CN114583614A

CN114583614A - Tree obstacle cleaning device

Info

Publication number: CN114583614A
Application number: CN202210213168.5A
Authority: CN
Inventors: 魏远航; 张万青
Original assignee: Guangdong Crownpower Electric Power Science And Technology Development Co ltd; Guangdong Power Fly Air Technology Development Co ltd
Current assignee: Guangdong Crownpower Electric Power Science And Technology Development Co ltd
Priority date: 2020-07-07
Filing date: 2020-07-07
Publication date: 2022-06-03
Anticipated expiration: 2040-07-07
Also published as: CN111900662A; CN114583614B; CN111900662B

Abstract

The invention discloses a tree obstacle cleaning device which comprises a rack, and a traveling mechanism, a hoisting mechanism, a cutting mechanism and a power supply control mechanism which are arranged on the rack, wherein the hoisting mechanism is arranged on the rack; the power supply control mechanism is electrically connected with the travelling mechanism, the hoisting mechanism and the cutting mechanism respectively; each cutting mechanism comprises an underframe arranged on the rack, a swing frame arranged on the underframe in a turnover manner, a turnover driving device used for driving the swing frame to turn over and swing, an installation seat arranged on the swing frame, an electric saw fixedly arranged on the installation seat, and a rotation driving device used for driving the installation seat and the electric saw to rotate. The cutting mechanism in the tree obstacle cleaning device provided by the invention can switch between the horizontal cutting mode and the vertical cutting mode according to the actual growth direction of the tree obstacle, so that the tree obstacle below a cable in the horizontal direction and the tree obstacle in the vertical direction can be cleaned, the cleaning effect is greatly improved, and the cleaning range is expanded.

Description

Tree obstacle cleaning device

The application is a divisional application of patent applications with the patent application number of '202010647123. X', the application date of '7.7/2020', and the name of 'a tree obstacle cleaning robot'.

Technical Field

The invention relates to the field of power system maintenance, in particular to a tree obstacle cleaning device.

Background

With the expansion of the scale of an electric power system and the improvement of the voltage grade, the safe, reliable and economic operation of a power transmission line becomes more important, and tree obstacle pruning is one of the most effective means for preventing tree obstacle accidents. Because the manual trimming has the problems of missing trimming, less trimming, long operation time consumption, high labor intensity, electric shock risk of personnel and the like, in order to improve the tree obstacle cleaning efficiency, the automatic intelligent cleaning of the tree obstacle is realized by adopting the tree obstacle cleaning device at present.

The invention patent with the prior publication number of CN110867773A discloses a device for removing tree obstacles in a high-voltage wire-row in an electrified way, wherein a cutting device in the device comprises a mounting seat, an electric saw fixedly arranged on the mounting seat and a rotating motor for driving the electric saw to rotate in the horizontal direction; in addition, the device can not prune some superelevation obstacles, often needs the manual work to adopt the averruncator to mend and cut, and the averruncator has following not enough in the use: 1. the high branch scissors are not insulated, so that trees which do not meet the safety distance and are protected by high-voltage live facilities cannot be pruned, and the use range is limited; 2. the common high branch scissors have a single scissor head direction, good pruning effect on horizontal branches and poor pruning effect on vertical branches, are time-consuming to operate and are easy to break the scissor heads; 3. the common high branch scissors are provided with the pulley block labor-saving device, so that the problem that a cutter head is blocked easily occurs in the pruning process, and the operation cannot be continued; 4. the cutter head of the common high branch scissors is fixed, and only thinner branches can be pruned. Therefore, the high branch scissors have more defects in the using process, so that the high branch scissors are greatly limited in the using process, and the working efficiency is influenced.

It is seen that improvements and enhancements to the prior art are needed.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a tree obstacle cleaning device, which can effectively cut off tree obstacles which grow horizontally and vertically near a cable, expand the tree obstacle cleaning range and improve the tree obstacle cleaning effect.

