CN109505450A - A kind of electric power network electric pole for preventing from swinging - Google Patents

Abstract

The invention belongs to electric power network electric pole technical field more particularly to a kind of electric power network electric poles for preventing from swinging, it includes pedestal disk, winding wheel, electric pole, when electric pole is hit；The impact force can make the first triggering block along the first guide groove to electric pole medial movement；First triggering block movement can squeeze two the second limited blocks corresponding thereto to corresponding second limiting slot medial movement；When two the second limited blocks remove the first guide groove in moving process；Two second triggering disks just can rotate under the action of the second scroll spring elastic force；Two second triggering disk rotationals drive rotating block rotation；In rotating block rotation process；When rotating block is contacted with the first triggering block being knocked；Rotating block will push the first triggering block and be displaced outwardly；And the motive force is contrary with the impact force that the first triggering block is subject to；So offsetting external force by rotating block and the contact-impact of the first triggering block to the impact force of electric pole；To protect electric pole.

Description

A kind of electric power network electric pole for preventing from swinging

Technical field

The invention belongs to electric power network electric pole technical field more particularly to a kind of electric power network electric wires for preventing from swinging 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.

The electric pole used on cliff at present is integral type；When electric pole is by impact force；If impact force is larger；It can Electric pole can be caused to be broken；And then it is broken electric wire；If people will get an electric shock under unknown situation with the line contacts of fracture； The life of people is impacted；And electric pole fracture may cause wire short-circuiting；Influence power supply；So designing one kind in electricity The electric pole that normal condition is able to maintain when line bar is by external force collision without fracture is necessary.

The present invention design it is a kind of prevent swing electric power network electric pole 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 electric power network electric pole for preventing from swinging, it It adopts the following technical solutions to realize.

A kind of electric power network electric pole for preventing from swinging, it is characterised in that: it includes pedestal disk, winding wheel, electric pole Shell, the first guide groove, the second guide groove, cylindrical hole, square groove, third guide groove, annular groove, rack gear, first rotating shaft, first gear, Two shafts, belt pulley, second gear, rotating shaft support, the first cylinder groove, rotation axis, the first limited block, the first scroll spring, One triggering disk, unidirectional ring, release block, the second triggering block, the first clamping rings, the second cylinder groove, the first limiting slot, the first bullet Spring, the first triggering block, the second scroll spring, the second shaft set, the second clamping rings, second spring, the second limited block, the second touching Disk, the second limiting slot are sent out, is wherein provided with cylindrical hole on the center of pedestal disk upper end；It is opened on the wall surface of cylindrical hole lower end There is the first cylinder groove；There are teeth on the wall surface of first cylinder groove；The lower end of pedestal disk is in soil；Discharge block upper end Center is provided with the second cylinder groove；The lower end surface of second cylinder groove circumferentially equably opens that there are six square grooves；Six square grooves In the two sides of each square groove symmetrically open there are two third guide groove；Discharging has teeth on the periphery of block；Discharge block installation In the first cylinder groove；It discharges the teeth on block and the teeth on the first cylinder groove cooperates；On the periphery of electric pole shell lower end First guide groove there are six circumferentially equably opening；Second guide groove there are six circumferentially equably being opened on the periphery of electric pole shell lower end； Six the second guide grooves are located on the downside of six the first guide grooves, and the second guide groove is located among two the first guide grooves adjacent thereto；Electricity There are four winding wheels for the upper end installation of line bar shell；An annular groove is provided on the lower end surface of electric pole；The upside of annular groove and six A first guide groove communicates；The lower end of electric pole shell is nested in the second cylinder groove；The upper and lower ends of rotation axis pass through two respectively First clamping rings is mounted on the inside of electric pole shell；First triggering disk installation on the rotating shaft, and is located at rotation axis lower end；The First limiting slot there are six circumferentially equably being opened on the periphery of one triggering disk；Six the first limiting slots respectively with six second Guide groove corresponding matching；First limited block is separately installed in six the first limiting slots；Six the first limited blocks and six First spring is separately installed between one limiting slot；The lower end of rotation axis is equipped with a unidirectional ring, and unidirectional ring is located at Between first triggering disk and the first clamping rings；A first scrollwork bullet is installed between unidirectional ring and electric pole shell inner wall Spring；Six the second triggering blocks are separately mounted in six the second guide grooves；Six the second triggering blocks respectively with six the first limited blocks Cooperation；The lower end of rotation axis is connect with the second cylinder groove lower end on release block；Second shaft set is nested in rotation axis periphery On；The upper and lower ends of second shaft set pass through two the second clamping rings respectively and are mounted on the inside of electric pole shell；Second shaft set Between the first clamping rings of upside and the first triggering disk；The complete phase of upper and lower ends institute mounting structure of second shaft set Together；For wherein any end；Second triggering disk is mounted on the second shaft and puts on；It is circumferential on the periphery of second triggering disk Second limiting slot there are six equably opening；Six the second limiting slots respectively with six the first guide groove corresponding matchings；Six second limits Second limited block is separately installed in the slot of position；One is separately installed between six the second limited blocks and six the second limiting slots A second spring；Second scroll spring is installed between second shaft set and the second triggering disk；Second scroll spring Inner end is mounted on the second shaft and puts on；The outer end of second scroll spring is mounted on the second triggering disk；Under first triggering block End has teeth；Six the first triggering blocks are separately mounted in six the first guide grooves；Six the first triggering blocks respectively with six The cooperation of two limited blocks；A rotating block is installed between two second triggering disks of upper and lower ends；Have on rotating block Inclined-plane；Inclined-plane and six the first triggering blocks on rotating block cooperate；The both ends of second shaft are separately installed with a rotating shaft support； Two rotating shaft supports that six the second shafts pass through its both ends respectively are circumferentially uniformly mounted on the inside of annular groove upper end；Second tooth Wheel is divided into smooth end and teeth end；Six second gears are separately mounted in six the second shafts；And the tooth of six second gears It is engaged with the teeth of six the first triggering block lower ends at tooth end；The upper end of rack gear acting surface has teeth, the lower end of rack gear acting surface For shiny surface；Six rack gears are separately mounted to six square grooves on the end face of the second cylinder trough wall surface side；Six first Shaft is separately mounted in six square grooves, and the both ends of each first rotating shaft are led with two thirds in corresponding square groove respectively Slot cooperation；First gear is divided into smooth end and teeth end；Six first gears are separately mounted in six first rotating shafts；And six It is engaged with the teeth on six rack gears at the teeth end of first gear；Smooth end between six first gears and six second gears It is connected by six roots of sensation belt pulley.

