CN110233460A - A kind of conducting wire deicing device - Google Patents
A kind of conducting wire deicing device Download PDFInfo
- Publication number
- CN110233460A CN110233460A CN201910543226.9A CN201910543226A CN110233460A CN 110233460 A CN110233460 A CN 110233460A CN 201910543226 A CN201910543226 A CN 201910543226A CN 110233460 A CN110233460 A CN 110233460A
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- China
- Prior art keywords
- frame body
- riser
- respectively arranged
- conducting wire
- idler wheel
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G7/00—Overhead installations of electric lines or cables
- H02G7/16—Devices for removing snow or ice from lines or cables
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- Housing For Livestock And Birds (AREA)
- Electric Cable Installation (AREA)
Abstract
The invention discloses a kind of conducting wire deicing device, including active cell, several deicing units and driven unit, the active cell, deicing unit are connected with driven unit by the connecting plate being disposed above.Driving mechanism is provided between connecting plate and active cell.Active cell includes the first frame body for being respectively arranged at power transmission line two sides, first frame body and connecting plate together form " door " font, the upper/lower terminal of first frame body is respectively arranged with the first idler wheel, tension spring is provided between first idler wheel and the first frame body, between the first idler wheel described in power transmission line is two clamped.Driven unit is similar to the active cell structure.Deicing unit includes third frame body, and the upper/lower terminal of third frame body is separately provided for the clamp assemblies of deicing.The deicer can carry out deicing to four conducting wires simultaneously, not only increase working efficiency, and being capable of whole-process automatic obstacle detouring.
Description
Technical field
The present invention relates to a kind of deicer, it is specifically a kind of applied to conductors on quad bundled can the conducting wire of obstacle detouring remove
Ice production apparatus.
Background technique
It, generally all can be using division in order to inhibit corona discharge and reduce line reactance in the transmission line of electricity of super-pressure
The erection mode of conducting wire, and most common among these is exactly conductors on quad bundled.
It is influenced by weather environment, in the north and sombre south, often will appear transmission line icing to winter
Situation, and powerline ice-covering can cause conductor galloping, shaft tower tilt, collapse, breaking and the problems such as insulator arc-over, serious shadow
Ring the normal operation of electric power setting.
However, it is most of both for solid conductor design for the deicer of route deicing at present, it is being applied to
When conductors on quad bundled, the problem of on the one hand there is inefficiency.On the other hand, the characteristic elongated due to conducting wire itself,
The main body of most deicer is hooked on conducting wire positioned at the lower section of conducting wire, and by idler wheel etc..In this way, when contraposition
When two conducting wires in lower section carry out deicing, additionally it is possible to deconcentrator is crossed with the obstacle crossing function of traditional deicer, but it is right
When two conducting wires being located above carry out deicing, anyway when can not cross, can only artificial obstacle detouring, it is not only cumbersome and inconvenient,
And it is dangerous.Additionally, due to the spacing before split conductor and little, therefore even if to underlying two conducting wires into
When row deicing, for deicer biggish for some figures, the conducting wire on side can be also encountered.
Summary of the invention
In view of the above-mentioned problems, the deicer can simultaneously lead four the present invention provides a kind of conducting wire deicing device
Line carries out deicing, not only increases working efficiency, and being capable of whole-process automatic obstacle detouring.
The technical scheme adopted by the invention to solve the technical problem is that:
A kind of conducting wire deicing device, including active cell, several deicing units and driven unit, the active list
It is provided with above member, deicing unit and driven unit for connecting the active cell, deicing unit and driven unit
Connecting plate;
Driving mechanism is provided between the connecting plate and active cell.
Further, the active cell includes the first frame body for being respectively arranged at power transmission line arranged on left and right sides, and described
The upper/lower terminal of one frame body is respectively arranged with the first idler wheel, is provided with lateral transmission between the first idler wheel of two be located above
Axis, underlying first idler wheel are rotatablely connected by the first articulated shaft and first frame body, and are set to described the
The hinge hole matched with first articulated shaft on one frame body is slotted hole along the vertical direction, first frame body
On be provided with the first fixing axle, be provided with tension spring between first fixing axle and the first articulated shaft.
Further, first frame body includes the first outside riser, the upper/lower terminal point of first outside riser
It is not provided with the first transverse slat extended inwardly, the free end of first transverse slat is provided with the first medial shaft extended inwardly
Plate, first idler wheel are set between the first outside riser and the first inside riser, and first outside is perpendicular
The outside of plate and the inside of the first inside riser, which are located above first articulated shaft, is respectively arranged with the first fixing axle.