In order to achieve the purpose, the invention adopts the following technical scheme:

a tree obstacle cleaning device comprises a rack, and a traveling mechanism, a hoisting mechanism, a cutting mechanism and a power supply control mechanism which are arranged on the rack; the power supply control mechanism is electrically connected with the travelling mechanism, the hoisting mechanism and the cutting mechanism respectively; the two groups of cutting mechanisms are respectively arranged at the left side and the right side of the travelling mechanism; each cutting mechanism comprises an underframe arranged on the rack, a swing frame arranged on the underframe in a turnover manner, a turnover driving device used for driving the swing frame to turn over and swing, an installation seat arranged on the swing frame, an electric saw fixedly arranged on the installation seat, and a rotation driving device used for driving the installation seat and the electric saw to rotate.

The support comprises a bottom plate and two bearing seats oppositely arranged on the bottom plate, the mounting seat is arranged between the two bearing seats, and each bearing seat is connected with the mounting seat through a connecting shaft.

The swing driving device is a first electric push rod, the electric saw is provided with a guide plate, and the end part of the push rod of the first electric push rod is hinged with the bottom of the guide plate; the end part of the shell of the first electric push rod is hinged with the bottom plate.

The rotation driving device comprises a rotating motor fixedly arranged on the swing frame, a bearing seat arranged on the swing frame and a rotating shaft arranged in the bearing seat, and one end of the rotating shaft is in transmission connection with the output end of the rotating motor; the other end of the rotating shaft is fixedly connected with the bottom plate through a shaft sleeve.

The bottom of bottom plate is equipped with a plurality of downwardly extending's projection, be provided with the backup pad on the rocker, set up the stopper in the backup pad, the stopper is used for preventing the projection to continue to rotate.

The overturning driving device is a second electric push rod, and the end part of the push rod of the second electric push rod is hinged with the swing frame; the end part of the shell of the second electric push rod is hinged with the underframe.

The rack comprises an upper rack and a lower rack, and the upper rack and the lower rack are in insulated connection; the power supply control mechanism comprises an upper electric control box and a lower electric control box, the upper electric control box is electrically connected with the travelling mechanism and the hoisting mechanism, and the lower electric control box is electrically connected with the cutting mechanism; the upper electric control box, the travelling mechanism and the hoisting mechanism are arranged on the upper rack, the lower electric control box is arranged on the lower rack, and the two cutting mechanisms are respectively arranged on the left side and the right side of the lower rack.

The walking mechanism comprises a wire walking wheel, a walking bracket, a walking motor and a swinging cylinder; the walking motor is arranged on the walking bracket, and the wire travelling wheel is arranged on one side of the upper end of the walking bracket and is connected with the output end of the walking motor; the lower end of the walking support is hinged with the upper frame, the other side of the upper end of the walking support is connected with the output end of the swing cylinder, and the lower end of the swing cylinder is hinged with the upper frame.

The hoisting mechanism comprises two suspension wheels symmetrically arranged at the top of the upper rack and a hoisting motor arranged corresponding to each suspension wheel; the hoisting motor is used for driving the corresponding suspension wheel to rotate, the suspension wheel is used for winding and unwinding a hanging strip, and the hanging strip is used for hanging the rack on a cable.

Has the beneficial effects that:

the tree obstacle cleaning device provided by the invention replaces manual work to use the tree shears to clean the tree obstacles, so that the tree obstacles with different heights and directions can be cleaned well, the tree obstacle cleaning device can work normally under the condition that the cable is electrified, and the economic loss caused by the power failure of the cable and the reliability of resident power supply are avoided; therefore, the problems of low efficiency and high operation risk (such as electric shock risk) of the traditional manual trimming are solved. Compared with the existing tree obstacle cleaning device, the tree obstacle cleaning device provided by the invention has the advantages that the left side and the right side of the cable are respectively provided with the cutting mechanisms, and each cutting mechanism is responsible for cleaning the tree obstacle near one side of the cable, so that the tree obstacle near the whole cable can be better cleaned, and the situations of missing shearing and less shearing are reduced; and moreover, the cutting mechanism can switch between a horizontal cutting mode and a vertical cutting mode according to the growth direction of the actual tree barrier, so that the tree barrier below the cable in the horizontal direction and the tree barrier in the vertical direction can be cleaned, the cleaning effect is greatly improved, the cleaning range is enlarged, and the potential safety hazard caused by the contact of high-altitude branches with the cable is better eliminated.

