CN210491696U - Double-engine flexible shaft transmission all-terrain remote control mower - Google Patents

Abstract

A double-engine flexible shaft transmission all-terrain remote control mower comprises a mower frame, driving wheels, a remote control circuit and a fuel motor and is characterized by further comprising a main shaft, a left driving wheel support and a right driving wheel support, wherein a left driving motor and a left driving wheel driven by the left driving motor are mounted on the left driving wheel support, a right driving motor and a right driving wheel driven by the right driving motor are mounted on the right driving wheel support, and the left driving motor and the right driving motor are respectively electrically connected with the remote control circuit. The utility model has the characteristics of compact structure, operation are reliable, work efficiency is high, when the lawn mower during operation on the flood bank dam of unevenness, left and right adjustable shelf can be along the main shaft luffing motion from top to bottom along with back left and back right drive wheel for four drive wheels laminate ground all the time, the phenomenon of skidding can not appear in the drive wheel, has improved work efficiency.

Description

Double-engine flexible shaft transmission all-terrain remote control mower

Technical Field

The utility model belongs to the technical field of the lawn mower technique and specifically relates to a two engine flexible axle transmission full topography remote control lawn mowers.

Background

The mower is a semi-automatic mechanical tool for cutting pasture grass, trimming weeds growing too fast, trimming and processing flat green lawn, and can reduce the workload of maintainers.

There are dozens of models of lawn mowers used in our country, in the united states, in japan and other over a dozen countries, and although there are many types of lawn mowers used at home and abroad, there are few lawn mowers that can perform lawn mowing maintenance in complex terrains such as embankments.

Mowing the flood control dikes is a major part of the management of the flood control project and is a heavy labor. The plane mower cannot adapt to slope operation, while the back-type motorized sickle is operated manually, so that the mowing speed is low, the efficiency is low, the labor intensity of personnel is high, and the labor cost is high. Therefore, it is necessary to design a special device for mowing the slope of the dam.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two engine flexible axle transmission all topography remote control lawn mowers to solve the problem that proposes among the above-mentioned background art.

The utility model adopts the technical proposal that: a double-engine flexible shaft transmission all-terrain remote control mower comprises a mower frame, driving wheels, a remote control circuit and a fuel motor, and is characterized by further comprising a main shaft, a left driving wheel support and a right driving wheel support, wherein the left driving wheel support is provided with the left fuel motor, and the right driving wheel support is provided with the right fuel motor; the power output shaft of the left fuel motor or the right fuel motor is connected with the power input shaft of the generator and the power input shaft of the transmission respectively, and the generator is electrically connected with the remote control circuit;

the left driving wheel bracket is provided with a left driving motor and a left driving wheel driven by the left driving motor, the right driving wheel bracket is provided with a right driving motor and a right driving wheel driven by the right driving motor, and the left driving motor and the right driving motor are respectively and electrically connected with a remote control circuit;

the left side driving wheel support and the right side driving wheel support are respectively and rotatably connected with the left side and the right side of the main shaft, the front end of the main shaft or the front end of the left side driving wheel support or the front end of the right side driving wheel support are further rotatably connected with the mowing rack, the transmission is further provided with a plurality of power output shafts, the tail ends of the power output shafts are connected with the head ends of flexible shafts, and the tail ends of the flexible shafts are connected with the mowing power input shaft on the mowing knife assembly.

Preferably, a chassis is arranged between the left driving wheel support and the right driving wheel support, the chassis is rotatably connected with the main shaft, and power output shafts of the left fuel motor and the right fuel motor are respectively connected with power input shafts of corresponding transmissions.

Preferably, the mowing tool assembly comprises a gear box, a mowing power output shaft is axially arranged in the center of the gear box, one end of the mowing power output shaft penetrates through the bottom of the gear box and is connected with the mowing tool, a mowing power input shaft is radially arranged on the side portion of the gear box, an active bevel gear is arranged at the inner end portion of the mowing power input shaft, a driven bevel gear is arranged on the mowing power output shaft, and the active bevel gear is meshed with the driven bevel gear.

Preferably, a left driving motor is installed at the end part of the left driving wheel support, a right driving motor is installed at the end part of the right driving wheel support, the left driving motor drives a left driving wheel through a speed reducer, and the right driving motor drives a right driving wheel through the speed reducer.