Above-mentioned belt pulley is elastic belt wheel.Its act on be when preventing first gear from moving down belt pulley to second gear It impacts.

The distance between periphery and the first cylinder trough wall surface that block is discharged under above-mentioned original state are equal to the second triggering block Far from the distance between the first spring one end and cylinder wall surface of the hole；Lower six the first triggering blocks of original state and six second limits Block contact point is located in the first guide groove；Lower six the second triggering blocks of original state are located at second with six the first limited block contact points In guide groove.

It is above-mentioned to make the first triggering disk in the first scroll spring bullet under six the first springs and the cooperation of the first limited block Power effect is lower to be in equilibrium state；Make the second triggering disk in the second whirlpool under six second springs and the cooperation of the second limited block The effect of coil spring elastic force is lower to be in equilibrium state.

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 compressed spring.

It is above-mentioned as six second springs, six the second limited blocks, six the second limits as the further improvement of this technology The alternative of position slot and six the first guide grooves is five second springs, five the second limited blocks, five the second limiting slots and five A first guide groove or seven second springs, seven the second limited blocks, seven the second limiting slots and seven the first guide grooves.

It is above-mentioned as six the first springs, six the first limited blocks, six the first limits as the further improvement of this technology The alternative of position slot and six the second guide grooves is five the first springs, five the first limited blocks, five the first limiting slots and five A second guide groove or seven the first springs, seven the first limited blocks, seven the first limiting slots and seven the second guide grooves.

Relative to traditional electric wire pole technology, the electric pole that the present invention designs can be by automatic when by external force collision It adjusts to keep normal condition without being broken；Protect electric wire.

In the present invention caused by electric wire of movement of the electric pole on pedestal disk in the first cylinder groove electric pole upper end Influence is smaller, can be ignored.

The upper and lower ends that the second shaft covers in the present invention pass through two the second clamping rings respectively and are mounted in electric pole shell Side；The upper and lower ends institute mounting structure of second shaft set is identical；For wherein any end；Second triggering disk is mounted on Second shaft is put on；Second limiting slot there are six circumferentially equably being opened on the periphery of second triggering disk；Six second limits Second limited block is separately installed in slot；One is separately installed between six the second limited blocks and six the second limiting slots Second spring；Second scroll spring is installed between second shaft set and the second triggering disk；Six the first triggering blocks point It is not mounted in six the first guide grooves；Six the first triggering blocks cooperate with six the second limited blocks respectively；Positioned at upper and lower ends A rotating block is installed between two second triggering disks；There is inclined-plane on rotating block；Inclined-plane on rotating block and six The cooperation of one triggering block；Make the second triggering disk in the second scroll spring bullet under six second springs and the cooperation of the second limited block Power effect is lower to be in equilibrium state.Lower six the first triggering blocks of original state are located at first with six the second limited block contact points and lead In slot；When there is external force collision electric pole；The external force can first be contacted with six the first triggering blocks；The external force makes six first touchings Wherein one or two first triggering block is sent out in block along the first guide groove to electric pole shell medial movement；First triggering block moves meeting Two the second limited blocks corresponding thereto are squeezed to corresponding second limiting slot medial movement；When two the second limited blocks exist When removing the first guide groove in moving process；Since the upper and lower ends of the second shaft set pass through two the second clamping rings installations respectively On the inside of electric pole shell；Second shaft set is in static；So two second triggerings under the action of the second scroll spring elastic force Disk just can rotate；Two second triggering disk rotationals drive rotating block rotation；In rotating block rotation process；When rotating block with When the first triggering block contact being knocked；Rotating block will push the first triggering block and be displaced outwardly；And the motive force and the first triggering The impact force that block is subject to is contrary；So offsetting external force to electric pole by rotating block and the contact-impact of the first triggering block Impact force；Protect electric pole；Protect electric wire.

