阅读说明：本技术 割草机 (Grass cutter ) 是由 山冈敏成 聂方杰 聂阳 李龙 于 2019-11-15 设计创作，主要内容包括：本发明公开了一种割草机,包括：电机,用于驱动割草元件转动以进行割草；主机体,用于安装电机并沿前后方向延伸；电子组件,与电机构成电连接并用于控制割草机的动力输出；操作组件,可供操作以控制割草机行走以及动力输出；操作组件包括：把手组件,与主机体构成转动连接并供握持以操作割草机运行；第一操作件,与把手组件构成转动连接以控制割草机的行走状态；第一操作件形成有与把手组件贴合的贴合面,当操作第一操作件转动并靠近至把手组件时,贴合面能与把手组件基本贴合并形成一个可供握持的整体。该割草机操作便捷,舒适性高。(The invention discloses a mower, comprising: the motor is used for driving the mowing element to rotate so as to mow; a main body for mounting a motor and extending in a front-rear direction; the electronic component is electrically connected with the motor and is used for controlling the power output of the mower; the operation assembly can be operated to control the walking and power output of the mower; the operating assembly comprises: the handle assembly is rotationally connected with the main machine body and is used for holding to operate the mower to run; the first operating piece is in rotating connection with the handle assembly to control the walking state of the mower; the first operating part is provided with an attaching surface attached to the handle assembly, and when the first operating part is operated to rotate and approach to the handle assembly, the attaching surface can be basically attached to the handle assembly to form a whole body for holding. The mower is convenient to operate and high in comfort.)

1. A lawn mower, comprising:

the motor is used for driving the mowing element to rotate so as to mow;

a main body for mounting the motor and extending in a front-rear direction;

the electronic component is electrically connected with the motor and is used for controlling the power output of the mower;

the operation assembly can be operated to control the walking and power output of the mower;

the method is characterized in that:

the operating assembly includes:

the handle assembly is rotatably connected with the main machine body and is held to operate the mower to run;

the first operating piece is in rotating connection with the handle assembly to control the walking state of the mower;

the first operating part is provided with an attaching surface attached to the handle assembly, and when the first operating part is operated to rotate and approach to the handle assembly, the attaching surface can be basically attached to the handle assembly to form a whole body for holding.

2. The mower of claim 1,

the first operating piece comprises a contact part, and the abutting surface is positioned on the contact part; the handle assembly comprises a holding part, and the binding surface is bound to the holding part when contacting with the handle assembly.

3. The mower of claim 2,

the contact part comprises a bending area and a linear area, and an included angle between the extending direction of the bending area and the extending direction of the linear area is more than or equal to 20 degrees and less than or equal to 30 degrees.

4. The mower of claim 1,

the operating assembly further comprises a speed regulating part, the speed regulating part is provided with a connecting end, and the distance between the connecting end and the tail end of the speed regulating part body, which is far away from the connecting end, is more than or equal to 20mm and less than or equal to 25 mm.

5. The mower of claim 1,

the operating assembly further comprises a second operating part which is in rotating connection with the handle assembly, and the second operating part is located on the front side of the first operating part.

6. The mower of claim 1,

the main machine body is also provided with a supporting leg for supporting the mower, and the supporting leg is positioned at the rear side of the main machine body.

7. The mower of claim 1,

the mower further comprises a walking assembly for the mower to walk, the walking assembly comprises a first walking wheel and a second walking wheel, and the second walking wheel is located on the rear side of the first walking wheel.

8. The mower of claim 1,

the rearmost end of the supporting leg is substantially flush with the rearmost end of the second road wheel in a plane perpendicular to the front-rear direction.

9. The mower of claim 1,

the operation subassembly with the host computer body constitutes to rotate and is connected, the host computer body still is formed with and is used for the restriction the first spacing portion of operation subassembly pivoted.

10. The mower of claim 1,

the operating assembly further comprises a connecting rod for connecting the handle assembly and the first operating member; the connecting rod extends and is provided with a flexible portion that is used for adjusting length along a second rectilinear direction that is on a parallel with self axis direction, the connecting rod still including being used for adjusting the regulating part of flexible state, the regulating part is around a perpendicular to the axis of rotation of second rectilinear direction rotates.

Technical Field

The invention relates to a garden tool, in particular to a mower.

Background

The mower is a mechanical tool for trimming lawns, vegetations and the like, and consists of a cutter head, an engine, a traveling wheel, a traveling mechanism, a cutter, a handrail and a control part. The cutter head is arranged on the travelling wheel, the engine is arranged on the cutter head, the cutting knife is arranged on the output shaft of the engine, the cutting knife utilizes the high-speed rotation of the engine to improve a lot of speed, the operation time of weeding workers is saved, and a large amount of manpower resources are reduced.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide the mower which is convenient to operate.

