阅读说明：本技术 花草修剪装置及移动式除草机器人 (Flower and plant trimming device and movable weeding robot ) 是由 丛佩超 张欣 黄君靖 冯新杰 刘俊杰 李健 高学山 于 2020-06-09 设计创作，主要内容包括：本发明公开一种花草修剪装置,包括安装台、驱动机构Ⅰ、伸缩机构、滑槽底座、开口滑槽、传动机构、上锯片、下锯片,驱动机构Ⅰ设于安装台上；伸缩机构上端与安装台连接,下端设有滑槽底座；滑槽底座上设有开口滑槽；上锯片两端设有槽体Ⅰ,槽体Ⅰ外侧设有滑块Ⅰ,滑块Ⅰ伸入开口滑槽中,槽体Ⅰ上设有长圆孔槽Ⅰ；下锯片结构与上锯片相同；上锯片位于下锯片上方；长圆孔槽Ⅰ内设有凸轮杆Ⅱ；长圆孔槽Ⅱ内设有凸轮杆Ⅲ；凸轮杆Ⅱ与凸轮杆Ⅲ通过连接片Ⅱ连接；驱动机构Ⅰ与传动机构连接,传动机构上设有凸轮杆Ⅰ,凸轮杆Ⅰ与凸轮杆Ⅱ通过连接片Ⅰ连接。本发明还公开移动式除草机器人,应用上述花草修剪装置。本发明结构紧凑,便携高效。(The invention discloses a flower and grass trimming device which comprises an installation platform, a driving mechanism I, a telescopic mechanism, a chute base, an opening chute, a transmission mechanism, an upper saw blade and a lower saw blade, wherein the driving mechanism I is arranged on the installation platform; the upper end of the telescopic mechanism is connected with the mounting table, and the lower end of the telescopic mechanism is provided with a chute base; an opening chute is arranged on the chute base; two ends of the upper saw blade are provided with groove bodies I, sliding blocks I are arranged on the outer sides of the groove bodies I, the sliding blocks I extend into the opening sliding grooves, and long circular hole grooves I are formed in the groove bodies I; the lower saw blade has the same structure as the upper saw blade; the upper saw blade is positioned above the lower saw blade; a cam rod II is arranged in the long circular hole groove I; a cam rod III is arranged in the long circular hole groove II; the cam rod II is connected with the cam rod III through a connecting piece II; the driving mechanism I is connected with the transmission mechanism, the transmission mechanism is provided with a cam rod I, and the cam rod I is connected with the cam rod II through a connecting piece I. The invention also discloses a mobile weeding robot and the flower and grass trimming device. The invention has compact structure, portability and high efficiency.)

1. Flowers and plants trimming means, including mount table (1), actuating mechanism I, telescopic machanism, spout base (3), opening spout (4), drive mechanism I, go up saw bit (5), saw bit (6) down, its characterized in that:

a group of telescopic mechanisms are respectively arranged on the left side and the right side of the mounting table (1), and the lower ends of the telescopic mechanisms extend vertically downwards; the lower end of each group of telescopic mechanisms is respectively provided with a group of sliding chute bases (3), the two groups of sliding chute bases (3) correspond to each other, each group of sliding chute bases (3) is respectively provided with an opening sliding chute (4) along the left and right direction of the mounting table (1), and the opening of the opening sliding chute (4) is positioned on the corresponding end surface of the two groups of sliding chute bases (3);

the upper saw blade (5) is horizontally arranged along the left and right directions of the mounting table (1), two ends of the upper saw blade (5) are respectively provided with a groove body I (22), the outer side of each groove body I (22) is respectively provided with a slide block I (8), the two slide blocks I (8) respectively extend into the opening slide grooves (4) on the left and right sides, and each groove body I (22) is provided with a long circular hole groove I (7) along the front and back directions of the mounting table (1); the lower saw blade (6) is horizontally arranged along the left and right directions of the mounting table (1), two ends of the lower saw blade (6) are respectively provided with a groove body II (23), the outer side of each groove body II (23) is respectively provided with a slide block II (10), the two slide blocks II (10) respectively extend into the opening sliding grooves (4) on the left and right sides, and each groove body II (23) is provided with a long circular hole groove II (9) along the front and back directions of the mounting table (1); the upper saw blade (5) is positioned above the lower saw blade (6), and a gap is reserved between the lower surface of the upper saw blade (5) and the upper surface of the lower saw blade (6);

