CN110939092A - Leaf cleaning device for environmental cleaning and using method thereof - Google Patents

Abstract

The invention relates to the field of environmental sanitation equipment, in particular to a leaf cleaning device for environmental cleaning and a use method thereof. According to the leaf cleaning device for environmental cleaning and the using method thereof, the leaves are scraped from the ground through the scraping mechanism, so that the leaf cleaning effect is improved, and the leaf cleaning efficiency is improved.

Description

Leaf cleaning device for environmental cleaning and using method thereof

Technical Field

The invention relates to the field of environmental sanitation equipment, in particular to a leaf cleaning device for environmental cleaning and a using method thereof.

Background

The cleaning of leaf is the important work that keeps living environment, and current leaf cleaning equipment adopts negative pressure suction's mode to suck the clearance to the leaf usually, but to the leaf that bonds with the laminating on road surface and the leaf on uneven ground, the turf, then the clearance effect is relatively poor, the leaf often bonds together after being stained with the water corruption, lead to the suction not enough, the leaf falls subaerial once more, the suction effect is relatively poor, lead to the leaf cleaning efficiency lower, in view of this, we provide a leaf cleaning device and application method that the environmental cleaning used.

Disclosure of Invention

The present invention is directed to a leaf cleaning device for environmental cleaning and a method for using the same, so as to solve the problems of the background art.

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

on the one hand, the leaf cleaning device of a clean usefulness of environment is provided, including the air current pipe, the lateral wall of air current pipe is provided with takes off material mechanism and air current booster mechanism, the lower port department of air current pipe is provided with shakes the mechanism that looses, it includes motor and pendulum rod to take off material mechanism, and the motor is connected with the pendulum rod transmission, it includes the fan plywood to shake the mechanism that looses, and the fan plywood articulates on the lower port lateral wall of air current pipe, air current booster mechanism is located the top of taking off the material mechanism, air current booster mechanism includes a pressure boost section of thick bamboo and fixes the gas injection box on the fan plywood, pressure boost section of thick bamboo communicates with air current pipe and gas injection box through the pipeline respectively, the motor passes through the pendulum rod and.

Preferably, the motor is fixed on the right end face of the outer side wall of the lower end of the airflow pipe, an output shaft end of the motor is fixedly connected with a rocker, and the free end of the rocker is hinged with the middle of the rocker.

Preferably, a strip-shaped groove is formed in the upper end of the oscillating rod, the lower end of the oscillating rod is fixed with the claw, a cantilever is fixed on the side wall of the airflow pipe, a pin shaft is fixed at the end of the cantilever and is inserted into the strip-shaped groove and can slide in the strip-shaped groove.

Preferably, the pressurizing cylinder is fixed on the right end face of the outer side wall of the airflow pipe, a piston plate is connected in the pressurizing cylinder in a sliding mode and divides the interior of the pressurizing cylinder into a first cavity and a second cavity, a pull rod is fixedly connected to the lower surface of the piston plate, the lower end of the pull rod penetrates through the lower end face of the pressurizing cylinder and is exposed to the lower portion of the pressurizing cylinder, the pull rod can slide on the lower end face of the pressurizing cylinder, and the lower end of the pull rod is hinged to the upper end of the swing rod through a first connecting rod.

Preferably, the first cavity is located on the upper side of the piston plate, the upper end face of the pressurizing cylinder is connected with a first air inlet pipe and a first air outlet pipe, the first air inlet pipe and the first air outlet pipe are communicated with the first cavity, the first air inlet pipe and the first air outlet pipe are respectively connected with a first check valve and a second check valve, and the first air inlet pipe is communicated with a first air inlet hole formed in the side wall of the airflow pipe.

Preferably, the second cavity is located on the lower side of the piston plate, the lower end face of the pressurizing cylinder is connected with a second air inlet pipe and a second air outlet pipe, the second air inlet pipe and the second air outlet pipe are communicated with the second cavity, the second air inlet pipe and the second air outlet pipe are respectively connected with a third one-way valve and a fourth one-way valve, and the second air inlet pipe is communicated with a second air inlet hole formed in the side wall of the airflow pipe.

Preferably, the left side limit dead axle of the left side limit of fan plywood and air current pipe lower port rotates to be connected, and the middle part articulated connection of connecting rod two and pendulum rod that passes through of fan plywood, and the pin joint of connecting rod two and pendulum rod is located between bar groove and the rocker, and the right side limit of fan plywood is fixed with the jet-propelled box, and first outlet duct and second outlet duct all communicate with the jet-propelled box through exhaust manifold.