In order to achieve the above object, the present invention adopts the following technical solutions:

a lawn mower, comprising: the motor is used for driving the mowing element to rotate so as to mow; a main body for mounting a motor and extending in a front-rear direction; the electronic component is electrically connected with the motor and is used for controlling the power output of the mower; the operation assembly can be operated to control the walking and power output of the mower; the operating assembly comprises: the handle assembly is rotationally connected with the main machine body and is used for holding to operate the mower to run; the first operating piece is in rotating connection with the handle assembly to control the walking state of the mower; the first operating part is provided with an attaching surface attached to the handle assembly, and when the first operating part is operated to rotate and approach to the handle assembly, the attaching surface can be basically attached to the handle assembly to form a whole body for holding.

Furthermore, the first operating piece comprises a contact part, and the binding surface is positioned on the contact part; the handle assembly comprises a holding part, and the binding surface is bound to the holding part when contacting with the handle assembly.

Further, the contact portion includes a bent region and a linear region, and an included angle between an extending direction of the bent region and an extending direction of the linear region is greater than or equal to 20 ° and less than or equal to 30 °.

Further, the operating assembly still includes the speed governing piece, and the speed governing piece has a link, and the link is more than or equal to 20mm and less than or equal to 25mm with the terminal distance that the speed governing piece body is far away from the link.

Furthermore, the operating assembly also comprises a second operating part which is in rotating connection with the handle assembly, and the second operating part is positioned on the front side of the first operating part.

Furthermore, the main machine body is also provided with a supporting leg for supporting the mower, and the supporting leg is positioned at the rear side of the main machine body.

Furthermore, the mower also comprises a walking assembly for the mower to walk, the walking assembly comprises a first walking wheel and a second walking wheel, and the second walking wheel is positioned at the rear side of the first walking wheel.

Further, the rearmost end of the support leg is substantially flush with the rearmost end of the second road wheel in a plane perpendicular to the front-rear direction.

Furthermore, the operation assembly is rotatably connected with the main machine body, and the main machine body is also provided with a first limiting part for limiting the rotation of the operation assembly.

Further, the operating assembly further comprises a connecting rod for connecting the handle assembly and the first operating member; the connecting rod extends along a second linear direction parallel to the axis direction of the connecting rod and is provided with a telescopic part used for adjusting the length, the connecting rod further comprises an adjusting piece used for adjusting the telescopic state, and the adjusting piece rotates around a rotating shaft perpendicular to the second linear direction.

The invention has the advantages that: through setting up the operating parts at the operating assembly that can laminate with the handle to be convenient for the user and hold, increased the convenience of operation.

Drawings

Fig. 1 is a perspective view of a lawnmower in a first embodiment;

FIG. 2 is a perspective view of another perspective of the lawn mower of FIG. 1;

FIG. 3 is an enlarged partial view of the mower of FIG. 1 at A;

FIG. 4 is an enlarged partial view of the mower of FIG. 2 at B;

FIG. 5 is a plan view of the operational components of the lawn mower of FIG. 1;

FIG. 6 is an enlarged partial view of the mower of FIG. 2 at C;

FIG. 7 is a perspective view of the mower of FIG. 1 with the operative components stowed;

FIG. 8 is a perspective view of the operational components of the lawn mower of FIG. 1;

FIG. 9 is an enlarged partial view of the mower of FIG. 8 at D;

FIG. 10 is a perspective view of the mower of FIG. 1 with the operating assembly and portions of the housing removed;

FIG. 11 is a perspective view of the mower of FIG. 6 with the sealing plate removed;

FIG. 12 is an enlarged partial view of the mower of FIG. 10 at E;

FIG. 13 is an enlarged partial view of the mower of FIG. 11 at F;

FIG. 14 is a cross-sectional view of the mower of FIG. 6;

FIG. 15 is an exploded view of the mower of FIG. 1 with the grass catcher removed;

FIG. 16 is an exploded view of the grass collecting basket and rear cover of the lawnmower of FIG. 1 with the rear cover removed;

FIG. 17 is an exploded view of the grass collecting basket and the rear cover of the lawnmower of FIG. 1 from another perspective, with the rear cover removed;

FIG. 18 is a partial cross-sectional view of the mower of FIG. 1 with the operating assembly removed;

FIG. 19 is an enlarged partial view of the mower of FIG. 18 at G;

FIG. 20 is a perspective view of the operating assembly of the mower of FIG. 1 with the grass basket removed;

FIG. 21 is an exploded view of the operational assembly of the mower of FIG. 20 with the grass basket removed;