Further, first articulated shaft is fixedly connected with first idler wheel, first articulated shaft with
First frame body is hinged, and the both ends of the horizontal drive shaft, which are located on the outside of first frame body, is respectively arranged with driving
Fluted disc, the driving fluted disc includes disk, the cylindrical surface that the outer edge of the disk is provided with, and is arranged on the cylindrical surface
There is the tooth-shape structure for transmission, mounting blocks are provided on first frame body, vertical biography is provided on the mounting blocks
Moving axis, and the vertical transmission shaft is rotatablely connected by bearing assembly and the mounting blocks, the vertical transmission shaft
Upper/lower terminal is respectively arranged with the roller gear being meshed with the driving fluted disc.
Further, the driving mechanism includes the driven gear being set in the horizontal drive shaft, and described
The driving gear that driven gear is meshed is set on the output shaft of motor, and the motor is set on the connecting plate,
And the axis helical teeth transmission that interlocks is formed between the driving gear and driven gear.
Further, the driven unit includes the second frame body for being respectively arranged at the power transmission line arranged on left and right sides, institute
The upper/lower terminal for stating the second frame body is respectively arranged with the second idler wheel, the second idler wheel being located above by articulated shaft on second with
The second frame body rotation connection, underlying second idler wheel are rotated by the second lower articulated shaft and second frame body
Connection, and being set to the hinge hole matched with the described second lower articulated shaft on second frame body is along the vertical direction
Slotted hole is provided with the second fixing axle on second frame body, sets between second fixing axle and the second lower articulated shaft
It is equipped with tension spring.
Further, second frame body includes the second outside riser, the upper/lower terminal point of second outside riser
It is not provided with the second transverse slat extended inwardly, the free end of second transverse slat is provided with the second medial shaft extended inwardly
Plate, second idler wheel are set between the second outside riser and the second inside riser, and second outside is perpendicular
The outside of plate and the inside of the second inside riser, which are located above the described second lower articulated shaft, is respectively arranged with the first fixing axle.
Further, the deicing unit includes the third frame body for being respectively arranged at the power transmission line arranged on left and right sides, institute
The third frame body stated includes third riser, and the upper and lower ends of the third riser are respectively arranged with inclined inclined plate inwardly,
The free end of the inclined plate is not provided with third transverse slat in the horizontal direction, is provided with clamp assemblies on the inclined plate.
Further, the clamp assemblies include T-shaped the first swinging axle and the second swinging axle, and described first swings
The cross bar of axis and the second swinging axle is hinged with the inclined plate respectively, the vertical bar of first swinging axle and the second swinging axle
Free end is respectively arranged with hold-down roll, and tension spring, and institute are provided between first swinging axle and the vertical bar of the second swinging axle
The annular protrusion that limitation tension spring is moved along vertical bar is separately provided on the vertical bar stated.
Further, the revolution bus of the hold-down roll is in the arc-shaped that is recessed inwardly, and the hold-down roll
On be covered with sharp protrusion, the hole being connected on the connecting plate with the third transverse slat of the third frame body is in left-right direction
Slotted hole.
The beneficial effects of the present invention are:
1, deicing can be carried out to four conducting wires simultaneously, improved work efficiency.
2, multiple groups deicing unit can be set according to the thickness of ice sheet, it is flexible and changeable, and can guarantee good deicing effect
Fruit.
3, active cell is located above and underlying first idler wheel while (being inwardly interior with opposite side
Side, similarly hereinafter) force not only ensure that reliable grip, guarantee reliably to step up on the one hand be deicer it is forward provide it is enough
On the other hand frictional force is placed deicer and is fallen;And conducting wire can be made to generate local bending at the first idler wheel, to make
Hard and crisp ice sheet cracks or even direct fragmentation, is ready for subsequent deicing unit, guarantees deicing effect.
4, by roller gear on vertical transmission shaft and driving fluted disc transmission, in this way, being on the one hand to be located above and position
The first idler wheel in lower section is actively to rotate, and ensure that forward power, on the other hand, is driven due to upper during obstacle detouring
The distance between active toothed disk and lower driving fluted disc can change, and pass through roller gear and sliding tooth with certain axial length
Disk transmission, just can guarantee positive engagement, avoid the phenomenon that taking off tooth generation.
5, using transversely slidable connection type between the third frame body and connecting plate of deicing unit, to guarantee to press from both sides
Suitable angle can be had by holding idler wheel, guarantee reliable obstacle detouring.