Drawings

Fig. 1 is a perspective view of the tree obstacle clearing device provided by the invention.

Fig. 2 is a schematic structural diagram of a cutting mechanism in a vertical cutting mode in the tree obstacle clearing device provided by the invention.

Fig. 3 is a schematic structural diagram 1 of a cutting mechanism in a horizontal cutting mode in the tree obstacle clearing device provided by the invention.

Fig. 4 is a schematic structural diagram 2 of a cutting mechanism in a horizontal cutting mode in the tree obstacle clearing device provided by the invention.

Fig. 5 is a perspective view of a traveling mechanism and a winding mechanism in the tree obstacle clearing device provided by the invention.

Description of the main element symbols: 100-machine frame, 110-upper machine frame, 120-lower machine frame, 400-cutting mechanism, 410-bottom frame, 420-swing frame, 430-turnover driving device, 440-mounting seat, 450-electric saw, 451-guide plate, 460-rotation driving device, 470-support, 471-bottom plate, 472-bearing seat, 473-connecting shaft, 452-spacing bar, 461-rotating motor, 462-bearing seat, 463-rotating shaft, 481-convex column, 482-supporting plate, 483-spacing block, 490-swing driving device, 300-traveling mechanism, 310-traveling wheel, 320-traveling bracket, 330-traveling motor, 340-swing cylinder, 500-winding mechanism, 510-suspension wheel, 520-winding motor, 400-cutting mechanism, 600-wire hanging rack.

Detailed Description

The invention provides a tree obstacle clearing device, which is further described in detail below by referring to the attached drawings and embodiments in order to make the purpose, technical scheme and effect of the invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the scope of the invention.

Referring to fig. 1 to 5, the present invention provides a tree obstacle clearing device, which includes a frame 100, and a traveling mechanism 300, a winding mechanism 500, a cutting mechanism 400, and a power supply control mechanism, which are disposed on the frame 100; the power supply control mechanism is respectively electrically connected with the travelling mechanism 300, the hoisting mechanism 500 and the cutting mechanism 400; the two groups of cutting mechanisms 400 are arranged, and the two groups of cutting mechanisms 400 are respectively and symmetrically arranged at the left side and the right side of the travelling mechanism 300; each of the cutting mechanisms 400 includes a base frame 410 disposed on the frame, a swing frame 420 rotatably disposed on the base frame 410, a turning driving device 430 for driving the swing frame 420 to turn, a mounting seat 440 disposed on the swing frame 420, an electric saw 450 fixedly disposed on the mounting seat 440, and a rotation driving device 460 for driving the mounting seat 440 and the electric saw 450 to rotate. Here, the swing frame 420 is connected to the base frame 410 through the hinge seat 411, the electric saw 450 is detachably mounted on the mounting seat 440, the electric saw 450 is a conventional art and is commercially available, and the working principle thereof will not be described herein.

In practical application, the tree obstacle clearing device provided by the invention replaces manual work to clear the tree obstacles by using the tree shears, so that the tree obstacles with different heights and azimuths can be better cleared, the tree obstacle clearing device can normally work under the condition that the cable is electrified, and the economic loss caused by the power failure of the cable and the reliability of power supply of residents are avoided; therefore, the problems of low efficiency and high operation risk (such as electric shock risk) of the traditional manual trimming are solved.

