CN116716785B

CN116716785B - Pay-off is used in gardens construction

Info

Publication number: CN116716785B
Application number: CN202310668942.6A
Authority: CN
Inventors: 钱勇; 陶珏艳; 高翔; 上官茜; 张怿雯
Original assignee: Jiangsu Hengnuo Agricultural Technology Development Co ltd
Current assignee: Jiangsu Hengnuo Agricultural Technology Development Co ltd
Priority date: 2023-06-07
Filing date: 2023-06-07
Publication date: 2024-01-23
Anticipated expiration: 2043-06-07
Also published as: CN116716785A

Abstract

The invention relates to the technical field of garden construction, in particular to a pay-off device for garden construction, which comprises: the device comprises a moving mechanism, a throwing control mechanism, an ash scattering throwing mechanism and a path cable, wherein the throwing control mechanism is fixedly arranged on the bottom surface of the moving mechanism, the ash scattering throwing mechanism is fixedly arranged on the bottom surface of the throwing control mechanism, the moving mechanism is movably sleeved on the surface of the path cable, the moving mechanism comprises a moving vehicle body, a crawling rotating pipe, a driving assembly and a power supply control end box, and the crawling rotating pipe is rotatably arranged on the inner side of the moving vehicle body. According to the invention, the automatic moving paying-off structure is arranged, the path cable is utilized to carry out traction to form the guide line on the paying-off path, the moving mechanism carries out automatic movement on the surface of the path cable, the paying-off accuracy is guaranteed, the feeding paying-off movement is carried out through the bottom surface feeding control mechanism of the moving mechanism and the ash scattering feeding mechanism, the automatic fixed-point ash scattering in the arrangement direction of the path cable is realized, and the operation is simple and the paying-off accuracy is high.

Description

Pay-off is used in gardens construction

Technical Field

The invention relates to the technical field of garden construction, in particular to a pay-off device for garden construction.

Background

In order to ensure proper planting distance, fixed-point paying-off is often required to be realized to ensure the sites of plants, the device for construction paying-off is often applied to the process, the construction paying-off device is a design scheme on a drawing, the position of seedling planting and the plant row spacing are measured on site, the design intention is embodied through accurate construction paying-off, the effect required by greening engineering is achieved, and the working efficiency of workers is improved to a certain extent by using the paying-off device.

In the existing construction process, when determining plant planting sites, marking marks are usually marked by using a Sorbus bungeana, a wooden stick and the like, and then marking by using lime soil. Due to the lack of a relatively simple professional tool, this construction method often has certain drawbacks, such as: 1. the manual ash spreading and fixed point is completely based on experience, and the fixed point position and fixed point size are not standard (especially for working hours when pit digging is needed for arbor planting); 2. when manual dust scattering is carried out, the dust raising property and corrosiveness of lime cause a certain threat to the health of operators; 3. when the existing construction is carried out, ash is scattered from the ash box after the ash box is scratched, the tools are heavy and more, the fixed point marks are not convenient enough, and the construction efficiency is lower.

In view of the above, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a pay-off device for garden construction, which solves the problems of complicated manual operation and poor positioning accuracy of the existing pay-off and dust-spreading operation, and which solves the problems and improves the practical value.

Disclosure of Invention

The present invention aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the invention is as follows: pay-off for garden construction includes: the device comprises a moving mechanism, a throwing control mechanism, an ash scattering throwing mechanism and a path cable, wherein the throwing control mechanism is fixedly arranged on the bottom surface of the moving mechanism, the ash scattering throwing mechanism is fixedly arranged on the bottom surface of the throwing control mechanism, the moving mechanism is movably sleeved on the surface of the path cable, the moving mechanism comprises a moving vehicle body, a crawling rotating pipe, a driving assembly and a power supply control end box, the crawling rotating pipe is rotatably arranged on the inner side of the moving vehicle body, the power supply control end box is rotatably sleeved on the outer side of the crawling rotating pipe and is fixed in the moving vehicle body, and the driving assembly is fixedly arranged on the surface of the power supply control end box and is electrically connected with the output end of the power supply control end box;