6, this deicer, it is structurally reasonable, it is easy for installation, and can be realized whole obstacle detouring, effectively raise work effect
Rate reduces the working strength of worker.
Detailed description of the invention
Fig. 1 is schematic perspective view of the invention;
Fig. 2 is the enlarged structure schematic diagram of part A in Fig. 1;
Fig. 3 is the enlarged structure schematic diagram of part B in Fig. 1;
Fig. 4 is the enlarged structure schematic diagram of C portion in Fig. 1;
Fig. 5 is the enlarged structure schematic diagram of the part D in Fig. 1;
Fig. 6 is the enlarged structure schematic diagram of the part E in Fig. 1;
Fig. 7 is side view of the invention;
Fig. 8 is the A-A cross-section diagram in Fig. 7;
Fig. 9 is the enlarged structure schematic diagram of the part F in Fig. 8;
Figure 10 is the enlarged structure schematic diagram of the part G in Fig. 8;
Figure 11 is the B-B cross-section diagram in Fig. 7;
Figure 12 is the enlarged structure schematic diagram of the part H in Figure 11;
Figure 13 is the C-C cross-section diagram in Fig. 7;
Figure 14 is the enlarged structure schematic diagram of the part I in Figure 13.
In figure: 1- active cell, the first frame body of 11-, the first outside 111- riser, the first transverse slat of 112-, in 113- first
Side riser, the first fixing axle of 114-, 115- mounting blocks, the first idler wheel of 12-, 13- horizontal drive shaft, 131- driven gear, 14-
One articulated shaft, the vertical transmission shaft of 15-, 151- roller gear, 16- drive fluted disc, 2- driven unit, the second frame body of 21-, 211- the
Two outside risers, the second transverse slat of 212-, the second inside 213- riser, the second fixing axle of 214-, the second idler wheel of 22-, on 23- second
Articulated shaft, the lower articulated shaft of 24- first, 3- deicing unit, 31- third frame body, 311- third riser, 312- third transverse slat, 313-
Inclined plate, 32- clamp assemblies, the first swinging axle of 321-, the second swinging axle of 322-, 323- hold-down roll, 324- annular protrusion, 4- connect
Fishplate bar, 41- motor cabinet, 5- motor, 51- driving gear, 6- tension spring, 7- power transmission line, 8- splitter.
Specific embodiment
For the convenience of description, now define coordinate system as shown in Figure 1, and using opposite side as inside, similarly hereinafter.
As shown in Figure 1, a kind of conducting wire deicing device, successively includes active cell 1,3 and of deicing unit along 7 direction of power transmission line
Driven unit 2, wherein the deicing unit 3 can be one or multiple.When ice sheet is thicker, multiple deicing can be arranged
Unit 3, to guarantee deicing effect.As a kind of specific embodiment, deicing unit 3 described in the present embodiment is one.
As shown in figures 1 to 6, the top of the active cell 1, driven unit 2 and deicing unit 3 is provided with for connecting
Connect the connecting plate 4 of the active cell 1, driven unit 2 and deicing unit 3.Motor cabinet is provided on the connecting plate 4
41, motor 5 is provided on the motor cabinet 41, is provided with driving gear 51 on the output shaft of the motor 5.
As shown in figure 8, the active cell 1 includes be respectively arranged at 7 arranged on left and right sides of quadripartion power transmission line the
One frame body 11.As shown in Figures 2 and 3, first frame body 11 includes the first outside riser 111, first outside riser
111 upper/lower terminal is respectively arranged with the first transverse slat 112 extended inwardly, and the free end of first transverse slat 112 is provided with
The the first inside riser 113 extended inwardly.First outside riser 111, the first transverse slat 112 and the first inside riser
113 together form the first U-type groove.As a kind of specific embodiment, the first outside riser 111, the first transverse slat 112
And first between inside riser 113 using the connection type of welding.In first U-type groove, i.e., the first described outside is perpendicular
Outside between plate 111 and the first inside riser 113 positioned at power transmission line 7 is provided with the first idler wheel 12.
As shown in figure 8, being provided with horizontal drive shaft 13, and described first between two the first idler wheels 12 being located above
Idler wheel 12 is nonrotationally connect with horizontal drive shaft 13, and the horizontal drive shaft 13 and first frame body 11 pass through bearing group
Part rotation connection.The middle part of the horizontal drive shaft 13 is provided with the driven gear being meshed with the driving gear 51
131, and the axis helical teeth transmission that interlocks is formed between the driving gear 51 and driven gear 131.
