CN111570001A - Leaf processing mechanism is used in gardens - Google Patents

Abstract

The invention discloses a garden leaf processing mechanism, which relates to the technical field of gardens and comprises an equipment bearing base, wherein a leaf secondary processing mechanism, a leaf primary processing mechanism and a viscous liquid supply mechanism are respectively arranged above the equipment bearing base, the leaf primary processing mechanism can change leaves into leaf particles, on one hand, the volume of the leaves can be reduced, on the other hand, preparation can be made for subsequent secondary processing, the practicability is improved, the leaf secondary processing mechanism can pack and form the leaf particles, and an electric hydraulic rod is started to drive a discharge baffle plate to descend, so as to discharge formed materials in a compression cavity, compared with the existing mode of directly stacking the leaves in a transport vehicle by manpower, the garden leaf processing mechanism is more time-saving and labor-saving, the volume of the compacted leaves is smaller, the transportation is convenient, the viscous liquid supply mechanism adheres a layer of viscous liquid on the surfaces of the leaf particles, the compression efficiency and effect are improved.

Description

Leaf processing mechanism is used in gardens

Technical Field

The invention relates to the technical field of gardens, in particular to a tree leaf treatment mechanism for gardens.

Background

In gardens, a large number of different kinds of trees are planted and the leaves fall on the ground due to rain, wind or seasonal defoliation of the plants.

Fallen leaves are not pollution or domestic garbage, but the fallen leaves are classified into urban domestic garbage in the existing treatment mode, and if the fallen leaves are burnt in situ, the fallen leaves pollute the air, waste resources, influence the soil fertility and have fire hazard.

Therefore, in the prior art, the treatment of fallen leaves of garden trees is usually centralized retting fertilizer or pressing fuel, and in the above treatment mode, it is common practice to collect fallen leaves in gardens, pack and load the fallen leaves by manpower, and then transport the fallen leaves to the centralized treatment area.

Adopt artifical mode of handling the leaf, not only waste time and energy, the amount of labour is big, increases gardens daily maintenance's input cost, because the quality of fallen leaf is lighter, directly stacks in transportation carriage moreover, and except that the volume of stacking is less, still can increase the cost of transportation, and for this reason, technical personnel in the field have provided a leaf processing mechanism for gardens.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a garden leaf processing mechanism, which solves the problems that the time and labor are wasted, the labor capacity is large, the investment cost of daily maintenance of gardens is increased due to the adoption of a manual leaf processing mode, and the transportation cost is increased due to the fact that fallen leaves are directly stacked in a transportation carriage and the stacking amount is small.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a leaf processing mechanism is used in gardens, bears the base including equipment, four corners that equipment bore base top end face correspond the welding respectively and are provided with a stand, four the top of stand bears the welding jointly and is provided with leaf secondary treatment mechanism, leaf secondary treatment mechanism's top end face fixed mounting has the first processing mechanism of leaf, and one side position department fixed mounting that leaf secondary treatment mechanism's top end face is located the first processing mechanism of leaf has viscidity liquid feed mechanism, the positive one of them turning fixed mounting of leaf secondary treatment mechanism has operating switch.

The secondary leaf treatment mechanism comprises a packing box body fixedly welded at the top ends of four upright posts, a hydraulic cylinder telescopic chamber and a crushed material compression chamber are respectively arranged in the packing box body, a discharging baffle is movably arranged on the bottom end surface of the packing box body and at the position corresponding to the crushed material compression chamber, the bottom end surface of the discharge baffle is fixedly connected with the telescopic end of an electric hydraulic rod, four corners inside the packing box body are respectively and fixedly connected with slide rails, one end of each slide rail extends to the inside of the crushed material compression chamber, an external rubbing frame is fixedly welded at the bottom of the end face at one side of the packing box body, a hydraulic cylinder is fixedly installed at one side of the top of the external rubbing frame, a telescopic section of the hydraulic cylinder penetrates through the external rubbing frame and extends to the inside of the packing box body, and finally, a compression plate is fixedly connected with the four sliding rails and is arranged inside the four sliding rails in a sliding manner.