FIG. 22 is an exploded schematic view of the upper housing of the lawn mower of FIG. 21;

FIG. 23 is a perspective view of a mounting base of the mower of FIG. 22;

FIG. 24 is an enlarged partial view of the mower of FIG. 21 at H;

FIG. 25 is an exploded schematic view of a mounting base of the lawn mower of FIG. 1;

FIG. 26 is an exploded schematic view from another perspective of the mounting base of the mower of FIG. 25;

FIG. 27 is a perspective view of a self-propelled motor driven second road wheel of the lawnmower of FIG. 1;

FIG. 28 is an exploded schematic view of the self-propelled motor of the lawnmower of FIG. 26;

FIG. 29 is an exploded schematic view from another perspective of the self-propelled motor of the lawnmower of FIG. 26;

fig. 30 is a perspective view of the lawnmower according to the second embodiment.

Detailed Description

The lawn mower 100 shown in fig. 1 can be manually operated by a user to trim lawn, vegetation, etc. The lawn mower 100 includes: a main body 11, a power output assembly 12 (not shown), a walking assembly 13, an operating assembly 14 and a power supply device 15. The main body 11 is used for mounting a power output assembly 12, a traveling assembly 13, an operation assembly 14 and a power supply device 15. The main body 11 extends at least partially in a first linear direction 101 parallel to the front-rear direction, and the above-mentioned components and devices are distributed reasonably to various portions of the main body 11.

Specifically, as shown in fig. 1 and 14, the power output assembly 12 is mounted to the main body 11 and includes an output member for outputting power to perform a grass cutting function and a motor 122, and in the present embodiment, the output member may be a grass cutting element 121. Motor 122 drives mowing element 121 to rotate to cut vegetation. Main body 11 is formed with a housing space for housing at least a part of motor 122 and a part of mower member 121. Power take-off assembly 12 may include more than one mowing element 121 and, correspondingly, the number of motors 122 may correspond to mowing element 121. In one specific embodiment, the motor 122 is an electric motor. The motor 122 may also be referred to as a self-propelled electric machine. The walk-behind mower 100 also includes a battery pack 151 that powers the motor 122. As an alternative embodiment, the motor 122 may also be an internal combustion engine powered by fuel combustion.

The walking assembly 13 is used to enable the lawn mower 100 to walk on the lawn. The walking assembly 13 may specifically include: a first road wheel 131 and a second road wheel 132. The first road wheel 131 is disposed on the front side of the second road wheel 132 in the front-rear direction. In the present embodiment, the number of the first travel wheels 131 is 2, and the number of the second travel wheels 132 is also 2.

As shown in fig. 1-4, the operating assembly 14 is operable by a user to control walking and power output of the mower 100. The operating assembly 14 may include: a handle assembly 141, a first operating member 142, a second operating member 143, and a connecting rod 144. The user controls the output power, the walking path, and the walking state of the lawnmower 100 by operating the operating unit 14. Specifically, the operation assembly 14 is rotatably connected to the main body 11 and can rotate around the first rotation axis 107 for the user to adjust to a proper angle, so as to meet the needs of users with different heights. The connecting rod 144 is connected between two connecting rods 145 of the operating assembly 14. The first operating member 142 is also pivotally connected to the handle assembly 141 and is capable of pivoting about the second pivot axis 108. The second operating member 143 is rotatably coupled to the handle assembly 141 and is rotatable about a third rotational axis (not shown). Further, the second operating member 143 has the same shape as the grip portion 141a of the handle assembly 141 in terms of its outer shape, so that when the user pulls the second operating member 143, the second operating member 143 can be substantially engaged with the grip portion 141a of the handle assembly 141, thereby facilitating a long-term grip. In addition, the operating assembly 14 further comprises a locking switch 146, the locking switch 146 is used for preventing the user from starting the mower 100 by mistake, and the locking switch 146 can be arranged outside the rotating track range of the second operating member 143, so that interference between the second operating member 143 and the locking switch 146 when the second operating member 143 and the locking switch 146 are operated is avoided. Specifically, a lock switch 146 is provided on the connecting rod 144, which cooperates with the second operating member 143 for starting the operation of the mower 100. In the present embodiment, the second operation member 143 and the lock switch 146 are not sequentially operated. That is, the lawn mower 100 can be started whether the user operates the second operating member 143 first and then operates the lock switch 146, or operates the lock switch 146 first and then operates the second operating member 143. The lock switch 146 may be disposed at any position of the connecting rod 144 as long as it does not interfere with the second operating member 143.