As shown in Figure 10, underlying two the first idler wheels 12 pass through the first articulated shaft 14 and the first respectively
Body 11 is rotatablely connected, wherein first articulated shaft 14 is fixedly connected with first idler wheel 12, described first is hinged
Axis 14 is hinged with first frame body 11, and is set on first frame body 11 and 14 phase of the first articulated shaft
The hinge hole of cooperation is slotted hole along the vertical direction.
It is interior with the first inside riser 113 on the lateral surface of the first outside riser 111 as shown in Fig. 4 and Figure 10
Top on side positioned at the first articulated shaft 14 is respectively arranged with the first fixing axle 114, and first fixing axle 114 and institute
Tension spring 6 is provided between the first articulated shaft 14 stated.And the power transmission line 7 is clamped in positioned at upper by the pulling force of tension spring 6
Between the first idler wheel 12 and underlying first idler wheel 12 of side.
Further, when walking due to active cell 1, first articulated shaft 14 is needed relative to the first frame body 11
Rotation, in order to avoid in this course, 14 frictional heating of tension spring 6 and the first articulated shaft, first articulated shaft 14 protrudes
In being provided with bearing on the part in 111 outside of the first outside riser, one end of the tension spring 6 is hooked on the outer ring of the bearing
On, the other end of the tension spring 6 is hooked in first fixing axle 114.
As shown in Figure 2 and Figure 9, the both ends of the horizontal drive shaft 13 are located at the part in the outside of first frame body
On and first articulated shaft 14 one end positioned at the external side of the first be respectively arranged with driving fluted disc 16.It is described
Driving fluted disc 16 include a disk, the outer edge of the disk is provided with the cylindrical surface extended outward, the cylinder
The tooth-shape structure for transmission is provided on face.
As shown in figure 8, being provided with mounting blocks 115, the installation in the middle part of the lateral surface of first outside riser 111
Be provided with vertical transmission shaft 15 along the vertical direction on block 115, and the vertical transmission shaft 15 by bearing assembly with it is described
Mounting blocks 115 be rotatablely connected.As a kind of specific embodiment, vertical transmission shaft 15 described in the present embodiment with it is described
Bearing assembly between mounting blocks 115 uses thrust ball bearing.
As shown in Figures 2 and 3, the upper/lower terminal of the vertical transmission shaft 15 is respectively arranged with and the sliding tooth
The roller gear 151 that disk 16 is meshed, and the axial length of the roller gear 151 be greater than be set on first frame body 11
The slotted hole matched with first articulated shaft 14 length.Herein why using roller gear 151 with it is special
The fluted disc of shape is meshed, and is because according to traditional Bevel Gear Transmission, although can also achieve the effect that transmission.But it is main
For moving cell 1 when surmounting obstacles, underlying driving gear can follow underlying first idler wheel 12 to move downward.Therefore
The spacing between driving gear and underlying driving gear being located above can become larger, driving gear underlying in this way
It will be detached from, can not effectively be engaged between driving gear underlying on vertical transmission shaft 15.And using has
Certain roller gear 151 of axial length and the fluted disc of specific shape are meshed, then can avoid this problem.
As shown in figure 13, the driven unit 2 includes the second frame for being respectively arranged at 7 arranged on left and right sides of power transmission line
Body 21.As shown in figure 14, second frame body 21 include the second outside riser 211, second outside riser 211 it is upper,
Lower both ends are respectively arranged with the second transverse slat 212 extended inwardly, and the free end of second transverse slat 212 is provided with to be prolonged inwardly
The the second inside riser 213 stretched.Second outside riser 211, the second transverse slat 212 and the common shape of the second inside riser 213
At the second U-type groove.As a kind of specific embodiment, in the second outside riser 211, the second transverse slat 212 and second
Using the connection type of welding between side riser 213.In second U-type groove, i.e., the second described outside riser 211 and the
Outside between two inside risers 213 positioned at power transmission line 7 is provided with the second idler wheel 22.
As shown in figure 13, the second idler wheel 22 described in two be located above respectively by articulated shaft 23 on second with it is described
The rotation connection of the second frame body 21, wherein second idler wheel 22 passes through 23 turns of articulated shaft on bearing assembly and described second
Dynamic to connect, articulated shaft 23 is fixedly connected with second frame body 21 on described second.
