CN115968664A

CN115968664A - Insulating rod of obstacle clearing sickle

Info

Publication number: CN115968664A
Application number: CN202211605906.7A
Authority: CN
Inventors: 杨光勇; 谢波; 陈小华; 李宝林; 罗建勇; 吴渊豪; 吴春桃; 谢解与; 吴丹阳; 李淑婷; 何家伟; 张贵柳; 潘杰; 王述楠; 王家报; 杨晶晶; 唐勇; 王淮; 岑江桃; 吴明慧
Original assignee: Guizhou Power Grid Co Ltd
Current assignee: Guizhou Power Grid Co Ltd
Priority date: 2022-12-14
Filing date: 2022-12-14
Publication date: 2023-04-18
Anticipated expiration: 2042-12-14
Also published as: CN115968664B

Abstract

The invention discloses a barrier-removing sickle insulating rod which comprises a main body mechanism, a sickle and a sickle, wherein the main body mechanism comprises an insulating rod part and a cutting saw part arranged at the end part of the insulating rod part; the adjusting mechanism is a driving part in transmission connection with the cutting saw part, and a locking part for locking the position of the driving part; wherein, the drive division can drive slitting saw portion upset when removing. Through setting up slitting saw portion and guiding mechanism, when needs used slitting saw portion, with the drive division to keeping away from insulating pole portion and installing slitting saw portion orientation removal, drive slitting saw portion rotates to the second direction, slitting saw portion corotation degree, the saw body extends out from the inboard of U type frame for operating personnel can hand the body of rod operation saw body and cut trees.

Description

Insulating rod of obstacle clearing sickle

Technical Field

The invention relates to the technical field of barrier removal insulating rods, in particular to a barrier removal sickle insulating rod.

Background

In the maintenance and overhaul process of electric power engineering, can often practical insulator spindle, through the operating head on the insulator spindle, can make the operating personnel that the position is than low operate the power equipment of eminence.

In the process of maintenance, the problem that trees shield power equipment is often encountered, so that in the process of maintenance, in order to remove obstacles in the process of power maintenance, an operator is often required to carry the sickle additionally, and the sickle is very inconvenient to carry.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above problems in the prior art that a sickle needs to be carried additionally.

Therefore, the invention aims to provide a barrier sickle insulating rod.

In order to solve the technical problems, the invention provides the following technical scheme: the cutting machine comprises a main body mechanism, a cutting mechanism and a cutting mechanism, wherein the main body mechanism comprises an insulating rod part and a cutting saw part arranged at the end part of the insulating rod part; the adjusting mechanism is a driving part in transmission connection with the cutting saw part, and a locking part for locking the position of the driving part; wherein, the drive division can drive slitting saw portion upset when removing.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the insulating rod part comprises a rod body and a U-shaped frame arranged at the end part of the rod body; the cutting saw part comprises a rotating shaft which is arranged on the inner side of the U-shaped frame and can rotate, a saw seat which is fixedly sleeved on the outer side of the rotating shaft, and a saw body arranged on the saw seat.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the driving part comprises a driving rod, a connecting rod, a driving frame and a driving gear; the driving rod is arranged on the rod body in a sliding manner; the connecting rod is connected with the end part of the driving rod; the driving frame is connected to the connecting rod, the position of the driving frame corresponds to that of the rotating shaft, and a vertical rack is arranged on the inner side of the driving frame; the driving gear is sleeved on the outer side of the rotating shaft and meshed with the vertical rack.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the driving part also comprises an accommodating cabin which is arranged between the connecting rod and the driving rod.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the locking part comprises a locking block fixed on the rod body, a moving block fixed on the driving rod and an elastic pin piece arranged on the moving block; the locking block is provided with a first locking hole and a second locking hole, and the end part of the elastic pin piece can be inserted into the inner side of the first locking hole/the second locking hole.