In the present invention when the upside of electric pole is hit；Electric pole will be swung；And electric pole swing can make It must discharge and be squeezed between block and the upper surface of the first cylinder groove；Thus very likely result in the damage of pedestal disk；Into And electric pole is caused to fall down to the ground；Electric wire is impacted；So six the second shafts pass through two of its both ends respectively in the present invention Rotating shaft support is circumferentially uniformly mounted on the inside of annular groove upper end；Second gear is divided into smooth end and teeth end；Six the second teeth Wheel is separately mounted in six the second shafts；And the teeth end of six second gears and the teeth of six the first triggering block lower ends are nibbled It closes；The acting surface upper end of rack gear has teeth, and the lower end of rack gear acting surface is shiny surface；Six rack gears are separately mounted to six sides Shape slot is on the end face of the second cylinder trough wall surface side；Six first rotating shafts are separately mounted in six square grooves, and each The both ends of first rotating shaft cooperate with two third guide grooves in corresponding square groove respectively；First gear is divided into smooth end and teeth End；Six first gears are separately mounted in six first rotating shafts；And on the teeth end of six first gears and six rack gears Teeth engagement；Smooth end between six first gears and six second gears is connected by six roots of sensation belt pulley；Belt pulley is bullet Property belt pulley；The lower end of first triggering block has teeth；When electric pole is hit；One of them in six the first triggering blocks Or two the first triggering blocks along the first guide groove to electric pole shell medial movement；First triggering block is mobile to will drive corresponding the The rotation of two gears；Second gear rotation will drive corresponding first gear by belt pulley and rotate；Due to the tooth of first gear Tooth end is engaged with the teeth on rack gear and rack gear is mounted on square groove on the end face of the second cylinder trough wall surface side；So working as When first gear rotates；First gear can move down simultaneously；The tooth being detached from during first gear moves down on rack gear When tooth；First gear just with the lower end face contact of the first cylinder groove；When the lower end face contact of first gear and the first cylinder groove When；The lower end surface of first cylinder groove can squeeze first gear and first gear is moved up；But first gear moves up just It can be engaged again with the teeth on rack gear；So first gear can move down again；So first gear can be always with first The lower end face contact of cylinder groove；By the friction of first gear and the first cylinder groove lower end surface come so that release block transverse shifting； Discharge the mobile drive rotation axis transverse shifting of block；Rotation axis is mobile to drive electric pole that transverse shifting integrally occurs；To prevent Electric pole is swung and the damage of pedestal disk；Protect electric pole；And then protect electric wire.

Cylindrical hole is provided on the center of pedestal disk upper end in the present invention；First is provided on the wall surface of cylindrical hole lower end Cylinder groove；There are teeth on the wall surface of first cylinder groove；The lower end of pedestal disk is in soil；It discharges and has on the periphery of block There are teeth；Release block is mounted in the first cylinder groove；It discharges the teeth on block and the teeth on the first cylinder groove cooperates；Rotation axis Upper and lower ends pass through two the first clamping rings respectively and be mounted on the inside of electric pole shell；First triggering disk is mounted on rotation axis On；First limiting slot there are six circumferentially equably being opened on the periphery of first triggering disk；Pacify respectively in six the first limiting slots Equipped with first limited block；First spring is separately installed between six the first limited blocks and six the first limiting slots； The lower end of rotation axis is equipped with a unidirectional ring；First scroll spring is installed between unidirectional ring and electric pole shell inner wall； Six the second triggering blocks are separately mounted in six the second guide grooves；Six the second triggering blocks are matched with six the first limited blocks respectively It closes；The lower end of rotation axis is connect with the second cylinder groove lower end on release block；Lower six the second triggering blocks of original state with six First limited block contact point is located in the second guide groove；When there is external force collision electric pole；Electric pole can be swung；It was swinging Wherein one or two second triggering block in journey in six the second triggering blocks will strike on the wall surface of cylindrical hole；And second When triggering block is hit；Second triggering block will be along the second guide groove to electric pole shell medial movement；Second triggering block is mobile Two the first limited blocks corresponding thereto can be squeezed to corresponding first limiting slot medial movement；When the first limited block is moving When removing the second guide groove during dynamic；Unidirectional ring just can rotate under the effect of the first scroll spring elastic force；Unidirectional ring rotation drives Rotation axis rotation；Rotation axis rotation drives release block rotation；Simultaneously when the second triggering block strikes on the wall surface of cylindrical hole；It releases The teeth on block are put just to engage with the teeth in the first cylinder groove；And pedestal disk is in soil；So release block rotation Meeting is so that release block is circumferentially rotated along the first cylinder trough wall surface；By release block circumferentially rotate increase release block certain The time interior contact area with the first cylinder cell wall；And then extenuate the damage of impact force that electric pole is subject to the first cylinder groove； Further protect electric pole；The effect of the unidirectional ring designed in the present invention is；It is completed when the elastic force of the first scroll spring discharges Afterwards；Release block will continue to rotate under effect of inertia；And it discharges block and is not intended to the first scroll spring to release during rotation The rotation of block impacts；So the present invention devises unidirectional ring；Prevent the first scroll spring to release block by unidirectional ring Rotation impact.The rotation axis that the present invention designs is fixed by upper and lower two the first clamping rings；Its effect is to strengthen The stability of rotation axis.

When the electric pole that people are designed using the present invention；When electric pole is hit；The impact force can make six Wherein one or two first triggering block is along the first guide groove to electric pole shell medial movement in first triggering block；First triggering block Movement can squeeze two the second limited blocks corresponding thereto to corresponding second limiting slot medial movement；It is limited when two second When position block removes the first guide groove in moving process；Since the upper and lower ends of the second shaft set pass through two second fixed circles respectively Ring is mounted on the inside of electric pole shell；Second shaft set is in static；So two under the action of the second scroll spring elastic force Two triggering disks just can rotate；Two second triggering disk rotationals drive rotating block rotation；In rotating block rotation process；When turn When motion block and the first triggering block being knocked contact；Rotating block will push the first triggering block and be displaced outwardly；And motive force and the The impact force that one triggering block is subject to is contrary；So offsetting external force pair by rotating block and the contact-impact of the first triggering block The impact force of electric pole；But if when impact force is larger；Rotating block cannot all be offset；Electric pole is in remaining impact force at this time Under will move integrally；Wherein one or two second triggering block in moving process in six the second triggering blocks will It strikes on the wall surface of cylindrical hole；And the second triggering block is when being hit；Second triggering block will be along the second guide groove to electric wire Bar shell medial movement；Second triggering block movement can squeeze two the first limited blocks corresponding thereto to corresponding first limit Slot medial movement；When the first limited block removes the second guide groove in moving process；It places an order in the effect of the first scroll spring elastic force It just can rotate to ring；Unidirectional ring rotation drives rotation axis rotation；Rotation axis rotation drives release block rotation；Simultaneously when the second triggering When block strikes on the wall surface of cylindrical hole；Teeth on release block are just engaged with the teeth in the first cylinder groove；And pedestal circle Disk is in soil；So when the rotation meeting of release block so that release block is circumferentially rotated along the first cylinder trough wall surface；Pass through release Block circumferentially rotates to extenuate the impact force that electric pole is subject to；Further protect electric pole；Protect electric wire.