When the tree obstacle cleaning device works, the through mechanism 500 retracts a hanging belt (not shown in the figure) to lift on the cable 700, and when the tree obstacle cleaning device is lifted to the cable, the tree obstacle cleaning device walks along the cable 700 through the walking mechanism 300. During walking, the electric saw 450 clears the obstacles of trees near the cable. Compared with the existing cutting mechanism 400, the cutting mechanism 400 provided by the invention has two cutting modes, namely a horizontal cutting mode and a vertical cutting mode; see fig. 3 and 4, horizontal resection mode: the swing frame 420 is in a horizontal state (the swing frame 420 is parallel to the bottom frame 410), so that the electric saw 450 is also in a flat state, the tree obstacle cleaning device enables the electric saw 450 to transversely move in the walking process, the electric saw 450 easily saws vertically growing branches, the electric saw 450 on the mounting seat 440 can be controlled by the rotating motor 461 to rotate, tree obstacles in different directions can be cleaned, and the cleaning range is wide. See fig. 2, vertical resection mode: the turnover driving device 430 drives the swing frame 420 to turn and swing, so that the swing frame 420 is perpendicular to the bottom frame 410; the electric saw 450 is in a standing state, the electric saw 450 moves transversely in the walking process of the tree obstacle cleaning device, the electric saw 450 easily saws transversely growing branches, and the rotating motor 461 can control the electric saw 450 on the mounting seat 440 to rotate, so that tree obstacles at different heights can be cleaned; and because the electric saw is raised by the swing frame after the electric saw is erected, a better pruning effect can be achieved for some super-high branches, and the branches do not need to be pruned by manually adopting high branch scissors additionally.

Compared with the existing tree obstacle cleaning device, the tree obstacle cleaning device has the advantages that the left side and the right side of the cable are respectively provided with the cutting mechanisms 400, each cutting mechanism 400 is responsible for cleaning the tree obstacle near one side of the cable, the tree obstacles near the whole cable can be better cleaned, and the situations of missing shearing and less shearing are reduced; in addition, the cutting mechanism 400 can switch between two modes according to the growth direction of the actual tree barrier, so that the tree barrier below the cable in the horizontal direction and the tree barrier in the vertical direction can be cleaned, the cleaning effect is greatly improved, the cleaning range is enlarged, and potential safety hazards caused by the fact that high-altitude branches touch the cable are better eliminated.

Specifically, the mounting seat 440 is connected to a rotation driving device 460 through a support 470, the mounting seat 440 can swing relative to the support 470, and a swing driving device 490 for driving the mounting seat 440 and the electric saw 450 to swing is disposed on the support 470. When the electric saw 450 is used for trimming tree obstacles, the swing driving device 490 drives the electric saw 450 to swing around the connection position of the mounting seat 440 and the support 470, and the trimming range is increased.

By the arrangement, in the horizontal type cutting mode, the extending end of the guide plate 451 of the electric saw 450 is not fixed to be lower than the whole tree obstacle cleaning device, the swing angle of the motor can be adjusted in time according to the field tree obstacle production condition, and a plurality of cut tree obstacles higher than the mounting seat 440 are cut; when the fence 451 of the electric saw 450 swings parallel to the horizontal plane, the electric saw 450 reaches a maximum lateral trimming length; it should be noted that, in general, as shown in fig. 4, the extending end of the guide plate 451 of the electric saw 450 is lower than the whole obstacle clearing device, and the clearing range extends downward, so as to avoid the obstacle with insufficient trimming degree from colliding with the bottom of the obstacle clearing device during the traveling process, and affecting the normal operation of the obstacle clearing device.

In the vertical cutting mode, the extension end of the guide plate 451 of the electric saw 450 can be arranged upwards, and the swing driving device 490 can drive the extension end of the electric saw 450 to turn downwards, so that the electric saw 450 can clean tree obstacles within a certain height range, the cutting range is very wide, and the tree obstacles in the vertical direction can be better cleaned. Of course, the swing drive 490 may lay the fence 451 of the saw 450 flat so that the saw 450 is trimmed horizontally at the current height, further increasing the trimming margin.

Specifically, as shown in fig. 3, the support 470 includes a bottom plate 471 and two receiving seats 472 oppositely disposed on the bottom plate 471, the mounting seat 440 is disposed between the two receiving seats 472, and each receiving seat 472 is connected to the mounting seat 440 through a connecting shaft 473. By the arrangement, the mounting seat 440 can swing smoothly relative to the support 470 and the connection is reliable.