As a preferred scheme of the insulating rod of the obstacle clearing sickle, the insulating rod comprises: the elastic pin piece comprises a pin body sleeved on the moving block, a pressing ring fixed on the pin body, and a first spring arranged between the pressing ring and the moving block.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the driving frame is provided with an end groove, an operating rod mechanism is arranged in the end groove of the driving frame, and the operating rod mechanism comprises an expansion rod part which can be rotatably arranged on the inner side of the end groove; a pulling part connected with the end of the unfolding rod part; a transmission part arranged on the driving gear; when the driving gear rotates towards the first direction, the transmission part can press the pulling part.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the unfolding rod part comprises an inner shaft fixed on the inner side of the end groove, a swing rod which can be rotatably sleeved on the outer side of the inner shaft, and a lug which is positioned at the end part of the swing rod; the pulling part comprises a sliding block arranged on the inner side of the end groove in a sliding manner, a linkage rod arranged on the sliding block and a connecting pin positioned at the end part of the linkage rod; one end of the connecting pin is rotatably connected with the end part of the linkage rod, and the other end of the connecting pin is rotatably connected with the lug.

As a preferred scheme of the insulating rod of the obstacle clearing sickle, the insulating rod comprises: both sides of the driving frame are provided with penetrating sliding grooves in the end grooves, both sides of the sliding block are provided with side protrusions, and the side protrusions extend to the outer side of the driving frame through the penetrating sliding grooves; the transmission portion is including locating two press bars of drive gear both sides, when drive gear rotates to first direction, two press bars can press two side archs respectively.

As a preferable scheme of the insulation rod of the obstacle clearing sickle, the insulation rod comprises: the pulling part also comprises an elastic part arranged on the inner side of the end groove, the elastic part comprises an upright post positioned on the inner side of the end groove, and the sliding block is sleeved on the outer side of the upright post; the second spring is arranged between the sliding block and the driving frame; and the anti-drop plate is positioned at the end part of the upright post.

The invention has the beneficial effects that: through setting up slitting saw portion and guiding mechanism, when needs use slitting saw portion, with the drive division to keeping away from insulating pole portion and installing slitting saw portion direction removal, drive slitting saw portion rotates to the second direction, slitting saw portion corotation degree, and the saw body extends out from the inboard of U type frame for operating personnel can hand the body of rod operation saw body cutting trees.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a schematic overall structure diagram of the insulating rod of the obstacle clearing sickle of the invention.

Fig. 2 is a structural schematic diagram of the saw body of the barrier-clearing sickle insulating rod in the using state.

Fig. 3 is an exploded view of a locking part structure of the insulating rod of the obstacle clearing sickle.

Fig. 4 is a structural schematic view of the saw body of the barrier-removing sickle insulating rod in a storage state.

Fig. 5 is a schematic structural view of an operating rod mechanism of the insulating rod of the obstacle clearing sickle of the invention.

Fig. 6 is a schematic view of the internal structure of the operating rod mechanism of the insulating rod of the obstacle clearing sickle of the invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying figures of the present invention are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Furthermore, the present invention is described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional view illustrating the structure of the device is not enlarged partially according to the general scale for convenience of illustration, and the drawings are only exemplary and should not be construed as limiting the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Example 1

Referring to fig. 1, there is provided a schematic overall structure of a barrier-removing sickle insulating rod, and as shown in fig. 1, the barrier-removing sickle insulating rod comprises a main body mechanism 100, including an insulating rod part 101, and a cutting saw part 102 arranged at an end of the insulating rod part 101; the adjusting mechanism 200, a driving part 201 in transmission connection with the dicing saw part 102, and a locking part 202 for locking the position of the driving part 201; when the driving portion 201 moves towards the direction in which the cutting saw portion 102 is mounted on the insulating rod portion 101, the driving portion 201 in the adjusting mechanism 200 is used for driving the cutting saw portion 102 to move, when the driving portion 201 moves towards the direction in which the cutting saw portion 102 is mounted on the insulating rod portion 101, the cutting saw portion 102 is pushed to rotate towards the first direction (the first direction of the cutting saw portion 102 is the counterclockwise direction in fig. 4), the cutting saw portion 102 rotates 180 degrees in the reverse direction, so that the cutting blade of the cutting saw portion 102 does not extend out, and the storage state is reached, at this time, the electrical equipment can be subjected to operations such as pulling and braking through the end portion of the insulating rod portion 101, damage to the electrical equipment by the cutting blade portion of the cutting saw portion 102 is avoided, when the cutting saw portion 102 needs to be used, the driving portion 201 moves towards the direction away from the insulating rod portion 101 and the cutting saw portion 102 is mounted on the cutting saw portion 102, the cutting saw portion 102 is driven to rotate towards the second direction (the second direction of the cutting saw portion 102 is the clockwise direction in fig. 4), the cutting saw portion 102 rotates 180 degrees in the forward direction, so that the cutting saw portion 102 can be used, and the cutting saw portion 102 can be kept in the stable state, and the cutting saw portion 102 can be used.