a vertical cam rod II (18) is arranged in the long circular hole groove I (7), the cam rod II (18) can slide along the long circular hole groove I (7), and the lower end of the cam rod II (18) extends into a gap between the upper saw blade (5) and the lower saw blade (6); a vertical cam rod III (19) is arranged in the long circular hole groove II (9), the cam rod III (19) can slide along the long circular hole groove II (9), and the upper end of the cam rod III (19) extends into a gap between the upper saw blade (5) and the lower saw blade (6); the lower end of the cam rod II (18) is connected with the upper end of the cam rod III (19) through a connecting piece II (21), two ends of the connecting piece II (21) are respectively hinged with the lower end of the cam rod II (18) and the upper end of the cam rod III (19), and the thickness of the connecting piece II (21) is equal to or slightly smaller than the gap between the upper saw blade (5) and the lower saw blade (6);

the driving mechanism I is arranged on the mounting table (1), the driving mechanism I is connected with the transmission mechanism I, the transmission mechanism I is provided with a cam rod I (17), the lower end of the cam rod I (17) is vertically arranged downwards and is close to the upper end of any one group of cam rods II (18), the lower end of the cam rod I (17) is connected with the upper end of the cam rod II (18) through a connecting piece I (20), and the two ends of the connecting piece I (20) are hinged to the lower end of the cam rod I (17) and the upper end of the cam rod II (18) respectively.

2. A flower and plant trimming apparatus according to claim 1, wherein: the driving mechanism I comprises an engine (12) and a speed distribution box (13), wherein the engine (12) is connected with the speed distribution box (13); the speed distribution box (13) is connected with the transmission mechanism I.

3. The mobile herbicidal robot of claim 1, wherein: the telescopic mechanism comprises a sliding sleeve I (40), a telescopic rod (2), a rack (41), a gear (42), a transmission shaft III (43) and a sliding sleeve II (44), wherein the sliding sleeve I (40) and the sliding sleeve II (44) are arranged on the left side or the right side of the mounting platform (1) at intervals along the vertical direction; the telescopic rod (2) is vertically arranged and respectively penetrates through the sliding sleeve I (40) and the sliding sleeve II (44), and a rack (41) is arranged on the front side surface or the rear side surface of the upper part of the telescopic rod (2);

the transmission shaft III (43) is arranged along the left and right directions of the mounting table (1), one end of the transmission shaft III (43) is connected with the speed distribution box (13), the other end of the transmission shaft III is provided with a gear (42), and the rack (41) is meshed with the gear (42); the engine (12) drives the transmission shaft III (43) through the speed distribution box (13) to further drive the gear (42) to rotate, and drives the rack (41) to lift along the sliding sleeve I (40) and the sliding sleeve II (44); the sliding chute base (3) is arranged on the lower end of the telescopic rod (2).

4. The mobile herbicidal robot of claim 3, wherein: the gear cover (45) is further included, and the gear cover (45) covers the gear (42).