Further, the swing driving device 490 is a first electric push rod, the electric saw 450 has a guide plate 451, and the push rod end of the first electric push rod is hinged with the bottom of the guide plate 451; the end of the housing of the first electric push rod is hinged to the bottom plate 471. The first electric push rod is driven by electric energy, so that the electric saw 450 can be precisely driven to swing to a proper position.

Further, when the electric saw 450 is in contact with the tree branches during obstacle clearing, the tree branches swing, and the electric saw 450 is difficult to keep continuous contact with the tree branches, so that the cleaning is not facilitated. In some embodiments, the guide plate 451 is provided with a plurality of limit strips 452 at equal intervals, and the limit strips 452 are transversely arranged and perpendicular to the guide plate 451. Through the arrangement, the swing amplitude of the tree branches is limited between the two limiting strips 452, the effective contact between the electric saw 450 and the tree branches is increased, and the cleaning efficiency is improved.

Preferably, the two ends of the limiting strips 452 are pointed ends, so that the tree branches can be guided between the two limiting strips 452 conveniently.

Specifically, the rotation driving device 460 includes a rotating motor 461 fixedly disposed on the swing frame 420, a bearing seat 462 disposed on the swing frame 420, and a rotating shaft 463 disposed in the bearing seat 462, wherein one end of the rotating shaft 463 is in transmission connection with an output end of the rotating motor 461; the other end of the rotating shaft 463 is fixedly connected with the bottom plate 471 through a shaft sleeve. The rotating motor 461 controls the electric saw 450 on the mounting seat 440 to rotate, so that the tree obstacles in a certain working range can be cleaned. In addition, the bearing seat 462 and the rotation shaft 463 serve to support the holder 470, the mount 440, and the electric saw 450, so that the mount 440 has a sufficient space to swing without interfering with the swing frame 420.

Specifically, as shown in fig. 2 and fig. 3, the bottom of the bottom plate 471 is provided with a plurality of downwardly extending protruding columns 481, the swing frame 420 is provided with a supporting plate 482 and a limiting block 483 arranged on the supporting plate 482, and the limiting block 483 is used for preventing the protruding columns 481 from continuously rotating. In this embodiment, two protruding columns 481 are provided, and the two protruding columns 481 and the limiting block 483 cooperate to limit the rotation range of the electric saw 450 to 0 ° to 180 °, so as to prevent the electric saw 450 from rotating too much and interfering with other components. Preferably, the support plate 482 is provided with a proximity switch 484 for detecting the swing range of the power saw 450, allowing a user to better determine the position of the power saw 450.

Preferably, the overturning driving device 430 is a second electric push rod, and the end of the second electric push rod is hinged with the swing frame 420; the end of the housing of the second power push rod is hinged to the chassis 410. The second electric push rod is driven by electric energy, so that the swing frame 420 can be precisely driven to be overturned to a position perpendicular to the bottom frame 410.

As an embodiment, as shown in fig. 2, the swing frame 420 includes a first supporting beam 421, a second supporting beam 422 parallel to the first supporting beam, and a first connecting beam 423 connecting the first supporting beam 421 and the second supporting beam 422, and the first supporting beam 421, the first connecting beam 423, and the second supporting beam 422 are sequentially connected to form a zigzag shape of the swing frame 420; the second support beam 422 is hinged to the bottom frame 410, a second connecting beam 424 perpendicular to the second support beam 422 is arranged on the second support beam 422, and an output end of the turnover driving device 430 is hinged to the second connecting beam 424. Through such arrangement, the swing frame 420 has a reasonable structure and light overall weight, and can be well lifted by the hoisting mechanism 500. Here, the bottom frame 410 and the swing frame 420 are made of aluminum profiles, so that the structural strength is good, and the overall weight is further reduced.