Detailed description of the invention

Fig. 1 is global facility appearance diagram.

Fig. 2 is wound around wheel scheme of installation.

Fig. 3 is pedestal disk scheme of installation.

Fig. 4 is wire pole structure schematic diagram.

Fig. 5 is pedestal disc structure schematic diagram.

Fig. 6 is release block scheme of installation.

Fig. 7 is the second triggering block scheme of installation.

Fig. 8 is the first triggering disk scheme of installation.

Fig. 9 is release block structure schematic diagram.

Figure 10 is the first triggering disc structure schematic diagram.

Figure 11 is second spring scheme of installation.

Figure 12 is the first triggering block scheme of installation.

Figure 13 is the second triggering disk scheme of installation.

Figure 14 is the second shaft nested structure schematic diagram.

Figure 15 is the second triggering disc structure schematic diagram.

Figure 16 is first gear installation distribution schematic diagram.

Figure 17 is rack gear scheme of installation.

Figure 18 is second gear scheme of installation.

Figure 19 is first gear scheme of installation.

Figure 20 is belt pulley scheme of installation.

Figure 21 is annulus slot structure schematic diagram.

Figure 22 is rotating block scheme of installation.

Figure 23 is rotating block structural schematic diagram.

Figure 24 is release block operation principle schematic diagram.

Figure 25 is rotating block operation principle schematic diagram.

Figure 26 is first gear operation principle schematic diagram.

Figure label title: 1, pedestal disk；2, winding wheel；3, electric pole shell；4, the second triggering block；5, rotating block；6, First guide groove；7, the second guide groove；8, cylindrical hole；9, the first cylinder groove；10, rotation axis；11, the first limited block；12, the first scrollwork Spring；13, the first triggering disk；14, unidirectional ring；15, block is discharged；16, the first clamping rings；17, the second cylinder groove；18, One limiting slot；19, the first spring；20, the first triggering block；21, the second scroll spring；22, the second shaft set；23, second is fixed Annulus；24, second spring；25, the second limited block；26, the second triggering disk；27, the second limiting slot；28, square groove；29, Three guide grooves；31, annular groove；32, rack gear；34, first rotating shaft；35, first gear；36, the second shaft；37, belt pulley；38, Two gears；39, rotating shaft support.

Specific embodiment

As shown in Figure 1, it includes pedestal disk 1, winding wheel 2, electric pole shell 3, the first guide groove 6, the second guide groove 7, cylinder Hole 8, square groove 28, third guide groove 29, annular groove 31, rack gear 32, first rotating shaft 34, first gear 35, the second shaft 36, belt Wheel 37, second gear 38, rotating shaft support 39, the first cylinder groove 9, rotation axis 10, the first limited block 11, the first scroll spring 12, First triggering disk 13, unidirectional ring 14, release block 15, the second triggering block 4, the first clamping rings 16, the second cylinder groove 17, first Limiting slot 18, the first spring 19, the first triggering block 20, the second scroll spring 21, the second shaft cover the 22, second clamping rings 23, Second spring 24, the second limited block 25, second trigger disk 26, the second limiting slot 27, wherein as shown in figure 5, on pedestal disk 1 Cylindrical hole 8 is provided on the center at end；The first cylinder groove 9 is provided on the wall surface of 8 lower end of cylindrical hole；The wall of first cylinder groove 9 There are teeth on face；The lower end of pedestal disk 1 is in soil；As shown in figure 9, the center of release 15 upper end of block is provided with the Two cylinder grooves 17；The lower end surface of second cylinder groove 17 circumferentially equably opens that there are six square grooves 28；It is each in six square grooves 28 It symmetrically opens there are two third guide groove 29 two sides of square groove 28；Discharging has teeth on the periphery of block 15；As shown in fig. 6, Release block 15 is mounted in the first cylinder groove 9；It discharges the teeth on block 15 and the teeth on the first cylinder groove 9 cooperates；Such as Fig. 4 institute Show, it is circumferential on the periphery of 3 lower end of electric pole shell equably to open that there are six the first guide grooves 6；On the periphery of 3 lower end of electric pole shell Second guide groove 7 there are six circumferentially equably opening；Six the second guide grooves 7 are located at six the first guide grooves, 6 downside, and the second guide groove 7 Among two the first guide grooves 6 adjacent thereto；As shown in Fig. 2, there are four winding wheels 2 for the upper end installation of electric pole shell 3；Such as figure Shown in 21, an annular groove 31 is provided on the lower end surface of electric pole；The upside of annular groove 31 is communicated with six the first guide grooves 6；Such as Shown in Fig. 3, the lower end of electric pole shell 3 is nested in the second cylinder groove 17；As shown in figure 8, the upper and lower ends of rotation axis 10 are distinguished 3 inside of electric pole shell is mounted on by two the first clamping rings 16；First triggering disk 13 is mounted in rotation axis 10, and position In 10 lower end of rotation axis；As shown in Figure 10, the first limit there are six circumferentially equably being opened on the periphery of the first triggering disk 13 Slot 18；Six the first limiting slots 18 respectively with six 7 corresponding matchings of the second guide groove；It is separately installed in six the first limiting slots 18 One the first limited block 11；First spring is separately installed between six the first limited blocks 11 and six the first limiting slots 18 19；The lower end of rotation axis 10 is equipped with a unidirectional ring 14, and unidirectional ring 14 is located at the first triggering disk 13 and the first fixed circle Between ring 16；First scroll spring 12 is installed between 3 inner wall of unidirectional ring 14 and electric pole shell；As shown in fig. 7, six Two triggering blocks 4 are separately mounted in six the second guide grooves 7；As shown in fig. 6, six the second triggering blocks 4 are limited with six first respectively Position block 11 cooperates；The lower end of rotation axis 10 is connect with 17 lower end of the second cylinder groove on release block 15；As shown in figure 14, second turn Axle sleeve 22 is nested on 10 periphery of rotation axis；As shown in figure 13, the upper and lower ends of the second shaft set 22 pass through two the respectively Two clamping rings 23 are mounted on 3 inside of electric pole shell；Second shaft set 22 is located at the first clamping rings 16 and the first touching of upside It sends out between disk 13；The upper and lower ends institute mounting structure of second shaft set 22 is identical；For wherein any end；Such as Figure 11 Shown, the second triggering disk 26 is mounted on the second shaft set 22；As shown in figure 15, periphery last week of the second triggering disk 26 To equably opening, there are six the second limiting slots 27；Six the second limiting slots 27 respectively with six 6 corresponding matchings of the first guide groove；Six Second limited block 25 is separately installed in second limiting slot 27；Six the second limited blocks 25 and six the second limiting slots 27 it Between be separately installed with a second spring 24；Second scrollwork is installed between second shaft set 22 and the second triggering disk 26 Spring 21；The inner end of second scroll spring 21 is mounted on the second shaft set 22；The outer end of second scroll spring 21 is mounted on On two triggering disks 26；The lower end of first triggering block 20 has teeth；As shown in figure 12, six the first triggering blocks 20 are installed respectively In six the first guide grooves 6；Six the first triggering blocks 20 cooperate with six the second limited blocks 25 respectively；As shown in figure 22, it is located at A rotating block 5 is installed between two second triggering disks 26 of upper and lower ends；As shown in figure 23, have on rotating block 5 oblique Face；Inclined-plane and six the first triggering blocks 20 on rotating block 5 cooperate；As shown in figure 18, the both ends of the second shaft 36 are installed respectively There is a rotating shaft support 39；Six the second shafts 36 are circumferentially uniformly mounted to by two rotating shaft supports 39 at its both ends respectively On the inside of 31 upper end of annular groove；Second gear 38 is divided for smooth end and teeth end；As shown in figure 16, six second gears 38 are pacified respectively In six the second shafts 36；And the teeth end of six second gears 38 and the teeth of six 20 lower ends of the first triggering block are nibbled It closes；The upper end of 32 acting surface of rack gear has teeth, and the lower end of 32 acting surface of rack gear is shiny surface；As shown in figure 17, six rack gears 32 are separately mounted to six square grooves 28 on the end face of 17 wall surface side of the second cylinder groove；Six first rotating shafts 34 are pacified respectively In six square grooves 28, and the both ends of each first rotating shaft 34 respectively with two third guide grooves 29 in corresponding square groove 28 Cooperation；First gear 35 is divided for smooth end and teeth end；As shown in figure 19, six first gears 35 are separately mounted to six first In shaft 34；And the teeth end of six first gears 35 is engaged with the teeth on six rack gears 32；As shown in figure 20, six first Smooth end between gear 35 and six second gears 38 is connected by six roots of sensation belt pulley 37.