Specifically, the insulating rod 101 includes a rod 101a and a U-shaped frame 101b disposed at an end of the rod 101 a; the cutting saw part 102 comprises a rotating shaft 102a which is arranged on the inner side of the U-shaped frame 101b and can rotate, a saw seat 102b which is fixedly sleeved on the outer side of the rotating shaft 102a, and a saw body 102c which is arranged on the saw seat 102b, when the cutting saw part is in a storage state, the saw body 102c rotates to the inner side of the U-shaped frame 101b to avoid the saw body 102c from contacting with the outside, and when the cutting saw part is in a use state, the saw body 102c extends out of the inner side of the U-shaped frame 101b, so that an operator can hold the rod body 101a to operate the saw body 102c to cut trees.

Further, the driving part 201 includes a driving lever 201a, a connecting lever 201b, a driving frame 201c, and a driving gear 201d; the driving rod 201a is arranged on the rod body 101a in a sliding manner; the connecting rod 201b is connected to the end of the driving rod 201 a; the driving frame 201c is connected to the connecting rod 201b, the position of the driving frame corresponds to that of the rotating shaft 102a, and a vertical rack 201c-1 is arranged on the inner side of the driving frame; the driving gear 201d is sleeved outside the rotating shaft 102a and meshed with the vertical rack 201 c-1.

When the device is switched from the use state to the storage state, the driving rod 201a is pushed, so that the driving rod 201a moves towards the direction of the U-shaped frame 101b, the driving rod 201a drives the driving frame 201c to move forwards through the connecting rod 201b when moving, the driving gear 201d rotates backwards when the driving frame 201c moves forwards, the rotating shaft 102a rotates backwards to drive the saw seat 102b to rotate backwards, the saw seat 102b drives the saw body 102c, the saw body 102c rotates towards the first direction, and the operation mode of converting the storage state into the use state is opposite.

The outside of the rod body 101a is provided with a sleeve ring 101a-1, the driving rod 201a penetrates through the sleeve ring 101a-1, the inside of the sleeve ring 101a-1 is provided with a limiting bulge, the outside of the driving rod 201a is provided with a limiting groove, the limiting bulge extends to the inside of the limiting groove, the sleeve ring 101a-1 can limit the moving direction of the driving rod 201a, and the limiting bulge can prevent the driving rod 201a from rotating.

The operation process is as follows: when the cutting saw part 102 needs to be used, the driving part 201 is moved towards the direction away from the insulating rod part 101 and the cutting saw part 102 is installed, the cutting saw part 102 is driven to rotate towards the second direction, the cutting saw part 102 rotates forwards for 180 degrees, and the saw body 102c extends out of the inner side of the U-shaped frame 101b, so that an operator can hold the rod body 101a to operate the saw body 102c to cut trees.

When the device is switched from a use state to a storage state, the driving rod 201a is pushed, the driving rod 201a is enabled to move towards the direction of the U-shaped frame 101b, the driving rod 201a drives the driving frame 201c to move forwards through the connecting rod 201b when moving, the driving gear 201d rotates backwards when the driving frame 201c moves forwards, the rotating shaft 102a rotates backwards to drive the saw seat 102b to rotate backwards, the saw seat 102b drives the saw body 102c, the saw body 102c rotates towards the first direction, the cutting saw part 102 rotates backwards for 180 degrees, so that the saw blade of the cutting saw part 102 cannot extend out, the storage state is reached, at the moment, the operation such as brake pulling and the like can be carried out on the electrical equipment through the end part of the insulating rod part 101, and the damage to the electrical equipment caused by the saw blade part of the cutting saw part 102 is avoided.

Example 2

Referring to fig. 2 to 4, this embodiment is different from the first embodiment in that: the driving part 201 further comprises an accommodating cabin 201e which is arranged between the connecting rod 201b and the driving rod 201a, in the process that the driving rod 201a is pushed forwards, the saw body 102c is converted into an accommodating state from a using state, meanwhile, the driving rod 201a drives the accommodating cabin 201e to move forwards, and the saw blade part of the rotating saw body 102c enters the inner side of the accommodating cabin 201e, so that the saw blade of the saw body 102c is not exposed outside, and the problem of accidental injury caused by the fact that the saw blade contacts a user or others in the carrying process is avoided.