Preferably, the gas spray box is formed by connecting an upper box body and a lower box body in a buckling manner, the lower box body is fixed on the right side edge of the fan-shaped plywood, an air inlet channel is formed in the lower box body, and the exhaust main pipe is communicated with the air inlet channel.

Preferably, a filter screen is inserted in the air inlet channel, the air inlet channel is communicated with the inner cavity of the upper box body, the left side wall of the upper box body is provided with an air jet hole, and the air jet direction of the air jet hole is parallel to the fan plywood leftwards.

In another aspect, the present application provides a method for using a leaf cleaning device for environmental cleaning based on the above-mentioned device introduction, comprising the following steps:

the method comprises the following steps: the leaves are raked up through the raking mechanism and pushed to the shaking and scattering mechanism;

step two: the material pushing mechanism drives the shaking and scattering mechanism to shake and scatter the leaves;

step three: the material scraping mechanism drives the airflow pressurizing mechanism to extract and pressurize airflow on the inner side of the airflow pipe and then output the airflow to the shaking and dispersing mechanism to form circulation.

Compared with the prior art, the invention has the beneficial effects that:

according to the leaf scraping mechanism, the leaves are scraped from the ground through the scraping mechanism, so that the leaves adhered to the ground, uneven ground and turf can smoothly enter the leaf-combining plate, the leaf cleaning effect is improved, and the leaf cleaning efficiency is improved.

According to the leaf cleaning device, the material scraping mechanism drives the shaking and scattering mechanism to shake and scatter leaves while scraping materials, so that the leaves can smoothly enter the airflow pipe along with the airflow under the action of the airflow, the high-efficiency suction of the leaves is realized, and the leaf cleaning efficiency is improved.

According to the leaf scraping device, the air flow pressurizing mechanism is driven to suck air in the air flow pipe and form circulation to be sprayed out of the air spraying box when the material scraping mechanism scrapes materials, the air flow rate is increased, the suction force on leaves is increased, the leaves are further scattered by the air flow sprayed out of the air spraying box in the leaf scraping process of the scraping mechanism, the scraping effect is improved, the leaves move upwards under the action of the air flow, the air flow sucking of the air flow pipe on the leaves is facilitated, and the cleaning effect and the working efficiency of the leaves are improved.

Drawings

FIG. 1 is a first schematic view of the cross-sectional structure of the final assembly of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the final assembly of the present invention;

FIG. 3 is a third schematic view of the cross-sectional structure of the final assembly of the present invention;

FIG. 4 is a fourth schematic cross-sectional view of the assembly of the present invention;

fig. 5 is a schematic cross-sectional view of a portion a in fig. 1.

In the figure: 1-an airflow pipe; 2, a motor; 3-a rocker arm; 4-oscillating bar; 5-picking the claw; 6-a strip-shaped groove; 7-a cantilever; 8-a pin shaft; 9-a pressurizing cylinder; 10-a piston plate; 11-a pull rod; 12-connecting rod one; 13-a first inlet port; 14-a second air intake; 15-a second inlet pipe; 16-a third one-way valve; 17-a second outlet duct; 18-a fourth one-way valve; 19-a first inlet line; 20-a first one-way valve; 21-a first outlet pipe; 22-a second one-way valve; 23-an exhaust manifold; 24-fan plywood; 25-link two; 26-an air-jet box; 27-lower box; 28-an intake passage; 29-filter screen; 30-upper box body; 31-gas injection holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution:

a leaf cleaning device for environmental cleaning comprises an airflow pipe 1, a material scraping mechanism and an airflow supercharging mechanism are arranged on the outer side wall of the airflow pipe 1, a shaking-off mechanism is arranged at the lower port of the airflow pipe 1 and comprises a motor 2 and a swing rod 4, the motor 2 is in transmission connection with the swing rod 4, the shaking-off mechanism comprises a fan plywood 24, the fan plywood 24 is hinged on the side wall of the lower port of the airflow pipe 1, the airflow supercharging mechanism is positioned above the material scraping mechanism and comprises a supercharging cylinder 9 and an air injection box 26 fixed on the fan plywood 24, the supercharging cylinder 9 is respectively communicated with the airflow pipe 1 and the air injection box 26 through pipelines, the motor 2 is respectively in transmission connection with the supercharging cylinder 9 and the fan plywood 24 through the swing rod 4, the airflow pipe 1 in the application can be installed on environmental cleaning equipment, namely the upper port of the airflow pipe 1 is connected to the air inlet of an air exhaust component of the environmental cleaning equipment, through the convulsions part, provide suction in the air current pipe 1, for example leaf motor sweeper for to the cleanness of leaf, also can set up a leaf standing groove in air current pipe 1, this standing groove can take out the leaf, and in the standing groove or notch position installation suction fan provide suction for air current pipe 1 in, the use of cooperation gas spray box 26 blows in the standing groove with the leaf, and the leaf of taking out the collection in the standing groove can.