Above-mentioned belt pulley 37 is elastic belt wheel 37.Its effect is that belt pulley 37 is right when preventing first gear 35 from moving down Second gear 38 impacts.

The distance between 9 wall surface of periphery and the first cylinder groove that block 15 is discharged under above-mentioned original state is equal to the second triggering Block 4 is far from the distance between 19 one end of the first spring and 8 wall surface of cylindrical hole；Lower six the first triggering blocks 20 of original state and six Second limited block, 25 contact point is located in the first guide groove 6；Lower six the second triggering blocks 4 of original state and six the first limited blocks 11 Contact point is located in the second guide groove 7.

It is above-mentioned to make the first triggering disk 13 in the first scrollwork under six the first springs 19 and the cooperation of the first limited block 11 The effect of 12 elastic force of spring is lower to be in equilibrium state；Make the second triggering under six second springs 24 and the cooperation of the second limited block 25 Disk 26 is in equilibrium state under the effect of 21 elastic force of the second scroll spring.

As shown in Fig. 2, one of winding wheel 2 is located at other three winding wheels, 2 upsides in aforementioned four winding wheel 2；Four Spacing is equal between two adjacent winding wheels 2 in a winding wheel 2.

Above-mentioned first spring 19 is compressed spring；Second spring 24 is compressed spring.

, above-mentioned to be led as six the second limiting slots 27 of the second limited block 25, six of second spring 24, six and six first The alternative of slot 6 is five second spring 24, five the second limited blocks, 25, five the second limiting slots 27 and five the first guide grooves 6 or seven the second limiting slots 27 of the second limited block 25, seven of second spring 24, seven and seven the first guide grooves 6.

It is above-mentioned to be led as six the first limiting slots 18 of 19, six, the first spring the first limited block 11, six and six second The alternative of slot 7 is five the first spring 19, five the first limited blocks, 11, five the first limiting slots 18 and five the second guide grooves 7 or seven 19, seven, the first spring the first limiting slots 18 of the first limited block 11, seven and seven the second guide grooves 7.

In summary:

The electric pole that the present invention designs can keep normal condition without breaking when by external force collision by automatically adjusting It splits；Protect electric wire.

Movement of the electric pole on pedestal disk 1 in first cylinder groove 9 causes the electric wire of electric pole upper end in the present invention Influence it is smaller, can be ignored.