Specifically, the locking portion 202 includes a locking block 202a fixed on the rod body 101a, a moving block 202b fixed on the driving rod 201a, and a resilient pin 202c provided on the moving block 202 b; the locking block 202a is provided with a first locking hole 202a-1 and a second locking hole 202a-2, the end of the elastic pin member 202c can be inserted into the first locking hole 202 a-1/the inner side of the second locking hole 202a-2, in the process of pushing forward or pulling backward the driving rod 201a, the moving block 202b moves along the locking block 202a, when the driving rod 201a pushes forward to make the saw body 102c rotate reversely to reach the storage state, the position of the elastic pin member 202c corresponds to the position of the first locking hole 202a-1, at this time, the elastic pin member 202c enters the inner side of the first locking hole 202a-1, the position of the moving block 202b is locked to make the saw body 102c keep the storage state, when the driving rod 201a pulls backward to make the saw body 102c reach the use state, at this time, the position of the elastic pin member 202c corresponds to the position of the second locking hole 202a-2, the elastic pin member 202c enters the inner side of the second locking hole 202a-2, and the position of the moving block 202b is locked to make the saw body 102c keep the use state.

Further, the elastic pin 202c includes a pin body 202c-1 sleeved on the moving block 202b, a pressing ring 202c-2 fixed on the pin body 202c-1, and a first spring 202c-3 disposed between the pressing ring 202c-2 and the moving block 202 b.

Wherein, the end of the pin 202c-1 far away from the locking block 202a is provided with a handle 202c-4, during the process of pulling or pushing the driving rod 201a backward, the handle 202c-4 pulls the pin 202c-1 far away from the locking block 202a, so that the pin 202c-1 compresses the first spring 202c-3, when the position of the pin 202c-1 corresponds to the position of the first locking hole 202a-1 or the second locking hole 202a-2, the handle 202c-4 is released, and the pin 202c-1 enters the inner side of the first locking hole 202a-1 or the second locking hole 202a-2 under the pushing force of the first spring 202c-3.

The rest of the structure was the same as in example 1.

The operation process is as follows: in the process of pushing the driving rod 201a forwards or pulling the driving rod 201a backwards, the moving block 202b moves along the locking block 202a, when the driving rod 201a pushes forwards to enable the saw body 102c to rotate reversely to reach the storage state, the position of the elastic pin 202c corresponds to the position of the first locking hole 202a-1, at this time, the elastic pin 202c enters the inner side of the first locking hole 202a-1, the position of the moving block 202b is locked, so that the saw body 102c keeps the storage state, when the driving rod 201a pulls backwards to enable the saw body 102c to rotate forwards to reach the use state, at this time, the position of the elastic pin 202c corresponds to the position of the second locking hole 202a-2, the elastic pin 202c enters the inner side of the second locking hole 202a-2, and the position of the moving block 202b is locked, so that the saw body 102c keeps the use state.

Example 3

Referring to fig. 4 to 6, this embodiment is different from the above embodiment in that: the driving frame 201c is provided with an end slot 201c-2, the driving frame 201c is provided with an operating rod mechanism 300 in the end slot 201c-2, and the operating rod mechanism 300 comprises an unfolding rod part 301 which is rotatably arranged at the inner side of the end slot 201 c-2; a pulling portion 302 connected to an end of the deployment rod portion 301; a transmission unit 303 provided on the drive gear 201d; when the driving gear 201d rotates in the first direction, the transmission part 303 can press the pulling part 302, the driving rod 201a pushes forward, the driving gear 201d rotates in the first direction, the saw body 102c is accommodated inside the U-shaped frame 101b, the driving frame 201c extends to the front end of the insulating rod 101, the driving gear 201d drives the transmission part 303 to press the pulling part 302, the pulling part 302 pulls one end of the unfolding rod 301, the unfolding rod 301 rotates out of the inner side of the end slot 201c-2, so that the unfolding rod 301 and the driving frame 201c form an L-shaped hook structure, and the unfolding rod 301 is convenient to be used for carrying out brake pulling operation on the electrical equipment.