5. The mobile herbicidal robot of claim 3, wherein: the transmission mechanism I comprises a transmission shaft I (11), a small belt wheel (14), a large belt wheel (15), a belt (16), a belt box (46), a spline shaft I (47), a spline shaft II (48), a connecting shaft (49) and a spline sleeve (50); the upper end of the transmission shaft I (11) is connected with the speed distribution box (13), the lower end of the transmission shaft I (11) is fixedly provided with a spline sleeve (50), the upper end of the spline shaft I (47) is arranged in the spline sleeve (50) and can slide along the spline sleeve (50) in the vertical direction, the upper end of the connecting shaft (49) is fixedly connected with the spline shaft I (47), the lower end of the connecting shaft is fixedly connected with the spline shaft II (48), and the lower end of the spline shaft II (48) is fixedly provided with a small belt wheel (14); a support table (34) is arranged on any one of the telescopic rods (2), the support table (34) extends inwards along the left and right directions of the mounting table (1), a shaft hole I is formed in the tail end of the support table (34), a bearing is arranged at the tail end of the support table (34), the outer ring of the bearing is fixedly connected with the support table (34), the upper end of the cam rod I (17) is fixed on the inner ring of the bearing, the large belt wheel (15) is fixedly arranged on the upper end of the cam rod I (17), and the small belt wheel (14) is connected with the large belt wheel (15) through a belt (16); the belt box (46) integrally sleeves a spline shaft II (48), a small belt wheel (14), a large belt wheel (15) and a belt (16), the bottom surface of one side of the belt box (46) is fixedly connected with the tail end of the supporting table (34), a shaft hole II is formed in the bottom surface of the belt box (46), the cam rod I (17) penetrates through the shaft hole I and the shaft hole II to extend downwards and is close to any group of cam rods II (18), and the cam rod I (17) can rotate relative to the shaft hole II; a shaft hole III is formed in the top plate of the belt box (46) and is positioned at the axis of the small belt wheel (14), the connecting shaft (49) penetrates through the shaft hole III to be connected with a spline shaft II (48) in the belt box (46) and a spline shaft I (47) outside the belt box (46) respectively, and the connecting shaft (49) can rotate relative to the shaft hole III; the inner diameter of the shaft hole III is equal to or slightly larger than the outer diameter of the connecting shaft (49), and the inner diameter of the shaft hole III is smaller than the outer diameters of the spline shaft I (47) and the spline shaft II (48).

6. A flower and plant trimming apparatus according to claim 5, wherein: the cam lever assembly is characterized by further comprising a connecting rod (24), shaft sleeves (35) are respectively arranged at two ends of the connecting rod (24), ring grooves corresponding to the shaft sleeves (35) are respectively formed in the middle of the two groups of cam levers II (18), the shaft sleeves (35) at two ends of the connecting rod (24) are respectively sleeved on the two ring grooves, and the two groups of cam levers II (18) can rotate relative to the shaft sleeves (35) sleeved on the cam levers II (18).

7. A mobile weeding robot to which the flower and grass trimming apparatus according to any one of claims 1 to 6 is applied, characterized in that:

the crawler belt type walking mechanism comprises a frame (36) and a crawler belt (25), wherein a plurality of strip holes (30) are uniformly arranged on the crawler belt (25) at intervals; the flower and grass trimming device is integrally arranged in the crawler travelling mechanism; the mounting table (1) is arranged in the middle of the frame (36), and the telescopic rod (2) extends downwards to the position close to the upper surface of the bottom crawler (25).

8. The mobile herbicidal robot of claim 7, wherein: the crawler traveling mechanism further comprises a driving mechanism II, a transmission mechanism II, a supporting rod I (31), a supporting rod II (32), a supporting rod III (33), a driving axle (39), a power wheel (26), an auxiliary wheel I (27) and an auxiliary wheel II (28);

the frame (36) is an inverted trapezoidal frame body, and supporting rods I (31) are arranged at four corners of the upper part of the frame (36);

the two support rods I (31) on the front side of the frame (36) are parallel and extend obliquely forwards and upwards, and the two support rods I (31) on the rear side of the frame (36) are parallel and extend obliquely backwards and upwards; the tail ends of the four groups of support rods I (31) are respectively provided with an auxiliary wheel shaft I (37), auxiliary wheels I (27) are respectively arranged on the auxiliary wheel shafts I (37), and the auxiliary wheels I (27) can rotate relative to the auxiliary wheel shafts I (37);

two supporting rods II (32) are arranged at two corners of the rear side of the lower part of the frame (36), and the two supporting rods II (32) are parallel and extend towards the rear lower part in an inclined manner; auxiliary wheel shafts II (38) are respectively arranged at the tail ends of the two support rods II (32), auxiliary wheels II (28) are respectively arranged on the auxiliary wheel shafts II (38), and the auxiliary wheels II (28) can rotate relative to the auxiliary wheel shafts II (38);

two corners of the front side of the lower part of the frame (36) are provided with support rods III (33), and the two support rods III (33) are parallel and extend towards the front lower part in an inclined manner; two sides of the drive axle (39) are respectively and fixedly arranged at the tail ends of the two support rods (33), and two ends of the drive axle (39) are respectively provided with a power wheel (26);

the length of the projection of the support rod I (31) on the horizontal plane is greater than that of the projection of the support rod II (32) on the horizontal plane; the length of the projection of the support rod I (31) on the horizontal plane is greater than that of the projection of the support rod III (32) on the horizontal plane;

the crawler belt (25) is arranged on the power wheel (26), the auxiliary wheel I (27) and the auxiliary wheel II (28), the driving mechanism II is arranged on the mounting table (1) and is transmitted to the driving axle (39) through the transmission mechanism II, and the driving axle (39) further drives the power wheel (26) to rotate.