The upper and lower ends that the second shaft covers 22 in the present invention pass through two the second clamping rings 23 respectively and are mounted on electric pole 3 inside of shell；The upper and lower ends institute mounting structure of second shaft set 22 is identical；For wherein any end；Second triggering circle Disk 26 is mounted on the second shaft set 22；Second limiting slot there are six circumferentially equably being opened on the periphery of second triggering disk 26 27；Second limited block 25 is separately installed in six the second limiting slots 27；Six the second limited blocks 25 and six second limits A second spring 24 is separately installed between the slot 27 of position；One is equipped between second shaft set 22 and the second triggering disk 26 Second scroll spring 21；Six the first triggering blocks 20 are separately mounted in six the first guide grooves 6；Six the first triggering block 20 difference Cooperate with six the second limited blocks 25；A rotating block 5 is installed between two second triggering disks 26 of upper and lower ends； There is inclined-plane on rotating block 5；Inclined-plane and six the first triggering blocks 20 on rotating block 5 cooperate；In six second springs 24 and The cooperation of two limited blocks 25 is lower so that the second triggering disk 26 is in equilibrium state under the effect of 21 elastic force of the second scroll spring.Such as figure Shown in 25a, lower six the first triggering blocks 20 of original state and six 25 contact points of the second limited block are located in the first guide groove 6；When When having external force collision electric pole；The external force can first be contacted with six the first triggering blocks 20；The external force makes six the first triggering blocks First triggering block of wherein one or two in 20 20 is along the first guide groove 6 to 3 medial movement of electric pole shell；As shown in figure 25b, One triggering block, 20 movement can squeeze the sidesway into corresponding second limiting slot 27 of two the second limited blocks 25 corresponding thereto It is dynamic；When two the second limited blocks 25 remove the first guide groove 6 in moving process；Due to the upper and lower ends point of the second shaft set 22 Not Tong Guo two the second clamping rings 23 be mounted on the inside of electric pole shell 3；Second shaft set 22 is in static；So in the second whirlpool Two second triggering disks 26 just can rotate under the action of 21 elastic force of coil spring；Two second triggering disk 26 rotations drive rotation Block 5 rotates；In 5 rotation process of rotating block；When rotating block 5 is contacted with the first triggering block 20 being knocked；Such as Figure 25 c institute Show, rotating block 5 will push the first triggering block 20 and be displaced outwardly；And the impact force direction that the motive force and the first triggering block 20 are subject to On the contrary；So offsetting external force to the impact force of electric pole by rotating block 5 and the contact-impact of the first triggering block 20；It protects Electric pole；Protect electric wire.

In the present invention when the upside of electric pole is hit；Electric pole will be swung；And electric pole swing can make It must discharge and be squeezed between block 15 and the upper surface of the first cylinder groove 9；Thus very likely result in the damage of pedestal disk 1 It is bad；Electric pole is in turn resulted in fall down to the ground；Electric wire is impacted；So six the second shafts 36 pass through its both ends respectively in the present invention Two rotating shaft supports 39 circumferential be uniformly mounted on the inside of 31 upper end of annular groove；Second gear 38 is divided for smooth end and teeth End；Six second gears 38 are separately mounted in six the second shafts 36；And the teeth end of six second gears 38 with six the The teeth of one triggering block, 20 lower end engage；The acting surface upper end of rack gear 32 has teeth, and the lower end of 32 acting surface of rack gear is smooth Face；Six rack gears 32 are separately mounted to six square grooves 28 on the end face of 17 wall surface side of the second cylinder groove；Six first Shaft 34 is separately mounted in six square grooves 28, and the both ends of each first rotating shaft 34 respectively with two in corresponding square groove 28 A third guide groove 29 cooperates；First gear 35 is divided for smooth end and teeth end；Six first gears 35 are separately mounted to six In one shaft 34；And the teeth end of six first gears 35 is engaged with the teeth on six rack gears 32；Six first gears 35 with Smooth end between six second gears 38 is connected by six roots of sensation belt pulley 37；Belt pulley 37 is elastic belt wheel 37；First touching The lower end for sending out block 20 has teeth；When electric pole is hit；In six the first triggering blocks 20 wherein one or two first Triggering block 20 is along the first guide groove 6 to 3 medial movement of electric pole shell；The movement of first triggering block 20 will drive corresponding second tooth 38 rotation of wheel；As shown in Figure 26 a, the rotation of second gear 38 will drive corresponding first gear 35 by belt pulley 37 and rotate； Since the teeth end of first gear 35 is engaged and rack gear 32 is mounted on square groove 28 close to the second cylinder with the teeth on rack gear 32 On the end face of 17 wall surface side of slot；As illustrated in figure 26b, so when first gear 35 rotates；First gear 35 can be downward simultaneously It is mobile；When being detached from the teeth on rack gear 32 during first gear 35 moves down；First gear 35 just with the first cylinder The lower end face contact of slot 9；When first gear 35 and the lower end face contact of the first cylinder groove 9；The lower end surface meeting of first cylinder groove 9 Squeezing first gear 35 moves up first gear 35；But first gear 35 moves up will be again and on rack gear 32 Teeth engagement；So first gear 35 can move down again；So first gear 35 understands the lower end with the first cylinder groove 9 always Face contact；By the friction of 9 lower end surface of first gear 35 and the first cylinder groove come so that release 15 transverse shifting of block；Discharge block 15 It is mobile to drive 10 transverse shifting of rotation axis；Rotation axis 10 is mobile to drive electric pole that transverse shifting integrally occurs；To prevent electricity Line bar is swung and the damage of pedestal disk 1；Protect electric pole；And then protect electric wire.