Preferably, the main shaft is further sleeved with a plurality of rotating shaft sleeves, and the rotating shaft sleeves are respectively connected with the front end of the chassis, the front end of the left driving wheel support, the front end of the right driving wheel support and the rear end of the mowing frame.

Preferably, a left driving motor is arranged at the rear end part of the left driving wheel bracket, a driving wheel shaft sleeve or a driving wheel rotating shaft is arranged at the front end part of the left driving wheel bracket, a left driving wheel is arranged at the end part of a driving shaft of the left driving motor, a left driving wheel is arranged at the end part of the driving wheel shaft sleeve or the driving wheel rotating shaft, a left driving wheel is arranged at the end part of the driving shaft of the left driving motor, a left driving wheel is arranged at the end part of the driving wheel shaft sleeve or the driving wheel rotating shaft;

the rear end of right side drive wheel support is equipped with right driving motor, and the preceding tip of right side drive wheel support is equipped with driving wheel axle sleeve or drive wheel pivot, and a right side drive wheel is installed to right driving motor's driving shaft tip, two right drive wheels are installed respectively to driving wheel axle sleeve or driving wheel axle tip, install synchronous pulley on right side driving motor's drive shaft and driving wheel axle sleeve or the drive wheel pivot respectively, two synchronous pulley pass through the hold-in range and connect.

Preferably, a flexible shaft connecting sleeve is further arranged at the joint of the flexible shaft and the gear box, and a flexible shaft bearing is arranged between the flexible shaft connecting sleeve and the flexible shaft.

Preferably, a protection plate and a lower protection plate are arranged on the mowing power output shaft, and a nylon flail knife, a circular saw straight knife, a circular saw flail knife or a spiral blade is arranged between the upper protection plate and the lower protection plate.

Preferably, a sleeve bearing is arranged between the sleeve and the main shaft.

Preferably, the end part of the mower rack is provided with a universal wheel or a skid.

Preferably, the mower blade assembly is one or more of a rotary mower blade assembly, a scissor mower blade assembly and a vertical mower blade assembly.

Preferably, the mower further comprises a mower frame rotation driving device, the rotation driving device comprises a winch and a support, the support is arranged in the middle of the spindle, a stay cord sliding rod is arranged at the top of the support, the winch base is in sliding connection with the chassis, a locking rod parallel to the spindle is arranged at the rear portion of the winch base, the sliding rod is arranged above the spindle, the front portion of the winch base is connected with one end of a pressure spring, the other end of the pressure spring is connected with the chassis, the stay cord on the winch bypasses the sliding rod to be connected with a power arm of the mower frame, clamping plates are arranged on the left side driving wheel support and the right side driving wheel support, and clamping openings matched with the locking rod are.

Preferably, the tail end of the rotary driving device is connected with a frame interlocking device on the mower frame, the frame interlocking device comprises a lifting rod, a fixed plate and a movable rod, two fixed plates are vertically arranged on the mower frame, a central hole is arranged in the center of each fixed plate, a movable rod is arranged between each fixed plate and the corresponding fixed plate, the movable rod is provided with a movable rod lock hole, the movable rod is sleeved with a spring A, the bottom end of the spring A is pressed at the top ends of the two fixed plates, the top end of the spring A props against the top end of the movable rod, the bottom end of the movable rod is fixed with a lifting rod, the two ends of the lifting rod are respectively leaned against the bottom of the flank mowing machine frame, one side of the central hole is axially provided with a lock rod, a spring B is sleeved outside the lock rod, the other end of the lock rod is sleeved in a shaft sleeve, the shaft sleeve is fixed on the side wall of the gear box, and the lock rod is connected with one end of a pull rope.

Preferably, the main shaft is provided with a plurality of hinges, the hinge on the left side of the main shaft is fixedly connected with the left side driving wheel support, the hinge on the right side of the main shaft is fixedly connected with the right side driving wheel support, and the mowing frame is fixedly connected with other hinges.

Preferably, the support shaft sleeve is sleeved on the main shaft, and a shaft sleeve bearing is arranged between the support shaft sleeve and the main shaft.

