CN109217217B

CN109217217B - Deicing machine for carrying out all-dimensional knocking on high-voltage line based on magnetic principle

Info

Publication number: CN109217217B
Application number: CN201811214322.0A
Authority: CN
Inventors: 张智超
Original assignee: Wenzhou Lipshu Trading Co ltd
Current assignee: Dongtai High Tech Innovation Park Co Ltd
Priority date: 2018-10-18
Filing date: 2018-10-18
Publication date: 2020-04-03
Anticipated expiration: 2038-10-18
Also published as: CN109217217A

Abstract

The invention discloses an ice removing machine for performing omnibearing knocking on a high-voltage wire based on a magnetic principle, which structurally comprises an ice removing walking power mechanism, a connecting rod, an ice removing device, the high-voltage wire, a driving wheel, a driving belt, a rotating shaft and a scraper plate, wherein the ice removing walking power mechanism penetrates through the high-voltage wire and is movably connected with the high-voltage wire, and compared with the prior art, the ice removing machine has the beneficial effects that: can install defroster on the high-voltage line fast, can strike the ice-cube in proper order, strike more comprehensively, under the scraping effect of scraper blade, can make the ice-cube drop completely, make in certain extent, can be applicable to the high-voltage line of the different bores that freeze and different diameters on the high-voltage line, can once only carry out the deicing, application scope is wider, the ring all adopts the aluminum alloy material with the piece of strikeing simultaneously, because the aluminum alloy has good heat conductivity, do benefit to the ice-cube and carry out heat exchange with around, help melting of ice, strike in addition, can make the ice-cube can be hit the bits of broken fast, deicing is efficient.

Description

Deicing machine for carrying out all-dimensional knocking on high-voltage line based on magnetic principle

Technical Field

The invention relates to the technical field of electric power engineering, in particular to an ice removing machine for performing omnibearing knocking on a high-voltage wire based on a magnetic principle.

Background

The high-voltage line generally refers to a power transmission line for transmitting voltage of more than 10kV, in the extremely cold environment in the north, freezing rain and ice fall on the high-voltage line, and the high-voltage line is easy to freeze, and the high-voltage line is in poor contact due to the pressure of ice blocks, even the high-voltage line is possibly broken, so that the high-voltage line needs to be deiced.

For example, the Chinese patent authorization publication number: CN201620381000.5, which is a high voltage line deicing apparatus, comprising: the ice crushing mechanism is provided with a rotatable ice crushing disc arranged on two sides of the high-voltage wire, the ice crushing disc is provided with a plurality of strip-shaped grooves along the radial direction of the ice crushing disc, when the ice crushing disc rotates, ice on the high-voltage wire is crushed and removed by utilizing the strip-shaped grooves, and then the ice sweeping mechanism is utilized to sweep the crushed ice on the high-voltage wire.

The inventor finds that the distance between the two ice crushing disks is fixed, if the frozen caliber at the high-voltage wire is smaller than the distance between the ice crushing disks, the strip-shaped groove on the ice crushing disks cannot hold ice cubes at all, and particularly grinds the ice cubes.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provides an ice removing machine for performing omnibearing knocking on a high-voltage wire based on a magnetic principle.

The invention is realized by adopting the following technical scheme: the deicing machine comprises a deicing walking power mechanism, connecting rods, a deicing device, a high-voltage wire, a driving wheel, a transmission belt, a rotating shaft and a scraper blade, wherein the deicing walking power mechanism penetrates through the high-voltage wire and is movably connected with the high-voltage wire, one side of the deicing walking power mechanism is connected with the deicing device through the two parallel connecting rods, the two connecting rods are connected with each other through the scraper blade, the scraper blade and the deicing device are movably connected with the high-voltage wire, the driving wheel is arranged under the deicing device and is in transmission connection with the deicing device through the transmission belt, the driving wheel is sleeved on the rotating shaft in interference fit with the driving wheel, the rotating shaft is in transmission connection with the deicing walking power mechanism through a shaft coupler, and the deicing device comprises an outer ring, a connecting rod, an inner ring, a knocking group, a circular ring, a circular, From the driving wheel, the inner ring is connected with the ring through six connecting rods, the even group that strikes of inner wall of inner ring has been laid, strike the group and be the equidistance formula and be provided with eight groups and constitute the circle battle array, the one side and the outer loop inner wall connection of knocking the group are kept away from to the inner ring, the outer loop is equipped with outward from the driving wheel, the inner ring is connected in deicing walking power unit, the ring runs through in the high-voltage line.