Specifically, in the present embodiment, the rack 100 includes an upper rack 110 and a lower rack 120, and the upper rack 110 and the lower rack 120 are connected in an insulating manner; the power supply control mechanism comprises an upper electric cabinet (not shown in the figure) and a lower electric cabinet 610, the upper electric cabinet is electrically connected with the travelling mechanism 300 and the hoisting mechanism 500, and the lower electric cabinet 610 is electrically connected with the cutting mechanism 400; the upper electric cabinet, the traveling mechanism 300 and the winding mechanism 500 are arranged on the upper frame 110, the lower electric cabinet is arranged on the lower frame 120, and the two cutting mechanisms 400 are respectively arranged on the left side and the right side of the lower frame 120. By insulating and isolating the upper frame 110 and the lower frame 120 and supplying power to the travelling mechanism 300 and the hoisting mechanism 500 separately from the cutting mechanism 400, the travelling mechanism 300 and the hoisting mechanism 500 which are in contact with the cable are prevented from influencing the normal operation of the cutting mechanism 400 due to surface electrification, and the normal operation of the cutting mechanism 400 is ensured.

Specifically, in the present embodiment, the upper frame 110 and the lower frame 120 are provided with fixing seats 140, the fixing seats 140 correspond to each other up and down, and are connected to each other through insulating columns 130, and the insulating columns are made of insulating materials. In order to improve the structural strength and the stability of the rack, three insulating columns 130 are arranged, one insulating column 130 is vertically arranged and located right below the cable, and the other two insulating columns are obliquely and symmetrically arranged to form a triangular frame shape, so that the safety distance between the winding mechanism 500 and the walking mechanism 300 on the upper rack 110 and the cutting mechanism 400 is ensured to be more than 0.7 m. The connection between the upper frame 110 and the lower frame 120 is not limited to the above connection, and may be connected by other insulating materials or connectors.

It should be noted that, a control board and a storage battery are respectively arranged in the upper electric cabinet and the lower electric cabinet 610, wherein the control board can be controlled by a PLC or a single chip microcomputer, and the type of the single chip microcomputer is preferably SIM32 series.

In some embodiments, the traveling mechanism 300 includes a traveling wheel 310, a traveling bracket 320, a traveling motor 330, and a swing cylinder 340; the traveling motor 330 is arranged on the traveling bracket 320, and the traveling wheel 310 is arranged on one side of the upper end of the traveling bracket 320 and connected with the output end of the traveling motor 330; the lower end of the walking bracket 320 is hinged with the upper frame 110, the other side of the upper end of the walking bracket 320 is connected with the output end of the swing cylinder 340, and the lower end of the swing cylinder 340 is hinged with the upper frame 110. Through the arrangement, the travelling mechanism 300 is in an open state under normal conditions, when the winding mechanism 500 is lifted to a position where the travelling mechanism 300 is higher than the cable, the swinging cylinder 340 works to control the travelling support 320 to swing inwards, so that the routing wheel 310 is positioned right above the cable, finally, the winding mechanism 500 controls the device to descend, and the routing wheel 310 falls on the cable, so that the device can travel on the cable.

Preferably, in practical application, a plurality of walking mechanisms 300 can be arranged to provide sufficient driving force for the device or keep the device balanced; in the present embodiment, one traveling mechanism 300 is provided on each of the front and rear sides of the upper frame 110.

Preferably, the hoisting mechanism 500 includes two suspension wheels 510 symmetrically disposed on the top of the upper frame 110, and a hoisting motor 520 disposed corresponding to each suspension wheel 510; the winding motor 520 is used for driving the corresponding suspension wheel 510 to rotate, the suspension wheel 510 is used for winding and unwinding a sling (not shown) which is used for suspending the rack 100 on the cable 700. The two suspension wheels 510 are wound with the two ends of the suspension belt, which may be made of a relatively tough material, such as a woven belt, and the suspension belt with a corresponding strength may be selected for use according to weighing requirements. The harness is pre-wound onto one of the suspension wheels 510 and then the free end of the harness is pulled out, and the harness is wound over the cable using some auxiliary work, such as a drone or catapult, and dropped into the other suspension wheel 510 to be wound until the suspension wheels 510 on both sides can safely wind the harness. In addition, the hanging wire rack 800 can be sleeved on the hanging wire, so that the hanging wire rack 800 is hung on the cable, the sliding abrasion caused by the direct contact of the hanging wire and the cable is avoided, and the service life of the hanging wire is prolonged. Preferably, in order to improve the lifting stability of the equipment in the hoisting process, two groups of hoisting mechanisms are arranged.