9. The mobile herbicidal robot of claim 8, wherein: and the driving mechanism II is a motor.

10. The mobile herbicidal robot of claim 8, wherein: the transmission mechanism II comprises a transmission shaft II (29) and a disc-shaped gear, and the upper end of the transmission shaft II (29) is connected with the motor; drive axle (39) include final drive unit, final drive unit on be equipped with the taper type gear, the lower extreme of transmission shaft II (29) through the taper type meshing of dish type gear and drive axle (39), transmit the power of motor to drive axle (39), and then drive power wheel (26) and rotate, power wheel (26), auxiliary wheel I (27), auxiliary wheel II (28) drive track (25) motion.

Technical Field

The invention belongs to the field of weeding mechanical equipment, and particularly relates to a flower and grass trimming device and a mobile weeding robot.

Background

The weeding machine at the present stage also realizes large scale, high wide mechanical productivity, low unit width cost and easy adoption of advanced production technology, and improves the speed and efficiency of field operation; the performance of the field operation can be improved. The large-scale soil preparation equipment is more than 8 meters, and in order to facilitate the walking of the large-scale soil preparation equipment, the large-scale soil preparation equipment is folded by a frame or is transported longitudinally, so that wide operation and narrow transportation are realized. The cultivation speed is 8-3km/h, the soil preparation speed is 10-8km/h, the sowing speed is 8-3km/h, and the product functions of the foreign weeding machine are more perfect than those of the domestic weeding machine. The material and manufacturing process level is higher, the appearance is beautiful, and the average service life is higher than that of China by more than 1/3. However, the fittings are difficult and the maintenance service cannot keep up. The situation of 70% of hilly lands in China is not suitable, the price is relatively high, and the price is about 10 times that of the hilly lands in China. With the improvement of the degree of agricultural mechanization and the improvement of the working efficiency, the existing weeding machine cannot meet the requirement of large production scale.

The most common weeding machine in the existing market is divided into a clear moving mechanism and a working mechanism, the automation degree is not high, most weeding machines are semi-automatic, the working direction and the trimming length need to be manually controlled, the action is clumsy, the labor intensity is high, the efficiency is low, and the inconvenience in carrying also exists.

Disclosure of Invention

Aiming at the problems, the invention provides a flower and grass trimming device and a mobile weeding robot, wherein the trimming device has compact structure and high trimming precision, can control the length of a trimmed lawn and solves the problem of uneven height of the manually trimmed lawn; inside this weeder located the track with trimming means, when can realizing the high pruning of precision, the space of having saved of very big degree for whole machine is smaller and more exquisite, convenient to carry.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the flower and grass trimming device comprises an installation table, a driving mechanism I, a telescopic mechanism, a chute base, an opening chute, a transmission mechanism I, an upper saw blade and a lower saw blade, wherein the telescopic mechanism is provided with two groups, the upper end of the telescopic mechanism is fixedly connected with the left side and the right side of the installation table, and the lower end of the telescopic mechanism vertically extends downwards; the lower end of each group of telescopic mechanisms is respectively provided with a group of sliding groove bases, the two groups of sliding groove bases correspond to each other, each group of sliding groove bases is respectively provided with an opening sliding groove along the left and right directions of the mounting table, and the opening of the opening sliding groove is positioned on the mutually corresponding end surfaces of the two groups of sliding groove bases;