The first processing mechanism of leaf includes the enhancement support of fixed mounting at leaf secondary treatment mechanism top end face, the fixed welding in top of strengthening the support is provided with bears the base, the top of bearing the base welds respectively and is provided with crushing unit and reduction gear group, the feed inlet intercommunication at crushing unit top is provided with the feeder hopper, reduction gear group's power input end has concatenated the drive end of motor, reduction gear group's power output end concatenates with crushing unit's power input end mutually, crushing unit's bottom intercommunication is provided with ejection of compact linking pipe.

Preferably, the top end face of the packing box body and the position corresponding to the crushed material compression chamber are provided with an inlet pipe, the inlet pipe is communicated with the crushed material compression chamber, a compression baffle is fixedly arranged in the packing box body and at a position on one side of the crushed material compression chamber, air outlets are formed in the compression baffle and a side wall of the packing box body corresponding to the compression baffle, and the inlet pipe is connected with the discharge linking pipe in series.

Preferably, limit stops are welded to the upper end face and the lower end face of the inner portion of one side of the packing box body, and the external expansion frame is of an L-shaped structure.

Preferably, crushing unit is including the fixed crushing case that sets up between bearing base and feeder hopper, the inside of smashing the case rotates respectively and is connected with first crushing roller and the crushing roller of second, the one end of first crushing roller and the crushing roller of second extends to the outside of smashing the case to it has driving gear and driven gear to correspond fixed cover respectively, the other end of driving gear concatenates with reduction gear's power take off end mutually.

Preferably, the first crushing roller and the second crushing roller are of the same structure in size and structure, and crushing teeth are arranged on the surfaces of the first crushing roller and the second crushing roller and meshed with each other.

Preferably, the driving gear and the driven gear are in meshed connection, and the power transmission ratio of the driving gear to the driven gear is 1: 1.

Preferably, viscous liquid feed mechanism sets up the liquid reserve tank at leaf secondary treatment mechanism top end face including fixed welding, the top end face intercommunication of liquid reserve tank is provided with the inlet, and the top end face of liquid reserve tank and the corresponding position fixed mounting of inlet have the pump body.

Preferably, the imbibition mouth of the pump body extends to the inside of liquid reserve tank, the liquid outlet of the pump body has concatenated the feed liquor end of conveyer pipe, the play liquid end of conveyer pipe extends to the inside of crushed aggregates compression chamber to fixed mounting has atomizer.

Preferably, the equipment bears the both sides terminal surface of base and all fixed mounting have a plurality of universal gyro wheels of group, the equipment bears the top terminal surface of base and has seted up and open a position groove, the bottom fixed connection of the non-flexible part of electronic hydraulic stem is on opening the inside bottom surface in position groove.

Preferably, the discharge baffle is a member with a two-stage step-shaped structure, the width of the top of the discharge baffle is the same as the net width of the crushed material compression chamber, and the width of the top of the discharge baffle is larger than the net width of the crushed material compression chamber.

Advantageous effects

The invention provides a tree leaf processing mechanism for gardens. Compared with the prior art, the method has the following beneficial effects:

1. this leaf processing mechanism is used in gardens, through being provided with the first processing mechanism of leaf, wherein, the first processing mechanism of leaf includes the enhancement support of fixed mounting at leaf secondary treatment mechanism top end face, the fixed welding in top of strengthening the support is provided with bearing base, bearing base's top welds respectively and is provided with crushing unit and reduction gear group, the feed inlet intercommunication at crushing unit top is provided with the feeder hopper, reduction gear group's power input end has concatenated the drive end of motor, reduction gear group's power output end concatenates with crushing unit's power input end, crushing unit's bottom intercommunication is provided with ejection of compact linking pipe, through above-mentioned structural design, can become the leaf granule with the leaf, can reduce the volume of leaf itself on the one hand, on the other hand can prepare for subsequent secondary treatment, and the practicability is.

