CN107313440B - A kind of anti-down electric power network electric pole based on lever - Google Patents
A kind of anti-down electric power network electric pole based on lever Download PDFInfo
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- CN107313440B CN107313440B CN201710621485.XA CN201710621485A CN107313440B CN 107313440 B CN107313440 B CN 107313440B CN 201710621485 A CN201710621485 A CN 201710621485A CN 107313440 B CN107313440 B CN 107313440B
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- telescopic rod
- groove
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- spring
- block
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- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D27/00—Foundations as substructures
- E02D27/32—Foundations for special purposes
- E02D27/42—Foundations for poles, masts or chimneys
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D31/00—Protective arrangements for foundations or foundation structures; Ground foundation measures for protecting the soil or the subsoil water, e.g. preventing or counteracting oil pollution
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D2200/00—Geometrical or physical properties
- E02D2200/14—Geometrical or physical properties resilient or elastic
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D2200/00—Geometrical or physical properties
- E02D2200/14—Geometrical or physical properties resilient or elastic
- E02D2200/146—Springs
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D2200/00—Geometrical or physical properties
- E02D2200/15—Geometrical or physical properties including at least a hinge
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D2600/00—Miscellaneous
- E02D2600/20—Miscellaneous comprising details of connection between elements
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- Life Sciences & Earth Sciences (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Mining & Mineral Resources (AREA)
- Paleontology (AREA)
- Civil Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Environmental & Geological Engineering (AREA)
- Hydrology & Water Resources (AREA)
- Buildings Adapted To Withstand Abnormal External Influences (AREA)
Abstract
The invention belongs to electric power network electric pole technical fields, more particularly to a kind of anti-down electric power network electric pole based on lever, it includes buffer gear, electric pole, concrete layer, winding wheel, spacing block, pedestal disk, swing mechanism, annular ground, when electric pole is hit;Electric pole will make corresponding first connecting rod move up;First connecting rod drives one end on the first telescopic rod close to first connecting rod to be swung up by spherical hinge;First telescopic rod, which is swung, will make one end of separate first telescopic rod on the second telescopic rod to lower swing;One end on second telescopic rod far from the first telescopic rod will drive the 5th connection square to move down to lower swing;The impact force that electric pole is subject to by a series of transmissions in the present invention by buffer gear is sequentially delivered to ground;To prevent electric pole when being hit, impact force damages the ground on the downside of electric pole;And then protect electric pole.
Description
Technical field
The invention belongs to electric power network electric pole technical field more particularly to a kind of anti-down electric power network electricity based on lever
Line bar.
Background technique
The power transformation of the various voltages entirety that electric line forms in one's power, referred to as power network, abbreviation power grid in electric system.
It includes power transformation, three transmission of electricity, distribution units.The task of power network is conveying and distribution electric energy, changes voltage.Electric pole cares for name
Thinking justice is exactly the bar installed electricity lines.Each rural area-field-road-street is come across, is the important infrastructure of early stage China
One of.
Electric pole is mostly integral type at present;When electric pole is by impact force;If impact force is larger;Electric pole is relatively tied
It is real;The ground on the downside of electric pole may be caused to burst apart;Electric pole is set to fall down to the ground, electric wire fracture;If people are under unknown situation
It will get an electric shock with the line contacts of fracture;The life of people is impacted;And electric wire fracture may cause short circuit;Shadow
Ring power supply;So designing a kind of electric wire that will not be impacted to the ground on the downside of electric pole when electric pole is by external force collision
Bar is necessary.
The present invention design a kind of anti-down electric power network electric pole based on lever solve the problems, such as it is as above.
Summary of the invention
To solve drawbacks described above in the prior art, the present invention discloses a kind of anti-down electric power network electric wire based on lever
Bar, it adopts the following technical solutions to realize.
A kind of anti-down electric power network electric pole based on lever, it is characterised in that: it includes soil horizon, buffer gear, electricity
Line bar, concrete layer, winding wheel, spacing block, pedestal disk, swing mechanism, annular ground, wherein the upper end of electric pole is equipped with
Four winding wheels;The lower end of electric pole is equipped with pedestal disk;The lower end of electric pole is fixed on soil horizon by pedestal disk;Bottom
The upper end of seat disk has the annular ground for reinforcing electric pole;It is located at the upside of soil horizon and annular ground around electric pole
It is covered with a layer concrete layer;Buffer gear there are four being circumferentially evenly distributed on the periphery of pedestal disk;Outside pedestal disk
Eight swing mechanisms have circumferentially been evenly distributed on disc;Eight swing mechanisms and four buffer gears cooperate.
Above-mentioned buffer gear includes first connecting rod, the first telescopic rod, the first support, swing mechanism, the second telescopic rod,
Five connection squares, first hydraulic cylinder, flexural pivot, push disk, pressure export, annular flexural pivot shell, second spring, the first cylinder groove,
Pouring weight, second hydraulic cylinder, the second fixture block, the first mounting groove, round hole, the first square groove, second square groove, escape groove, first
Fixture block, third spring, the second mounting groove, the first fixture block groove, hydraulic inner prop, the 4th spring, the second fixture block groove, guide block, guide groove,
Three telescopic rods, wherein one end of first connecting rod is mounted on pedestal disk periphery;One end of first telescopic rod connects with first
The other end of extension bar is hinged by spherical hinge;The other end of first telescopic rod is equipped with flexural pivot;It installs one end of second telescopic rod
On flexural pivot, and the second telescopic rod and the first telescopic rod are located at two sides symmetrical on flexural pivot;The upper surface of first support
It is provided with the first cylinder groove;The lower end of third telescopic rod is mounted on the first cylinder groove lower end surface;Annular flexural pivot shell is mounted on third
The upper end of telescopic rod;Second spring is installed between annular flexural pivot shell periphery and the first cylinder groove lower end surface;First support is solid
It is scheduled on soil horizon;First telescopic rod and the second telescopic rod are mounted on annular flexural pivot shell by flexural pivot;5th connection square upper end
The other end of the second telescopic rod is mounted on by revolute pair;The upper end of first hydraulic cylinder has square hole;Under first hydraulic cylinder
End has pressure export;The inside of first hydraulic cylinder, which has, pushes disk;The lower end of first hydraulic cylinder is fixed on soil horizon;First
The upper end of disk is pushed to connect the connection of square lower end with the 5th in hydraulic cylinder, and the 5th connection square passes through in first hydraulic cylinder
Square hole;The upper end of spacing block is provided with the first square groove;The lower end of first square groove is provided with round hole;It is right on the wall surface of round hole
First mounting groove there are two opening with claiming;Second mounting groove there are two symmetrically being opened on the wall surface of round hole;Two the second mounting grooves
It is located on the downside of two the first mounting grooves;Two the first fixture blocks are separately mounted in two the second mounting grooves;Two first cards
A third spring is separately installed between block and corresponding two the second mounting grooves;Two the second fixture blocks are separately mounted to two
In first mounting groove;The 4th spring is separately installed between two the second fixture blocks and corresponding two the first mounting grooves;Circle
The lower end in shape hole is provided with escape groove;The lower end surface of spacing block is provided with second square groove;Second square groove is communicated with escape groove;Isolation
The lower end of block is fixed on soil horizon;The upper end of spacing block is mounted on concrete layer lower end;Second square groove and ring on spacing block
The cooperation of shape flexural pivot shell;Escape groove and the first telescopic rod and the second telescopic rod on spacing block cooperate;On the inner wall of second hydraulic cylinder
Guide groove there are two symmetrically opening;The upper end of second hydraulic cylinder is mounted on concrete layer lower end and is located at the first square groove on spacing block
It is interior;Symmetrically there are two guide blocks for installation on the periphery of hydraulic inner prop upper end;It is symmetrically opened on the periphery of hydraulic inner prop lower end
There are two the second fixture block grooves;The upper end of hydraulic inner prop is fitted to second hydraulic cylinder by two guide blocks and two guide grooves
It is interior;Hydraulic inner prop lower end is located at two the second fixture block grooves of in the round hole on spacing block and hydraulic inner prop lower end and two second
Fixture block cooperation;First fixture block groove there are two symmetrically being opened on the periphery of pouring weight;Pouring weight be located in the round hole on spacing block and
Two the first fixture block grooves on pouring weight cooperate with two the first fixture blocks.