Cylindrical hole 8 is provided on the center of 1 upper end of pedestal disk in the present invention；It is provided on the wall surface of 8 lower end of cylindrical hole First cylinder groove 9；There are teeth on the wall surface of first cylinder groove 9；The lower end of pedestal disk 1 is in soil；Discharge block 15 There are teeth on periphery；Release block 15 is mounted in the first cylinder groove 9；It discharges on teeth and the first cylinder groove 9 on block 15 Teeth cooperation；The upper and lower ends of rotation axis 10 pass through two the first clamping rings 16 respectively and are mounted on 3 inside of electric pole shell；The One triggering disk 13 is mounted in rotation axis 10；First limit there are six circumferentially equably being opened on the periphery of first triggering disk 13 Position slot 18；First limited block 11 is separately installed in six the first limiting slots 18；Six the first limited blocks 11 and six First spring 19 is separately installed between one limiting slot 18；The lower end of rotation axis 10 is equipped with a unidirectional ring 14；Unidirectionally One the first scroll spring 12 is installed between 3 inner wall of ring 14 and electric pole shell；Six the second triggering blocks 4 are separately mounted to six In second guide groove 7；Six the second triggering blocks 4 cooperate with six the first limited blocks 11 respectively；The lower end of rotation axis 10 and release block 17 lower end of the second cylinder groove connection on 15；Lower six the second triggering blocks 4 of original state and six 11 contact points of the first limited block In the second guide groove 7；When there is external force collision electric pole；Electric pole can be swung；Six second touchings during the swing Wherein one or two second triggering block 4 in hair block 4 will strike on the wall surface of cylindrical hole 8；And the second triggering block 4 by When shock；Second triggering block 4 will be along the second guide groove 7 to 3 medial movement of electric pole shell；Second triggering block, 4 movement can squeeze Two the first limited blocks 11 corresponding thereto are to corresponding first limiting slot, 18 medial movement；When the first limited block 11 is moving When removing the second guide groove 7 during dynamic；Unidirectional ring 14 just can rotate under the effect of 12 elastic force of the first scroll spring；Unidirectional 14 turns of ring It is dynamic that rotation axis 10 is driven to rotate；As shown in fig. 24 a, the rotation of rotation axis 10 drives release block 15 to rotate；Simultaneously when the second triggering block 4 When striking on the wall surface of cylindrical hole 8；As shown in Figure 24 b, discharge block 15 on teeth just with the teeth in the first cylinder groove 9 Engagement；And pedestal disk 1 is in soil；As shown in Figure 24 c, so release block 15 rotates meeting so that release block 15 is along first 9 wall surface of cylinder groove circumferentially rotates；It is round with first within a certain period of time to increase release block 15 by circumferentially rotating for release block 15 The contact area of 9 wall of column slot；And then extenuate the damage of impact force that electric pole 3 is subject to the first cylinder groove 9；It is designed in the present invention The effect of unidirectional ring 14 be；After the completion of the elastic force release of the first scroll spring 12；Discharging block 15 can be after under effect of inertia Continuous rotation；And it discharges block 15 and the rotation of 12 pairs of the first scroll spring release blocks 15 is not intended to impact during rotation；Institute Unidirectional ring 14 is devised with the present invention；Prevent the rotation of 12 pairs of the first scroll spring release blocks 15 from causing shadow by unidirectional ring 14 It rings.The rotation axis 10 that the present invention designs is fixed by upper and lower two the first clamping rings 16；Its effect is to strengthen rotation axis 10 Stability.

Specific embodiment: when the electric pole that people are designed using the present invention；When electric pole is hit；The shock Power can make in six the first triggering blocks 20 wherein one or two first triggering block 20 along the first guide groove 6 to electric pole shell 3 Medial movement；First triggering block, 20 movement can squeeze two the second limited blocks 25 corresponding thereto to corresponding second limit 27 medial movement of slot；When two the second limited blocks 25 remove the first guide groove 6 in moving process；Due to the second shaft set 22 Upper and lower ends pass through two the second clamping rings 23 respectively and are mounted on 3 inside of electric pole shell；Second shaft set 22 is in static；Institute With under the action of the second 21 elastic force of scroll spring two second triggering disks 26 just can rotate；Two second 26 turns of disk of triggering It is dynamic that rotating block 5 is driven to rotate；In 5 rotation process of rotating block；When rotating block 5 is contacted with the first triggering block 20 being knocked； Rotating block 5 will push the first triggering block 20 and be displaced outwardly；And the impact force direction phase that the motive force is subject to the first triggering block 20 Instead；So offsetting external force to the impact force of electric pole by rotating block 5 and the contact-impact of the first triggering block 20；But if When impact force is larger；Rotating block 5 cannot all be offset；Electric pole will move integrally under remaining impact force at this time；? Wherein one or two second triggering block 4 in moving process in six the second triggering blocks 4 will strike the wall surface of cylindrical hole 8 On；And the second triggering block 4 is when being hit；Second triggering block 4 will be along the second guide groove 7 to 3 medial movement of electric pole shell；The Two triggering blocks, 4 movement can squeeze the sidesway into corresponding first limiting slot 18 of two the first limited blocks 11 corresponding thereto It is dynamic；When the first limited block 11 removes the second guide groove 7 in moving process；The unidirectional ring under the effect of 12 elastic force of the first scroll spring 14 just can rotate；The unidirectional rotation of ring 14 drives rotation axis 10 to rotate；The rotation of rotation axis 10 drives release block 15 to rotate；Simultaneously when the When two triggering blocks 4 strike on the wall surface of cylindrical hole 8；Teeth on release block 15 are just nibbled with the teeth in the first cylinder groove 9 It closes；And pedestal disk 1 is in soil；So when release block 15 rotates meeting so that release block 15 is along 9 wall surface of the first cylinder groove It circumferentially rotates；The impact force that electric pole is subject to is extenuated by circumferentially rotating for release block 15；Further protect electric pole；It protects Electric wire is protected.

