阅读说明：本技术 一种用于城市风景园林的废弃资源循环利用装置 (A abandonment resource cyclic utilization device for city landscape gardens ) 是由 洪菊华 王军 刘丹 唐明岳 杨学文 田冬林 宋涛 李丽艳 于 2021-08-02 设计创作，主要内容包括：本发明涉及一种用于城市风景园林的废弃资源循环利用装置,包括收集箱、进叶输送管和破碎箱连接管,所述破碎箱连接管设置在收集箱的顶板上所述收集箱内设置有筛分机构,筛分机构的设置,用于筛分落叶中夹杂的石子等固体颗粒；本发明中通过对现有城市风景园林的废弃资源循环利用装置进行改进,改进后的城市风景园林的废弃资源循环利用装置在收集落叶的同时,可以除去落叶中夹杂的石子等固体颗粒,这样在破碎落叶时,可以防止石子等固体颗粒增大破碎机构的磨损,从而可以延长破碎机构的使用寿命,因此改进后的设备具有更好的应用前景。(The invention relates to a waste resource recycling device for urban landscape gardens, which comprises a collecting box, a leaf inlet conveying pipe and a crushing box connecting pipe, wherein the crushing box connecting pipe is arranged on a top plate of the collecting box, and a screening mechanism is arranged in the collecting box and used for screening solid particles such as stones and the like mixed in fallen leaves; according to the invention, the existing waste resource recycling device for the urban landscape gardens is improved, and the improved waste resource recycling device for the urban landscape gardens can remove solid particles such as stones and the like mixed in fallen leaves while collecting the fallen leaves, so that the solid particles such as the stones and the like can be prevented from increasing the abrasion of the crushing mechanism when the fallen leaves are crushed, the service life of the crushing mechanism can be prolonged, and the improved equipment has a better application prospect.)

1. The utility model provides a waste resource cyclic utilization device for city landscape architecture, includes collecting box (1), advances leaf conveyer pipe (2) and broken case connecting pipe (3), broken case connecting pipe (3) set up on the roof of collecting box (1), advance leaf conveyer pipe (2) and set up on the curb plate of collecting box (1), its characterized in that, be provided with screening mechanism (4) in collecting box (1), the setting of screening mechanism (4) for solid particles such as stone that the screening falls the leaf and mix with.

2. The waste resource recycling device for urban landscape architecture as claimed in claim 1, wherein: screening mechanism (4) include shale shaker (41) and sliding block (42) No. one, shale shaker (41) activity sets up in collecting box (1), and all fixedly on the both ends of shale shaker (41) be provided with sliding block (42) No. one, sliding block (42) slide and set up in sliding tray (43) No. one, and sliding tray (43) set up on the inside wall of collecting box (1), fixedly connected with direction supporting component (44) on the lower extreme of sliding block (42), and the lower extreme fixed connection of a direction supporting component (44) is on the diapire of sliding tray (43) No. one.