In the embodiment, the motor 2 is fixed on the right end face of the outer side wall of the lower end of the airflow pipe 1, the output shaft end of the motor 2 is fixedly connected with the rocker 3, and the free end of the rocker 3 is hinged with the middle of the rocker 4.

In this embodiment, a strip-shaped groove 6 is formed in the upper end of the swing rod 4, a claw 5 is fixed to the lower end of the swing rod, a cantilever 7 is fixed to the side wall of the airflow pipe 1, a pin shaft 8 is fixed to the end portion of the cantilever 7, and the pin shaft 8 is inserted into the strip-shaped groove 6 and can slide in the strip-shaped groove 8.

In this embodiment, the pressure increasing cylinder 9 is fixed on the right end surface of the outer side wall of the airflow pipe 1, a piston plate 10 is connected in the pressure increasing cylinder 9 in a sliding manner, the interior of the pressure increasing cylinder 9 is divided into a first cavity and a second cavity by the piston plate 10, a pull rod 11 is fixedly connected to the lower surface of the piston plate 10, the lower end of the pull rod 11 penetrates through the lower end surface of the pressure increasing cylinder 9 and is exposed below the pressure increasing cylinder 9, the pull rod 11 can slide on the lower end surface of the pressure increasing cylinder 9, and the lower end of the pull rod 11 is hinged to the upper end of the swing rod 4 through a first connecting.

In this embodiment, the first cavity is located on the upper side of the piston plate 10, the upper end surface of the pressurizing cylinder 9 is connected with a first air inlet pipe 19 and a first air outlet pipe 21, the first air inlet pipe 19 and the first air outlet pipe 21 are both communicated with the first cavity, the first air inlet pipe 19 and the first air outlet pipe 21 are respectively connected with a first check valve 20 and a second check valve 22, the first air inlet pipe 19 is communicated with a first air inlet hole 13 formed in the side wall of the airflow pipe 1, the conduction direction of the first check valve 20 points to the first cavity, and the conduction direction of the second check valve 22 points to the air injection box 26.

In this embodiment, the second cavity is located on the lower side of the piston plate 10, the lower end surface of the pressurizing cylinder 9 is connected with a second air inlet pipe 15 and a second air outlet pipe 17, the second air inlet pipe 15 and the second air outlet pipe 17 are both communicated with the second cavity, the second air inlet pipe 15 and the second air outlet pipe 17 are respectively connected with a third check valve 16 and a fourth check valve 18, the second air inlet pipe 15 is communicated with a second air inlet hole 14 formed in the side wall of the airflow pipe 1, the conduction direction of the third check valve 16 points to the second cavity, and the conduction direction of the fourth check valve 18 points to the air injection box 26.

In this embodiment, the left side of the fan plywood 24 is connected with the dead axle rotation of the left side of the lower port of the airflow pipe 1, the fan plywood 24 is connected with the middle part of the swing rod 4 through the second connecting rod 25 in a hinged manner, the second connecting rod 25 is located between the strip-shaped groove 6 and the swing rod 3 with the hinged point of the swing rod 4, the air injection box 26 is fixed on the right side of the fan plywood 24, and the first air outlet pipe 21 and the second air outlet pipe 17 are communicated with the air injection box 26 through the main exhaust pipe 23.

In this embodiment, as shown in fig. 5, the air injection box 26 is formed by fastening and connecting an upper box body 30 and a lower box body 27, the lower box body 27 is fixed on the right side edge of the fan-joint plate 24, an air inlet channel 28 is formed on the lower box body 27, and the exhaust manifold 23 is communicated with the air inlet channel 28.