2. The leaf processing mechanism for the garden comprises a leaf secondary processing mechanism, wherein the leaf secondary processing mechanism comprises a packing box body fixedly welded at the top ends of four stand columns, a hydraulic cylinder telescopic cavity and a crushing material compression cavity are respectively arranged in the packing box body, a discharging baffle plate is movably arranged on the bottom end surface of the packing box body and at a position corresponding to the crushing material compression cavity, the bottom end surface of the discharging baffle plate is fixedly connected with a telescopic end of an electric hydraulic rod, four corners in the packing box body are respectively and fixedly connected with a slide rail, one end of each of the four slide rails extends to the inside of the crushing material compression cavity, an external expanding frame is fixedly welded at the bottom of the end surface of one side of the packing box body, a hydraulic cylinder is fixedly installed at one side of the top of the external expanding frame, a telescopic section of the hydraulic cylinder penetrates through the external expanding frame and extends to the inside of the, compression plate slides and sets up the inside at four slide rails, design through the above-mentioned structure, in-process at the in-process of in-service use, the leaf is after the shredding of first processing mechanism, become the leaf granule, and directly fall into the compression chamber, volume in the compression chamber reaches behind the compression requirement, the hydraulic cylinder can be started, it removes to drive the compression plate, after applying the pressure that lasts for the leaf granule, leaf granule packing shaping, and start electronic hydraulic stem and drive ejection of compact baffle and descend, the discharge is located the shaping material in the compression chamber, this mode is compared in the current artifical mode of directly stacking the leaf in haulage vehicle that adopts, time saving and labor saving more, and the leaf after the compaction, the volume is littleer, be convenient for transport.

3. The leaf processing mechanism for the garden can improve the adhesiveness among leaf particles by spraying a layer of sticky liquid on the surface of the leaf particles after the leaf crushed particles fall into a compression chamber through the structural design, wherein the sticky liquid supply mechanism comprises a liquid storage tank fixedly welded on the top end surface of the leaf secondary processing mechanism, the top end surface of the liquid storage tank is communicated with a liquid inlet, a pump body is fixedly arranged at the position, corresponding to the liquid inlet, of the top end surface of the liquid storage tank, a liquid suction port of the pump body extends into the liquid storage tank, a liquid inlet end of a conveying pipe is connected in series with a liquid outlet end of the conveying pipe, the liquid outlet end of the conveying pipe extends into the compression chamber, and an atomization nozzle is fixedly arranged, the compression effect and the speed of the fallen leaf particles are convenient to improve, and the practicability is improved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the secondary leaf treatment mechanism of the present invention;

FIG. 3 is a partial view of the left side of the secondary leaf treatment mechanism of the present invention;

FIG. 4 is a schematic structural diagram of a leaf primary processing mechanism according to the present invention;

FIG. 5 is a schematic view of the shredder assembly of the present invention;

FIG. 6 is a schematic view showing the structure of a viscous liquid supply mechanism according to the present invention.

In the figure: 1. an equipment bearing base; 2. a universal roller; 3. a position expanding groove; 4. a column; 5. a secondary treatment mechanism for leaves; 51. packaging the box body; 52. a hydraulic cylinder telescopic chamber; 53. a pulverized material compression chamber; 54. a feed pipe; 55. a limit stop block; 56. compressing the baffle; 57. a discharge baffle; 58. an electro-hydraulic lever; 59. a slide rail; 510. externally expanding the frame; 511. a hydraulic cylinder; 512. a compression plate; 6. an operating switch; 7. a leaf primary treatment mechanism; 71. a reinforcing bracket; 72. a load-bearing base; 73. a size reduction assembly; 731. a crushing box; 732. a first crushing roller; 733. a second crushing roller; 734. a driving gear; 735. a driven gear; 74. a feed hopper; 75. a reduction gear set; 76. a motor; 77. discharging the connecting pipe; 8. a viscous liquid supply mechanism; 81. a liquid storage tank; 82. a liquid inlet; 83. a pump body; 84. a delivery pipe; 85. an atomizing spray head.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a leaf processing mechanism is used in gardens, bear base 1 including equipment, four corners that equipment bore 1 top end face of base correspond the welding respectively and are provided with a stand 4, the top of four stands 4 bears the welding jointly and is provided with leaf secondary treatment mechanism 5, leaf secondary treatment mechanism 5's top end face fixed mounting has the first processing mechanism 7 of leaf, and one side position department fixed mounting that the top end face of leaf secondary treatment mechanism 5 is located leaf first processing mechanism 7 has viscous liquid feed mechanism 8, the positive one of them turning fixed mounting of leaf secondary treatment mechanism 5 has operating switch 6, the equal fixed mounting of both sides terminal surface that equipment bore base 1 has a plurality of universal gyro wheels 2 of group, equipment bore the top end face of base 1 and has been seted up and has been extended a groove 3.