For clearly explaining the technical scheme of the invention, the invention also defines the following steps as shown in figure 1: front, back, left, right, upper and lower sides. It is understood that the second operating member 143 is disposed on the front side of the grip portion 141a of the handle assembly 141 and the first operating member 142 is disposed on the rear side of the grip portion 141a in the forward direction in which the user pushes the mower 100, i.e., the user operates the first operating member 142 with the thumb and operates the second operating member 143 with the fingers other than the thumb. In the present embodiment, when the user pushes the mower 100 through the handle assembly 141 to operate, the user needs to control the second operation element 143 or the first operation element 142 at the same time, and when the user operates the first operation element 142, the user pulls the first operation element 142 to rotate to a position close to the holding portion 141a by using the thumb, and pulling the first operation element 142 to rotate to the holding portion 141a is a continuous action, that is, the user needs to pull the first operation element 142 all the time, and it is hard for the thumb to pull the first operation element 142 for a long time, so in the present embodiment, the first operation element 142 is configured as a member which can be completely attached to the holding portion 141 a.

As shown in fig. 1 to 5, specifically, the grip 141a is a cylinder structure prefabricated into a predetermined shape, the outer surface of the grip is cylindrical, and in order to meet the working condition requirement of the lawn mower 100, the grip is made of hard material that is not easy to deform, so that the structural strength of the entire handle assembly 141 can be ensured, and the user can operate the lawn mower 100 more stably and safely. The first operating member 142 is made of a material having high plasticity relative to the handle assembly 141, and includes a connecting portion 142a, a main body portion 142b, and a contact portion 142 c. The connecting portion 142a is used for connecting the first operating element 142 to the handle assembly 141 and is rotatably connected with the handle assembly 141, the main body portion 142b extends from the connecting portion 142a to form a whole structure of the first operating element 142, and the contact portion 142c extends from the whole structure and is finally contacted with the holding portion 141a when a user pulls the first operating element 142 to rotate.

The contact portion 142c further includes two regions, namely, a straight region 142d extending in the left-right direction and a bent region 142e intersecting the straight region 142d, wherein an angle between the extending direction of the bent region 142e and the extending direction of the straight region 142d is 20 ° or more and 30 ° or less, in the present embodiment, an angle α between the bent region 142e and the straight region 142d is 25 °, a length L1 of the contact portion 142c in the left-right direction as a whole is 200mm, an initial angle between the first operating member 142 and the handle assembly is 30 °, and the angle is set so that the first operating member 142 has a certain stroke range and has a larger adjustment range, and the distance between the first operating member 142 and the handle assembly is not too large to enable a user to grip with one hand.

Specifically, the contact portion 142c is formed with an attaching surface 142f capable of attaching to the holding portion 141a, the attaching surface 142f is a curved surface capable of substantially attaching to an outer surface of the holding portion 141a and is recessed toward a direction away from the holding portion 141a, when the user pulls the first operating member 142 to the holding portion 141a, the first operating member 142 can substantially attach to the holding portion 141a and can form an integral body under the continuous holding of the user, thereby preventing the user from fatigue in the operation due to long-time pulling of the first operating member 142 by the thumb, that is, when the user pulls the first operating member 142 to the holding portion 141a, the first operating member 142 is attached to the holding portion 141a, and the user does not need to pull the first operating member 142 any more, but forms a holding motion by the thumb, the first operating member 142 and the holding portion 141a are held as an integral body, when the user operates the first operating member 142 for a long time, the fatigue is not experienced, the operation is good, after the first operating member 142 is connected to the holding portion 141a, the holding portion 141a is connected to a, the first operating region is equal to the second operating region 352 mm, and the range of the holding region is equal to the range of the linear control region 352 mm or less than the range of the linear control region, and the linear range of the linear control region, which is equal to the range of the linear control region 852 mm.

The operating assembly 14 further includes a speed member 144a mounted on the connecting rod 144, the speed member 144a being disposed between the two connecting portions 142 a. the speed member 144a has a connecting end connected to the connecting rod 144 at a distance L3 of greater than or equal to 20mm and less than or equal to 25mm from the end of the height of the body of the speed member 144a, within which length the speed member 144a is more convenient for a user to operate and is more suitable for the user to hold.