Above-mentioned swing mechanism includes rotational support, swinging block, rotation axis, rotation slot, limiting slot, limited block, nested troughs,
One spring is wherein provided with nested troughs on the downside of swinging block one end;It symmetrically opens there are two limiting slot the two sides of nested troughs lower end;Limit
The downside of position block one end has inclined-plane;Do not have bevelled one end on two limited blocks to be separately mounted in two limiting slots;Two
First spring is separately installed between a limited block and two limiting slots;The other end of swinging block is mounted on outside pedestal disk
On disc, and it is located on the downside of first connecting rod;The upper end of rotational support is provided with rotation slot;The both ends of rotation axis are separately mounted to turn
On the both sides of the face of dynamic slot;The lower end of rotational support is fixed on soil horizon;It is embedding on inclined-plane and swinging block on two limited blocks
The axis hole and rotation axis of grooving composition cooperate.
Four orientation locating for the pedestal disk circumferential direction that there are four swing mechanisms in above-mentioned eight swing mechanisms and slow
Punch mechanism four orientation locating for pedestal disk circumferential direction are identical.
The gravity of above-mentioned pouring weight is the 19/20 of the sum of two third spring forces;Its effect is to enable to pouring weight first
It is in equilibrium state under the elastic force effect of two third springs under beginning state, 19/20 setting can guarantee that pouring weight smoothly touches
Hair;The sum of elastic force of two the 4th springs is 4 times of hydraulic inner prop gravity;It is when just to have begun to flow into second hydraulic for liquid that it, which is acted on,
When cylinder;Liquid in second hydraulic cylinder will not make hydraulic inner prop move down;But the fluid pressure in second hydraulic cylinder is big
The liquid when elastic force of two the 4th springs in second hydraulic cylinder will make hydraulic inner prop move down.
Above-mentioned second hydraulic cylinder is connect by hydraulic tube with the pressure export in first hydraulic cylinder.
As the further improvement of this technology, one of winding wheel is located at other three windings in aforementioned four winding wheel
Wheel upside;Spacing is equal between two adjacent winding wheels in four winding wheels.
As the further improvement of this technology, above-mentioned first spring is compressed spring;Second spring is extension spring;Third
Spring is compressed spring;4th spring is compressed spring.
As the further improvement of this technology, the above-mentioned alternative as eight swing mechanisms be four swing mechanisms and
12 swing mechanisms.
As the further improvement of this technology, the above-mentioned alternative as four buffer gears is eight buffer gears.
Relative to traditional electric wire pole technology, the electric pole that the present invention designs passes through automatic adjustment when by external force collision
It can prevent impact force from damaging to the ground on the downside of electric pole;And then it prevents from that electric pole is caused to fall down to the ground, electric wire fracture;It influences
Power supply.
The lower end of electric pole is equipped with pedestal disk in the present invention;The periphery of pedestal disk has circumferentially been evenly distributed four
A buffer gear;The periphery of pedestal disk has circumferentially been evenly distributed eight swing mechanisms;Eight swing mechanisms and four are slow
Punch mechanism cooperation;In buffer gear;One end of first connecting rod is mounted on pedestal disk periphery;The one of first telescopic rod
It holds hinged by spherical hinge with the other end of first connecting rod;The other end of first telescopic rod is equipped with flexural pivot;Second telescopic rod
One end be mounted on flexural pivot, and the second telescopic rod and the first telescopic rod are located at two sides symmetrical on flexural pivot;Third is stretched
The lower end of contracting bar is mounted on the first cylinder groove lower end surface;Annular flexural pivot shell is mounted on the upper end of third telescopic rod;Annular flexural pivot
Second spring is installed between shell periphery and the first cylinder groove lower end surface;First is supported and fixed on soil horizon;First telescopic rod
It is mounted on annular flexural pivot shell with the second telescopic rod by flexural pivot;The side of 5th connection square upper end is mounted on the second telescopic rod
The other end;The lower end of first hydraulic cylinder is fixed on soil horizon;Upper end and the 5th connection side of disk are pushed in first hydraulic cylinder
The connection of block lower end;For swing mechanism;Swinging block is provided with nested troughs on the downside of one end;The two sides of nested troughs lower end are symmetrically provided with
Two limiting slots;The downside of limited block one end has inclined-plane;Do not have bevelled one end on two limited blocks and is separately mounted to two
In a limiting slot;First spring is separately installed between two limited blocks and two limiting slots;It installs one end of swinging block
On pedestal disk periphery and it is located on the downside of first connecting rod;The upper end of rotational support is provided with rotation slot;The both ends of rotation axis
It is separately mounted on the both sides of the face of rotation slot;The lower end of rotational support is fixed on soil horizon;Inclined-plane on two limited blocks and
The axis hole and rotation axis of nested troughs composition on swinging block cooperate;There are four swing mechanisms in pedestal disk in eight swing mechanisms
Four orientation locating for circumferential direction are identical as four orientation locating for buffer gear pedestal disk circumferential direction;When electric pole by
To when hitting;If electric pole is harder survivable;Electric pole just will drive pedestal disk and swing;Pedestal disk is swung just
Meeting is so that the wherein swinging block run-off the straight in a corresponding swing mechanism in eight swing mechanisms;It is tilted over fastly swinging
Two limited blocks in journey on swinging block will be contacted with the rotation axis in rotational support;So that two limited blocks are to limit
Slot medial movement;When two limited blocks are all moved in corresponding limiting slot;Rotation axis will be stuck in nested troughs;This
When two limited blocks move out limiting slot under the action of corresponding first spring;Two limited blocks and nested troughs form an envelope
Close shaft set;The shaft set being made up of two limited blocks and nested troughs is combined into a revolute pair with matching for rotation axis;Pass through
The rotation sub-mount disk will be swung around opposite rotation axis;The swing of pedestal disk, which just will drive, is in opposite with rotation axis
First connecting rod on direction moves up;First connecting rod is driven on the first telescopic rod by spherical hinge close to first connecting rod