Preferably, the outer ring comprises a limiting ring, guide grooves, an outer ring body and permanent magnets, the limiting ring is integrally arranged at each of two ends of the outer ring body, the guide grooves are formed in the two ends of the outer ring body, the permanent magnets of a circular structure are fixed in the outer ring body, the outer ring body is in interference fit with the driven wheel, and the guide grooves are in sliding connection with the inner ring.

As optimization, the inner ring is including direction bulge loop, interior ring body, disc, bracing piece, through-hole, the outside of interior ring body all is connected with the direction bulge loop of integration, even being equipped with the through-hole on the inner wall of interior ring body, the through-hole is the equidistance formula and has laid eight and every and all built-in disc, the upper and lower left and right ends of disc all are connected with the bracing piece perpendicularly, bracing piece and interior ring body coupling, the direction bulge loop carries out sliding connection with the guide way, disc and interior ring body all with strike the group and be connected, the inner wall of interior ring body passes through the connecting rod and is connected with the ring.

As optimization, strike the group including cavity insulation cylinder, insulating spring, insulation board, insulating connecting block, strike the piece, cavity insulation cylinder embeds there is the piece of striking that adopts clearance fit with it, the inner of striking the piece is connected with the insulation board through insulating connecting block, one side that insulating connecting block was kept away from to the insulation board is connected in insulating spring's one end, insulating spring's the other end is connected in the disc, cavity insulation cylinder is the concentric circle structure with the through-hole, the one end of cavity insulation cylinder and the inner wall fixed connection of interior ring body, the other end then is connected in the ring.

As optimization, the insulation board includes plate body, permanent magnetism ring, ring channel, set up the ring channel as an organic whole structure with it on the plate body, the ring channel is embedded to have a permanent magnetism ring, permanent magnetism ring and plate body are concentric circles, the one end that insulating spring kept away from the disc is connected with the center of plate body, the plate body adopts clearance fit with the hollow insulation drum outward, the one side that permanent magnetism ring was kept away from to the plate body is connected in the insulating connecting block.

As optimization, the ring is including first semicircle body, expansion joint, buckle, draw-in groove, second semicircle body, the both ends of first semicircle body all are fixed with the buckle, the buckle all carries out the lock with the draw-in groove and is connected, the draw-in groove is seted up at the both ends of second semicircle body, the second semicircle body constitutes a circle structure with first semicircle body, respectively set up four circular structure's expansion joint on first semicircle body and the second semicircle body, the expansion joint communicates with each other with the insulating drum of cavity, first semicircle body, second semicircle body all are connected with interior ring body through the connecting rod, first semicircle body, second semicircle body still connect in the insulating drum of cavity.

Preferably, the outer ring and the inner ring are both formed by buckling two ring bodies in a circular ring mode.

Preferably, the driven wheel is in transmission connection with a transmission belt.

Preferably, the depth of the guide groove is half of the thickness of the guide convex ring.

Preferably, the permanent magnet and the permanent magnet ring are homopolar magnets.

Preferably, the caliber of the hollow insulating cylinder is larger than the diameter of the through hole.