When the user operates the mower 100, the user can rotate the operating assembly 14 of the mower 100 to a proper angle at the rear side of the advancing direction of the mower 100, and at this time, the user can operate the operating assembly 14 to control the mower 100 to operate. As shown in fig. 6, the main body 11 further forms or is connected with a first stopper assembly 119 for stopping the operating assembly 14. The junction of the main body 11 and the operating member 14 has an extended area perpendicular to the left-right direction, the extended area is substantially in a plane, and it is defined herein that the extension of the main body 11 within the extended area is not limited to the main body 11 being completely flat within the extended area, and the presence of a small number of grooves or protrusions and substantially not affecting the flatness of the extended area are also considered to be within the extended area. The first limiting component 119 extends in the left-right direction and protrudes out of the plane of the extending area. It should be emphasized here that the protrusion of the first stop member 119 from the plane of the extension area has an effect on the flatness of the extension area, which is not the protrusion or the recess that does not affect the flatness of the extension area. When the operating assembly 14 is rotated to the first limiting assembly 119 in a predetermined direction, the operating assembly 14 cannot be further rotated due to the stopping action of the first limiting assembly 119, and is limited to the limit position of the first limiting assembly 119. So that it is possible to avoid the user from colliding with other parts of the mower 100 and causing damage in an unintended state while rotating the operating assembly 14. In fact, in the present embodiment, the first stopper member 119 includes a first stopper portion 119a and a second stopper portion 119 b. The first position-limiting portion 119a is located at the front side of the connection between the operating assembly 14 and the main body 11, and the second position-limiting portion 119b is located at the rear side of the connection between the operating assembly 14 and the main body 11. Through the cooperation of the first limiting portion 119a and the second limiting portion 119b, the rotation of the operating assembly 14 can be limited within a preset range, so that the damage of the user misoperation to the main body 11 or other parts connected to the main body 11 is reduced.

As shown in fig. 7, when the user does not need to use the lawn mower 100, the operating unit 14 can be rotated around the first rotating shaft 107 to the front side of the lawn mower 100, and at this time, the operating unit 14 and the main body 11 of the lawn mower 100 at least partially overlap in the first plane 102 along the first linear direction 101, so that the size of the whole lawn mower 100 is reduced, and the lawn mower 100 is completely stowed. Here, the first plane 102 is located in a plane intersecting the front-back direction and the left-right direction, and is perpendicular to the up-down direction. In the present embodiment, the lawn mower 100 is further formed with a support leg 111 for supporting the lawn mower 100 near the first rotating shaft 107, and the support leg 111 extends rearward from the main body 11 to form a boss portion. Specifically, the protruding portion is formed with one or more protruding portions, and the length of the protruding portion extending to the rear side is substantially flush with the size of the rearmost side of the second road wheel 132 in the second plane 103 perpendicular to the first plane 102, that is, in the up-down direction, at least one straight line exists which can pass through the rearmost point of the support leg 111 and the rearmost point of the second road wheel 132 at the same time. At this time, the straight line is also a tangent line of the second road wheel 132 at a point at the rearmost end. More specifically, the support leg 111 forms at least one support surface perpendicular to the second plane 103 in the front-rear direction, which is a continuous plane and located at the rearmost end of the projection.

In the present embodiment, the support legs 111 are integrally formed with the main body 11 and provided in two, respectively corresponding to 2 second traveling wheels 132. After the user finishes accomodating of lawn mower 100, erect lawn mower 100 complete machine, be about to lawn mower 100 with second walking wheel 132 as the centre of a circle, rotate 90 along the counter-clockwise, make the complete machine that originally is located the fore-and-aft direction rotate to upper and lower direction, at this moment, supporting leg 111 and second walking wheel 132 mutually support and form four supporting parts of lawn mower 100, thereby make lawn mower 100 can be by steady placing on arbitrary plane, thereby make lawn mower 100 can be placed in narrower and smaller vertical space after accomodating in the completion, practice thrift the accommodation space. Here, it should be emphasized that the supporting legs 111 are integrally formed with the main body 11 and extend from the main body 11, which can effectively reduce the assembly process of the lawn mower 100, and reduce the additional labor cost for installing the supporting legs 111 and the cost for installing the related accessories. Ultimately, the production and assembly costs of the mower 100 as a whole can be reduced.