3. The waste resource recycling device for urban landscape architecture as claimed in claim 2, wherein: the first guide supporting component (44) comprises a first guide supporting rod (441), a first guide supporting cylinder (442) and a first guide supporting spring (443), the first guide supporting rod (441) is movably inserted into the first guide supporting cylinder (442), the first guide supporting spring (443) is wound outside the first guide supporting rod (441), two ends of the first guide supporting spring (443) are respectively and fixedly connected to the side wall of the first guide supporting rod (441) and the outer side wall of the first guide supporting cylinder (442), a horn-shaped guide pipe (6) is arranged below the vibrating screen (41), the horn-shaped guide pipe (6) is fixedly arranged in the collecting box (1), an air blowing mechanism (7) is arranged in the collecting box (1), the air blowing mechanism (7) blows air from the lower part of the vibrating screen (41), so that blown falling leaves enter the crushing box through a crushing box connecting pipe (3), the blowing mechanism (7) comprises a blowing fan blade (71) and an air duct (72), the blowing fan blade (71) is fixedly sleeved outside the rotating rod (52), the air duct (72) is simultaneously and fixedly inserted on the fixed box (58) and the horn-shaped guide pipe (6), the air duct (72) is used for communicating the fixed box (58) with the air storage cavity (73), the air storage cavity (73) is arranged on the horn-shaped guide pipe (6), the horn-shaped guide pipe (6) is also provided with a plurality of air outlet holes (74), the air outlet holes (74) are communicated with the air storage cavity (73), the inner side wall of the collecting box (1) is symmetrically and fixedly connected with two inclined guide plates (10), the bottom plate of the collecting box (1) is provided with a solid particle discharge port (8), a pushing mechanism (9) is arranged in the collecting box (1), and the pushing mechanism (9) comprises a rotating column (91) and an annular spiral groove (92), the rotating column (91) is fixedly sleeved outside the rotating rod (52), an annular spiral groove (92) is formed in the rotating column (91), a vertical supporting rod (93) is movably arranged in the annular spiral groove (92), and the vertical supporting rod (93) is fixedly arranged on the upper end surface of the moving plate (94), the moving plate (94) is connected with the pushing scraping plate (95), and the upper end surface of the pushing scraping plate (95) is connected with an inclined blocking plate (96) in an inclined way, a second sliding block (97) is fixedly connected on the lower end surface of the moving plate (94), the second sliding block (97) is arranged in the second sliding groove (98) in a sliding manner, the second sliding groove (98) is arranged on the inner bottom wall of the collecting box (1), and the side wall of the second sliding groove (98) is fixedly connected with a third guide supporting component (99), the free end of the third guide supporting component (99) is fixedly connected to the side wall of the second sliding block (97).

4. The waste resource recycling device for urban landscape architecture as claimed in claim 2, wherein: the vibrating screen is characterized in that a driving mechanism (5) is arranged in the collecting box (1), the driving mechanism (5) is arranged and used for ensuring that the vibrating screen (41) has vibrating force, the driving mechanism (5) comprises a driving motor (51) and a rotating rod (52), the driving motor (51) is fixedly arranged in a fixed box (58), the fixed box (58) is fixedly arranged in the collecting box (1), the rotating rod (52) is connected with the driving end of the driving motor (51), a missing gear (53) is fixedly sleeved outside the rotating rod (52), the missing gear (53) is alternately meshed with two groups of parallel teeth in the ring gear (54), two second guide supporting components (56) are symmetrically arranged on the outer bottom wall of the ring gear (54), the lower ends of the second guide supporting components (56) are fixedly connected to the inner bottom wall of the collecting box (1), and a pushing rod (55) is fixedly connected to the outer top wall of the ring gear (54), the upper end of the push rod (55) is fixedly connected to the lower end of the vibrating screen (41), the collecting box (1) is provided with air guide holes (57), the air guide holes (57) are communicated with a fixed box (58), and grids are arranged in the air guide holes (57).

5. The waste resource recycling device for urban landscape architecture as claimed in claim 4, wherein: no. two direction supporting component (56) include No. two direction bracing piece (561), No. two direction supporting cylinder (562) and No. two direction supporting spring (563), No. two direction bracing piece (561) activity is pegged graft in No. two direction supporting cylinder (562).

6. The waste resource recycling device for urban landscape architecture as claimed in claim 5, wherein: no. two direction supporting spring (563) winding is connected outside No. two direction bracing piece (561), and No. two direction supporting spring's (563) both ends respectively fixed connection on the lateral wall of No. two direction bracing piece (561) and on the lateral wall of No. two direction supporting cylinder (562).

7. The waste resource recycling device for urban landscape architecture as claimed in claim 3, wherein: no. three direction supporting component (99) are including No. three direction bracing piece (991), No. three direction support section of thick bamboo (992) and No. three direction supporting spring (993).

8. The waste resource recycling apparatus for urban landscape architecture as claimed in claim 7, wherein: the three-number guide supporting rod (991) is movably inserted into the three-number guide supporting cylinder (992), the three-number guide supporting spring (993) is wound outside the three-number guide supporting rod (991), and two ends of the three-number guide supporting spring (993) are fixedly connected to the side wall of the three-number guide supporting rod (991) and the outer side wall of the three-number guide supporting cylinder (992) respectively.