Referring to fig. 2-3, the secondary leaf processing mechanism 5 includes a packing box 51 fixedly welded to the top ends of four columns 4, a hydraulic cylinder expansion chamber 52 and a crushed material compression chamber 53 are respectively arranged inside the packing box 51, a discharge baffle 57 is movably arranged on the bottom end surface of the packing box 51 at a position corresponding to the crushed material compression chamber 53, the discharge baffle 57 is a member with a two-stage step-shaped structure, the width of the top of the discharge baffle 57 is the same as the net width of the crushed material compression chamber 53, the width of the top of the discharge baffle 57 is larger than the net width of the crushed material compression chamber 53, the bottom end surface of the discharge baffle 57 is fixedly connected with the expansion end of an electric hydraulic rod 58, the bottom end of the non-expansion part of the electric hydraulic rod 58 is fixedly connected to the bottom surface inside the expansion groove 3, four corners inside the packing box 51 are respectively and fixedly connected with slide, one end of each of the four sliding rails 59 extends into the crushed material compression chamber 53, an outer rubbing frame 510 is fixedly welded at the bottom of one side end face of the packing box body 51, a hydraulic cylinder 511 is fixedly installed at one side of the top of the outer rubbing frame 510, a telescopic section of the hydraulic cylinder 511 penetrates through the outer rubbing frame 510 and extends into the packing box body 51, and is finally fixedly connected with a compression plate 512, the compression plate 512 is slidably arranged inside the four sliding rails 59, a feeding pipe 54 is arranged at the position, corresponding to the crushed material compression chamber 53, of the top end face of the packing box body 51, the feeding pipe 54 is communicated with the crushed material compression chamber 53, a compression baffle plate 56 is fixedly arranged at the position, corresponding to the crushed material compression chamber 53, inside of the compression baffle plate 56 and one side wall of the packing box body 51 corresponding to the compression baffle plate 56, and the feeding pipe 54 is connected in series with a discharge connecting pipe 77, the upper and lower end faces of the inner part of one side of the packing box body 51 are welded with limit stoppers 55, and the external expansion frame 510 is of an L-shaped structure.

Referring to fig. 4, the primary leaf treatment mechanism 7 includes a reinforcing bracket 71 fixedly mounted on the top end surface of the secondary leaf treatment mechanism 5, a bearing base 72 is fixedly welded on the top end of the reinforcing bracket 71, a crushing assembly 73 and a reduction gear set 75 are respectively welded above the bearing base 72, a feed inlet on the top of the crushing assembly 73 is communicated with a feed hopper 74, a power input end of the reduction gear set 75 is connected in series with a driving end of a motor 76, a power output end of the reduction gear set 75 is connected in series with a power input end of the crushing assembly 73, and a discharge connection pipe 77 is communicated with the bottom of the crushing assembly 73.

Referring to fig. 5, the pulverizing unit 73 includes a pulverizing box 731 fixedly disposed between the bearing base 72 and the feeding hopper 74, a first pulverizing roller 732 and a second pulverizing roller 733 are rotatably connected to the inside of the pulverizing box 731, one end of the first pulverizing roller 732 and one end of the second pulverizing roller 733 extend to the outside of the pulverizing box 731, and a driving gear 734 and a driven gear 735 are fixedly sleeved on the pulverizing box 731, respectively, the other end of the driving gear 734 is connected in series with a power output end of the reduction gear set 75, the first pulverizing roller 732 and the second pulverizing roller 733 have the same size and structure, pulverizing teeth are disposed on the surfaces of the first pulverizing roller 732 and the second pulverizing roller 733, the pulverizing teeth are engaged with each other, the driving gear 734 and the driven gear 735 are engaged with each other, and the power transmission ratio of the driving gear 734 to the driven gear 735 is 1: 1.