As shown in Figure 13 and Figure 14, the second idler wheel 22 described in underlying two respectively by the second lower articulated shaft with
Second frame body 21 rotation connection.Wherein second idler wheel 22 passes through bearing assembly and the described second lower articulated shaft
Rotation connection, the described second lower articulated shaft is hinged with second frame body 21, and is set on second frame body 21
The hinge hole matched with the described second lower articulated shaft be slotted hole along the vertical direction.Second outside riser 211
Lateral surface and the second inside riser 213 medial surface on be located above the second lower articulated shaft and be respectively arranged with the second fixing axle
214, and tension spring 6 is provided between the second lower articulated shaft and the second fixing axle 214.The power transmission line 7 passes through tension spring 6
Pulling force be clamped between the second idler wheel 22 and underlying second idler wheel 22 being located above.
As shown in figs. 2 and 11, the deicing unit 3 includes be respectively arranged at 7 arranged on left and right sides of power transmission line the
Triframe body 31, the third frame body 31 include third riser 311, and the upper and lower ends of the third riser 311 are respectively set
There is inclined inclined plate 313 inwardly, the free end of the inclined plate 313 is not provided with third transverse slat 312 in the horizontal direction, described
Inclined plate 313 on be provided with clamp assemblies 32.As shown in figure 12, the clamp assemblies 32 include the first T-shaped swinging axle
321 and second swinging axle 322, and the cross bar of first swinging axle 321 and the second swinging axle 322 respectively with the inclined plate
313 are hinged.The free end of the vertical bar of first swinging axle 321 and the second swinging axle 322 is respectively arranged with hold-down roll
323.The revolution bus of the hold-down roll 323 is in the arc-shaped being recessed inwardly, and is covered with point in the hold-down roll 323
Sharp protrusion.Positioned at the one of the close inclined plate 313 of hold-down roll 323 between first swinging axle 321 and the second swinging axle 322
Side is provided with tension spring 6.Further, it is respectively set on the vertical bar of first swinging axle 321 and the second swinging axle 322 useful
In the annular protrusion 324 that limitation tension spring 6 is moved along vertical bar.
Further, in order to guarantee deicing effect and increasing friction force, first idler wheel 12 and the second idler wheel 22
Turning round bus is in the arc-shaped being recessed inwardly, and is covered on first idler wheel 12 and the second idler wheel 22 sharp convex
It rises.
Further, in order to which hold-down roll 323 described in guaranteeing two is formed by inclining between the plane of symmetry and vertical plane
Angle is kept for 45 °, as shown in Fig. 2, the hole being connected on the connecting plate 4 with the third transverse slat 312 of the third frame body 31 is
Slotted hole in left-right direction.It thus can be by adjusting the position of third frame body 31, thus clamping described in guaranteeing two
Idler wheel 323 is piled about clamped conducting wire, and then guarantees reliable obstacle detouring.
Claims (10)
1. a kind of conducting wire deicing device, it is characterised in that: described including active cell, several deicing units and driven unit
Active cell, be provided with above deicing unit and driven unit for connect the active cell, deicing unit and from
The connecting plate of moving cell;
Driving mechanism is provided between the connecting plate and active cell.
2. a kind of conducting wire deicing device according to claim 1, it is characterised in that: the active cell includes setting respectively
It is placed in the first frame body of power transmission line arranged on left and right sides, the upper/lower terminal of first frame body is respectively arranged with the first idler wheel, is located at
Two the first idler wheels of top are rotatablely connected by horizontal drive shaft and first frame body, underlying two first rollings
Wheel is rotatablely connected by the first articulated shaft and first frame body respectively, and be set on first frame body with it is described
The hinge hole that matches of the first articulated shaft be slotted hole along the vertical direction, the both ends of the horizontal drive shaft and two institutes
The outer end for stating the first articulated shaft is respectively arranged with drive disk, is respectively arranged on the outside of two first frame bodies and described
The vertical transmission shaft of one frame body rotation connection, the upper/lower terminal of the vertical transmission shaft are respectively arranged with and the driving
The roller gear that disk is meshed is respectively arranged with the first fixing axle on the first frame body described in two, and the first of the same side is solid
Tension spring is provided between dead axle and the first articulated shaft.
3. a kind of conducting wire deicing device according to claim 2, it is characterised in that: the driving fluted disc includes a circle
Disk, the cylindrical surface that the outer edge of the disk is provided with, the free end on the cylindrical surface are provided with the tooth-shape structure for transmission.