In this embodiment, a filter screen 29 is inserted into the air inlet channel 28, the air inlet channel 28 is communicated with the inner cavity of the upper box 30, and the left side wall of the upper box 30 is provided with an air vent 31, and the air blowing direction of the air vent 31 is parallel to the fan-joint plate 24 at the left.

In addition, referring to fig. 1 to 5, the present invention provides a method for using the above technical solution: when the leaf cleaning device for environmental cleaning is used, the leaf cleaning device comprises the following steps:

the method comprises the following steps: as shown in fig. 1 to 4, when the motor 2 is started, the motor 2 drives the rocker 3 to rotate clockwise, so as to drive the rocker 4 to perform pendulum motion around the pin 8 on a vertical surface, and perform up-and-down motion along with the height change of the free end of the rocker 3 in the vertical direction;

when the rocker 3 drives the swing rod 4 to move from a figure 1 to a figure 2, the swing rod 4 rotates clockwise around the pin shaft 8 under the action of the rocker 3 and moves downwards, the lower-end pickpocket 5 is driven to swing synchronously in the swinging process of the swing rod 4, the pickpocket 5 moves leftwards in the transverse direction, the pickpocket 5 moves upwards and downwards in the vertical direction under the action of the rocker 3, the leaves are pushed to the fan-shaped plywood 24 through the pickpocket 5, when the rocker 3 drives the swing rod 4 to move from the figure 2 to the figure 3, the swing rod 4 continues to rotate clockwise around the pin shaft 8 under the action of the rocker 3 and moves upwards, the lower-end pickpocket 5 is driven to swing synchronously in the swinging process of the swing rod 4, the pickpocket 5 continues to move leftwards in the transverse direction, the pickpocket 5 moves upwards in the vertical direction under the action of the rocker 3, the leaves are pulled to the fan-shaped plywood 24 through the pickpocket 5, and the leaves are picked up from the ground through the pickpocket 5, the leaves adhered on the ground and uneven ground and turf can smoothly enter the fan-shaped plywood 24, so that the leaf cleaning effect is improved, and the leaf cleaning efficiency is improved;

when the rocker 3 drives the swing rod 4 to move from a figure 3 to a figure 4, the swing rod 4 rotates anticlockwise around a pin shaft 8 under the action of the rocker 3 and moves upwards, the lower-end raking claw 5 is driven to synchronously swing in the swinging process of the swing rod 4, the raking claw 5 moves rightwards in the transverse direction, the raking claw 5 continues to move upwards in the vertical direction under the action of the rocker 3, when the rocker 3 drives the swing rod 4 to move from the figure 4 to the figure 1, the swing rod 4 continues to rotate anticlockwise around the pin shaft 8 under the action of the rocker 3 and moves downwards, the lower-end raking claw 5 is driven to synchronously swing in the swinging process of the swing rod 4, the raking claw 5 continues to move rightwards in the transverse direction, and the raking claw 5 moves downwards in the vertical direction under the action of the rocker 3, so that circulation is formed, the circulation raking of leaves on the ground is realized;

step two: in the process that the swing rod 4 moves up and down, the fan plywood 24 is driven to do reciprocating swing anticlockwise-clockwise around the lower port of the fan plywood 24 and the airflow pipe 1 through the second connecting rod 25, the second connecting rod 25 is located on the outer side of the airflow pipe 1 and is not in contact with the airflow pipe 1, therefore, the airflow pipe 1 cannot block the movement of the second connecting rod 25, the leaf on the fan plywood 24 is pushed to the claw 5 to shake up and down, the leaves adhered together or stacked thickly leaves are shaken and dispersed, the leaves can smoothly enter the airflow pipe 1 along with the airflow under the action of the airflow, the high-efficiency suction of the leaves is realized, and the leaf cleaning efficiency is improved;

step three: in the process of moving the swing rod 4 up and down, an upward pushing force or a downward pulling force is applied to the pull rod 11 through the first connecting rod 12, when the upward pushing force is applied to the pull rod 11 through the first connecting rod 12, the pull rod 11 pushes the piston plate 10 to move upwards and compress air in the first cavity, because the conduction direction of the first check valve 20 points to the first cavity, the air in the first cavity is compressed and then cannot be discharged from the first air inlet pipe 19, because the conduction direction of the second check valve 22 points to the air injection box 26, after the air in the first cavity is compressed, the air in the first cavity is conveyed to the air exhaust main pipe 23 through the first air outlet pipe 21 and is output to the air injection box 26 through the air exhaust main pipe 23, and the piston plate 10 expands the volume of the second cavity while compressing the first cavity, so that the volume of the second cavity is increased, the pressure is decreased, and because the conduction direction of the third check valve 16 points to the second cavity, therefore, the air in the airflow pipe 1 enters the second cavity through the second air inlet hole 14 and the second air inlet pipe 15 under the action of the air pressure difference, and the air in the air injection box 26 is not sucked into the second cavity because the conduction direction of the fourth check valve 18 points to the air injection box 26;