Claims (3)

1. it is a kind of prevent swing electric power network electric pole, it is characterised in that: it include pedestal disk, winding wheel, electric pole shell, First guide groove, the second guide groove, cylindrical hole, square groove, third guide groove, annular groove, rack gear, first rotating shaft, first gear, second turn Axis, belt pulley, second gear, rotating shaft support, the first cylinder groove, rotation axis, the first limited block, the first scroll spring, the first touching Send out disk, unidirectional ring, release block, the second triggering block, the first clamping rings, the second cylinder groove, the first limiting slot, the first spring, First triggering block, the second scroll spring, the second shaft set, the second clamping rings, second spring, the second limited block, the second triggering Disk, the second limiting slot are wherein provided with cylindrical hole on the center of pedestal disk upper end；It is provided on the wall surface of cylindrical hole lower end First cylinder groove；There are teeth on the wall surface of first cylinder groove；The lower end of pedestal disk is in soil；It discharges in block upper end Heart position is provided with the second cylinder groove；The lower end surface of second cylinder groove circumferentially equably opens that there are six square grooves；In six square grooves It symmetrically opens there are two third guide groove the two sides of each square groove；Discharging has teeth on the periphery of block；Release block is mounted on In first cylinder groove；It discharges the teeth on block and the teeth on the first cylinder groove cooperates；Periphery last week of electric pole shell lower end To equably opening, there are six the first guide grooves；Second guide groove there are six circumferentially equably being opened on the periphery of electric pole shell lower end；Six A second guide groove is located on the downside of six the first guide grooves, and the second guide groove is located among two the first guide grooves adjacent thereto；Electric wire There are four winding wheels for the upper end installation of bar shell；An annular groove is provided on the lower end surface of electric pole；The upside of annular groove with six First guide groove communicates；The lower end of electric pole shell is nested in the second cylinder groove；The upper and lower ends of rotation axis pass through two respectively One clamping rings is mounted on the inside of electric pole shell；First triggering disk installation on the rotating shaft, and is located at rotation axis lower end；First Trigger the first limiting slot there are six circumferentially equably opening on the periphery of disk；Six the first limiting slots are led with six second respectively Slot corresponding matching；First limited block is separately installed in six the first limiting slots；Six the first limited blocks and six first First spring is separately installed between limiting slot；The lower end of rotation axis is equipped with a unidirectional ring, and unidirectional ring is located at the Between one triggering disk and the first clamping rings；First scroll spring is installed between unidirectional ring and electric pole shell inner wall； Six the second triggering blocks are separately mounted in six the second guide grooves；Six the second triggering blocks are matched with six the first limited blocks respectively It closes；The lower end of rotation axis is connect with the second cylinder groove lower end on release block；Second shaft set is nested on rotation axis periphery； The upper and lower ends of second shaft set pass through two the second clamping rings respectively and are mounted on the inside of electric pole shell；Second shaft set is located at Between first clamping rings of upside and the first triggering disk；The upper and lower ends institute mounting structure of second shaft set is identical； For wherein any end；Second triggering disk is mounted on the second shaft and puts on；It is circumferential equal on the periphery of second triggering disk Second limiting slot there are six opening evenly；Six the second limiting slots respectively with six the first guide groove corresponding matchings；Six second limits Second limited block is separately installed in slot；One is separately installed between six the second limited blocks and six the second limiting slots Second spring；Second scroll spring is installed between second shaft set and the second triggering disk；Second scroll spring it is interior End is mounted on the second shaft and puts on；The outer end of second scroll spring is mounted on the second triggering disk；The lower end of first triggering block With teeth；Six the first triggering blocks are separately mounted in six the first guide grooves；Six the first triggering blocks respectively with six second Limited block cooperation；A rotating block is installed between two second triggering disks of upper and lower ends；Have on rotating block oblique Face；Inclined-plane and six the first triggering blocks on rotating block cooperate；The both ends of second shaft are separately installed with a rotating shaft support；Six Two rotating shaft supports that a second shaft passes through its both ends respectively are circumferentially uniformly mounted on the inside of annular groove upper end；Second gear It is divided into smooth end and teeth end；Six second gears are separately mounted in six the second shafts；And the teeth of six second gears It is engaged with the teeth of six the first triggering block lower ends at end；The upper end of rack gear acting surface has teeth, and the lower end of rack gear acting surface is Shiny surface；Six rack gears are separately mounted to six square grooves on the end face of the second cylinder trough wall surface side；Six first turn Axis is separately mounted in six square grooves, and the both ends of each first rotating shaft respectively with two third guide grooves in corresponding square groove Cooperation；First gear is divided into smooth end and teeth end；Six first gears are separately mounted in six first rotating shafts；And six It is engaged with the teeth on six rack gears at the teeth end of one gear；Smooth end between six first gears and six second gears is logical Cross the connection of six roots of sensation belt pulley；

Above-mentioned belt pulley is elastic belt wheel；

The distance between periphery and the first cylinder trough wall surface that block is discharged under original state are equal to the second triggering block far from first The distance between spring one end and cylinder wall surface of the hole；Lower six the first triggering blocks of original state and six the second limited block contact points In the first guide groove；Lower six the second triggering blocks of original state and six the first limited block contact points are located in the second guide groove；

It is above-mentioned under six the first springs and the cooperation of the first limited block the first triggering disk to be made in the first scroll spring elastic force Equilibrium state is in lower；Make the second triggering disk in the second scrollwork bullet under six second springs and the cooperation of the second limited block Spring force effect is lower to be in equilibrium state；

One of winding wheel is located on the upside of other three winding wheels in aforementioned four winding wheel；Adjacent two in four winding wheels Spacing is equal between a winding wheel；

Above-mentioned first spring is compressed spring；Second spring is compressed spring.

2. a kind of electric power network electric pole for preventing from swinging according to claim 1, it is characterised in that: above-mentioned to be used as second The alternative that spring, the second limited block, the second limiting slot and the first guide groove number are six, number are five or seven.

3. a kind of electric power network electric pole for preventing from swinging according to claim 1, it is characterised in that: above-mentioned to be used as first The alternative that spring, the first limited block, the first limiting slot and the second guide groove number are six, number are five or seven.