4. a kind of conducting wire deicing device according to claim 2, it is characterised in that: first frame body includes outside first
Side riser, the upper/lower terminal of first outside riser are respectively arranged with the first transverse slat extended inwardly, first transverse slat
Free end be provided with the first inside riser extended inwardly, first idler wheel is set to the first outside riser
And first between the riser of inside, is respectively arranged with the first fixing axle on the first outside riser and the first inside riser.
5. a kind of conducting wire deicing device according to claim 1, it is characterised in that: the driving mechanism includes being set to
Driven gear in the horizontal drive shaft, the driving gear being meshed with the driven gear are set to the output shaft of motor
On, the motor is set on the connecting plate, and the axis helical teeth that interlocks is formed between the driving gear and driven gear
Transmission.
6. a kind of conducting wire deicing device according to claim 1, it is characterised in that: the driven unit includes setting respectively
It is placed in the second frame body of the power transmission line arranged on left and right sides, the upper/lower terminal of second frame body is respectively arranged with the second idler wheel,
Two the second idler wheels being located above pass through articulated shaft and second frame body on second respectively and are rotatablely connected, underlying
Second idler wheel is rotatablely connected by the second lower articulated shaft and second frame body, and be set on second frame body with institute
The hinge hole that the lower articulated shaft of second stated matches is slotted hole along the vertical direction, is provided with second on second frame body
Fixing axle is provided with tension spring between second fixing axle and the second lower articulated shaft.
7. a kind of conducting wire deicing device according to claim 6, it is characterised in that: second frame body includes outside second
Side riser, the upper/lower terminal of second outside riser are respectively arranged with the second transverse slat extended inwardly, second transverse slat
Free end be provided with the second inside riser extended inwardly, second idler wheel is set to the second outside riser
And second between the riser of inside, is respectively arranged with the first fixing axle on the second outside riser and the second inside riser.
8. a kind of conducting wire deicing device according to claim 1, it is characterised in that: the deicing unit includes setting respectively
It is placed in the third frame body of the power transmission line arranged on left and right sides, the third frame body includes third riser, the third riser
Upper and lower ends are respectively arranged with inclined inclined plate inwardly, and the free end of the inclined plate is not provided with the cross of third in the horizontal direction
Plate is provided with clamp assemblies on the inclined plate.
9. a kind of conducting wire deicing device according to claim 8, it is characterised in that: the clamp assemblies include T-shaped
The first swinging axle and the second swinging axle, the cross bar of first swinging axle and the second swinging axle mutually cuts with scissors with the inclined plate respectively
It connects, the free end of the vertical bar of first swinging axle and the second swinging axle is respectively arranged with hold-down roll, first swinging axle
And second swinging axle vertical bar between be provided with tension spring, and be separately provided on the vertical bar limitation tension spring along vertical bar move
Dynamic annular protrusion.
10. a kind of conducting wire deicing device according to claim 9, it is characterised in that: the revolution bus of the hold-down roll
In the arc-shaped being recessed inwardly, and it is covered with sharp protrusion in the hold-down roll, with described on the connecting plate
The hole that the third transverse slat of triframe body is connected is slotted hole in left-right direction.
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CN201910543226.9A CN110233460B (en) | 2019-06-21 | 2019-06-21 | Wire defroster |
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CN201910543226.9A CN110233460B (en) | 2019-06-21 | 2019-06-21 | Wire defroster |
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CN110233460B CN110233460B (en) | 2020-06-30 |
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CN102361312A (en) * | 2011-09-28 | 2012-02-22 | 苏州大学 | Aerial cable deicer |
CN202550453U (en) * | 2012-05-10 | 2012-11-21 | 郭斌 | Knocking type deicing machine for high tension line |
RU2565068C1 (en) * | 2014-04-03 | 2015-10-20 | Федеральное государственное бюджетное образовательное учреждение высшего профессионального образования "Приамурский государственный университет имени Шолом-Алейхема" (ФГБОУ ВПО "ПГУ им. Шолом-Алейхема") | Deicing device for overhead line wire |
CN107681610A (en) * | 2017-10-31 | 2018-02-09 | 成都意町工业产品设计有限公司 | A kind of lose-lose electricity protection robot using ice melting agent deicing |
CN207967883U (en) * | 2017-10-31 | 2018-10-12 | 成都意町工业产品设计有限公司 | A kind of double electricity transmission line deicing barrier-surpassing robot |
CN108695803A (en) * | 2018-08-03 | 2018-10-23 | 榆林学院 | A kind of deicing of high voltage wire robot and de-icing method |
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