One end be swung up;First telescopic rod, which is swung, to make second to stretch by the spherical hinge of flexural pivot and annular flexural pivot shell composition
One end on bar far from the first telescopic rod is to lower swing;One end on second telescopic rod far from the first telescopic rod will to lower swing
The 5th connection square is driven to move down;The impact force that electric pole is subject to by a series of transmissions in the present invention by buffer gear
It is sequentially delivered to ground;To prevent electric pole when being hit, impact force damages the ground on the downside of electric pole;In turn
Protect electric pole;When the 5th connection square moves down;5th connection square, which will drive, pushes disk to move down;It pushes
Disk moves down the liquid that can be squeezed in first hydraulic cylinder;So that the fluid pressure in first hydraulic cylinder becomes larger.In the present invention
When pedestal disk is just swung around opposite rotation axis;It is located at the first connecting rod and first in same direction with the rotation axis
Slight oscillatory can occur for telescopic rod;But the swing of first connecting rod and the first telescopic rod is in first connecting rod and the first telescopic rod
Under the action of the spherical hinge of composition and the first telescopic rod are flexible;First telescopic rod would not drive the second telescopic rod to swing.
In the present invention when the first telescopic rod and the second telescopic rod are swung;Since the impact force of electric pole transmitting is larger
So reaction force of the annular flexural pivot shell when the first telescopic rod is swung with the second telescopic rod by flexural pivot is also relatively large;
Annular flexural pivot shell thus be may cause by a stronger upward pulling force;Damage annular flexural pivot shell;So that annular flexural pivot shell
Lose hinged effect;So the lower end of spacing block is fixed on soil horizon in the present invention;The upper end of spacing block is mounted on concrete layer
Lower end;Guide groove there are two symmetrically being opened on the inner wall of second hydraulic cylinder;The upper end of second hydraulic cylinder is mounted on concrete layer lower end
And it is located on spacing block in the first square groove;Symmetrically there are two guide blocks for installation on the periphery of hydraulic inner prop upper end;In hydraulic
Second fixture block groove there are two symmetrically being opened on the periphery of column lower end;The upper end of hydraulic inner prop passes through two guide blocks and two guide grooves
Be fitted in second hydraulic cylinder;Hydraulic inner prop lower end is located at the two of in the round hole on spacing block and hydraulic inner prop lower end
A second fixture block groove cooperates with two the second fixture blocks;First fixture block groove there are two symmetrically being opened on the periphery of pouring weight;Pouring weight position
Two the first fixture block grooves in the round hole on spacing block and on pouring weight cooperate with two the first fixture blocks;When in first hydraulic cylinder
Fluid pressure become larger and when pressure reaches the limiting value of pressure export;Liquid in first hydraulic cylinder will pass through hydraulic tube stream
Enter in second hydraulic cylinder;The liquid flowed into second hydraulic cylinder just will push hydraulic inner prop;Give hydraulic inner prop one downward pressure
Power;When the pressure that hydraulic inner prop is subject to is greater than thrust of two the 4th springs to the second fixture block;Hydraulic inner prop will be to moving down
It is dynamic;Hydraulic inner prop moves down will be to one downward thrust of pouring weight;When the thrust that pouring weight is subject to is greater than two third springs
When to the thrust of the first fixture block;Pouring weight will be moved down along round hole;So that pouring weight is pounded to annular flexural pivot shell;Strengthen ring
The stability of shape flexural pivot shell;The effect of first hydraulic cylinder and second hydraulic cylinder that the present invention designs is by hydraulic inner prop to pouring weight
Add a thrust;So that the initial velocity of pouring weight becomes faster;Reduce the time that pouring weight moves down;It ensure that annular flexural pivot shell
It can be consolidated in time.In the present invention in buffer gear initialization;Annular ball is buffered by the elastic force of second spring
The upward pulling force that hinge shell is subject to;Guarantee annular flexural pivot shell by pouring weight when the upward pulling force that annular flexural pivot shell is subject to is larger
Stability;Its effect of eight swing mechanisms that the present invention designs is that the rum point being subject to when electric pole is located at two neighboring buffer
When among structure;A swing mechanism corresponding in rum point opposite direction can play its work in eight swing mechanisms
With;Buffer gear is gone on smoothly.
When the electric pole that people are designed using the present invention;When electric pole is hit;It is not easy if electric pole is harder
It destroys;Electric pole just will drive pedestal disk and swing;The swing of pedestal disk will make in eight swing mechanisms wherein phase
Swinging block run-off the straight in a corresponding swing mechanism;Two limited blocks in swinging fast tilting procedure on swinging block are just
It can be contacted with the rotation axis in rotational support;So that two limited blocks are to limiting slot medial movement;When two limited blocks are complete
When portion is moved in corresponding limiting slot;Rotation axis will be stuck in nested troughs;Two limited blocks are corresponding first at this time
Limiting slot is moved out under the action of spring;Two limited blocks and nested troughs form a closing shaft set;Pass through two limited blocks
A revolute pair is combined into matching for rotation axis with the shaft set of nested troughs composition;It will be around by the rotation sub-mount disk
Opposite rotation axis is swung;Pedestal disk, which is swung, just will drive the first connecting rod that is in opposite direction with rotation axis to moving up
It is dynamic;First connecting rod drives one end on the first telescopic rod close to first connecting rod to be swung up by spherical hinge;First is flexible
Bar swings will make by the spherical hinge of flexural pivot and annular flexural pivot shell composition on the second telescopic rod far from the first telescopic rod one
It holds to lower swing;One end on second telescopic rod far from the first telescopic rod will drive the 5th connection square to move downwards to lower swing
It is dynamic;The impact force that electric pole is subject to by a series of transmissions in the present invention by buffer gear is sequentially delivered to ground;To anti-
Electric pole is stopped when being hit, impact force damages the ground on the downside of electric pole;And then protect electric pole.
