car 81, roller 78 can edge
The first guider 80 to run, at this moment compensate steel wire rope 82 and be temporarily disengaged from nylon pin 60, oblique pull spring 16 quilt above
Stretching, ensure in the presence of pulling force roller 78 and the first guider 80 without departing from.Car 81 continues to decline, in the process
Nylon pin 60 can first be contacted with traction steel-cable 1, prevents traction steel-cable 1 from waving to the left and right.Lead with first with rear roller 78
Depart to device 80, make car 81 pass through the anti-wabbler mechanism of elevator wire rope.Common in upper and lower two oblique pull springs 16
Under effect, U-shaped opening is made still to keep horizontality.When nylon pin 60 is contacted with traction steel-cable 1, this elevator wire rope
Two pieces of guide plates 65 of anti-wabbler mechanism have been located in both sides before and after traction steel-cable 1, thus preventing traction steel-cable 1 from shaking forwards, backwards
Pendulum.
The anti-wabbler mechanism of elevator wire rope that this utility model provides, it is adaptable to traction steel-cable in elevator, compensates steel
Anti- when elevator runs waves for cord and speed limit Qiu's steel wire rope, but when preventing waving for speed limiter wire rope, need to be in car
81 increase by one first guider 80 with anti-sway structure 7 corresponding section.
Above-described is only preferred implementation of the present utility model.It should be pointed out that the ordinary skill for this area
For personnel, on the premise of without departing from this utility model design principle, some modifications and improvement can also be made, these also should
It is considered as belonging to protection domain of the present utility model.
Claims (10)
1. the anti-wabbler mechanism of a kind of elevator wire rope, this mechanism is arranged on lift car operating path in elevator hoistways, and it is special
Levy and be:Described mechanism has one first guider(80)And the anti-sway structure of one end open(7), elevator wire rope is anti-at this
Pendulum structure(7)Opening in run up and down, this first guider(80)It is arranged on car(81)Upper and with this anti-sway structure(7)
Opening homonymy, this anti-sway structure(7)It is arranged on this first guider(80)On operating path, this anti-sway structure(7)Close
Close end and pass through the second guider(54)Afterwards, end and carriage(49)It is connected;One threaded rod(15)Two ends are separately positioned on
One first fixed support(4)Go up and and cage guide(2)Parallel, two the first fixed supports(4)It is fixed on this cage guide
(2)Homonymy, two swing arms(25)By the second fixed support(19)It is arranged on this threaded rod(15)Length direction in
Heart place on the upper side, and can be around being fixed on this second fixed support(19)On axle(24)Swing up and down, this two swing arms(25)
The other end respectively with the second guider(54)Both sides are connected, two swing arms(25)Between arrange adjusting means(33), one or two
Level damping spring(44)It is arranged on this adjusting means(33)And carriage(49)The position of the stream oriented device line of centres, two oblique pulls
Spring(16)One end is separately positioned on this second guider(54)The lifting plate in centre position(57)Top and bottom, another
End is then oppositely arranged on this threaded rod(15)Two ends.
2. the anti-wabbler mechanism of elevator wire rope according to claim 1 it is characterised in that:Described anti-sway structure(7)Bag
Include two leading arms(62)And a pin(60), this pin(60)It is arranged on two leading arms(62)Between, form anti-sway knot
Structure(7)Closed end, this closed end pass through the second guider(54)With carriage after guiding(49)It is connected, this two guiding
Arm(62)With this pin(60)Form anti-sway structure(7)Opening, this opening is respectively provided with a roller(78), work as car(81)Fortune
Pass through out-of-date roller(78)Can be with the first guider(80)Contact.
3. the anti-wabbler mechanism of elevator wire rope according to claim 2 it is characterised in that:Described elevator wire rope is located at
This pin(60)With two leading arms(62)The anti-sway structure being formed(7)Interior and and pin(60)Closely get together.
4. the anti-wabbler mechanism of elevator wire rope according to claim 2 it is characterised in that:Described leading arm(62)On set
There is swinging arm device(70), one-level damping spring(69)It is placed in swinging arm device(70)On buffer board(74)Both sides up and down, screw thread
Bar(67)Through one-level damping spring(69)And and guide plate(65)Fixing, roller(78)It is arranged on this swinging arm device(70)On.
5. the anti-wabbler mechanism of elevator wire rope according to claim 1 it is characterised in that:Described anti-wabbler mechanism also wraps
Include regulating block(9), described threaded rod(15)Upper and lower ends be respectively provided with a regulating block(9), this regulating block(9)One end setting
In this threaded rod(15)On, the other end and oblique pull spring(16)It is connected.
6. the anti-wabbler mechanism of elevator wire rope according to claim 1 it is characterised in that:Two described swing arms(25)
Respectively with this second fixed support(19)Side pass through axle(24)It is connected, make this two swing arms(25)Can be around this axle(24)On
Lower swing.
7. the anti-wabbler mechanism of elevator wire rope according to claim 1 it is characterised in that:Described swing arm(25)On set
There are multiple position adjustments holes(30).
8. the anti-wabbler mechanism of elevator wire rope according to claim 1 it is characterised in that:Described anti-sway structure(7)'s
Opening is U-shaped opening or V-type opening.
9. the anti-wabbler mechanism of elevator wire rope according to claim 2 it is characterised in that:Described pin(60)For gear
Wheel.
10. the anti-wabbler mechanism of elevator wire rope according to claim 2 it is characterised in that:Described pin(60)Material
Using nylon, high-strength alloy, plastic cement, or rubber.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620813034.7U CN205973383U (en) | 2016-07-30 | 2016-07-30 | Elevator rope anti -swing puts mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620813034.7U CN205973383U (en) | 2016-07-30 | 2016-07-30 | Elevator rope anti -swing puts mechanism |
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CN205973383U true CN205973383U (en) | 2017-02-22 |
Family
ID=58027149
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Application Number | Title | Priority Date | Filing Date |
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CN201620813034.7U Withdrawn - After Issue CN205973383U (en) | 2016-07-30 | 2016-07-30 | Elevator rope anti -swing puts mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106044497A (en) * | 2016-07-30 | 2016-10-26 | 东南电梯股份有限公司 | Swing preventing mechanism for steel wire rope of elevator |
-
2016
- 2016-07-30 CN CN201620813034.7U patent/CN205973383U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106044497A (en) * | 2016-07-30 | 2016-10-26 | 东南电梯股份有限公司 | Swing preventing mechanism for steel wire rope of elevator |
CN106044497B (en) * | 2016-07-30 | 2018-07-03 | 东南电梯股份有限公司 | The anti-wabbler mechanism of elevator wire rope |
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