As shown in fig. 8 to 9, the link 145 connects the handle assembly 141, the first operating member 142 and the second operating member 143 to the main body 11. The connecting rod 145 is disposed on both left and right sides of the main body 11, and extends along a second linear direction 105 parallel to the axis thereof, and a telescopic portion 145a is further provided in the middle of the connecting rod 145, and the telescopic portion 145a is adjusted by an adjusting member 145 b. Specifically, when adjusting piece 145b is disengaged from telescopic portion 145a, link 145 can be freely extended or shortened; when the adjuster 145b is inserted into the expansion part 145a, the link 145 cannot be expanded or contracted. In this embodiment, the adjusting member 145b has a rotating shaft perpendicular to or intersecting the axis of the connecting rod 145 itself, and the adjusting member 145b may be a snap structure, which can rotate freely around the rotating axis 106 where the rotating shaft is located. The adjusting member 145b is further provided with a latch 145c, and the latch 145c can be inserted into or separated from the stopper hole 145d of the telescopic part 145a, thereby controlling the extension and contraction of the connecting rod 145. In fact, the rotational shaft may be disposed at either end of the stopper hole 145d in the second linear direction 105. In the storage state of the lawn mower 100 shown in fig. 7, it can be defined that the rotation shaft is disposed at the front side or the rear side of the limiting hole 145d, and the adjusting member 145b can freely rotate in the free state. In the present embodiment, the adjusting piece 145b is disposed at the rear side of the stopper hole 145d, so that when the user pulls the adjusting piece 145b, the adjusting piece 145b is rapidly separated from the expansion part 145a by gravity, thereby implementing an expansion function. When the connecting rod 145 is adjusted to a predetermined length, the connecting rod is used to hold the adjusting member 145b in the second linear direction 105, so that the adjusting member 145b is fixed to the telescopic part 145a by the snap structure between the adjusting member 145b and the telescopic part 145 a. In the present embodiment, the adjusting member 145b forms a coupling hole for coupling to the rotating shaft, and a torsion spring (not shown) having a pre-load force is further provided in the coupling hole. Thus, when the user pulls the adjusting member 145b, the adjusting member 145b can be quickly separated from the expansion part 145a under the combined action of the torsion spring and gravity, and the user experience is better.

As shown in fig. 10 to 13, in order to effectively control the mower 100, an electronic module 115 is further provided in the main body 11, and the electronic module 115 is electrically connected to the power output module 12, the operating module 14, and the power supply device 15. Wherein, the main body 11 is further formed with a first receiving space 112 for receiving the electronic component 115 and a second receiving space 112 for receiving the motor 122, and the first receiving space 112 is communicated with the second receiving space 113. In order to prevent grass clippings and dust from entering the electronic assembly 115 and the motor, the lawn mower 100 further comprises a sealing plate 114 for closing at least a part of the first accommodating space 112 and the second accommodating space 113, wherein the sealing plate 114 is fixedly connected with the main body 11 or is integrally formed with the main body 11.

It will be appreciated that the electronics 115 and motor 122 will generate a greater amount of heat during operation. To maintain the mower 100 in continuous and efficient operation, efficient heat dissipation is required from the electronic components 115 and the motor 122. In the present embodiment, the motor 122 is specifically an outer rotor brushless motor, and when the power output is satisfied, because the volume of the motor is small, the volume of the second accommodating space 113 for accommodating the motor can be reduced, and the structure of other elements matched with the motor is more compact, so that the size of the whole machine is more compact, and the size of the whole machine is further reduced. As shown in fig. 8, an air inlet 117 for ventilation is formed between the sealing plate 114 and the main body 11. The air inlet 117 is located at a side of the sealing plate 114. As shown in fig. 11, the electronic components 115 are distributed at two ends of the first accommodating space 112, and are matched with the air inlet to form a channel for the heat dissipating air to enter. The channel divides the first accommodating space 112 into two parts, and the electronic components 115 are respectively distributed in the two parts, so that on one hand, the flow of heat dissipation wind is facilitated, and the heat dissipation efficiency is increased; on the other hand, the plurality of electronic components 115 are prevented from radiating heat and affecting each other. In fact, the air inlet 117 and the electronic component 115 are not limited to the arrangement form in the present embodiment, and the air inlet 117 may be arranged in any ventilation range of the first accommodating space 112, such as at the rear side of the first accommodating space 112; electronic component 115 may also be positioned to dissipate heat at will.

As shown in fig. 14, in order to achieve effective heat dissipation of the electronic component 115 and the motor, a first fan 123 is further disposed between the lower side of the motor and the grass cutting element 121, and the motor rotates to drive the first fan 123 to rotate, so as to form heat dissipation wind. The heat dissipation wind energy enters the first accommodating space 112 from the air inlet 117, when flowing through the electronic component 115, the heat of the electronic component 115 is taken away and flows out to the motor in the second accommodating space 113, and after flowing through the motor, the heat of the motor is taken away and finally discharged from the lower side of the motor, so that the heat dissipation is completed. It is understood that the main body 11 is formed with an air outlet 118 through which the heat radiation flows out where the first fan 123 is connected to the motor. In addition, since the first accommodating space 112 is communicated with the second accommodating space 113, when a cooling air path is formed, the electronic component 115 and the motor can be effectively cooled simultaneously, the arrangement structure of the internal components of the mower 100 is simplified, the cooling efficiency is improved, and the mower 100 can continuously and effectively work; in addition, a heat dissipation device designed to dissipate heat of the electronic component 115 is avoided, reducing heat dissipation costs.