The utility model has the characteristics of compact structure, operation are reliable, work efficiency is high, when the lawn mower during operation on the flood bank dam of unevenness, left and right adjustable shelf can be along the main shaft luffing motion from top to bottom along with back left and right drive wheel to four drive wheels paste tight ground all the time, prevent that the drive wheel from skidding, improved work efficiency. The mowing power output shaft is arranged above the mowing rack, the bending degree of the mowing power output shaft is not high, and the transmission power of the motor is ensured. When the mower is used on a rugged or large obstacle road surface, the rotary driving device of the mowing frame lifts the mowing frame to a specified height, and the mowing frame is put down to continue weeding after passing through the road surface through four-wheel driving, so that the mowing frame can be protected from being damaged. When the mower is not used, the mower frame can be lifted to an angle vertical to the ground through the frame interlocking device, and the placement space of the mower is saved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of a transmission structure of a transmission according to the present invention;

fig. 3 is a schematic view of a transmission structure of another transmission according to the present invention;

FIG. 4 is a schematic structural diagram of another embodiment of the present invention;

FIG. 5 is a side view of FIG. 4;

fig. 6 is a schematic structural view of a rotation driving device according to the present invention;

fig. 7 is a schematic structural view of the middle frame interlocking device of the present invention;

fig. 8 is a schematic view of the unlocking state of the middle frame interlocking device of the utility model;

FIG. 9 is a schematic view showing the locking state of the interlocking device of the middle frame of the present invention;

FIG. 10 is a schematic view of a mower blade assembly of the present invention;

fig. 11 is a schematic structural view of a middle scissor type mower assembly of the present invention;

FIG. 12 is a schematic structural view of the hinge connection between the main shaft and the mower frame according to the present invention;

fig. 13 is a schematic view of another connection mode structure of the middle spindle and the mower frame according to the present invention.

Fig. 14 is a schematic structural view of the middle driving wheel mounting hub motor of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, a dual-engine flexible shaft transmission all-terrain remote control mower comprises a mower frame 110, a left driving wheel support 3, a right driving wheel support 4, a main shaft 6 and a chassis 1. A left fuel motor 201 is arranged on the left driving wheel bracket 3, and a right fuel motor 2 is arranged on the right driving wheel bracket 4; the power output shaft 21 of the left fuel motor 201 or the right fuel motor 2 is connected with the power input shaft of the generator 61 and the transmission 22 respectively.

Wherein, the left driving wheel bracket 3 is provided with a left driving motor 12 and a left driving wheel 15 driven by the left driving motor, the right driving wheel bracket 4 is provided with a right driving motor 19 and a right driving wheel 16 driven by the right driving motor, the left driving motor and the right driving motor are respectively and electrically connected with a remote control circuit 60, and the control circuit is a mower control circuit disclosed in patent 201510913656.7.

As shown in fig. 1, a left driving motor 12 is disposed at a rear end of the left driving wheel support 3, a synchronous pulley 14 is mounted on a driving shaft of the left driving motor 12, a left driving wheel 15 is mounted at an end of the driving shaft of the left driving motor 12, and a driving wheel hub 600 is disposed at a front end of the left driving wheel support 3, wherein the driving wheel hub 600 is mounted at an end of the main shaft through a bearing and is coaxial with the main shaft.

Further, the driving wheel shaft sleeve 600 can be further sleeved on a fixed shaft, and the fixed shaft is not coaxial with the main shaft and is fixed at the front end part of the support 3.

The end part of the driving wheel shaft sleeve 600 is provided with a synchronous belt wheel 150, and the outer end of the driving wheel shaft sleeve is provided with a left driving wheel 155. The timing pulleys 14 and 150 are connected by a timing belt 141.

The left drive motor 12 may also drive a left drive wheel 15 via a left reducer 13. The right drive motor 19 drives the right drive wheel via the right reduction gear 18. If the driving motor is connected with the speed reducer, the power output shaft of the speed reducer is regarded as the driving shaft of the driving motor.

Similarly, the rear end of the right driving wheel bracket 4 is provided with a right driving motor 19, a driving shaft of the right driving motor is provided with a synchronous belt pulley 17, and the end of the driving shaft of the right driving motor is provided with a right driving wheel 16.

The front end of the right driving wheel bracket 4 is provided with a driving wheel shaft sleeve 600, wherein the driving wheel shaft sleeve 600 is sleeved at the end of the main shaft through a bearing and is coaxial with the main shaft. The driving wheel shaft sleeve 600 is provided with a synchronous pulley 170, the end part of the driving wheel shaft sleeve 600 is provided with a right two driving wheels 165, and the two synchronous pulleys 17 and 170 are connected through a synchronous belt 171.