Preferably, the circular ring and the knocking block are made of aluminum alloy materials.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: the ice removing device can be rapidly installed on a high-voltage wire by the arrangement that the outer ring and the inner ring are buckled, the ice removing device can be rapidly installed on the high-voltage wire by the combination arrangement of the outer ring and the driven wheel, power is indirectly provided by the ice removing walking power mechanism, so that the outer ring is driven to rotate under the guiding limit of the guide groove and the guide convex ring, and the permanent magnet can regularly generate repulsion force on a knocking group based on the magnetic principle, so that the knocking group in eight directions of the high-voltage wire can knock an ice block in sequence, the knocking is more comprehensive, the ice block can completely drop under the scraping action of the scraper, the knocking group can be suitable for the high-voltage wires with different icing calibers and different diameters on the high-voltage wire in a certain range by the combination arrangement of the knocking group, the ring and the knocking block are made of aluminum alloy materials, the ice removing can be carried out at one time, the, because the aluminum alloy has good heat conductivity, do benefit to the ice-cube and carry out heat exchange with around, help melting of ice, in addition strike, can make the ice-cube can be smashed fast, deicing efficiency is high.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of an ice removing machine for performing omnibearing knocking on a high-voltage wire based on a magnetic principle according to the present invention.

Fig. 2 is a schematic structural view of a first operating state of a side view of the deicing apparatus of the present invention.

Fig. 3 is a schematic structural view of a second operating state of a side view of the deicing apparatus of the present invention.

Fig. 4 is a schematic structural diagram of an outer ring of the present invention.

Fig. 5 is a schematic structural view of the inner ring of the present invention.

Fig. 6 is a schematic view of the structure of the insulating plate of the present invention.

Fig. 7 is a schematic structural diagram of a ring of the present invention.

In the figure: a deicing walking power mechanism-1, a connecting rod-2, a deicing device-3, a high-voltage wire-4, a driving wheel-5, a transmission belt-6, a rotating shaft-7, a scraper-8, an outer ring-31, a connecting rod-32, an inner ring-33, a knocking group-34, a circular ring-35, a driven wheel-36, a limiting ring-310, a guide groove-311, an outer ring-312, a permanent magnet-313, a guide convex ring-330, an inner ring-331, a circular disc-332, a supporting rod-333, a through hole-334, a hollow insulating cylinder-340, an insulating spring-341, an insulating plate-342, an insulating connecting block-343, a knocking block-344, a plate body-3420, a permanent magnet ring-3421, an annular groove-3422, a first semicircular body-350, a, A movable opening-351, a buckle-352, a clamping groove-353 and a second semi-circle body-354.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-7, the present invention provides a technical solution of a deicing machine for performing omnibearing knocking on a high voltage line based on a magnetic principle: the deicing device structurally comprises a deicing walking power mechanism 1, connecting rods 2, a deicing device 3, a high-voltage wire 4, a driving wheel 5, a transmission belt 6, a rotating shaft 7 and scraping plates 8, wherein the deicing walking power mechanism 1 penetrates through the high-voltage wire 4 and is movably connected with the high-voltage wire 4, one side of the deicing walking power mechanism 1 is connected with the deicing device 3 through the two parallel connecting rods 2, the two connecting rods 2 are connected with each other through the scraping plates 8, the scraping plates 8 and the deicing device 3 are movably connected with the high-voltage wire 4, the driving wheel 5 is arranged under the deicing device 3 and is in transmission connection with the deicing device through the transmission belt 6, the driving wheel 5 is sleeved on the rotating shaft 7 in interference fit with the driving wheel 5, the rotating shaft 7 is in transmission connection with the deicing walking power mechanism 1 through a shaft coupler, and the deicing device 3 comprises an outer ring 31, ring 35, follow driving wheel 36, inner ring 33 is connected with ring 35 through six connecting rods 32, the even group 34 that strikes of having laid of inner ring 33's inner wall, strike group 34 and be the equidistance formula and be provided with eight groups and constitute the circle battle array, one side and outer ring 31 inner wall connection of knocking group 34 are kept away from to inner ring 33, outer ring 31 is equipped with outward from driving wheel 36, inner ring 33 connects in deicing walking power unit 1, ring 35 runs through in high-voltage line 4.

The outer ring 31 comprises a limiting ring 310, guide grooves 311, an outer ring body 312 and permanent magnets 313, wherein the limiting ring 310 is integrally arranged at each of two ends of the outer ring body 312, the guide grooves 311 are respectively arranged at two ends of the outer ring body 312, the permanent magnets 313 with circular structures are fixed in the outer ring body 312, the outer ring body 312 is in interference fit with the driven wheel 36, and the guide grooves 311 are in sliding connection with the inner ring 33.