the device comprises a feeding control mechanism, a feeding control mechanism and a power supply control end box, wherein the feeding control mechanism comprises a fixed base, a control motor, an ash storage box and a lifting shear fork, the control motor is fixedly arranged on the surface of the fixed base and is in transmission with an output end to condense a driving screw rod, the top end of the lifting shear fork is movably connected with a sliding block, the surface of the sliding block is provided with a threaded sleeve sleeved on the surface of the driving screw rod, the bottom end of the lifting shear fork is in surface movable connection with the ash storage box, the ash feeding mechanism comprises a mounting seat and an air inlet pump, a mixing manifold, an electromagnetic control valve and a spray head which are fixedly arranged on the surface of the mounting seat, the air inlet pump, the mixing manifold, the electromagnetic control valve and the spray head are sequentially communicated with each other from top to bottom, and the top end of the mixing manifold is provided with a guide pipe which is communicated with the bottom surface of the ash storage box, and the input end of the air inlet pump and the electromagnetic control valve is electrically connected with the output end of the power supply control end box.

The present invention may be further configured in a preferred example to: the inside of the power control end box is provided with a mobile power supply and a controller, the output end of the controller is electrically connected with the input end of the driving assembly, and the mobile power supply is of a lithium battery pack structure.

The present invention may be further configured in a preferred example to: the motor is characterized in that the two ends of the inner side of the motor body are respectively provided with a motor body, the two ends of the crawling rotary pipe are respectively and fixedly provided with a first rotary table and a second rotary table which are sleeved on the inner side of the bearing ring, the driving assembly comprises a moving toothed ring fixed on the surface of the first rotary table and a driving motor fixedly arranged on the surface of the power supply control end box, and an output shaft of the driving motor is provided with transmission teeth meshed with the inner side of the moving toothed ring.

The present invention may be further configured in a preferred example to: the surface of the power control end box is fixedly provided with a meter, an input shaft of the meter is meshed with the inner side of the moving toothed ring for transmission, and the output end of the meter is electrically connected with the input end of the power control end box.

The present invention may be further configured in a preferred example to: the inner side of the crawling rotating pipe is provided with a spiral guide groove, a spiral rib is formed on the surface of the path cable, and the outer side of the path cable is in sliding abutting connection with the inner side of the spiral guide groove.

The present invention may be further configured in a preferred example to: the bottom surface of fixed frame is equipped with the motion guide rail, the slider sliding sleeve connects in the bottom surface of motion guide rail, the both sides screw thread of drive lead screw is opposite and about fixed frame bottom surface central line symmetry, the bottom surface of fixed frame is equipped with the lag with ash storage box top surface fixed connection, the lag is flexible fold form sleeve structure, the lift is cut the fork and is located the inside of lag.

The present invention may be further configured in a preferred example to: the inside of compounding manifold is equipped with a plurality of manifolds, a plurality of the upper and lower both ends of manifold all are linked together with the bottom surface of ash storage box and the one end of electromagnetic control valve.

The present invention may be further configured in a preferred example to: the path cable is formed by spirally winding a multi-strand cable, the path cable is made of rubber or nylon, and fixed pile foundations are arranged at two ends of the path cable 400.

The beneficial effects obtained by the invention are as follows:

1. according to the invention, the automatic moving paying-off structure is arranged, the path cable is utilized to carry out traction to form the guide line on the paying-off path, the moving mechanism carries out automatic movement on the surface of the path cable, the paying-off accuracy is guaranteed, the feeding paying-off movement is carried out through the bottom surface feeding control mechanism of the moving mechanism and the ash scattering feeding mechanism, the automatic fixed-point ash scattering in the arrangement direction of the path cable is realized, and the operation is simple and the paying-off accuracy is high.

2. According to the invention, by arranging the novel movement structure, the crawling rotary pipe rotating inside the movement mechanism is utilized to be in adaptive engagement with the spiral ribs on the surface of the path cable, the movement mechanism moves forward along the whole surface of the crawling rotary pipe in the rotation of the crawling rotary pipe, compared with the movement of a traditional mechanical wheel, the movement distance is more accurate to control, and the crawling rotary pipe and the ribs on the surface of the path cable can not be reversely driven when the surface of the path cable stops, so that the movement mechanism can still ensure the locking of the relative positions of the movement mechanism and the surface of the path cable under the action of external force, and the paying-off error caused by the passive deviation of the movement mechanism is avoided.