As shown in fig. 13, a drive wheel rotation shaft 601 may be provided at the front end of the left drive wheel frame 3, the drive wheel rotation shaft 601 may be inserted into a boss 602 provided at the end of the left drive wheel frame 3, and the drive wheel rotation shaft 601 may be coaxial with the main shaft. The driving wheel shaft 601 is provided with a timing pulley 150, and the two timing pulleys 14 and 150 are connected by a timing belt 141.

As shown in fig. 14, a hub motor 152 is mounted to each end of the left driving wheel frame 3, and the hub motor 152 drives the left driving wheel 15.

The two ends of the right driving wheel bracket 4 are provided with an in-wheel motor 162, and the in-wheel motor 162 drives the right driving wheel 16.

The left and right drive wheel supports are rotatably connected to the left and right sides of the main shaft, respectively, and the main shaft 6 is also rotatably connected to the mower frame 110.

As shown in fig. 1, the main shaft 6 is further sleeved with a plurality of rotating bushings 66, and the rotating bushings 66 are respectively connected to the front end of the chassis, the front end of the left driving wheel support, the front end of the right driving wheel support and the rear end of the mower frame 110.

Referring to fig. 12, a plurality of hinges 69 are fixed outside the main shaft 6, the hinge on the left side of the main shaft is fixedly connected with the other end of the left driving wheel support 3, the hinge on the right side of the main shaft is fixedly connected with the other end of the right driving wheel support 4, and the mower frame 110 is fixedly connected with other hinges 68.

As can be seen in fig. 14, the spindle is rotatably connected to the mower frame in another manner: the left side of the main shaft 6 is fixed with a left connecting rod 67, a support shaft sleeve 661 is sleeved on the left connecting rod 67, the support shaft sleeve 661 is connected with the flank mower frame 111, the right side of the main shaft is fixed with a right connecting rod, and the structure of the right connecting rod is the same as that of the left connecting rod 67. The middle of the main shaft 6 is sleeved with a rotary shaft sleeve 66, and the rear end of the mowing frame 110 of the rotary shaft sleeve 66 is connected.

The power output shaft 211 of the right fuel motor 2 is also in direct or indirect transmission connection with the power input shaft of the transmission. Specifically, the front end face power output shaft 211 of the front end face of the fuel motor may be connected to the power input shaft 20 of the transmission 22 through the clutch 23.

The transmission 22 further includes a plurality of sub power output shafts 25, a drive pulley 26 is provided on the power input shaft 20, and a driven pulley 27 is provided on the sub power output shafts 25.

A supporting rod 629 is arranged on the side part of the chassis, and two ends of the supporting rod 629 are respectively leaned against the left and right driving wheel brackets. When the mower is driven on uneven road surfaces, the support bar 629 can keep the chassis 1 and the left and/or right drive wheel supports in the same plane, i.e., the chassis always rests on the high drive wheel supports.

In the transmission 22, the driving wheels 26 transmit power by transmitting the driven wheels 27, and the transmission mode may be the structure as shown in fig. 3: the power input shaft 20 is provided with a driving gear 26, the auxiliary power output shaft 25 is provided with a driven gear 27, and transmission is realized in a mode that the driving gear 26 is meshed with the driven gear 27.

The transmission can also be realized by a belt transmission mode such as a synchronous belt shown in fig. 4, for example, the structure adopted by the power output decomposition device of the mower disclosed in patent 201520662368.4. But also chain drives and the like.

As shown in fig. 4-9, the lawn mower further includes a rotary driving device of the lawn mower frame, the rotary driving device includes a winch 62, a base of the winch is slidably connected to the base 1 through a sliding rail or a sliding rod or a sliding groove 6202, a locking rod 620 parallel to the main shaft is disposed at the rear portion of the base of the winch, the front portion of the base of the winch is connected to one end of a pressure spring 6203, the other end of the pressure spring 6203 is connected to the chassis 1, a pulling rope on the winch 62 is connected to a power arm of the lawn mower frame, clamping plates 6201 are disposed on the left side driving wheel support and the right side driving wheel support, a bayonet catch matched with the locking rod 620 is disposed on the clamping plate 6201.