Inner ring 33 is including direction bulge loop 330, interior annular 331, disc 332, bracing piece 333, through-hole 334, the outside of interior annular 331 all is connected with the direction bulge loop 330 of integration, even being equipped with through-hole 334 on the inner wall of interior annular 331, through-hole 334 is the equidistance formula and has laid eight and every and all has built-in disc 332, disc 332's upper and lower left and right ends all is connected with bracing piece 333 perpendicularly, bracing piece 333 is connected with interior annular 331, direction bulge loop 330 carries out sliding connection with guide way 311, disc 332 and interior annular 331 all are connected with knocking group 34, the inner wall of interior annular 331 passes through connecting rod 32 and is connected with ring 35.

The knocking group 34 comprises a hollow insulating cylinder 340, an insulating spring 341, an insulating plate 342, an insulating connecting block 343 and a knocking block 344, wherein the knocking block 344 is arranged in the hollow insulating cylinder 340 and is in clearance fit with the hollow insulating cylinder 340, the inner end of the knocking block 344 is connected with the insulating plate 342 through the insulating connecting block 343, one side of the insulating plate 342, which is far away from the insulating connecting block 343, is connected to one end of the insulating spring 341, the other end of the insulating spring 341 is connected to the disc 332, the hollow insulating cylinder 340 and the through hole 334 are of a concentric circle structure, one end of the hollow insulating cylinder 340 is fixedly connected with the inner wall of the inner ring 331, and the other end of the hollow insulating.

The insulating plate 342 includes a plate body 3420, a permanent magnet ring 3421, and an annular groove 3422, the plate body 3420 is provided with the annular groove 3422 integrated with the plate body 3420, the permanent magnet ring 3421 is embedded in the annular groove 3422, the permanent magnet ring 3421 and the plate body 3420 are concentric circles, one end of the insulating spring 341 away from the disc 332 is connected with the center of the plate body 3420, the plate body 3420 is in clearance fit with the hollow insulating cylinder 340, and one side of the plate body 3420 away from the permanent magnet ring 3421 is connected to the insulating connecting block 343.

The ring 35 includes a first semicircular body 350, a movable opening 351, a buckle 352, a clamping groove 353, and a second semicircular body 354, the buckles 352 are fixed at both ends of the first semicircular body 350, the buckles 352 are connected with the clamping grooves 353 in a buckling manner, the clamping grooves 353 are arranged at both ends of the second semicircular body 354, the second semicircular body 354 and the first semicircular body 350 form a circular structure, the first semicircular body 350 and the second semicircular body 354 are respectively provided with four movable openings 351 having a circular structure, the movable openings 351 are communicated with the hollow insulating cylinder 340, the first semicircular body 350 and the second semicircular body 354 are connected with the inner ring 331 through the connecting rod 32, and the first semicircular body 350 and the second semicircular body 354 are further connected with the hollow insulating cylinder 340.

The outer ring 31 and the inner ring 33 are formed by buckling two ring bodies in a mode of adopting a circular ring 35, and are convenient to install on a high-voltage line.

Driven wheel 36 is connected with drive belt 6 in a transmission manner, and deicing walking power mechanism can indirectly drive outer annular body 311 to rotate under the direction of guide slot 311, direction bulge loop 330 is spacing, so that permanent magnet 313 can regularly generate repulsion force to knocking group 34, and knocking group 34 in eight directions of high-voltage line 4 knocks the ice block in proper order, and knocking is more comprehensive, and under the scraping action of scraper 8, the ice block can drop completely.

The depth of the guide groove 311 is half of the thickness of the guide protrusion ring 330, so that a gap is left between the outer ring body 312 and the inner ring body 331, and the permanent magnet 313 is not restricted from rotating with the outer ring body 312.

The permanent magnet 313 and the permanent magnet ring 3421 are homopolar magnets, and based on the magnetic principle, the homopolar magnets repel each other when facing each other, so that the knocking block 344 can indirectly knock the ice blocks on the high-voltage line 4.