the upper saw blade is horizontally arranged along the left and right directions of the mounting table, two ends of the upper saw blade are respectively provided with a groove body I, the outer side of each groove body I is respectively provided with a sliding block I, the two sliding blocks I respectively extend into the open sliding grooves on the left and right sides, and each groove body I is provided with a long circular hole groove I along the front and back directions; the lower saw blade is horizontally arranged along the left and right directions of the mounting table, two ends of the lower saw blade are respectively provided with a groove body II, the outer side of each groove body II is respectively provided with a sliding block II, the two sliding blocks II respectively extend into the open sliding grooves on the left and right sides, and each groove body II is provided with a long circular hole groove II along the front and back directions; the upper saw blade is positioned above the lower saw blade, and a gap is reserved between the lower surface of the upper saw blade and the upper surface of the lower saw blade;

a vertical cam rod II is arranged in the long circular hole groove I, the cam rod II can slide along the long circular hole groove I, and the lower end of the cam rod II extends into a gap between the upper saw blade and the lower saw blade; a vertical cam rod III is arranged in the long circular hole groove II, the cam rod III can slide along the sliding groove II, and the upper end of the cam rod III extends into a gap between the upper saw blade and the lower saw blade; the lower end of the cam rod II is connected with the upper end of the cam rod III through a connecting piece II, two ends of the connecting piece II are hinged with the lower end of the cam rod II and the upper end of the cam rod III respectively, and the thickness of the connecting piece II is equal to or slightly smaller than the gap between the upper saw blade and the lower saw blade;

the driving mechanism I is arranged on the mounting table and connected with the transmission mechanism I, the transmission mechanism I is provided with a cam rod I, the lower end of the cam rod I is vertically downwards arranged and close to the upper end of any one group of cam rods II, the lower end of the cam rod I is connected with the upper end of the cam rod II through a connecting piece I, and the two ends of the connecting piece I are hinged to the lower end of the cam rod I and the upper end of the cam rod II respectively.

Further, the driving mechanism I comprises an engine and a speed distribution box, and the engine is connected with the speed distribution box; the speed distribution box is connected with the transmission mechanism I.

Furthermore, the telescopic mechanism comprises a sliding sleeve I, a telescopic rod, a rack, a gear, a transmission shaft III and a sliding sleeve II, and the sliding sleeve I and the sliding sleeve II are arranged on the left side or the right side of the mounting table at intervals along the vertical direction; the telescopic rod is vertically arranged and respectively penetrates through the sliding sleeve I and the sliding sleeve II, and a rack is arranged on the front side surface or the rear side surface of the upper part of the telescopic rod;

the transmission shaft III is arranged along the left and right directions of the mounting table, one end of the transmission shaft III is connected with the speed distribution box, the other end of the transmission shaft III is provided with a gear, and the rack is meshed with the gear; the engine drives the transmission shaft III through the speed distribution box so as to drive the gear to rotate, and the rack is driven to lift along the sliding sleeve I and the sliding sleeve II; the sliding groove base is arranged at the lower end of the telescopic rod.

Further, the gear cover is arranged outside the gear.

Further, the transmission mechanism I comprises a transmission shaft I, a small belt wheel, a large belt wheel, a belt box, a spline shaft I, a spline shaft II, a connecting shaft and a spline sleeve; the upper end of the transmission shaft I is connected with the speed distribution box, the lower end of the transmission shaft I is fixedly provided with a spline sleeve, the upper end of the spline shaft I is arranged in the spline sleeve and can slide along the spline sleeve in the vertical direction, the upper end of the connecting shaft is fixedly connected with the spline shaft I, the lower end of the connecting shaft is fixedly connected with the spline shaft II, and the lower end of the spline shaft II is fixedly provided with a small belt pulley; a supporting table is arranged on any one telescopic rod, the supporting table extends inwards along the left and right directions of the mounting table, a shaft hole I is formed in the tail end of the supporting table, a bearing is arranged at the tail end of the supporting table, the outer ring of the bearing is fixedly connected with the supporting table, the upper end of the cam rod I is fixed on the inner ring of the bearing, the large belt wheel is fixedly arranged on the upper end of the cam rod I, and the small belt wheel and the large belt wheel are connected through a belt; the belt box integrally sleeves the spline shaft II, the small belt wheel, the large belt wheel and the belt, the bottom surface of one side of the belt box is fixedly connected with the tail end of the supporting table, a shaft hole II is formed in the bottom surface of the belt box, the cam rod I penetrates through the shaft hole I and the shaft hole II to extend downwards and is close to any one group of cam rods II, and the cam rods I can rotate relative to the shaft hole II; a shaft hole III is formed in the top plate of the belt box and is positioned at the axis of the small belt wheel, the connecting shaft penetrates through the shaft hole III to be respectively connected with a spline shaft II in the belt box and a spline shaft I outside the belt box, and the connecting shaft can rotate relative to the shaft hole III; the inner diameter of the shaft hole III is equal to or slightly larger than the outer diameter of the connecting shaft, and the inner diameter of the shaft hole III is smaller than the outer diameters of the spline shaft I and the spline shaft II.