Detailed description of the invention
Fig. 1 is global facility appearance diagram.
Fig. 2 is wound around wheel scheme of installation.
Fig. 3 is buffer gear schematic diagram.
Fig. 4 is first connecting rod scheme of installation.
Fig. 5 is the first telescopic rod scheme of installation.
Fig. 6 is swinging block scheme of installation.
Fig. 7 is swinging block structural schematic diagram.
Fig. 8 is the second telescopic rod scheme of installation.
Fig. 9 is flexural pivot scheme of installation.
Figure 10 is first hydraulic cylinder structural schematic diagram.
Figure 11 is annular flexural pivot shell scheme of installation.
Figure 12 is second hydraulic cylinder scheme of installation.
Figure 13 is spacing block structural schematic diagram.
Figure 14 is the first fixture block structural schematic diagram.
Figure 15 is the second fixture block structural schematic diagram.
Figure 16 is hydraulic inner prop structural schematic diagram.
Figure 17 is second hydraulic cylinder structural schematic diagram.
Figure label title: 1, soil horizon;2, buffer gear;3, electric pole;4, concrete layer;5, winding wheel;6, it is isolated
Block;7, pedestal disk;8, annular ground;9, rotational support;10, first connecting rod;11, the first telescopic rod;12, swinging block;13,
Rotation axis;14, rotation slot;15, limiting slot;16, limited block;17, nested troughs;18, the first spring;19, the first support;20, it puts
Motivation structure;21, the second telescopic rod;22, the 5th connection square;23, first hydraulic cylinder;24, flexural pivot;25, the second mounting groove;26,
Push disk;27, pressure export;28, annular flexural pivot shell;29, second spring;30, the first cylinder groove;31, pouring weight;32, second
Hydraulic cylinder;33, the second fixture block;34, the first mounting groove;35, round hole;36, the first square groove;37, second square groove;38, it keeps away
Allow slot;39, the first fixture block;40, third spring;41, the first fixture block groove;42, hydraulic inner prop;43, the 4th spring;44, the second card
Block slot;45, guide block;46, guide groove;47, third telescopic rod.
Specific embodiment
As shown in Figure 1, it include soil horizon 1, buffer gear 2, electric pole 3, concrete layer 4, winding wheel 5, spacing block 6,
Pedestal disk 7, swing mechanism 20, annular ground 8, wherein there are four winding wheels 5 as shown in Fig. 2, the upper end of electric pole 3 is installed;
The lower end of electric pole 3 is equipped with pedestal disk 7;The lower end of electric pole 3 is fixed on soil horizon 1 by pedestal disk 7;Pedestal disk
7 upper end has the annular ground 8 for reinforcing electric pole 3;It is located at the upside of soil horizon 1 and annular ground 8 around electric pole 3
It is covered with a layer concrete layer 4;As shown in figure 3, being circumferentially evenly distributed on the periphery of pedestal disk 7, there are four buffer gears 2;
As shown in figure 4, being circumferentially evenly distributed eight swing mechanisms 20 on the periphery of pedestal disk 7;Eight swing mechanisms 20 with
Four buffer gears 2 cooperate.
As shown in Fig. 2, above-mentioned buffer gear 2 includes first connecting rod 10, the first telescopic rod 11, first support 19, swings
Mechanism 20, the second telescopic rod the 21, the 5th connection square 22, first hydraulic cylinder 23, flexural pivot 24, push disk 26, pressure export 27,
Annular flexural pivot shell 28, second spring 29, the first cylinder groove 30, pouring weight 31, second hydraulic cylinder 32, the installation of the second fixture block 33, first
Slot 34, round hole 35, the first square groove 36, second square groove 37, escape groove 38, the first fixture block 39, third spring 40, second are pacified
Tankage 25, the first fixture block groove 41, hydraulic inner prop 42, the 4th spring 43, the second fixture block groove 44, guide block 45, guide groove 46, third are flexible
Bar 47, wherein as shown in figure 4, one end of first connecting rod 10 is mounted on 7 periphery of pedestal disk;As shown in figure 5, first stretches
One end of contracting bar 11 and the other end of first connecting rod 10 are hinged by 24 chain of flexural pivot;As shown in figure 9, the first telescopic rod 11 is another
One end is equipped with flexural pivot 24;As shown in figure 8, one end of the second telescopic rod 21 is mounted on flexural pivot 24, and the second telescopic rod 21 with
First telescopic rod 11 is located at two sides symmetrical on flexural pivot 24;As shown in figure 11, the upper surface of the first support 19 is provided with the
One cylinder groove 30;The lower end of third telescopic rod 47 is mounted on 30 lower end surface of the first cylinder groove;Annular flexural pivot shell 28 is mounted on
The upper end of three telescopic rods 47;Second spring 29 is installed between annular 28 periphery of flexural pivot shell and 30 lower end surface of the first cylinder groove;
First support 19 is fixed on soil horizon 1;First telescopic rod 11 and the second telescopic rod 21 pass through flexural pivot 24 and are mounted on annular flexural pivot shell
On 28;As shown in figure 8, the 5th connection 22 upper end of square is mounted on the other end of the second telescopic rod 21 by revolute pair;First liquid
The upper end of cylinder pressure 23 has square hole;The lower end of first hydraulic cylinder 23 has pressure export 27;As shown in Figure 10, first hydraulic cylinder
23 inside, which has, pushes disk 26;The lower end of first hydraulic cylinder 23 is fixed on soil horizon 1;Disk is pushed in first hydraulic cylinder 23
26 upper end connect the connection of 22 lower end of square with the 5th, and the 5th connection square 22 passes through the square hole in first hydraulic cylinder 23;
As shown in figure 13, the upper end of spacing block 6 is provided with the first square groove 36;The lower end of first square groove 36 is provided with round hole 35;It is round
First mounting groove 34 there are two symmetrically being opened on the wall surface in hole 35;Second installation there are two symmetrically being opened on the wall surface of round hole 35
Slot 25;Two the second mounting grooves 25 are located at two the first mounting grooves, 34 downside;Two the first fixture blocks 39 are separately mounted to two
In a second mounting groove 25;A third is separately installed between two the first fixture blocks 39 and corresponding two the second mounting grooves 25
Spring 40;Two the second fixture blocks 33 are separately mounted in two the first mounting grooves 34;Two the second fixture blocks 33 with corresponding two
The 4th spring 43 is separately installed between first mounting groove 34;The lower end of round hole 35 is provided with escape groove 38;Spacing block 6
Lower end surface is provided with second square groove 37;Second square groove 37 is communicated with escape groove 38;The lower end of spacing block 6 is fixed on soil horizon 1;
The upper end of spacing block 6 is mounted on 4 lower end of concrete layer;As shown in figure 12, the second square groove 37 on spacing block 6 and annular flexural pivot
Shell 28 cooperates;Escape groove 38 and the first telescopic rod 11 and the cooperation of the second telescopic rod 21 on spacing block 6;As shown in figure 17, second
Guide groove 46 there are two symmetrically being opened on the inner wall of hydraulic cylinder 32;As shown in figure 12, the upper end of second hydraulic cylinder 32 is mounted on coagulation
4 lower end of soil layer and it is located on spacing block 6 in first square groove 36;Two are symmetrically equipped on the periphery of hydraulic 42 upper end of inner prop
A guide block 45;As shown in figure 16, the second fixture block groove 44 there are two symmetrically being opened on the periphery of hydraulic 42 lower end of inner prop;Such as Figure 15
Shown, the upper end of hydraulic inner prop 42 is fitted in second hydraulic cylinder 32 by two guide blocks 45 and two guide grooves 46;Liquid
Pressure 42 lower end of inner prop be located in the round hole 35 on spacing block 6 and 42 lower end of hydraulic inner prop two the second fixture block grooves 44 and two
The cooperation of second fixture block 33;As shown in figure 14, the first fixture block groove 41 there are two symmetrically being opened on the periphery of pouring weight 31;Pouring weight 31
Two the first fixture block grooves 41 and two the first fixture blocks 39 in the round hole 35 on spacing block 6 and on pouring weight 31 cooperate.