Referring to fig. 6, the viscous liquid supply mechanism 8 includes a liquid storage tank 81 fixedly welded to the top end surface of the leaf secondary processing mechanism 5, a liquid inlet 82 is disposed in the top end surface of the liquid storage tank 81, a pump body 83 is fixedly mounted at a position corresponding to the liquid inlet 82 on the top end surface of the liquid storage tank 81, a liquid suction port of the pump body 83 extends to the inside of the liquid storage tank 81, a liquid outlet of the pump body 83 is connected in series with a liquid inlet of a delivery pipe 84, a liquid outlet of the delivery pipe 84 extends to the inside of the pulverized material compression chamber 53, and an atomizing nozzle 85 is fixedly mounted, a liquid with certain viscosity is stored in the liquid storage tank 81, the viscous liquid can be obtained by diluting edible gum with a certain proportion of water, and the objective is that, after pulverized leaves fall into the compression chamber, a layer of viscous liquid is sprayed on the surface of the leaves, so as to improve the adhesiveness between the leaves, the compression effect and the speed of the fallen leaf particles are convenient to improve, and the practicability is improved.

When in use, firstly, leaves are added into the feed hopper 74, then, the motor 76 is started, the rotating speed of the motor 76 is reduced under the action of the reduction gear set 75, the power is transmitted to the first crushing roller 732 through the reduction gear set 75, the driving gear 734 and the driven gear 735 are in meshed connection, and the transmission ratio between the driving gear 734 and the driven gear 735 is 1:1, so that the first crushing roller 732 and the second crushing roller 733 can rotate oppositely, the crushing treatment on the leaves can be realized, the crushed leaves become leaf particles, the leaf particles enter the crushing material compression chamber 53 through the discharge connecting pipe 77 and the feed pipe 54, the pump body 83 is started in the process that the leaf particles fall into the crushing material compression chamber 53, viscous liquid in the liquid storage tank 81 is injected into the atomizing nozzle 85 through the feed pipe 84, and then is atomized by the atomizing nozzle 85, the viscous liquid is changed into mist-shaped liquid drops which are attached to the surfaces of the leaf particles, when the observation shows that the leaf particles in the crushed material compression chamber 53 are saturated through the observation window, the hydraulic cylinder 511 is started, the hydraulic cylinder 511 drives the compression plate 512 to move towards the crushed material compression chamber 53 under the action of the four slide rails 59, and exerts an acting force on the leaf particles, so that the volume of the leaf particles is reduced, after the part of the leaf particles are compressed, the hydraulic cylinder 511 drives the compression plate 512 to recover the initial position, then the leaf particles fall into the crushed material compression chamber 53, the above operations are repeated until the compressed leaf particles occupy the whole inner space of the crushed material compression chamber 53, the electric hydraulic rod 58 is started to drive the discharge baffle plate 57 to move downwards, a notch is opened at the bottom of the packing box body 51, and the compressed leaf particles can be removed along with the discharge baffle plate 57, taking down the product.

In the present embodiment, the operation switch 6 at least includes a control button for controlling the electric hydraulic rod 58, the hydraulic cylinder 511, the motor 76, the atomizer 85 and the pump body 83, and the above components have their own structural features, operation principle and specific circuit structure electrically connected with the outside, which are all in the prior art and will not be described in detail herein.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (10)

1. The leaf processing mechanism for the garden comprises an equipment bearing base (1) and is characterized in that four corners of the top end face of the equipment bearing base (1) are respectively and correspondingly welded with a stand column (4), the top ends of the four stand columns (4) are jointly provided with a leaf secondary processing mechanism (5) in a bearing and welding mode, the top end face of the leaf secondary processing mechanism (5) is fixedly provided with a leaf primary processing mechanism (7), a viscous liquid supply mechanism (8) is fixedly arranged at one side position, located at the leaf primary processing mechanism (7), of the top end face of the leaf secondary processing mechanism (5), and an operation switch (6) is fixedly arranged at one corner of the front face of the leaf secondary processing mechanism (5);

the leaf secondary treatment mechanism (5) comprises a packing box body (51) fixedly welded on the top ends of four stand columns (4), a hydraulic cylinder telescopic chamber (52) and a crushing material compression chamber (53) are respectively arranged inside the packing box body (51), a discharge baffle (57) is movably arranged at the bottom end face of the packing box body (51) and the position corresponding to the crushing material compression chamber (53), the telescopic end of an electric hydraulic rod (58) is fixedly connected to the bottom end face of the discharge baffle (57), four corners inside the packing box body (51) are respectively fixedly connected with slide rails (59), one ends of the slide rails (59) are respectively extended into the crushing material compression chamber (53), an outer crushing material frame (510) is fixedly welded at the bottom of one side end face of the packing box body (51), and a hydraulic cylinder (511) is fixedly installed at one side of the top of the outer crushing material frame (510), the telescopic section of the hydraulic cylinder (511) penetrates through the external expansion frame (510), extends to the interior of the packing box body (51), and is finally fixedly connected with a compression plate (512), and the compression plate (512) is arranged in the four sliding rails (59) in a sliding manner;