3. According to the invention, the lifting movement of the ash spreading mechanism is controlled by the ash spreading control mechanism, the ash spreading height of the ash spreading mechanism can be changed by driving of the ash spreading control mechanism in the process of paying off ash spreading, the size control of ash spreading mark points is realized, the scattering deviation of mark ash powder caused by the overhigh position of the ash spreading mechanism relative to the ground is avoided, the accuracy of mark points is further improved, and the damage of dust raising property and corrosiveness to staff is avoided.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a moving mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic view of a drive assembly mounting structure according to one embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a crawling pipe according to an embodiment of the present invention;

FIG. 5 is a schematic view of a delivery control mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic view of an ash spreading mechanism according to an embodiment of the invention;

fig. 7 is a schematic view of a path cable construction according to an embodiment of the present invention.

Reference numerals:

100. a moving mechanism; 110. a moving vehicle body; 120. crawling a rotary pipe; 130. a drive assembly; 140. a power supply control terminal box; 111. a bearing ring; 121. a first turntable; 122. a second turntable; 123. a spiral guide groove; 131. a moving toothed ring; 132. a driving motor; 133. a gauge;

200. a delivery control mechanism; 210. fixing the stand; 220. controlling a motor; 230. an ash storage box; 240. lifting a scissor fork; 211. a moving guide rail; 212. a protective sleeve; 221. driving a screw rod; 241. a slide block;

300. an ash spreading and throwing mechanism; 310. a mounting base; 320. an air inlet pump; 330. a mixing manifold; 340. an electromagnetic control valve; 350. a spray head;

400. a path cable.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present invention and features in the embodiments may be combined with each other.

The following describes a pay-off device for garden construction according to some embodiments of the present invention with reference to the accompanying drawings.

Referring to fig. 1 to 7, the paying-off device for garden construction provided by the invention comprises: the device comprises a moving mechanism 100, a throwing control mechanism 200, an ash scattering throwing mechanism 300 and a path cable 400, wherein the throwing control mechanism 200 is fixedly arranged on the bottom surface of the moving mechanism 100, the ash scattering throwing mechanism 300 is fixedly arranged on the bottom surface of the throwing control mechanism 200, the moving mechanism 100 is movably sleeved on the surface of the path cable 400, the moving mechanism 100 comprises a moving vehicle body 110, a crawling rotary pipe 120, a driving component 130 and a power supply control end box 140, the crawling rotary pipe 120 is rotatably arranged on the inner side of the moving vehicle body 110, the power supply control end box 140 is rotatably sleeved on the outer side of the crawling rotary pipe 120 and is fixed in the moving vehicle body 110, and the driving component 130 is fixedly arranged on the surface of the power supply control end box 140 and is electrically connected with the output end of the power supply control end box 140;

the feeding control mechanism 200 comprises a fixed base 210, a control motor 220, an ash storage box 230 and a lifting shear fork 240, wherein the control motor 220 is fixedly arranged on the surface of the fixed base 210 and the output end is in transmission to condense a driving screw rod 221, the top end of the lifting shear fork 240 is movably connected with a sliding block 241, the surface of the sliding block 241 is provided with a threaded sleeve sleeved on the surface of the driving screw rod 221, the bottom end of the lifting shear fork 240 is movably connected with the surface of the ash storage box 230, the ash scattering feeding mechanism 300 comprises a mounting seat 310 and an air inlet pump 320, a mixing manifold 330, an electromagnetic control valve 340 and a spray head 350 which are fixedly arranged on the surface of the mounting seat 310, the air inlet pump 320, the mixing manifold 330, the electromagnetic control valve 340 and the spray head 350 are sequentially arranged from top to bottom to be mutually communicated, the top end of the mixing manifold 330 is provided with a guide pipe which is communicated with the bottom surface of the ash storage box 230, and the input ends of the air inlet pump 320 and the electromagnetic control valve 340 are electrically connected with the output end of the power supply control end box 140.

In this embodiment, a mobile power source and a controller are disposed inside the power control terminal box 140, and an output end of the controller is electrically connected to an input end of the driving assembly 130, and the mobile power source is in a lithium battery pack structure.