The connecting rod is characterized by further comprising connecting rods, shaft sleeves are respectively arranged at two ends of each connecting rod, annular grooves corresponding to the shaft sleeves are respectively formed in the middle parts of the two groups of cam rods II, the shaft sleeves at two ends of each connecting rod are respectively sleeved on the two annular grooves, and the two groups of cam rods II can rotate relative to the shaft sleeves sleeved on the cam rods II.

The mobile weeding robot provided by the invention applies the flower and grass trimming device, and further comprises a crawler travelling mechanism, wherein the crawler travelling mechanism comprises a frame and a crawler, and a plurality of strip holes are uniformly arranged on the crawler at intervals; the flower and grass trimming device is integrally arranged in the crawler travelling mechanism; the mounting table is arranged in the middle of the frame, and the telescopic rod extends downwards to the position close to the upper surface of the bottom crawler.

The crawler traveling mechanism further comprises a driving mechanism II, a transmission mechanism II, a support rod I, a support rod II, a support rod III, a drive axle, a power wheel, an auxiliary wheel I and an auxiliary wheel II;

the frame is an inverted trapezoidal frame body, and supporting rods I are arranged at four corners of the upper part of the frame;

the two support rods I on the front side of the frame are parallel and extend obliquely forwards and upwards, and the two support rods I on the rear side of the frame are parallel and extend obliquely backwards and upwards; the tail ends of the four groups of support rods I are respectively provided with an auxiliary wheel shaft I, auxiliary wheels I are respectively arranged on the auxiliary wheel shafts I, and the auxiliary wheels I can rotate relative to the auxiliary wheel shafts I;

two supporting rods II are arranged at two corners of the rear side of the lower part of the frame, are parallel and extend towards the rear lower part in an inclined manner; the tail ends of the two support rods II are respectively provided with an auxiliary wheel shaft II, auxiliary wheels II are respectively arranged on the auxiliary wheel shafts II, and the auxiliary wheels II can rotate relative to the auxiliary wheel shafts II;

two supporting rods III are arranged at two corners of the rear side of the lower part of the frame, are parallel and extend towards the rear lower part in an inclined manner; two sides of the drive axle are respectively and fixedly arranged at the tail ends of the two support rods III, and two ends of the drive axle are respectively provided with a power wheel;

the length of the projection of the support rod I on the horizontal plane is greater than that of the projection of the support rod II on the horizontal plane; the length of the projection of the support rod I on the horizontal plane is greater than that of the projection of the support rod III on the horizontal plane;

the crawler belt is arranged on the power wheel, the auxiliary wheel I and the auxiliary wheel II, the driving mechanism II is arranged on the mounting table and is driven to the driving axle through the transmission mechanism II, and the driving axle is driven to further drive the power wheel to rotate.

Further, the driving mechanism II is a motor.

Further, the transmission mechanism II comprises a transmission shaft II and a disc-shaped gear, and the upper end of the transmission shaft II is connected with the motor; the driving axle comprises a main speed reducer, wherein a conical gear is arranged on the main speed reducer, the lower end of the transmission shaft II is meshed with the conical gear of the driving axle through a disc-shaped gear, the power of the motor is transmitted to the driving axle, the power wheel is driven to rotate, and the power wheel, the auxiliary wheel I and the auxiliary wheel II drive the track to move.