when the first connecting rod 12 applies a downward pulling force to the pull rod 11, the pull rod 11 pulls the piston plate 10 to move downward and compress the air in the second cavity, because the conduction direction of the third check valve 16 points to the second cavity, the air in the second cavity is compressed and then cannot be discharged from the second air inlet pipe 15, because the conduction direction of the fourth check valve 18 points to the air injection box 26, the air in the second cavity is compressed, then the air in the second cavity is conveyed to the exhaust manifold 23 through the second air outlet pipe 17 and is output to the air injection box 26 through the exhaust manifold 23, and the piston plate 10 expands the first cavity while compressing the second cavity, so that the volume of the first cavity is increased, the pressure is decreased, because the conduction direction of the first check valve 20 points to the first cavity, the air in the air flow pipe 1 passes through the first air inlet hole 13 under the action of the air pressure difference, The first air inlet pipe 19 enters the first cavity, and air in the air injection box 26 is not sucked into the first cavity due to the fact that the conduction direction of the second one-way valve 22 is directed to the air injection box 26;

in the process, the pressurizing cylinder 9 alternately pumps air above the air flow pipe 1 through the first cavity and the second cavity by up-and-down movement of the piston plate 10, and conveys the air into the air injection box 26 after pressurization, so that the air pressure inside the air flow pipe 1 is reduced, the air flow rate is increased, the suction force on leaves is increased, the suction effect on the leaves is further increased, and the cleaning effect of the leaves is further increased;

as shown in fig. 5, the exhaust manifold 23 conveys the air flow output from the pressurizing cylinder 9 to the inner cavity of the upper box 30 through the air inlet channel 28, and the air flow is filtered by the filter screen 29 when passing through the air inlet channel 28, so as to remove impurities and avoid the blockage of the impurities to the air jet holes 31, thereby ensuring the air jet effect of the air jet box 30, and the filter screen 29 can be designed into a detachable installation structure, thereby facilitating the detachment and cleaning of the filter screen 29 and facilitating the maintenance, the air entering the inner cavity of the upper box 30 is ejected through the air jet holes 31, thereby enabling the leaf to be further dispersed by the air flow ejected from the air jet holes 31 in the leaf dispersing process of the fan-shaped plate 24, improving the leaf dispersing effect, and enabling the leaf to move upwards due to the action of the air flow, which is helpful for the air flow pipe 1 to suck the leaf, thereby improving the cleaning effect and the work efficiency of the leaf, and enabling the, thereby maintaining a continuous flow of the air jet from the air jet box 26, and stabilizing the suction effect of the air flow tube 1.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a leaf cleaning device of clean usefulness of environment, includes air current pipe (1), its characterized in that: the outer side wall of the airflow pipe (1) is provided with a material scraping mechanism and an airflow supercharging mechanism, and the lower port of the airflow pipe (1) is provided with a scattering mechanism;

the material pushing mechanism comprises a motor (2) and a swing rod (4), the motor (2) is connected with the swing rod (4) in a transmission mode, the material pushing mechanism comprises a fan-shaped plywood (24), the fan-shaped plywood (24) is hinged to the side wall of the lower port of the air flow pipe (1), the air flow pressurizing mechanism is located above the material pushing mechanism, the air flow pressurizing mechanism comprises a pressurizing cylinder (9) and an air injection box (26) fixed on the fan-shaped plywood (24), the pressurizing cylinder (9) is communicated with the air flow pipe (1) and the air injection box (26) through pipelines respectively, and the motor (2) is connected with the pressurizing cylinder (9) and the fan-shaped plywood (24) in a transmission mode through the swing rod (4).

2. The leaf cleaning device for environmental cleaning according to claim 1, wherein: the motor (2) is fixed on the right end face of the outer side wall of the lower end of the airflow pipe (1), the output shaft end of the motor (2) is fixedly connected with a rocker (3), and the free end of the rocker (3) is hinged with the middle of the swing rod (4).