Specifically, the control structure and the power supply module are integrally arranged by using the power supply control terminal box 140, so that the independent movement of the moving mechanism 100 is realized, and the control terminal performs automatic programming control of the moving mechanism 100, the throwing control mechanism 200 and the ash scattering throwing mechanism 300.

In this embodiment, both ends of the inner side of the moving vehicle body 110 are respectively provided with the moving vehicle body 110, both ends of the crawling rotary pipe 120 are respectively and fixedly provided with a first rotary disk 121 and a second rotary disk 122 which are sleeved on the inner side of the bearing ring 111, the driving assembly 130 comprises a moving toothed ring 131 fixed on the surface of the first rotary disk 121 and a driving motor 132 fixedly arranged on the surface of the power control end box 140, and the output shaft of the driving motor 132 is provided with transmission teeth meshed with the inner side of the moving toothed ring 131.

Specifically, by using the meshing transmission of the movement toothed ring 131 and the driving motor 132, the crawling rotary pipe 120 is driven by the driving motor 132 to perform rotational movement through the supports of the first rotary plate 121, the second rotary plate 122 and the bearing ring 111.

In this embodiment, the surface of the power control terminal box 140 is fixedly provided with a gauge 133, an input shaft of the gauge 133 is engaged with the inner side of the moving toothed ring 131, and an output end of the gauge 133 is electrically connected with an input end of the power control terminal box 140.

Specifically, the number of turns of the crawling rotary pipe 120 is measured by the gauge 133 during the rotation of the moving toothed ring 131, and when the number of turns reaches the number of turns of the rotational movement of the crawling rotary pipe 120 defined by the paying-off distance, the gauge 133 sends out an electric signal to control the stop of the driving motor 132 and control the feeding control mechanism 200 and the ash scattering feeding mechanism 300 to work.

In this embodiment, the spiral guide groove 123 is provided on the inner side of the crawling rotation pipe 120, the spiral ribs are formed on the surface of the path cable 400, and the outer side of the path cable 400 is slidably abutted against the inner side of the spiral guide groove 123.

Specifically, the spiral guide groove 123 on the inner side of the crawling rotary pipe 120 is meshed with the surface of the path cable 400, so that the rotary motion of the crawling rotary pipe 120 is converted into spiral travel of the crawling rotary pipe 120 on the surface of the path cable 400, the gravity sag of the throwing control mechanism 200 and the ash scattering throwing mechanism 300 ensures that the whole moving mechanism 100 has a motion trend in the horizontal direction only due to the constant angle of the moving mechanism 100, the moving mechanism 100 translates on the surface of the path cable 400 to automatically move and drive the moving mechanism 100, and when the moving mechanism 100 stops, the crawling rotary pipe 120 and the ribs on the surface of the path cable 400 cannot be reversely driven, so that the moving mechanism 100 can still ensure the locking of the relative positions of the moving mechanism 100 and the surface of the path cable 400 under the action of external force, and the paying-off error caused by the passive offset of the moving mechanism 100 is avoided.

In this embodiment, the bottom surface of the fixed base 210 is provided with a moving guide rail 211, the sliding block 241 is slidably sleeved on the bottom surface of the moving guide rail 211, the threads on two sides of the driving screw rod 221 are opposite and symmetric about the central line of the bottom surface of the fixed base 210, the bottom surface of the fixed base 210 is provided with a protecting sleeve 212 fixedly connected with the top surface of the ash storage box 230, the protecting sleeve 212 is of a flexible stacked sleeve structure, and the lifting scissor 240 is located inside the protecting sleeve 212.

Specifically, the control motor 220 is used to drive the moving guide rail 211 to rotate, the threads of opposite rotation directions at two ends of the surface of the moving guide rail 211 enable the driving screw rod 221 to move relatively close to or away from the surface of the driving screw rod 221 in rotation, so that the lifting scissor 240 is driven to deform, and the protective sleeve 212 is used as a protective sleeve of the lifting scissor 240, so that dust is prevented from affecting the moving guide rail 211 and the surface moving assembly of the driving screw rod 221.

In this embodiment, the mixing manifold 330 is provided with a plurality of manifolds, and the upper and lower ends of the manifolds are connected to the bottom surface of the ash storage box 230 and one end of the electromagnetic control valve 340.