The middle of the main shaft is provided with a support, the top of the support is provided with a sliding rod 605, the tail end of the rotary driving device is connected with a frame interlocking device on the mowing machine frame, the frame interlocking device comprises a lifting rod 625, a fixed plate 622 and a movable rod 626, two fixed plates 622 are vertically fixed on the mowing machine frame 110, the center of each fixed plate 622 is provided with a central hole 6221, the movable rod 626 is arranged between the fixed plates and the fixed plates, the bottom of each movable rod 626 is provided with a movable rod locking hole 629, a spring A628 is sleeved outside each movable rod 626, the bottom ends of the springs A628 are pressed at the top ends of the two fixed plates, the top ends of the springs A628 are propped against the top ends of the movable rods 626, the bottom ends of the movable rods 626 are fixedly provided with lifting rods 625, and the.

A lock bar 541 is axially arranged on one side of the central hole 6221, a spring B546 is sleeved outside the lock bar 541, one end of the lock bar 541 is sleeved in the central hole 6221 of one of the fixing plates 622, the other end of the lock bar 541 is sleeved in a shaft sleeve 542, the shaft sleeve 542 is fixed on a power arm (side wall of the gear box 5) of the mower frame 110, the lock bar 541 is connected with one end of the pull rope 621, and the other end of the pull rope 621 bypasses the sliding rod 605 to be connected with the winch 62.

The winch of the winch 62 tensions the pull rope 621, the pull rope 621 pulls the lock lever 1101 to pass through the lock hole of the movable rod to lock the movable rod 626, the lifting rod 625 and the movable rod 626 are of an integrated structure, and when the pull rope 621 is pulled upwards, the lifting rod 625 drives the mower frame 110 and the flank mower frame to lift.

When the mower is on a rough or large obstacle road, the spring a628 lifts the lifting rod 625 to the lower part of the mower frame, and when the mower encounters an obstacle road, the lifting rod clings to the bottom of the mower frame 111 and rises and falls along with the mower frame 111 with the two side wings. The passing performance and the terrain imitation function of the mower frame are not influenced.

As shown in fig. 10, the end of the mower frame 110 is provided with a universal wheel 7 or a skid to facilitate the movement of the mower. The mowing knife component is one or a combination of a rotary mowing knife or a scissor type mowing knife component or a vertical knife type mowing knife component.

Wherein the rotation type mowing knife assembly comprises a gear box 5, and the gear box can move up and down, so that the mowing height can be conveniently adjusted.

A mowing power output shaft 512 is axially arranged in the center of the gear box 5, one end of the mowing power output shaft 512 penetrates through the bottom of the gear box to be connected with a mowing knife, and the bottom of the mowing power output shaft 512 is also connected with the protection disc 55.

A mowing power input shaft 517 is radially arranged at the side part of the gear box 5, a driving bevel gear 521 is arranged at the inner end part of the mowing power input shaft, a driven bevel gear 515 is arranged on the mowing power output shaft, and the driving bevel gear 521 is meshed with the driven bevel gear 521.

The protection disc 55 is trapezoidal, a through hole 553 is formed in the center of the protection disc 55, a plurality of protection disc bearings 551 are arranged in the through hole, the protection disc bearings 551 are arranged so that the mowing power output shaft 512 can rotate, and meanwhile, the protection disc 55 does not rotate along with the mowing power output shaft. The other end of the mowing power output shaft 512 passes through the through hole 553 to be screwed with the nut 552.

The clamping plate comprises an upper clamping plate 531 and a lower clamping plate 533, and a nylon flail knife or a circular saw straight knife or a circular saw flail knife or a spiral blade is arranged between the upper clamping plate 531 and the lower clamping plate 533.

A flexible shaft connecting sleeve 523 is further arranged at the joint of the flexible shaft 52 and the gear box, and a flexible shaft bearing 522 is arranged between the flexible shaft connecting sleeve 523 and the flexible shaft 52.