As shown in fig. 6, above-mentioned swing mechanism 20 includes rotational support 9, swinging block 12, rotation axis 13, rotation slot 14, limit
Slot 15, limited block 16, nested troughs 17, the first spring 18, wherein as shown in fig. 7, being provided with nested troughs on the downside of 12 one end of swinging block
17;It symmetrically opens there are two limiting slot 15 two sides of 17 lower end of nested troughs;The downside of 16 one end of limited block has inclined-plane;Two limits
Do not have bevelled one end on the block 16 of position to be separately mounted in two limiting slots 15;Two limited blocks 16 and two limiting slots 15 it
Between be separately installed with first spring 18;As shown in figure 4, the other end of swinging block 12 is mounted on 7 periphery of pedestal disk,
And it is located at 10 downside of first connecting rod;As shown in fig. 6, the upper end of rotational support 9 is provided with rotation slot 14;The both ends of rotation axis 13 point
It is not mounted on the both sides of the face of rotation slot 14;The lower end of rotational support 9 is fixed on soil horizon 1;It is oblique on two limited blocks 16
The axis hole and rotation axis 13 that nested troughs 17 on face and swinging block 12 form cooperate.
There are four four orientation locating for 7 circumferential direction of pedestal disk of swing mechanism 20 in above-mentioned eight swing mechanisms 20
It is identical as four orientation locating for 7 circumferential direction of pedestal disk of buffer gear 2.
The gravity of above-mentioned pouring weight is the 19/20 of the sum of two 40 elastic force of third spring;Its effect is to enable to pouring weight 31
Equilibrium state is under the elastic force effect of two third springs 40 in the initial state;The sum of the elastic force of two the 4th springs 43
It is 4 times of hydraulic 42 gravity of inner prop;Its effect is when liquid just begins to flow into second hydraulic cylinder 32;In second hydraulic cylinder 32
Liquid will not make hydraulic inner prop 42 move down;But when the fluid pressure in second hydraulic cylinder 32 is greater than two the 4th springs 43
Elastic force when second hydraulic cylinder 32 in liquid hydraulic inner prop 42 will be made to move down.
Above-mentioned second hydraulic cylinder 32 is connect by hydraulic tube with the pressure export 27 in first hydraulic cylinder 23.
One of winding wheel 5 is located at other three winding wheels, 5 upsides in aforementioned four winding wheel 5;In four winding wheels 5
Spacing is equal between two adjacent winding wheels 5.
Above-mentioned first spring 18 is compressed spring;Second spring 29 is extension spring;Third spring 40 is compressed spring;The
Four springs 43 are compressed spring.
It is above-mentioned as four swing mechanisms of alternative of eight swing mechanisms 20 and 12 swing mechanisms 20.
The above-mentioned alternative as four buffer gears 2 is eight buffer gears 2.
In summary:
The electric pole 3 that the present invention designs can prevent impact force to electric pole when by external force collision by automatic adjustment
The ground of 3 downsides damages;And then it prevents from that electric pole 3 is caused to fall down to the ground, electric wire fracture;Influence power supply.