Specifically, the unfolding rod part 301 comprises an inner shaft 301a fixed to the inner side of the end slot 201c-2, a swing rod 301d rotatably sleeved on the outer side of the inner shaft 301a, and a bump 301c positioned at the end part of the swing rod 301 d;

the pulling part 302 comprises a sliding block 302a arranged inside the end slot 201c-2 in a sliding manner, a linkage rod 302b arranged on the sliding block 302a, and a connecting pin 302c positioned at the end part of the linkage rod 302 b; one end of the connecting pin 302c is rotatably connected with the end of the linkage rod 302b, and the other end is rotatably connected with the projection 301 c.

When the transmission part 303 presses the pulling part 302, the pulling part 302 pulls in a direction away from the protrusion 301c to drive the linkage rod 302b and the connecting pin 302c to pull the protrusion 301c, so that the protrusion 301c drives the swing rod 301d to rotate forward (clockwise rotation direction in fig. 5), the swing rod 301d rotates out from the inner side of the end slot 201c-2, and when the saw body 102c reaches the storage state, the swing rod 301d rotates 90 degrees to form an L-shaped hook structure with the driving frame 201 c.

Furthermore, both sides of the driving frame 201c are provided with penetrating sliding grooves 201c-3 at the end grooves 201c-2, both sides of the sliding block 302a are provided with side protrusions 302a-1, and the side protrusions 302a-1 extend to the outer side of the driving frame 201c through the penetrating sliding grooves 201 c-3; the transmission part 303 includes two pressing levers 303a provided at both sides of the driving gear 201d, and when the driving gear 201d rotates in the first direction, the two pressing levers 303a can press the two side protrusions 302a-1, respectively.

When the driving frame 201c is pushed forward, the driving frame 201c drives the driving gear 201d to rotate in the first direction, the driving gear 201d drives the two pressing rods 303a to simultaneously press the two side protrusions 302a-1, and the two side protrusions 302a-1 drive the sliding block 302a to move away from the protrusion 301 c.

Further, the pulling portion 302 further includes an elastic member 302d disposed inside the end slot 201c-2, which includes a vertical post 302d-1 located inside the end slot 201c-2, and a sliding block 302a sleeved outside the vertical post 302 d-1; a second spring 302d-2 provided between the slide block 302a and the drive frame 201 c; and the anti-disengaging plate 302d-3 is positioned at the end part of the upright 302d-1, when the sliding block 302a moves away from the lug 301c, the sliding block 302a moves along the upright 302d-1 and presses the second spring 302d-2, and when the pressure of the pressing rod 303a on the side protrusion 302a-1 disappears, the elastic force of the second spring 302d-2 can push the sliding block 302a to reset.

The rest of the structure was the same as in example 2.

The operation process is as follows: the driving gear 201d is pushed forward at the driving rod 201a, the driving gear 201d rotates in the first direction, the saw body 102c is accommodated inside the U-shaped frame 101b, at this time, the driving frame 201c extends to the front end of the insulating rod 101, the driving gear 201d drives the transmission part 303 to press the pulling part 302, the pulling part 302 pulls one end of the unfolding rod part 301, and the unfolding rod part 301 rotates out of the inner side of the end groove 201c-2, so that the unfolding rod part 301 and the driving frame 201c form an L-shaped hook-shaped structure, and the unfolding rod part 301 is convenient to use for carrying out the pulling operation on the electrical equipment.

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims

1. The utility model provides a clear up barrier hook insulator spindle which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the cutting machine comprises a main body mechanism (100) and a cutting saw part (102), wherein the main body mechanism comprises an insulating rod part (101) and the cutting saw part is arranged at the end part of the insulating rod part (101); and the number of the first and second groups,

the cutting saw comprises an adjusting mechanism (200), a driving part (201) in transmission connection with the cutting saw part (102), and a locking part (202) for locking the position of the driving part (201);

wherein, the driving part (201) can drive the cutting saw part (102) to turn over when moving.

2. A obstacle clearing sickle insulating bar according to claim 1 characterized in that: the insulating rod part (101) comprises a rod body (101 a) and a U-shaped frame (101 b) arranged at the end part of the rod body (101 a);

the cutting saw part (102) comprises a rotating shaft (102 a) which is arranged on the inner side of the U-shaped frame (101 b) and can rotate, a saw seat (102 b) which is fixedly sleeved on the outer side of the rotating shaft (102 a), and a saw body (102 c) which is arranged on the saw seat (102 b).