leaf primary treatment mechanism (7) include enhancement support (71) of fixed mounting at leaf secondary treatment mechanism (5) top end face, the fixed welding in top of strengthening support (71) is provided with bears base (72), the top of bearing base (72) welds respectively and is provided with crushing unit (73) and reduction gear group (75), the feed inlet intercommunication at crushing unit (73) top is provided with feeder hopper (74), the drive end of motor (76) has concatenated to the power input end of reduction gear group (75), the power take off end of reduction gear group (75) concatenates with the power input end of crushing unit (73), the bottom intercommunication of crushing unit (73) is provided with ejection of compact linking pipe (77).

2. A leaf processing mechanism for gardens according to claim 1, characterized in that, the top terminal surface of packing box (51) and the position that corresponds crushed material compression chamber (53) are provided with inlet pipe (54), inlet pipe (54) and crushed material compression chamber (53) intercommunication, the inside of packing box (51) and be located one side position department of crushed material compression chamber (53) and fixedly be provided with compression baffle (56), the inside of compression baffle (56) and packing box (51) and a lateral wall that compression baffle (56) correspond all seted up the venthole, inlet pipe (54) concatenate with ejection of compact linking pipe (77).

3. A garden leaf handling mechanism according to claim 1, characterized in that limit stops (55) are welded to the upper and lower end faces of the inside of one side of the packing box (51), and the outer rubbing frame (510) is of an L-shaped structure.

4. A garden leaf processing mechanism according to claim 1, characterized in that the smashing assembly (73) comprises a smashing box (731) fixedly arranged between the bearing base (72) and the feeding hopper (74), a first smashing roller (732) and a second smashing roller (733) are rotatably connected inside the smashing box (731), one ends of the first smashing roller (732) and the second smashing roller (733) extend to the outside of the smashing box (731), a driving gear (734) and a driven gear (735) are fixedly connected with the smashing box in a corresponding mode, and the other end of the driving gear (734) is connected with a power output end of the reduction gear set (75) in series.

5. A garden leaf processing mechanism according to claim 4, wherein the first crushing roller (732) and the second crushing roller (733) are of the same size and structure, and crushing teeth are arranged on the surfaces of the first crushing roller (732) and the second crushing roller (733) and mesh with each other.

6. A garden leaf handling mechanism according to claim 4, wherein the driving gear (734) and the driven gear (735) are in meshed connection, and the power transmission ratio of the driving gear (734) to the driven gear (735) is 1: 1.

7. A leaf processing mechanism for gardens according to claim 1, characterized in that, viscous liquid supply mechanism (8) includes liquid reserve tank (81) that fixed welding set up at leaf secondary treatment mechanism (5) terminal surface, the terminal surface intercommunication of liquid reserve tank (81) is provided with inlet (82), and the terminal surface of liquid reserve tank (81) and the corresponding position fixed mounting of inlet (82) have the pump body (83).

8. A garden leaf handling mechanism according to claim 7, characterized in that, the liquid suction port of the pump body (83) extends to the inside of the liquid storage tank (81), the liquid outlet of the pump body (83) is connected in series with the liquid inlet end of the conveying pipe (84), the liquid outlet end of the conveying pipe (84) extends to the inside of the crushing material compression chamber (53), and the atomizing spray head (85) is fixedly installed.

9. The leaf processing mechanism for gardens of claim 1, characterized in that, the both sides terminal surface of equipment bearing base (1) all fixed mounting have a plurality of universal gyro wheels of group (2), the top terminal surface of equipment bearing base (1) has seted up and has opened up a groove (3), the bottom fixed connection of the non-flexible portion of electro-hydraulic stem (58) opens up on the inside bottom surface of a groove (3).

10. A garden leaf handling mechanism according to claim 1, characterized in that the discharge baffle (57) is a two-stage stepped structure, the width of the top of the discharge baffle (57) is the same as the clear width of the crushed material compression chamber (53), and the width of the top of the discharge baffle (57) is greater than the clear width of the crushed material compression chamber (53).

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