The lower end of electric pole 3 is equipped with pedestal disk 7 in the present invention;The periphery of pedestal disk 7 is circumferentially evenly distributed
There are four buffer gears 2;The periphery of pedestal disk 7 has circumferentially been evenly distributed eight swing mechanisms 20;Eight swing mechanisms
20 and four buffer gears 2 cooperate;In buffer gear;One end of first connecting rod 10 is mounted on 7 periphery of pedestal disk;
One end of first telescopic rod 11 and the other end of first connecting rod 10 are hinged by 24 chain of flexural pivot;The other end of first telescopic rod 11
Flexural pivot 24 is installed;One end of second telescopic rod 21 is mounted on flexural pivot 24, and the second telescopic rod 21 divides with the first telescopic rod 11
Two sides that Wei Yu be not symmetrical on flexural pivot 24;The lower end of third telescopic rod 47 is mounted on 30 lower end surface of the first cylinder groove;Annular
Flexural pivot shell 28 is mounted on the upper end of third telescopic rod 47;Pacify between annular 28 periphery of flexural pivot shell and 30 lower end surface of the first cylinder groove
Equipped with second spring 29;First support 19 is fixed on soil horizon 1;First telescopic rod 11 and the second telescopic rod 21 are pacified by flexural pivot 24
On annular flexural pivot shell 28;The side of 5th connection 22 upper end of square is mounted on the other end of the second telescopic rod 21;First liquid
The lower end of cylinder pressure 23 is fixed on soil horizon 1;The upper end of disk 26 is pushed to connect 22 lower end of square with the 5th in first hydraulic cylinder 23
Connection;For swing mechanism 20;Swinging block is provided with nested troughs 17 on the downside of 12 one end;It symmetrically opens the two sides of 17 lower end of nested troughs
There are two limiting slots 15;The downside of 16 one end of limited block has inclined-plane;Do not have bevelled one end difference on two limited blocks 16
It is mounted in two limiting slots 15;First spring 18 is separately installed between two limited blocks 16 and two limiting slots 15;
One end of swinging block 12 is mounted on 7 periphery of pedestal disk and is located at 10 downside of first connecting rod;It opens the upper end of rotational support 9
There is rotation slot 14;The both ends of rotation axis 13 are separately mounted on the both sides of the face of rotation slot 14;The lower end of rotational support 9 is fixed on
Soil horizon 1;The axis hole and rotation axis 13 that nested troughs 17 on inclined-plane and swinging block 12 on two limited blocks 16 form cooperate;Eight
There are four swing mechanism 20 four orientation and 2 bottoms of buffer gear locating for 7 circumferential direction of pedestal disk in a swing mechanism 20
Four orientation locating for seat 7 circumferential direction of disk are identical;When electric pole 3 is hit;If electric pole 3 is not harder fragile
It is bad;Electric pole 3 just will drive pedestal disk 7 and swing;The swing of pedestal disk 7 will make in eight swing mechanisms 20 wherein
12 run-off the straight of swinging block in a corresponding swing mechanism 20;Two in swinging fast tilting procedure on swinging block 12
Limited block 16 will be contacted with the rotation axis 13 in rotational support 9;So that two limited blocks 16 sidesway into limiting slot 15
It is dynamic;When two limited blocks 16 are all moved in corresponding limiting slot 15;Rotation axis 13 will be stuck in nested troughs 17;This
When two limited blocks 16 move out limiting slot 15 under the action of corresponding first spring 18;Two limited blocks 16 and nested troughs 17
Form a closing shaft set;The shaft set being made up of two limited blocks 16 and nested troughs 17 is combined into matching for rotation axis 13
One revolute pair;It will be swung around opposite rotation axis 13 by the rotation sub-mount disk 7;The swing of pedestal disk 7 will
The first connecting rod 10 being in opposite direction with rotation axis 13 is driven to move up;First connecting rod 10 passes through 24 chain belt of flexural pivot
It is swung up on dynamic first telescopic rod 11 close to one end of first connecting rod 10;The swing of first telescopic rod 11 will pass through flexural pivot 24
Make one end on the second telescopic rod 21 far from the first telescopic rod 11 to lower swing with 24 chain of flexural pivot of annular flexural pivot shell 28 composition;
One end on second telescopic rod 21 far from the first telescopic rod 11 will drive the 5th connection square 22 to move down to lower swing;This
The impact force that electric pole 3 is subject to is sequentially delivered to ground by a series of transmissions of buffer gear 2 in invention;To prevent
For electric pole 3 when being hit, impact force damages the ground of 3 downside of electric pole;And then protect electric pole 3;When the 5th company
When connecing square 22 and moving down;5th connection square 22, which will drive, pushes disk 26 to move down;Disk 26 is pushed to move down
The liquid in first hydraulic cylinder 23 can be squeezed;So that the fluid pressure in first hydraulic cylinder 23 becomes larger.When pedestal circle in the present invention
When disk 7 is just swung around opposite rotation axis 13;It is located at the first connecting rod 10 and first in same direction with the rotation axis 13
Slight oscillatory can occur for telescopic rod 11;But the swing of first connecting rod 10 and the first telescopic rod 11 is in first connecting rod 10 and
Under the action of the spherical hinge and the first telescopic rod 11 of one telescopic rod 11 composition are flexible;First telescopic rod 11 would not drive second to stretch
Contracting bar 21 is swung.
In the present invention when the first telescopic rod 11 and the second telescopic rod 21 are swung;The shock transmitted due to electric pole 3
Power is larger so anti-work of the annular flexural pivot shell 28 when the first telescopic rod 11 and the second telescopic rod 21 are swung by flexural pivot 24
It is firmly also relatively large;Annular flexural pivot shell 28 thus be may cause by a stronger upward pulling force;Damage annular flexural pivot
Shell 28;So that annular flexural pivot shell 28 loses hinged effect;So the lower end of spacing block 6 is fixed on soil horizon 1 in the present invention;Isolation
The upper end of block 6 is mounted on 4 lower end of concrete layer;Guide groove 46 there are two symmetrically being opened on the inner wall of second hydraulic cylinder 32;Second liquid
The upper end of cylinder pressure 32 is mounted on 4 lower end of concrete layer and is located on spacing block 6 in first square groove 36;Hydraulic 42 upper end of inner prop
Symmetrically there are two guide blocks 45 for installation on periphery;Second fixture block there are two symmetrically being opened on the periphery of hydraulic 42 lower end of inner prop
Slot 44;The upper end of hydraulic inner prop 42 is fitted in second hydraulic cylinder 32 by two guide blocks 45 and two guide grooves 46;Liquid
Pressure 42 lower end of inner prop be located in the round hole 35 on spacing block 6 and 42 lower end of hydraulic inner prop two the second fixture block grooves 44 and two
The cooperation of second fixture block 33;First fixture block groove 41 there are two symmetrically being opened on the periphery of pouring weight 31;Pouring weight 31 is located on spacing block 6
Round hole 35 in and two the first fixture block grooves 41 on pouring weight 31 and two the first fixture blocks 39 cooperate;When in first hydraulic cylinder 23
Fluid pressure become larger and when pressure reaches the limiting value of pressure export 27;Liquid in first hydraulic cylinder 23 will be by hydraulic
Pipe flows into second hydraulic cylinder 32;The liquid flowed into second hydraulic cylinder 32 just will push hydraulic inner prop 42;To hydraulic inner prop 42
One downward pressure;When the pressure that hydraulic inner prop 42 is subject to is greater than thrust of two the 4th springs 43 to the second fixture block 33;
Hydraulic inner prop 42 will move down;Hydraulic inner prop 42 moves down will be to 31 1 downward thrusts of pouring weight;When pouring weight 31
When the thrust being subject to is greater than thrust of two third springs 40 to the first fixture block 39;Pouring weight 31 will be along round hole 35 to moving down
It is dynamic;So that pouring weight 31 is pounded to annular flexural pivot shell 28;Strengthen the stability of annular flexural pivot shell 28;The present invention designs first hydraulic
The effect of cylinder 23 and second hydraulic cylinder 32 is to add a thrust to pouring weight 31 by hydraulic inner prop 42;So that pouring weight 31 is initial
Speed becomes faster;Reduce the time that pouring weight 31 moves down;It ensure that annular flexural pivot shell 28 can be consolidated in time.The present invention
In in 2 initialization of buffer gear;The upward pulling force that annular flexural pivot shell 28 is subject to is buffered by the elastic force of second spring 29;
Guarantee the stability of annular flexural pivot shell 28 by pouring weight 31 when the upward pulling force that annular flexural pivot shell 28 is subject to is larger;The present invention
Design eight swing mechanisms 20 its effect be when the rum point that electric pole 3 is subject to be located at two neighboring buffer gear 2 it is intermediate when;
A swing mechanism 20 corresponding in rum point opposite direction can play its effect in eight swing mechanisms 20;So that
Buffer gear 2 can be gone on smoothly.