Specifically, the air flow and the ash powder are uniformly mixed by utilizing the guiding function of the air flow and the ash powder by utilizing a plurality of manifolds in the ash scattering and throwing mechanism 300, so that the spraying effect is improved.

In this embodiment, the path cable 400 is formed by spirally winding a multi-strand cable, the path cable 400 is a rubber or nylon member, and both ends of the path cable 400 are provided with a fixed pile foundation.

Specifically, the flexible path cable 400 is used for traction and stretching to serve as a guide path, the moving mechanism 100 automatically moves on the surface of the path cable 400, the paying-off accuracy is guaranteed, the feeding and paying-off movement is performed through the bottom surface feeding control mechanism 200 of the moving mechanism 100 and the ash scattering feeding mechanism 300, and automatic fixed-point ash scattering in the arrangement direction of the path cable 400 is realized.

The working principle and the using flow of the invention are as follows:

when the paying-off device for garden construction is used, firstly, required marking ash powder is filled into an ash storage box 230, pile foundations are established at two ends of a paying-off path, a path cable 400 is laid, two ends of the path cable 400 are pulled and straightened to be fixed on the surface of the pile foundations, a moving mechanism 100 is sleeved on the surface of the path cable 400, paying-off distance and paying-off mark point size are set, and the paying-off distance is converted into the number of rotation turns of a crawling rotary pipe 120 and the lifting driving distance of a throwing control mechanism 200 by a control end to automatically control the moving mechanism 100 and the throwing control mechanism 200; in the paying-off process, the gravity sagging of the throwing control mechanism 200 and the ash scattering throwing mechanism 300 always keeps the throwing control mechanism 200 and the ash scattering throwing mechanism 300 vertical to the ground, the driving motor 132 drives the first rotary disc 121, the second rotary disc 122 and the spiral guide groove 123 to integrally rotate at the inner side of the bearing ring 111 through the engagement with the surface motion toothed ring 131 of the first rotary disc 121, the engagement between the spiral guide groove 123 at the inner side of the crawling rotary tube 120 and the surface of the path cable 400 converts the rotation motion of the crawling rotary tube 120 into the spiral advancing of the crawling rotary tube 120 on the surface of the path cable 400, and the throwing control mechanism 200 and the ash scattering mechanism 300 ensure the constant motion trend of the moving mechanism 100 in the horizontal direction because of the gravity sagging of the throwing control mechanism 200 and the ash scattering mechanism 300, so that the moving mechanism 100 integrally only has the motion trend in the horizontal direction, the moving mechanism 100 translates on the surface of the path cable 400, the rotation number of the crawling rotary tube 120 is metered through the meter 133 in the rotation of the motion toothed ring 131, and after the rotation number reaches the rotation number of the crawling rotary tube 120 defined by the paying-off distance, the meter 133 sends out an electric signal to control the stop of the driving motor 132, and the throwing control mechanism 300 is controlled to work;

the screw 221 is driven to rotate under the driving control of the control motor 220 so that the sliding block 241 slides along the surface of the moving guide rail 211, the two ends of the lifting shear fork 240 relatively move, the two ends of the lifting shear fork 240 relatively approach to the deformation and elongation of the lifting shear fork 240 to reduce the height of the ash spreading mechanism 300, otherwise, the bottom end ground clearance of the ash spreading mechanism 300 is increased, the spraying size of ash spreading points is changed by controlling the ground clearance of the ash spreading mechanism 300, the air flow is injected into a pipeline by the air inlet pump 320 in ash spreading, the air flow and ash powder are mutually mixed after passing through the interior of the mixing manifold 330, the pipeline is controlled to be opened instantaneously by the electromagnetic control valve 340, the ash powder is wrapped by the high-pressure air flow in the interior of the mixing manifold 330 and sprayed out by the spray head 350, the ash is spread at fixed points, and the operation is repeated, so that the moving mechanism 100 spreads ash at fixed points along the path of the path cable 400, and automatic paying-off is realized.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims

1. Pay-off for garden construction, characterized by comprising: the automatic ash spraying device comprises a moving mechanism (100), a spraying control mechanism (200), an ash spraying mechanism (300) and a path cable (400), wherein the spraying control mechanism (200) is fixedly arranged on the bottom surface of the moving mechanism (100), the ash spraying mechanism (300) is fixedly arranged on the bottom surface of the spraying control mechanism (200), the moving mechanism (100) is movably sleeved on the surface of the path cable (400), the moving mechanism (100) comprises a moving car body (110), a crawling rotary pipe (120), a driving assembly (130) and a power supply control end box (140), the crawling rotary pipe (120) is rotatably arranged on the inner side of the moving car body (110), the power supply control end box (140) is rotatably sleeved on the outer side of the crawling rotary pipe (120) and is fixed in the moving car body (110), and the driving assembly (130) is fixedly arranged on the surface of the power supply control end box (140) and is electrically connected with the output end of the power supply control end box (140).