Technical Field

The invention relates to the technical field of waste resources of urban landscape gardens, in particular to a waste resource recycling device for urban landscape gardens.

Background

If the organic waste produced in landscape architecture is reasonably utilized, the effect is still quite huge, in order to replace the manual operation mode to concentrate fallen leaves and the like and then carry out subsequent treatment, the prior art is provided with a waste resource recycling device of urban landscape architecture, for example, a patent with the patent number of CN109320313B, and discloses a waste resource recycling device for urban landscape architecture, which can collect, crush and ferment the fallen leaves and then apply the fallen leaves as fertilizer on the ground, thereby realizing the effect of renewable utilization of the fallen leaves in landscape architecture. However, in the fallen leaf collecting process, solid particles such as stones mixed in the fallen leaves are collected into the device and enter the crushing mechanism along with the fallen leaves, and the collision of the solid particles such as stones increases the wear rate of the crushing mechanism, thereby causing damage to the crushing mechanism. In order to solve the problems, the invention is additionally provided with a waste resource recycling device for urban landscape gardens.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of the prior art, adapt to the practical needs, and provide a waste resource recycling device for urban landscape gardens so as to solve the technical problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides a waste resources cyclic utilization device for city landscape architecture, includes collecting box, advances leaf conveyer pipe and broken case connecting pipe, broken case connecting pipe sets up on the roof of collecting box, it sets up on the curb plate of collecting box to advance the leaf conveyer pipe, be provided with screening mechanism in the collecting box, the setting of screening mechanism for solid particles such as stone that the screening falls the leaf and mix with.

Further, screening mechanism includes shale shaker and sliding block No. one, the shale shaker activity sets up in the collecting box, and all fixes on the both ends of shale shaker and be provided with the sliding block No. one, a sliding block slides and sets up in the sliding tray No. one, and the sliding tray is seted up on the inside wall of collecting box, fixedly connected with direction supporting component No. one on the lower extreme of sliding block, and the lower extreme fixed connection of direction supporting component No. one on the diapire of sliding tray.

Furthermore, a direction supporting component includes a direction bracing piece, a direction supporting cylinder and a direction supporting spring, a direction bracing piece activity is pegged graft in a direction supporting cylinder, a direction supporting spring winding is connected outside a direction bracing piece, and a direction supporting spring's both ends respectively fixed connection on a direction bracing piece's lateral wall and a direction supporting cylinder's lateral wall.

Furthermore, a driving mechanism is arranged in the collecting box and is used for ensuring that the vibrating screen has vibrating force.

Further, the driving mechanism comprises a driving motor and a rotating rod, the driving motor is fixedly arranged in a fixed box, the fixed box is fixedly arranged in the collecting box, the rotating rod is connected with the driving end of the driving motor, a gear is fixedly sleeved outside the rotating rod, the gear is alternately meshed with two groups of parallel teeth in the ring gear, two guide supporting components are symmetrically arranged on the outer bottom wall of the ring gear, the lower end of each guide supporting component is fixedly connected to the inner bottom wall of the collecting box, a push rod is fixedly connected to the outer top wall of the ring gear, the upper end of the push rod is fixedly connected to the lower end of the vibrating screen, a wind guide hole is formed in the collecting box and communicated with the fixed box, and a grid is arranged in the wind guide hole.

Further, No. two direction supporting component includes No. two direction bracing pieces, No. two direction supporting barrels and No. two direction supporting springs, No. two direction bracing piece activities are pegged graft in No. two direction supporting barrels, No. two direction supporting spring winding are connected outside No. two direction bracing pieces, and No. two direction supporting spring's both ends respectively fixed connection on No. two direction bracing pieces's lateral wall and No. two direction supporting barrel's lateral wall.

Furthermore, a horn-shaped guide pipe is arranged below the vibrating screen and fixedly arranged in the collecting box.