3. A obstacle clearing sickle insulating bar according to claim 2 wherein: the driving part (201) comprises a driving rod (201 a), a connecting rod (201 b), a driving frame (201 c) and a driving gear (201 d);

the driving rod (201 a) is arranged on the rod body (101 a) in a sliding manner;

the connecting rod (201 b) is connected with the end part of the driving rod (201 a);

the driving frame (201 c) is connected to the connecting rod (201 b), the position of the driving frame corresponds to that of the rotating shaft (102 a), and a vertical rack (201 c-1) is arranged on the inner side of the driving frame;

the driving gear (201 d) is sleeved on the outer side of the rotating shaft (102 a) and is meshed with the vertical rack (201 c-1).

4. The barrier removing sickle insulating rod according to claim 3, characterized in that: the driving part (201) further comprises an accommodating cabin (201 e) which is arranged between the connecting rod (201 b) and the driving rod (201 a).

5. A obstacle clearing sickle insulating bar according to claim 3 or 4 characterized in that: the locking part (202) comprises a locking block (202 a) fixed on a rod body (101 a), a moving block (202 b) fixed on the driving rod (201 a), and an elastic pin piece (202 c) arranged on the moving block (202 b);

the locking block (202 a) is provided with a first locking hole (202 a-1) and a second locking hole (202 a-2), and the end part of the elastic pin piece (202 c) can be inserted into the inner sides of the first locking hole (202 a-1)/the second locking hole (202 a-2).

6. A obstacle clearing sickle insulating bar according to claim 5 wherein: the elastic pin piece (202 c) comprises a pin body (202 c-1) sleeved on the moving block (202 b), a pressing ring (202 c-2) fixed on the pin body (202 c-1), and a first spring (202 c-3) arranged between the pressing ring (202 c-2) and the moving block (202 b).

7. A obstacle clearing sickle insulating bar according to claim 3 or 4 or 6 wherein: an end groove (201 c-2) is formed in the driving frame (201 c), an operating rod mechanism (300) is arranged in the end groove (201 c-2) of the driving frame (201 c), the operating rod mechanism (300) comprises,

a spreading lever part (301) which is rotatably arranged at the inner side of the end groove (201 c-2);

a pulling part (302) connected to an end of the spreading lever part (301);

a transmission unit (303) provided on the drive gear (201 d);

wherein, when the driving gear (201 d) rotates towards the first direction, the transmission part (303) can press the pulling part (302).

8. A obstacle clearing sickle insulating bar according to claim 7 wherein: the unfolding rod part (301) comprises an inner shaft (301 a) fixed to the inner side of the end groove (201 c-2), a swing rod (301 d) capable of being rotatably sleeved on the outer side of the inner shaft (301 a), and a lug (301 c) located at the end part of the swing rod (301 d);

the pulling part (302) comprises a sliding block (302 a) arranged on the inner side of the end groove (201 c-2) in a sliding mode, a linkage rod (302 b) arranged on the sliding block (302 a), and a connecting pin (302 c) located at the end part of the linkage rod (302 b);

one end of the connecting pin (302 c) is rotatably connected with the end part of the linkage rod (302 b), and the other end of the connecting pin is rotatably connected with the lug (301 c).

9. A obstacle clearing sickle insulating bar according to claim 8 wherein: both sides of the driving frame (201 c) are provided with penetrating sliding grooves (201 c-3) in the end grooves (201 c-2), both sides of the sliding block (302 a) are provided with side protrusions (302 a-1), and the side protrusions (302 a-1) extend to the outer side of the driving frame (201 c) through the penetrating sliding grooves (201 c-3);

the transmission part (303) comprises two pressing rods (303 a) arranged at two sides of a driving gear (201 d), and when the driving gear (201 d) rotates towards a first direction, the two pressing rods (303 a) can respectively press two side bulges (302 a-1).

10. A obstacle clearing sickle insulating bar according to claim 9 wherein: the pulling part (302) also comprises an elastic part (302 d) arranged at the inner side of the end slot (201 c-2) and comprises,

the upright post (302 d-1) is positioned on the inner side of the end groove (201 c-2), and the sliding block (302 a) is sleeved on the outer side of the upright post (302 d-1);

a second spring (302 d-2) provided between the slide block (302 a) and the drive frame (201 c);

and the anti-drop plate (302 d-3) is positioned at the end part of the upright post (302 d-1).