The working process of the invention is as follows:

the engine provides power to be transmitted to the speed distribution box, the speed distribution box transmits the power to the transmission shaft II, when the transmission shaft II does circular motion, the small belt pulley fixedly connected with the transmission shaft II drives the belt to move, the belt drives the large belt pulley to do circular motion, the large belt pulley drives the cam rod I to rotate, when the cam rod I does circular motion, the cam rod II is driven to do reciprocating linear motion in the sliding groove I, meanwhile, the cam rod III is driven to slide in the sliding groove II, the groove body I and the groove body II are thrust to do reciprocating linear motion along the left and right direction of the mounting table, so that the upper saw blade and the lower saw blade do staggered reciprocating linear motion, and grass clusters extending through the strip openings are cut;

the engine provides power to be transmitted to the speed distribution box, the speed distribution box transmits the power to the drive axle through the transmission shaft I, the drive axle is connected with the transmission shaft I through the helical gear and the helical gear, the drive axle transmits the power to the power wheel to drive the power wheel to do circular motion, the power wheel is meshed with the crawler through the chain wheel to drive the crawler to move, and the walking function of the machine is realized; when the machine walks, the grass cluster extends upwards to a certain height through the long opening so as to be convenient for trimming.

The flower and grass trimming device provided by the invention is provided with the crawler traveling mechanism, and can be combined with the existing mobile robot control system to form the weeding robot capable of automatically moving.

The invention has the beneficial effects that:

through reasonable design, the running mechanism and the trimming operation of the trimming device are respectively driven by the engine, so that the structure is compact and the operation is convenient; the crawler type moving mode is adopted, the more complex terrain can be adapted, the middle of the crawler is hollow, and grass can be inserted into the crawler type moving mode to be trimmed while the weight is reduced; the driving mechanism I, the transmission mechanism and the trimming mechanism are arranged in the crawler belt, so that high-precision trimming can be realized, meanwhile, the space is greatly saved, and the whole machine is smaller and more convenient to carry; due to the arrangement of the telescopic mechanism, an operator can set the corresponding length as required to trim lawns with different heights; the belt box is matched with the spline structure, so that the telescopic lifting of the whole trimming mechanism is realized; the cam structure is adopted to control the reciprocating motion of the upper saw blade and the lower saw blade, so that the continuity of the trimming operation is ensured, and the trimming device is safe and efficient. The connecting rod and the limiting rod can limit the displacement of the cam structure in the vertical and horizontal directions, and the stability of the device is ensured.

The invention can adjust the trimming height, is matched with the existing mobile robot control system to be used as a robot for application, has the advantages of automatic height in the whole trimming process, reduced working strength, simple structure, convenient and easy operation, low cost, strong practicability, good continuity and stability, safety and reliability, and is particularly suitable for scenes with certain requirements on the lawn uniformity, such as a court, a park and the like.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the construction of the clipping apparatus of the present invention;

FIGS. 3 and 5 are enlarged partial views of the trimming device of the present invention;

FIG. 4 is a schematic structural view of the telescoping mechanism of the present invention;

the numbers and names in the figure are as follows:

1-mounting a table; 2, a telescopic rod; 3-a chute base; 4-opening sliding groove; 5, mounting a saw blade; 6-lower saw blade; 7-long circular hole groove I; 8-a slide block I; 9-long circular hole groove II; 10-a slide block II; 11-a transmission shaft I; 12-an engine; 13-speed matching box; 14-a small pulley; 15-large belt wheel; 16-a belt; 17-cam lever I; 18-cam lever ii; 19-cam lever iii; 20-connecting piece I; 21-connecting piece II; 22-tank body I; 23-tank II; 24-a connecting rod; 25-a crawler belt; 26-a power wheel; 27-auxiliary wheel i; 28-auxiliary wheel ii; 29-drive shaft II; 30-a long hole; 31-support bar I; 32-support bar II; 33-support bar iii; 34-a support table; 35-shaft sleeve; 36-a frame; 37-auxiliary wheel axle I; 38-auxiliary wheel axle II; 39-drive axle; 40-sliding sleeve I; 41-a rack; 42-gear; 43-drive shaft III; 44-sliding sleeve II; 45-gear housing; 46-a belt box; 47-spline shaft I; 48-spline shaft II; 49-a connecting shaft; 50-spline shaft sleeve.

Detailed Description

The present invention will be described in detail below with reference to specific examples.