Further, be provided with air-blast mechanism in the collecting box, air-blast mechanism's setting is carried out the air blast through the below from the shale shaker to the leaf of landing enters into broken incasement through broken case connecting pipe, air-blast mechanism includes blast fan leaf and air duct, the fixed cover of blast fan leaf is established outside the dwang, the air duct is fixed simultaneously and is pegged graft on fixed box and loudspeaker form stand pipe, and the air duct is used for the intercommunication in fixed box and storage wind chamber, store up the wind chamber and set up on loudspeaker form stand pipe, still seted up a plurality of exhaust vent on loudspeaker form stand pipe, and the exhaust vent is linked together with storage wind chamber, two slope deflectors of symmetry fixedly connected with on the inside wall of collecting box.

Furthermore, a bottom plate of the collecting box is provided with a solid particle discharge port, the collecting box is internally provided with a pushing mechanism, the pushing mechanism comprises a rotating column and an annular spiral groove, the rotating column is fixedly sleeved outside the rotating rod, and the rotating column is provided with an annular spiral groove, a vertical supporting rod is movably arranged in the annular spiral groove, and the vertical supporting rod is fixedly arranged on the upper end surface of the movable plate, the movable plate is connected with the pushing scraping plate, an inclined blocking plate is obliquely connected to the upper end face of the pushing scraping plate, a second sliding block is fixedly connected to the lower end face of the moving plate, the second sliding block is arranged in the second sliding groove in a sliding manner, the second sliding groove is arranged on the inner bottom wall of the collecting box, and the lateral wall fixedly connected with of No. two sliding trays leads supporting component No. three, No. three the free end fixed connection of leading supporting component is on the lateral wall of No. two sliding blocks.

Furthermore, No. three direction supporting component includes No. three direction bracing pieces, No. three direction supporting barrels and No. three direction supporting springs, No. three direction bracing piece activities are pegged graft in No. three direction supporting barrels, No. three direction supporting spring winding is connected outside No. three direction bracing pieces, and No. three direction supporting spring's both ends respectively fixed connection on No. three direction bracing pieces's lateral wall and No. three direction supporting barrel's lateral wall.

(3) Has the advantages that:

according to the invention, the existing waste resource recycling device for the urban landscape gardens is improved, and the improved waste resource recycling device for the urban landscape gardens can remove solid particles such as stones and the like mixed in fallen leaves while collecting the fallen leaves, so that the solid particles such as the stones and the like can be prevented from increasing the abrasion of the crushing mechanism when the fallen leaves are crushed, the service life of the crushing mechanism can be prolonged, and the improved equipment has a better application prospect.

According to the invention, the screening mechanism is additionally arranged, and solid particles such as stones and the like mixed in fallen leaves can be screened under the vibration action of the screening mechanism.

The vibrating screen is additionally provided with the driving mechanism which is used for driving the vibrating screen to vibrate, the driving mechanism is reasonable in structural design, in the actual working process, the driving mode of the air cylinder is replaced by the motor, the effect of efficient working can be achieved, meanwhile, the problem of oil leakage in the driving process of the air cylinder can be prevented, and therefore excessive consumption of resources is avoided.

The invention is additionally provided with the horn-shaped guide pipe, and after the vibrating screen screens and drops solid particles such as stones, the horn-shaped guide pipe is arranged in the equipment in order to enable the dropping positions of the solid particles such as the stones to be more concentrated.

According to the invention, a combined structure of the air blowing mechanism and the inclined guide plate is additionally arranged, air can be blown from the lower part by the air blowing mechanism, fallen leaves can be blown to move upwards under the action of wind power, the fallen leaves can be better separated from the fallen leaves under the action of the self weight of solid particles such as stones and the like in the upward movement process, and the fallen leaves can enter the connecting pipe of the crushing box more smoothly by the arrangement of the inclined guide plate.

According to the invention, a combined structure of the solid particle discharging port and the pushing mechanism is additionally arranged, and the combined structure can discharge solid particles such as stones out of the collecting box, so that the solid particles such as the stones are prevented from being deposited in the collecting box, and further, the subsequent cleaning process is avoided, and the time and labor are saved when the equipment is applied.