As can be seen from fig. 11, the scissor type mowing knife assembly includes a mowing stationary knife 32 and a mowing moving knife 33 disposed on the mowing stationary knife, and the mowing stationary knife 32 and the mowing moving knife 33 are slidably connected, that is, implemented by using a scissor type sliding connection structure commonly used in existing crop harvesters. The fixed mowing knife 32 is provided with a fixed plate 38, the fixed plate 38 is connected with a flank mowing machine frame or a main mowing machine frame, sawteeth are arranged on one side of the mowing fixed knife 32 and one side of the mowing movable knife 33, a mowing power input shaft 517 is arranged at the tail end of the flexible shaft 52, the bottom of the mowing power input shaft 517 is axially connected with the axis of the movable knife disc 332, a shifting column 331 is arranged at the position of the movable knife shaft 332 deviated from the axis, the shifting column 331 is sleeved in a sliding sleeve or a rectangular groove 333, and the end part of the sliding sleeve or the rectangular groove 333 is fixedly connected with the mowing movable knife 33. When the flexible shaft 52 rotates, the mowing power input shaft 517 drives the moving blade shaft 332 to rotate in the horizontal direction, and the shifting column 331 rotates in a reciprocating manner in the sliding sleeve 333 or the rectangular groove while moving along with the eccentric motion of the moving blade shaft 332, so that the mowing moving blade 33 is driven to reciprocate in the horizontal direction, and the mowing purpose is achieved.

The working principle is as follows: the left driving motor 12 and the right driving motor 19 on the mower drive the left driving wheel 15 and the right driving wheel 16 to rotate, so that synchronous belt pulleys on the left driving wheel 15 and the right driving wheel 16 transmit the synchronous belt to the left driving wheel 155 and the right driving wheel 165, the mower moves, the left fuel oil motor and the right fuel oil motor drive a mowing knife assembly at the bottom of the gear box 5 to mow through the flexible shaft 52, and the mowing efficiency is improved due to the arrangement of the multiple gear boxes 5. When the mower moves, the left side driving wheel support 3 and the right side driving wheel support 4 can swing up and down along with the terrain because the left side driving wheel support and the right side driving wheel support are respectively rotatably connected with the left side and the right side of the main shaft 6, so that the four driving wheels are always attached to the ground, the driving wheels are prevented from slipping, and the use efficiency of the mower is ensured. When the mower is used on a rugged or large obstacle road surface, the rotary driving device of the mowing frame lifts the mowing frame to a specified height, and the mowing frame is put down to continue weeding after passing through the road surface through four-wheel driving, so that the mowing frame can be protected from being damaged. When the mower is not used, the mower frame can be lifted to an angle vertical to the ground through the frame interlocking device, and the placement space of the mower is saved.

In the invention, the driving motor is an electric motor with a speed reducer, and the power output shaft of the speed reducer can be regarded as the direct power output shaft of the electric motor.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, since the cross-section of the main shaft may be in the form of a variety of shapes and shapes, such as square, circular, and the like. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A double-engine flexible shaft transmission all-terrain remote control mower comprises a mower frame, driving wheels, a remote control circuit and a fuel motor, and is characterized by further comprising a main shaft, a left driving wheel support and a right driving wheel support, wherein the left driving wheel support is provided with the left fuel motor, and the right driving wheel support is provided with the right fuel motor; the power output shaft of the left fuel motor or the right fuel motor is connected with the power input shaft of the generator and the power input shaft of the transmission respectively, and the generator is electrically connected with the remote control circuit;

the left driving wheel bracket is provided with a left driving motor and a left driving wheel driven by the left driving motor, the right driving wheel bracket is provided with a right driving motor and a right driving wheel driven by the right driving motor, and the left driving motor and the right driving motor are respectively and electrically connected with a remote control circuit;

the left side driving wheel support and the right side driving wheel support are respectively and rotatably connected with the left side and the right side of the main shaft, the front end of the main shaft or the front end of the left side driving wheel support or the front end of the right side driving wheel support are further rotatably connected with the mowing rack, the transmission is further provided with a plurality of power output shafts, the tail ends of the power output shafts are connected with the head ends of flexible shafts, and the tail ends of the flexible shafts are connected with the mowing power input shaft on the mowing knife assembly.

2. The dual-engine flexible shaft transmission all-terrain remote control mower as claimed in claim 1, wherein a chassis is arranged between the left side driving wheel support and the right side driving wheel support, the chassis is rotatably connected with a main shaft, and power output shafts of the left fuel motor and the right fuel motor are respectively connected with power input shafts of corresponding transmissions.