Specific embodiment: when the electric pole 3 that people are designed using the present invention;When electric pole 3 is hit;If
Electric pole 3 is harder survivable;Electric pole 3 just will drive pedestal disk 7 and swing;The swing of pedestal disk 7 will make eight
Wherein 12 run-off the straight of swinging block in a corresponding swing mechanism 20 in a swing mechanism 20;Swinging fast tilting procedure
Two limited blocks 16 on middle swinging block 12 will be contacted with the rotation axis 13 in rotational support 9;So that two limited blocks
16 to 15 medial movement of limiting slot;When two limited blocks 16 are all moved in corresponding limiting slot 15;Rotation axis 13 is just
It can be stuck in nested troughs 17;Two limited blocks 16 move out limiting slot 15 under the action of corresponding first spring 18 at this time;Two
A limited block 16 forms a closing shaft set with nested troughs 17;The shaft set being made up of two limited blocks 16 and nested troughs 17
A revolute pair is combined into matching for rotation axis 13;It will be put around opposite rotation axis 13 by the rotation sub-mount disk 7
It is dynamic;The swing of pedestal disk 7 just will drive the first connecting rod 10 being in opposite direction with rotation axis 13 and move up;First connects
Extension bar 10 drives one end on the first telescopic rod 11 close to first connecting rod 10 to be swung up by 24 chain of flexural pivot;First telescopic rod
11 swing and will to stretch on the second telescopic rod 21 far from first by flexural pivot 24 and 24 chain of flexural pivot of annular 28 composition of flexural pivot shell
One end of contracting bar 11 is to lower swing;One end on second telescopic rod 21 far from the first telescopic rod 11 will drive the 5th to lower swing
Connection square 22 moves down;The impact force that electric pole 3 is subject to by a series of transmissions in the present invention by buffer gear 2 is successively
It is transmitted to ground;To prevent electric pole 3 when being hit, impact force damages the ground of 3 downside of electric pole;And then it protects
Electric pole 3 is protected.
Claims (5)
1. a kind of anti-down electric power network electric pole based on lever, it is characterised in that: it includes soil horizon, buffer gear, electric wire
Bar, concrete layer, winding wheel, spacing block, pedestal disk, swing mechanism, annular ground, wherein the upper end of electric pole is equipped with four
A winding wheel;The lower end of electric pole is equipped with pedestal disk;The lower end of electric pole is fixed on soil horizon by pedestal disk;Pedestal
The upper end of disk has the annular ground for reinforcing electric pole;It is located at the upside paving of soil horizon and annular ground around electric pole
There is a layer concrete layer;Buffer gear there are four being circumferentially evenly distributed on the periphery of pedestal disk;The outer circle of pedestal disk
Eight swing mechanisms have circumferentially been evenly distributed on face;Eight swing mechanisms and four buffer gears cooperate;
Above-mentioned buffer gear includes first connecting rod, the first telescopic rod, the first support, swing mechanism, the second telescopic rod, the 5th company
Connect square, first hydraulic cylinder, flexural pivot, push disk, pressure export, annular flexural pivot shell, second spring, the first cylinder groove, pouring weight,
Second hydraulic cylinder, the second fixture block, the first mounting groove, round hole, the first square groove, second square groove, escape groove, the first fixture block,
Third spring, the second mounting groove, the first fixture block groove, hydraulic inner prop, the 4th spring, the second fixture block groove, guide block, guide groove, third are stretched
Contracting bar, wherein one end of first connecting rod is mounted on pedestal disk periphery;One end of first telescopic rod and first connecting rod
The other end by spherical hinge it is hinged;The other end of first telescopic rod is equipped with flexural pivot;One end of second telescopic rod is mounted on ball
In hinge, and the second telescopic rod and the first telescopic rod are located at two sides symmetrical on flexural pivot;The upper surface of first support is provided with
First cylinder groove;The lower end of third telescopic rod is mounted on the first cylinder groove lower end surface;It is flexible that annular flexural pivot shell is mounted on third
The upper end of bar;Second spring is installed between annular flexural pivot shell periphery and the first cylinder groove lower end surface;First is supported and fixed on
Soil horizon;First telescopic rod and the second telescopic rod are mounted on annular flexural pivot shell by flexural pivot;5th connection square upper end passes through
Revolute pair is mounted on the other end of the second telescopic rod;The upper end of first hydraulic cylinder has square hole;The lower end of first hydraulic cylinder has
There is pressure export;The inside of first hydraulic cylinder, which has, pushes disk;The lower end of first hydraulic cylinder is fixed on soil horizon;First is hydraulic
The upper end of disk is pushed to connect the connection of square lower end with the 5th in cylinder, and the 5th connection square is rectangular in first hydraulic cylinder
Hole;The upper end of spacing block is provided with the first square groove;The lower end of first square groove is provided with round hole;On the wall surface of round hole symmetrically
First mounting groove there are two opening;Second mounting groove there are two symmetrically being opened on the wall surface of round hole;Two the second mounting groove difference
On the downside of two the first mounting grooves;Two the first fixture blocks are separately mounted in two the second mounting grooves;Two the first fixture blocks with
A third spring is separately installed between corresponding two the second mounting grooves;Two the second fixture blocks are separately mounted to two first
In mounting groove;The 4th spring is separately installed between two the second fixture blocks and corresponding two the first mounting grooves;Round hole
Lower end be provided with escape groove;The lower end surface of spacing block is provided with second square groove;Second square groove is communicated with escape groove;Spacing block
Lower end is fixed on soil horizon;The upper end of spacing block is mounted on concrete layer lower end;Second square groove and annular ball on spacing block
Cut with scissors shell cooperation;Escape groove and the first telescopic rod and the second telescopic rod on spacing block cooperate;It is symmetrical on the inner wall of second hydraulic cylinder
It opens there are two guide groove on ground;The upper end of second hydraulic cylinder is mounted on concrete layer lower end and is located on spacing block in the first square groove;
Symmetrically there are two guide blocks for installation on the periphery of hydraulic inner prop upper end;Two are symmetrically provided on the periphery of hydraulic inner prop lower end
A second fixture block groove;The upper end of hydraulic inner prop is fitted in second hydraulic cylinder by two guide blocks and two guide grooves;Liquid
Pressure inner prop lower end is located at two the second fixture block grooves and two the second fixture blocks of in the round hole on spacing block and hydraulic inner prop lower end
Cooperation;First fixture block groove there are two symmetrically being opened on the periphery of pouring weight;Pouring weight is located in the round hole on spacing block and pouring weight
On two the first fixture block grooves cooperate with two the first fixture blocks;
Above-mentioned swing mechanism includes rotational support, swinging block, rotation axis, rotation slot, limiting slot, limited block, nested troughs, the first bullet
Spring is wherein provided with nested troughs on the downside of swinging block one end;It symmetrically opens there are two limiting slot the two sides of nested troughs lower end;Limited block
The downside of one end has inclined-plane;Do not have bevelled one end on two limited blocks to be separately mounted in two limiting slots;Two limits
First spring is separately installed between position block and two limiting slots;The other end of swinging block is mounted on pedestal disk periphery
On, and be located on the downside of first connecting rod;The upper end of rotational support is provided with rotation slot;The both ends of rotation axis are separately mounted to rotation slot
Both sides of the face on;The lower end of rotational support is fixed on soil horizon;The nested troughs on inclined-plane and swinging block on two limited blocks
The axis hole and rotation axis of composition cooperate;
There are four swing mechanism four orientation and buffers locating for pedestal disk circumferential direction in above-mentioned eight swing mechanisms
Structure four orientation locating for pedestal disk circumferential direction are identical;
The gravity of above-mentioned pouring weight is the 19/20 of the sum of two third spring forces;The sum of elastic force of two the 4th springs is hydraulic
4 times of inner prop gravity;
Above-mentioned second hydraulic cylinder is connect by hydraulic tube with the pressure export in first hydraulic cylinder.