The driving motor in the invention can drive the screening mechanism, the blowing mechanism and the pushing mechanism to synchronously move, thus not only reducing the difficulty of the equipment and improving the high efficiency performance of the equipment, but also preventing the problem of resource consumption caused by adding too many power sources.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the waste resource recycling device for urban landscape architecture of the present invention;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 of the waste resource recycling device for urban landscape architecture of the present invention;

FIG. 3 is a schematic view of the waste recycling apparatus for urban landscape architecture of the present invention, partially enlarged in FIG. 1;

FIG. 4 is an enlarged schematic view of the waste resource recycling device for urban landscape architecture of the present invention, wherein the structure B in FIG. 1 is shown;

FIG. 5 is a schematic view of another enlarged part of the waste recycling apparatus for urban landscapes and gardens shown in FIG. 1;

fig. 6 is an enlarged schematic view of the structure C in fig. 5 of the waste resource recycling device for urban landscape architecture of the present invention.

The reference numbers are as follows:

collecting box 1, feeding blade conveying pipe 2, crushing box connecting pipe 3, sieving mechanism 4, vibrating screen 41, first sliding block 42, first sliding groove 43, first guide support component 44, first guide support rod 441, first guide support cylinder 442, first guide support spring 443, driving mechanism 5, driving motor 51, rotating rod 52, missing gear 53, ring gear 54, push rod 55, second guide support component 56, second guide support rod 561, second guide support cylinder 562, second guide support spring 563, air guide hole 57, fixed box 58, horn-shaped guide pipe 6, blowing mechanism 7, blowing fan blade 71, air guide pipe 72, air storage cavity 73, air outlet 74, solid particulate matter outlet 8, pushing mechanism 9, rotating column 91, annular spiral groove 92, vertical support rod 93, 94 moving plate, pushing scraping plate 95, inclined blocking plate 96, second sliding block 97, sliding block 96, pushing mechanism 6, pushing mechanism 6, air guide pipe 72, air storage cavity 73, air outlet 74, solid particulate matter outlet 8, pushing mechanism 9, rotating column 91, annular spiral groove 92, vertical support rod 93, 94 moving plate, pushing scraping plate 95, inclined blocking plate 96, second sliding block 97, vibrating screen, A second sliding groove 98, a third guiding support component 99, a third guiding support rod 991, a third guiding support cylinder 992, a third guiding support spring 993 and an inclined guide plate 10.

Detailed Description

The invention will be further illustrated with reference to the following figures 1-6 and examples:

a waste resource recycling device for urban landscape gardens comprises a collecting box 1, a leaf inlet conveying pipe 2 and a crushing box connecting pipe 3, wherein the crushing box connecting pipe 3 is arranged on a top plate of the collecting box 1, the leaf inlet conveying pipe 2 is arranged on a side plate of the collecting box 1, a screening mechanism 4 and a screening mechanism 4 are arranged in the collecting box 1, the invention is used for screening solid particles such as stones and the like mixed in fallen leaves, and improves the prior waste resource recycling device of urban landscape architecture, can remove solid particles such as stones and the like which are included in fallen leaves, thus preventing the solid particles such as the stones and the like from increasing the abrasion of a crushing mechanism when the fallen leaves are crushed, thereby the service life of the crushing mechanism can be prolonged, and the improved equipment has better application prospect.

In order to ensure that solid particles such as fallen leaves and stones can be smoothly separated, in the embodiment, the screening mechanism 4 comprises a vibrating screen 41 and a first sliding block 42, the vibrating screen 41 is movably arranged in the collecting box 1, the first sliding block 42 is fixedly arranged at each of two ends of the vibrating screen 41, the first sliding block 42 is slidably arranged in a first sliding groove 43, the first sliding groove 43 is arranged on the inner side wall of the collecting box 1, a first guide supporting component 44 is fixedly connected to the lower end of the first sliding block 42, and the lower end of the first guide supporting component 44 is fixedly connected to the bottom wall of the first sliding groove 43.