3. The dual-engine flexible shaft transmission all-terrain remote control mower is characterized in that the mowing tool assembly comprises a gear box, a mowing power output shaft is axially arranged at the center of the gear box, one end of the mowing power output shaft penetrates through the bottom of the gear box to be connected with the mowing tool, a mowing power input shaft is radially arranged on the side portion of the gear box, a driving bevel gear is arranged at the inner end of the mowing power input shaft, a driven bevel gear is arranged on the mowing power output shaft, and the driving bevel gear is meshed with the driven bevel gear.

4. The dual-engine flexible shaft transmission all-terrain remote control mower of claim 1, characterized in that the main shaft is further sleeved with a plurality of rotating shaft sleeves, and the rotating shaft sleeves are respectively connected with the front end of the chassis, the front end of the left driving wheel bracket, the front end of the right driving wheel bracket and the rear end of the mower frame.

5. The double-engine flexible shaft transmission all-terrain remote control mower as claimed in claim 3, wherein a left driving motor is arranged at the rear end of the left driving wheel support, a driving wheel shaft sleeve or a driving wheel rotating shaft is arranged at the front end of the left driving wheel support, a left driving wheel is arranged at the end of a driving shaft of the left driving motor, a left driving wheel is respectively arranged at the end of the driving wheel shaft sleeve or the driving wheel rotating shaft, a driving shaft of the left driving motor and the driving wheel shaft sleeve or the driving wheel rotating shaft are respectively provided with;

the rear end of right side drive wheel support is equipped with right driving motor, and the preceding tip of right side drive wheel support is equipped with driving wheel axle sleeve or drive wheel pivot, and a right side drive wheel is installed to right driving motor's driving shaft tip, two right drive wheels are installed respectively to driving wheel axle sleeve or driving wheel axle tip, install synchronous pulley on right side driving motor's drive shaft and driving wheel axle sleeve or the drive wheel pivot respectively, two synchronous pulley pass through the hold-in range and connect.

6. The dual-engine flexible shaft transmission all-terrain remote control mower of claim 1, characterized in that universal wheels or skids are arranged at the end part of the mower frame.

7. The dual-engine flexible shaft transmission all-terrain remote control mower of claim 1, wherein the mower blade assembly is one or more of a rotary mower blade assembly, a scissor mower blade assembly, and a vertical mower blade assembly.

8. The double-engine flexible shaft transmission all-terrain remote control mower according to claim 1, and is characterized in that the mower further comprises a mower frame rotation driving device, the rotation driving device comprises a winch and a support, the support is arranged in the middle of a main shaft, a pull rope sliding rod is arranged at the top of the support, the winch frame is in sliding connection with a chassis, a lock rod parallel to the main shaft is arranged at the rear of the winch frame, the sliding rod is arranged above the main shaft, the front of the winch frame is connected with one end of a pressure spring, the other end of the pressure spring is connected with the chassis, the pull rope on the winch bypasses the sliding rod and is connected with a power arm of the mower frame, clamping plates are arranged on the left driving wheel support and the right driving wheel support, and clamping ports matched with the lock rod.

9. The flexible shaft transmission all-terrain remote control mower with the double engines as claimed in claim 8, characterized in that the tail end of the rotary driving device is connected with a frame interlocking device on the mower frame, the frame interlocking device comprises a lifting rod, fixed plates and a movable rod, two fixed plates are vertically arranged on the mower frame, a central hole is arranged in the center of each fixed plate, the movable rod is arranged between the fixed plates, a movable rod locking hole is arranged on each movable rod, a spring A is sleeved outside each movable rod, the bottom end of the spring A is pressed at the top ends of the two fixed plates, the top end of the spring A is propped against the top end of each movable rod, the bottom end of each movable rod is fixed with the lifting rod, the two ends of each lifting rod are respectively leaned against the bottom of the mower frame with side wings, a locking rod is axially arranged on one side of the central hole, a spring B is sleeved outside, the shaft sleeve is fixed on the side wall of the gear box, and the lock rod is connected with one end of the pull rope.

10. The dual-engine flexible shaft transmission all-terrain remote control mower as claimed in claim 5, wherein the main shaft is provided with a plurality of hinges, the hinge on the left side of the main shaft is fixedly connected with the left side driving wheel bracket, the hinge on the right side of the main shaft is fixedly connected with the right side driving wheel bracket, and the mower frame is fixedly connected with other hinges.

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