2. a kind of anti-down electric power network electric pole based on lever according to claim 1, it is characterised in that: aforementioned four
One of winding wheel is located on the upside of other three winding wheels in winding wheel;In four winding wheels between two adjacent winding wheels
Spacing is equal.
3. a kind of anti-down electric power network electric pole based on lever according to claim 1, it is characterised in that: above-mentioned first
Spring is compressed spring;Second spring is extension spring;Third spring is compressed spring;4th spring is compressed spring.
4. a kind of anti-down electric power network electric pole based on lever according to claim 1, it is characterised in that: above-mentioned conduct
The alternative of eight swing mechanisms is four swing mechanisms or 12 swing mechanisms.
5. a kind of anti-down electric power network electric pole based on lever according to claim 1, it is characterised in that: above-mentioned conduct
The alternative of four buffer gears is eight buffer gears.
Priority Applications (2)
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CN201910061788.XA CN109779379B (en) | 2017-07-27 | 2017-07-27 | Electric power electric wire netting wire pole |
CN201710621485.XA CN107313440B (en) | 2017-07-27 | 2017-07-27 | A kind of anti-down electric power network electric pole based on lever |
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CN201710621485.XA CN107313440B (en) | 2017-07-27 | 2017-07-27 | A kind of anti-down electric power network electric pole based on lever |
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CN201910061788.XA Division CN109779379B (en) | 2017-07-27 | 2017-07-27 | Electric power electric wire netting wire pole |
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CN107313440A CN107313440A (en) | 2017-11-03 |
CN107313440B true CN107313440B (en) | 2019-02-15 |
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CN201710621485.XA Active CN107313440B (en) | 2017-07-27 | 2017-07-27 | A kind of anti-down electric power network electric pole based on lever |
CN201910061788.XA Active CN109779379B (en) | 2017-07-27 | 2017-07-27 | Electric power electric wire netting wire pole |
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CN113236010B (en) * | 2021-06-04 | 2022-08-30 | 广东电网有限责任公司 | Electric power grid telegraph pole |
CN114562494B (en) * | 2022-04-24 | 2022-07-12 | 南通油神液压有限公司 | Durable hydraulic equipment capable of preventing multidirectional bearing |
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CN202249072U (en) * | 2011-10-13 | 2012-05-30 | 金华电业局 | Anti-inversion telegraph pole |
CN202391200U (en) * | 2011-12-22 | 2012-08-22 | 扬州国电通用电力机具制造有限公司 | Device for preventing telegraph pole from tilting |
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CN204959786U (en) * | 2015-08-14 | 2016-01-13 | 徐华英 | Wire pole is prevented down to anti -wind |
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JP2000253549A (en) * | 1999-03-02 | 2000-09-14 | Nippon Chiko Co Ltd | Electric wire tension adjustment tool for anchoring/ corner pole |
CN201326287Y (en) * | 2008-12-05 | 2009-10-14 | 重庆市电力公司 | Device for preventing electric pole from tilting |
CN102889017A (en) * | 2011-07-23 | 2013-01-23 | 常州常源电力设备有限公司 | Quakeproof steel pole tower |
FR2982494B1 (en) * | 2011-11-14 | 2015-01-09 | Capital Safety Group Emea | DEVICE FOR ANCHORING AN FALLING MAT IN A SUPPORT STRUCTURE |
CN203034892U (en) * | 2012-12-14 | 2013-07-03 | 重庆市武隆县供电有限责任公司 | Fixing structure for concrete pole tower stay wire tail wire |
CN203559616U (en) * | 2013-09-26 | 2014-04-23 | 国网河南省电力公司信阳供电公司 | Anticollision protection seat for electric pole |
CN204728795U (en) * | 2015-05-19 | 2015-10-28 | 国家电网公司 | A kind of modified form electric pole |
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- 2017-07-27 CN CN201910061788.XA patent/CN109779379B/en active Active
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CN202249072U (en) * | 2011-10-13 | 2012-05-30 | 金华电业局 | Anti-inversion telegraph pole |
CN202391200U (en) * | 2011-12-22 | 2012-08-22 | 扬州国电通用电力机具制造有限公司 | Device for preventing telegraph pole from tilting |
CN204457043U (en) * | 2015-03-06 | 2015-07-08 | 国家电网公司 | A kind of anti-reversing device |
CN204959786U (en) * | 2015-08-14 | 2016-01-13 | 徐华英 | Wire pole is prevented down to anti -wind |
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CN109779379A (en) | 2019-05-21 |
CN107313440A (en) | 2017-11-03 |
CN109779379B (en) | 2020-09-18 |
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Effective date of registration: 20201210 Address after: Huifeng Road, automobile industrial zone, Xiqing District, Tianjin Patentee after: Tianjin Chengxi Guangyuan Power Engineering Co.,Ltd. Address before: 310012 Room 401, 2 unit 155, Ma Shi street, Shangcheng District, Hangzhou, Zhejiang. Patentee before: HANGZHOU QICHENG SCIENCE & TECHNOLOGY Co.,Ltd. |
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