In this embodiment, the mower 100 further comprises a grass collecting mode and a grass chopping mode. As shown in fig. 15 to 17, the lawn mower 100 includes a rear cover 17 and a grass basket 18. When the mower 100 is in the grass cutting mode, the rear cover 17 is mounted to the rear outlet 116. At this time, grass clippings are directly broken by mowing element 121 and fall from the underside of mowing element 121. When the mower 100 is in the grass collecting mode, the rear cover 17 is removed, the grass collecting basket 18 is mounted at the rear outlet 116, and grass chippings are automatically collected by the mower 100 during grass cutting. The grass collecting basket 18 is connected to the main body 11 of the mower 100 through an accessory. The mower 100 includes a dust cover 19, and the dust cover 19 cooperates with the grass collection basket 18 such that grass clippings are discharged from the rear outlet 116 without leaking out of the seam between the grass collection basket 18 and the dust cover 19.

As shown in fig. 18 to 19, in the present embodiment, in order to more effectively reduce the grass clippings from leaking out of the interface 191 between the grass collecting basket 18 and the dust cover 19, the dust cover 19 is further provided with a guide portion 192 and a first stopper portion 193. The guiding portion 192 is recessed from the outer wall of the dust cover 19 to the inner wall, that is, a protrusion is formed on the inner wall of the dust cover 19, and the protrusion extends substantially along the grass discharging direction and protrudes from the interface 191 of the dust cover 19 and the grass collecting basket 18. When the mower 100 is in the grass collection mode, grass clippings are quickly expelled from the rear outlet 116 and along at least a portion of the dust cover 19 into the grass collection basket 18. During this time, the grass clippings are discharged along at least a portion of the inner wall of the dust cover 19 and guided in a direction away from the mouthpiece 191 while moving to the guide 192, thereby preventing the grass clippings from entering the mouthpiece 191 and being discharged from the mouthpiece 191. In order to avoid that a small amount of grass clippings are still introduced into the receptacle 191 and discharged outward from the receptacle 191 by the guiding action of the guiding portion 192, the dust cover 19 is further provided with a first stopper 193 at the rear side of the receptacle 191. The first blocking portion 193 substantially blocks the communication between the mouthpiece 191 and the outside, so that grass clippings can be prevented from being discharged from the mouthpiece 191 to the outside of the grass collecting basket 18.

As shown in fig. 20-22, the mower 100 further includes a mounting base 161 for mounting the battery pack 151. The mount 161 is slidably connected to the upper housing 16. More specifically, the upper case 16 is located at an upper side of the main body 11 and can be mounted to the main body 11 by a fixing member. The mounting base 161 is connected to a power interface 164 for electrical connection with the battery pack 151. When the battery pack 151 is connected to the power interface 164, the battery pack 151 can provide power to the lawn mower 100 to drive the motor to rotate.

As shown in fig. 23 to 25, in the present embodiment, the mount 161 is formed with a slide rail 161b connected to the upper housing 16, and the upper housing 16 is formed with a guide rail 165 that moves in cooperation with the slide rail 161 b. The mount 161 is slid into the slide rail 161b through the guide rail 165, thereby being integrally connected with the upper case 16. The mount 161 is also formed with a third stopper 161c for stopping. The third stoppers 161c are respectively provided at both ends of the mount 161 along the slide-in direction of the mount 161. The mount 161 is connected in a separated manner, so that the mechanical strength of the mount 161 itself can be increased. It can be understood that when the mounting seat 161 is connected to the battery pack 151, the surface thereof is worn more while the battery pack 151 is supported, and thus the local strength of the mounting seat 161 needs to be increased.

As shown in fig. 25 to 26, the mounting seat 161 is formed with a first mounting groove 162 and a clamping structure for clamping the power interface 164, thereby avoiding fixing the power interface 164 to the mounting seat 161 by other accessories.

Specifically, the power interface 164 is formed with a first clamping portion 164a, and the first clamping portion 164a is in a step shape. The mounting base 161 is formed with a second engaging portion 161a, and the second engaging portion 161a is also stepped, and cooperates with the first engaging portion 164a to limit the vertical displacement of the power interface 164. The mount 161 is also formed with a second stopper 163. The second stopping portion 163 has a certain elastic force, when the power interface 164 slides along the first direction 104 shown in the figure, the second clamping portion 161a cooperates with the first clamping portion 164a to limit the displacement of the power interface 164 in the up-down direction, that is, the second clamping portion 161a is engaged with two steps of the first clamping portion 164a, and the power interface 164 presses the second stopping portion 163 at the same time, after the power interface 164 enters the first mounting groove 162, the second stopping portion 163 resets to limit the power interface 164 to move along the first direction 104 deviating from the figure. The power interface 164 is now secured to the mount 161.