The bore of the hollow insulating cylinder 340 is larger than the diameter of the through hole 334 so that the permanent magnet 313 can generate a repulsive force with the permanent magnet ring 3421 through the through hole 334.

Ring and 35 strike piece 344 and all adopt the aluminum alloy material, because the aluminum alloy has good heat conductivity, do benefit to ice-cube and carry out heat exchange around, help melting of ice, in addition strike, can make the ice-cube can be hit the bits of broken glass fast, the density of aluminum alloy is little simultaneously, and intensity is high, has improved when having improved the life who strikes piece 344 and has struck the power of piece 344 to the ice-cube.

The working principle of the invention is as follows: the deicing device 3 is installed on the high-voltage wire 4 in a buckling mode, the deicing walking power mechanism 1 provides power, the rotating shaft 7 drives the driving wheel 5, the driving wheel 5 enables the driven wheel 36 to rotate through the transmission belt 6, so that the outer ring body 312 drives the permanent magnet 313 to rotate under the guiding limit of the guide groove 311 and the guide convex ring 330, when the permanent magnet 313 rotates to the through hole 334, as the permanent magnet 313 and the permanent magnet 3421 are homopolar magnets, based on the magnetic principle, the homopolar magnets repel each other relatively, the permanent magnet 313 generates repulsion force on the permanent magnet 3421 on the corresponding knocking group 34 at the through hole 334 through the through hole 334, so that the permanent magnet 3421 generates thrust force on the knocking block 344 through the insulating connecting block 343 due to the repulsion force, the knocking block 344 strikes the ice blocks extending outwards on the high-voltage wire 4 towards the hollow insulating cylinder 340 and the movable opening 351, when the permanent magnet 313 rotates to be far away from, the insulating spring 341 is stretched to be reset so that the knocking block 344 is reset, the permanent magnet 313 continuously rotates along with the outer ring body 311, and therefore the eight groups of knocking groups 34 of the inner ring 33 sequentially and regularly knock the high-voltage wire 4 in eight directions, knocking is more comprehensive, and under the scraping action of the scraping plate 8, ice blocks can completely fall off.

In summary, the technical progress obtained by the invention compared with the prior art is as follows: can install defroster on the high-voltage line fast, can strike the ice-cube in proper order, strike more comprehensively, under the scraping effect of scraper blade, can make the ice-cube drop completely, make in certain extent, can be applicable to the high-voltage line of the different bores that freeze and different diameters on the high-voltage line, can once only carry out the deicing, application scope is wider, the ring all adopts the aluminum alloy material with the piece of strikeing simultaneously, because the aluminum alloy has good heat conductivity, do benefit to the ice-cube and carry out heat exchange with around, help melting of ice, strike in addition, can make the ice-cube can be hit the bits of broken fast, deicing is efficient.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The deicing machine capable of knocking high-voltage wires in all directions based on the magnetic principle structurally comprises a deicing walking power mechanism (1), connecting rods (2), a deicing device (3), a high-voltage wire (4), a driving wheel (5), a transmission belt (6), a rotating shaft (7) and a scraper (8), wherein the deicing walking power mechanism (1) penetrates through the high-voltage wire (4) and is movably connected with the high-voltage wire (4), one side of the deicing walking power mechanism (1) is connected with the deicing device (3) through the two parallel connecting rods (2), the two connecting rods (2) are connected with each other through the scraper (8), the scraper (8) and the deicing device (3) are movably connected with the high-voltage wire (4), the driving wheel (5) is arranged under the deicing device (3) and is in transmission connection with the deicing device through the transmission belt (6), and the driving wheel (5) is sleeved on the rotating shaft (7) in interference fit with the driving wheel (5, the rotating shaft (7) is in transmission connection with the deicing walking power mechanism (1) through a shaft coupler, and is characterized in that: the deicing device (3) comprises an outer ring (31), connecting rods (32), an inner ring (33), a knocking group (34), a circular ring (35) and a driven wheel (36), wherein the inner ring (33) is connected with the circular ring (35) through six connecting rods (32), the knocking group (34) is uniformly distributed on the inner wall of the inner ring (33), the knocking group (34) is provided with eight groups in an equidistant mode and forms a circular array, one side, far away from the knocking group (34), of the inner ring (33) is connected with the inner wall of the outer ring (31), the driven wheel (36) is arranged outside the outer ring (31), the inner ring (33) is connected with the deicing walking power mechanism (1), and the circular ring (35) penetrates through the high-voltage wire (4);