3. A leaf cleaning device for environmental cleaning according to claim 1 or 2, characterized in that: a strip-shaped groove (6) is formed in the upper end of the swing rod (4), a claw (5) is fixed to the lower end of the swing rod, a cantilever (7) is fixed to the side wall of the airflow pipe (1), a pin shaft (8) is fixed to the end portion of the cantilever (7), and the pin shaft (8) is inserted into the strip-shaped groove (6) and can slide in the strip-shaped groove (8).

4. A leaf cleaning device for environmental cleaning according to claim 1 or 2, characterized in that: the air flow pipe is characterized in that the pressurizing cylinder (9) is fixed on the right end face of the outer side wall of the air flow pipe (1), a piston plate (10) is connected to the pressurizing cylinder (9) in a sliding mode, the interior of the pressurizing cylinder (9) is divided into a first cavity and a second cavity through the piston plate (10), the lower surface of the piston plate (10) is fixedly connected with a pull rod (11), the lower end of the pull rod (11) penetrates through the lower end face of the pressurizing cylinder (9) and is exposed to the lower portion of the pressurizing cylinder (9), the pull rod (11) can slide on the lower end face of the pressurizing cylinder (9), and the lower end of the pull rod (11) is hinged to the upper end of the swing rod (4) through a first connecting rod (12).

5. A leaf cleaning device for environmental cleaning according to claim 4, wherein: the first cavity is located on the upper side of the piston plate (10), the upper end face of the pressurizing barrel (9) is connected with a first air inlet pipe (19) and a first air outlet pipe (21), the first air inlet pipe (19) and the first air outlet pipe (21) are communicated with the first cavity, the first air inlet pipe (19) and the first air outlet pipe (21) are respectively connected with a first one-way valve (20) and a second one-way valve (22), and the first air inlet pipe (19) is communicated with a first air inlet hole (13) formed in the side wall of the airflow pipe (1).

6. A leaf cleaning device for environmental cleaning according to claim 5, wherein: the second cavity is located on the lower side of the piston plate (10), the lower end face of the pressurizing barrel (9) is connected with a second air inlet pipe (15) and a second air outlet pipe (17), the second air inlet pipe (15) and the second air outlet pipe (17) are communicated with the second cavity, a third one-way valve (16) and a fourth one-way valve (18) are connected to the second air inlet pipe (15) and the second air outlet pipe (17) respectively, and the second air inlet pipe (15) is communicated with a second air inlet hole (14) formed in the side wall of the airflow pipe (1).

7. A leaf cleaning device for environmental cleaning according to claim 6, wherein: the left side limit of fan plywood (24) is connected with the left side limit dead axle rotation of port under air current pipe (1), the middle part articulated connection of connecting rod two (25) and pendulum rod (4) that passes through of fan plywood (24), and the pin joint of connecting rod two (25) and pendulum rod (4) is located between bar groove (6) and rocker (3), the right side limit of fan plywood (24) is fixed with gas injection box (26), first outlet duct (21) and second outlet duct (17) all communicate through exhaust manifold (23) and gas injection box (26).

8. A leaf cleaning device for environmental cleaning according to claim 7, wherein: spout gas box (26) and connect by last box body (30) and lower box body (27) lock and constitute, box body (27) are fixed on the right side edge of fan plywood (24) down, and have seted up inlet channel (28) on lower box body (27), exhaust manifold (23) are linked together with inlet channel (28).

9. A leaf cleaning device for environmental cleaning according to claim 8, wherein: it has filter screen (29) to peg graft in inlet channel (28), inlet channel (28) are linked together with the inner chamber of last box body (30), and go up the left side wall of box body (30) and seted up fumarole (31), and the jet-propelled direction of fumarole (31) is parallel with fan plywood (24) left.

10. The use method of the leaf cleaning device for environmental cleaning according to claim 9, characterized in that: the method comprises the following steps:

the method comprises the following steps: the leaves are raked up through the raking mechanism and pushed to the shaking and scattering mechanism;

step two: the material pushing mechanism drives the shaking and scattering mechanism to shake and scatter the leaves;

step three: the material scraping mechanism drives the airflow pressurizing mechanism to extract and pressurize airflow on the inner side of the airflow pipe (1) and then output the airflow to the shaking and dispersing mechanism to form circulation.

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