As shown in fig. 27, the lawnmower 100 further includes a second motor 21 that can drive the lawnmower 100 to travel. The second motor 21 may be arranged to drive the first road wheel 131 or the second road wheel 132. In the present embodiment, the second motor 21 drives the second road wheels 132. It can be understood that since the second road wheel 132 is located at the rear side of the mower 100, a large amount of grass clippings or dust are generated from the mower 100 during mowing, and the second motor 21 is located at a position independent from the main body 11, which is closer to the grass clippings or dust while driving the second road wheel 132 to rotate, so that the grass clippings or dust have a large influence on the second motor 21. In the present embodiment, the second motor 21 is provided in a separate housing 211, and a second fan 212 for blowing out the radiation air is connected thereto.

As shown in fig. 28 to 29, the housing 211 includes a first housing portion 211a and a second housing portion 211b, wherein the first housing portion 211a forms or is connected with a second mounting groove 211d for mounting the second motor 21, and heat dissipation ribs 211c are distributed in the second mounting groove 211 d. In fact, it can also be understood that the heat dissipating ribs 211c protrude from the surface of the first housing part 211a, and form the second mounting grooves 211 d. The heat dissipating ribs 211c may fix the motor, on the one hand, and may also transfer heat from the motor, on the other hand. The second housing portion 211b is used to cooperate with the first housing portion 211a to close the space where the motor is located, and a third accommodating space formed by the second housing portion 211b and the first housing portion 211a is larger than the volume of the second motor 21 itself. Thus, when the motor generates heat, the heat of the motor is largely distributed in the third accommodating space, and can form self-circulation in the third accommodating space, and finally the heat is dissipated by heat exchange between the shell wall of the casing 211 and the outside. The housing 211 further includes a heat dissipation hole 211e for dissipating heat. The heat dissipation holes 211e are disposed at only one position of the housing 211, the heat dissipation holes 211e are continuously distributed, and there is no dividing member to divide the housing into two or more parts, which can allow heat in the third accommodating space to be rapidly dissipated and can generate rapid heat exchange with the outside. In fact, since the heat radiating holes 211e are provided only at one predetermined position of the cabinet 211, no gas flow is generated in the third receiving space. Because the air only flows in or out through the heat dissipation holes 211e, and the air flowing in and out through the same heat dissipation holes only flows in or out in a heat exchange manner, and cannot form an airflow with a high flow speed, debris or dust outside the housing 211 can be effectively prevented from being brought into the third accommodating space by the airflow, and the service life of the second motor 21 is affected. In addition, due to the blowing action of the second fan 212, the air flow in the third accommodating space is rapidly operated, so that the heat exchange rate of the air flow with the outside can be accelerated, and the heat exchange efficiency is increased. In fact, the heat dissipating ribs 211c are also formed or connected inside the second housing portion 211b, and the heat dissipating ribs 211c can increase the structural strength of the housing 211 itself, on the one hand, and can increase the area of the inner surface of the housing 211, on the other hand, thereby increasing the heat exchange rate between the third accommodating space and the outside. It should be emphasized that the third accommodating space formed by the housing 211 can be communicated with the outside through one heat dissipating hole 211e, and can also be completely isolated from the outside. When the surface of the housing 211 is completely closed, the heat generated by the second motor 21 is mainly dissipated out of the second motor through the heat exchange between the housing 211 and the outside, and the second motor can be understood, when the surface of the housing 211 is completely closed or only one heat dissipation hole 211e is reserved, the second motor 21 is basically isolated in a closed space, and outside grass chips and dust cannot basically enter the second motor 21, so that the service life of the second motor 21 is greatly prolonged, and the daily maintenance of the second motor is simplified.

Fig. 30 shows a lawn mower 200 in a second embodiment. However, the mower according to the first embodiment can be applied to the present embodiment, and only the differences between the present embodiment and the first embodiment will be described below.

In this embodiment, the mower 200 further comprises a front handle 22 and a rear handle 23 for carrying. Wherein the front handle 22 is located on the main body 24 and at the front end of the entire mower 200. More specifically, the front handle 22 is located at a middle position of the main body 24 where the first traveling wheels 25 are sandwiched. The front handle 22 is a protrusion or a recess formed or connected to the main body 24 itself, and the protrusion or the recess can be used for holding and has a certain supporting capability. The rear handle 23 is located at the rear end of the cutter, specifically at the middle of the main body 24 where the second road wheels 26 sandwich. The rear handle 23 may be a grip attached to or formed with the main body 24 itself. Thus, when the user carries the lawnmower 200, the user can carry the lawnmower 200 by gripping the front handle 22 and the rear handle 23.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.