the outer ring (31) comprises a limiting ring (310), guide grooves (311), an outer ring body (312) and a permanent magnet (313), wherein the limiting ring (310) is integrally arranged at each of two ends of the outer ring body (312), the guide grooves (311) are formed in each of the two inner ends of the outer ring body (312), the permanent magnet (313) with a circular structure is fixed in the outer ring body (312), the outer ring body (312) is in interference fit with a driven wheel (36), and the guide grooves (311) are in sliding connection with the inner ring (33);

inner ring (33) is including direction bulge loop (330), interior ring (331), disc (332), bracing piece (333), through-hole (334), the outside of interior ring (331) all is connected with direction bulge loop (330) of integration, even being equipped with through-hole (334) on the inner wall of interior ring (331), through-hole (334) are equidistant eight and every all embeds there is disc (332), the upper and lower left and right sides end of disc (332) all is connected with bracing piece (333) perpendicularly, bracing piece (333) are connected with interior ring (331), direction bulge loop (330) and guide way (311) carry out sliding connection, disc (332) and interior ring (331) all with strike group (34) and be connected, the inner wall of interior ring (331) passes through connecting rod (32) and is connected with ring (35).

2. The deicing machine for omni-directional knocking of the high voltage wire based on the magnetic principle as claimed in claim 1, wherein: the knocking group (34) comprises a hollow insulating cylinder (340), an insulating spring (341), an insulating plate (342), an insulating connecting block (343) and a knocking block (344), wherein the hollow insulating cylinder (340) is internally provided with the knocking block (344) which is in clearance fit with the hollow insulating cylinder, the inner end of the knocking block (344) is connected with the insulating plate (342) through the insulating connecting block (343), one side, far away from the insulating connecting block (343), of the insulating plate (342) is connected to one end of the insulating spring (341), the other end of the insulating spring (341) is connected to a disc (332), the hollow insulating cylinder (340) and a through hole (334) are of a concentric circle structure, one end of the hollow insulating cylinder (340) is fixedly connected with the inner wall of an inner ring body (331), and the other end of the hollow insulating cylinder is connected to.

3. The deicing machine for omni-directional knocking of the high voltage wire based on the magnetic principle as claimed in claim 2, wherein: the insulating plate (342) comprises a plate body (3420), a permanent magnet ring (3421) and an annular groove (3422), wherein the annular groove (3422) which is of an integrated structure with the plate body is formed in the plate body (3420), the permanent magnet ring (3421) is embedded in the annular groove (3422), the permanent magnet ring (3421) and the plate body (3420) are concentric circles, one end, far away from the disc (332), of the insulating spring (341) is connected with the center of the plate body (3420), the plate body (3420) is in clearance fit with the hollow insulating cylinder (340), and one face, far away from the permanent magnet ring (3421), of the plate body (3420) is connected with the insulating connecting block (343).

4. The deicing machine for omni-directional knocking of the high voltage wire based on the magnetic principle as claimed in claim 2, wherein: the circular ring (35) comprises a first semicircular body (350), a movable opening (351), a buckle (352), a clamping groove (353) and a second semicircular body (354), both ends of the first semicircle body (350) are fixed with buckles (352), the buckles (352) are buckled and connected with the clamping grooves (353), the clamping grooves (353) are formed at two tail ends of the second semi-circular body (354), the second semi-circular body (354) and the first semi-circular body (350) form a circle structure, the first semicircle body (350) and the second semicircle body (354) are respectively provided with four movable openings (351) with circular structures, the movable opening (351) is communicated with the hollow insulating cylinder (340), the first semicircular body (350) and the second semicircular body (354) are both connected with the inner ring body (331) through the connecting rod (32), the first semicircle body (350) and the second semicircle body (354) are also connected to the hollow insulating cylinder (340).