The utility model provides a control mechanism (200) is put in, includes fixed frame (210), control motor (220), ash storage box (230) and lift and cut fork (240), control motor (220) fixed mounting is in fixed frame (210) surface and output transmission come to condense and have drive lead screw (221), the top swing joint of lift is cut fork (240) has slider (241), the surface of slider (241) is equipped with cup joints in the screw sleeve on drive lead screw (221) surface soon, the bottom of lift is cut fork (240) and the surface swing joint of ash storage box (230), ash scattering put in mechanism (300) include mount pad (310) and fixed mounting in mount pad (310) surperficial air inlet pump (320), compounding manifold (330), electromagnetic control valve (340) and shower nozzle (350), air inlet pump (320), compounding manifold (330), electromagnetic control valve (340) and shower nozzle (350) are arranged each other and are linked together from last to arranging in proper order, the top of compounding manifold (330) is equipped with the guide pipe that is linked together with ash storage box (230) bottom surface, the power supply end (140) of compounding manifold (340) and control valve (340) and electric connection.

2. The pay-off device for garden construction according to claim 1, wherein a mobile power supply and a controller are arranged on the inner side of the power supply control end box (140), the output end of the controller is electrically connected with the input end of the driving assembly (130), and the mobile power supply is of a lithium battery pack structure.

3. The pay-off device for garden construction according to claim 1, wherein both ends of the inner side of the moving vehicle body (110) are respectively provided with the moving vehicle body (110), both ends of the crawling rotary pipe (120) are respectively fixedly provided with a first rotary disk (121) and a second rotary disk (122) which are sleeved on the inner side of the bearing ring (111), the driving assembly (130) comprises a moving toothed ring (131) fixed on the surface of the first rotary disk (121) and a driving motor (132) fixedly arranged on the surface of the power control end box (140), and a transmission tooth meshed with the inner side of the moving toothed ring (131) is arranged on an output shaft of the driving motor (132).

4. The pay-off device for garden construction according to claim 1, wherein a meter (133) is fixedly installed on the surface of the power control end box (140), an input shaft of the meter (133) is in meshed transmission with the inner side of the moving toothed ring (131), and an output end of the meter (133) is electrically connected with an input end of the power control end box (140).

5. The pay-off device for garden construction according to claim 1, wherein a spiral guide groove (123) is formed on the inner side of the crawling rotary pipe (120), a spiral rib is formed on the surface of the path cable (400), and the outer side of the path cable (400) is in sliding abutting connection with the inner side of the spiral guide groove (123).

6. The pay-off device for garden construction according to claim 1, wherein the bottom surface of the fixed base (210) is provided with a moving guide rail (211), the sliding block (241) is sleeved on the bottom surface of the moving guide rail (211) in a sliding manner, threads on two sides of the driving screw rod (221) are opposite and symmetrical relative to a central line of the bottom surface of the fixed base (210), a protecting sleeve (212) fixedly connected with the top surface of the ash storage box (230) is arranged on the bottom surface of the fixed base (210), the protecting sleeve (212) is of a flexible stacked sleeve structure, and the lifting scissor (240) is located inside the protecting sleeve (212).

7. The pay-off device for garden construction according to claim 1, wherein a plurality of manifolds are arranged on the inner side of the mixing manifold (330), and the upper ends and the lower ends of the manifolds are communicated with the bottom surface of the ash storage box (230) and one end of the electromagnetic control valve (340).

8. The pay-off device for garden construction according to claim 1, wherein the path cable (400) is formed by spirally winding a multi-strand cable, the path cable (400) is made of rubber or nylon, and both ends of the path cable (400) are provided with fixed pile foundations.