Preferably, the upper frame 110 is provided with corresponding stability sensors, such as a gyroscope, a gravity sensor, and the like, and the rotation directions and the rotation rates of the two suspension wheels 510 are respectively controlled by feeding back signals to the control system and adjusting the control system in real time, so as to reduce the swing of the obstacle clearing device and achieve the stable balance thereof.

It should be understood that equivalents and modifications to the disclosed embodiments and inventive concepts may occur to persons skilled in the art, and all such modifications and/or alterations are intended to fall within the scope of the present invention.

Claims

1. A tree obstacle cleaning device comprises a rack, a traveling mechanism, a hoisting mechanism, a cutting mechanism and a power supply control mechanism, wherein the traveling mechanism, the hoisting mechanism, the cutting mechanism and the power supply control mechanism are arranged on the rack; the power supply control mechanism is electrically connected with the travelling mechanism, the hoisting mechanism and the cutting mechanism respectively; the cutting mechanism is characterized in that at least one cutting mechanism is arranged; each cutting mechanism comprises an underframe arranged on the rack, a swing frame arranged on the underframe in a turnover manner, a turnover driving device, a mounting seat arranged on the swing frame, an electric saw fixedly arranged on the mounting seat and a rotation driving device for driving the mounting seat and the electric saw to rotate; the turnover driving device is used for driving the swing frame to turn and swing so as to enable the swing frame to be vertical to the bottom frame; so that the electric saw is in a standing state; the mounting seat is connected with the rotation driving device through a support, the mounting seat can swing relative to the support, and the support is provided with a swing driving device for driving the mounting seat and the electric saw to swing; the support comprises a bottom plate and two bearing seats oppositely arranged on the bottom plate, the mounting seat is arranged between the two bearing seats, and each bearing seat is connected with the mounting seat through a connecting shaft.

2. The barrier cleaning device according to claim 1, wherein the swing driving device is a first electric push rod, the electric saw is provided with a guide plate, and the end of the push rod of the first electric push rod is hinged with the bottom of the guide plate; the end part of the shell of the first electric push rod is hinged with the bottom plate.

3. The tree obstacle clearing device as claimed in claim 1, wherein the rotation driving device comprises a rotating motor fixedly arranged on the swing frame, a bearing seat arranged on the swing frame and a rotating shaft arranged in the bearing seat, and one end of the rotating shaft is in transmission connection with an output end of the rotating motor; the other end of the rotating shaft is fixedly connected with the bottom plate through a shaft sleeve.

4. The tree obstacle clearing device as claimed in claim 1, wherein the bottom of the bottom plate is provided with a plurality of downwardly extending convex columns, the swing frame is provided with a support plate and a limiting block arranged on the support plate, and the limiting block is used for preventing the convex columns from continuing to rotate.

5. The tree obstacle cleaning device according to claim 1, wherein the overturning driving device is a second electric push rod, and the end part of the second electric push rod is hinged with the swing frame; the end part of the shell of the second electric push rod is hinged with the underframe.

6. The tree obstacle cleaning device according to claim 2, wherein a plurality of limiting strips are arranged on the guide plate at equal intervals, the limiting strips are transversely arranged and perpendicular to the guide plate, and two ends of each limiting strip are pointed.

7. The tree barrier cleaning device as claimed in claim 1, wherein the swing frame comprises a first supporting beam, a second supporting beam arranged in parallel with the first supporting beam, and a first connecting beam connecting the first supporting beam and the second supporting beam, and the first supporting beam, the first connecting beam and the second supporting beam are connected in sequence to form a Z shape; the second supporting beam is hinged with the underframe, a second connecting beam perpendicular to the second supporting beam is arranged on the second supporting beam, and the output end of the turnover driving device is hinged with the second connecting beam.