In this embodiment, a direction supporting component 44 includes a direction bracing piece 441, a direction supporting barrel 442 and a direction supporting spring 443, a direction bracing piece 441 activity is pegged graft in a direction supporting barrel 442, a direction supporting spring 443 winding connection is outside a direction bracing piece 441, and the both ends of a direction supporting spring 443 are fixed connection respectively on the lateral wall of a direction bracing piece 441 and the lateral wall of a direction supporting barrel 442, a setting of direction supporting component 44, both can play the effect that the direction was supported for the motion of a sliding block 42, and simultaneously, can provide power for the reset motion of a sliding block 42 again.

In order to make the vibrating process of the vibrating screen 41 more convenient and efficient, in this embodiment, a driving mechanism 5 is disposed in the collecting box 1, and the driving mechanism 5 is disposed to ensure that the vibrating screen 41 has a vibrating force, the driving mechanism 5 includes a driving motor 51 and a rotating rod 52, the driving motor 51 is fixedly disposed in a fixed box 58, the fixed box 58 is fixedly disposed in the collecting box 1, the rotating rod 52 is connected to a driving end of the driving motor 51, a missing gear 53 is fixedly sleeved outside the rotating rod 52, the missing gear 53 is alternately engaged with two sets of parallel teeth in the ring gear 54, two second guiding and supporting components 56 are symmetrically disposed on an outer bottom wall of the ring gear 54, a lower end of each second guiding and supporting component 56 is fixedly connected to an inner bottom wall of the collecting box 1, a push rod 55 is fixedly connected to an outer top wall of the ring gear 54, and an upper end of the push rod 55 is fixedly connected to a lower end of the vibrating screen 41, the collecting box 1 is provided with the air guide hole 57, the air guide hole 57 is communicated with the fixed box 58, the grid is arranged in the air guide hole 57, the driving mechanism 5 is additionally arranged in the vibrating screen 41 and used for driving the vibrating screen 41 to vibrate, the driving mechanism 5 is reasonable in structural design, in the actual working process, the driving mode of the air cylinder is replaced by the motor, the efficient working effect can be achieved, meanwhile, the problem of oil leakage in the driving process of the air cylinder can be prevented, and therefore excessive consumption of resources is avoided.

In this embodiment, No. two direction supporting component 56 includes No. two direction bracing piece 561, No. two direction supporting cylinder 562 and No. two direction supporting spring 563, No. two direction bracing piece 561 activity is pegged graft in No. two direction supporting cylinder 562, No. two direction supporting spring 563 winding connection is outside No. two direction bracing piece 561, and No. two direction supporting spring 563 both ends respectively fixed connection on No. two direction bracing piece 561's lateral wall and No. two direction supporting cylinder 562's lateral wall, No. two direction supporting component 56's setting, both can play the effect that the direction was supported for ring gear 54's motion, and simultaneously, can provide power for ring gear 54's the motion that resets again.

In order to make the solid particles such as stones fall more intensively, in the embodiment, the horn-shaped guide pipe 6 is arranged below the vibrating screen 41, the horn-shaped guide pipe 6 is fixedly arranged in the collecting box 1, the horn-shaped guide pipe 6 is additionally arranged in the invention, and after the vibrating screen 41 screens and drops the solid particles such as stones, the horn-shaped guide pipe 6 is arranged in the equipment in order to make the falling positions of the solid particles such as stones more intensively.

In order to ensure that solid particles such as stones and fallen leaves can be better separated, in the embodiment, the collection box 1 is internally provided with the air blowing mechanism 7, the air blowing mechanism 7 is arranged to blow air from the lower part of the vibrating screen 41, so that the fallen leaves are blown to enter the crushing box through the crushing box connecting pipe 3, the air blowing mechanism 7 comprises an air blowing fan blade 71 and an air guide pipe 72, the air blowing fan blade 71 is fixedly sleeved outside the rotating rod 52, the air guide pipe 72 is fixedly inserted on the fixing box 58 and the trumpet-shaped guide pipe 6 at the same time, the air guide pipe 72 is used for communicating the fixing box 58 with the air storage cavity 73, the air storage cavity 73 is arranged on the trumpet-shaped guide pipe 6, the trumpet-shaped guide pipe 6 is also provided with a plurality of air outlet holes 74, the air outlet holes 74 are communicated with the air storage cavity 73, two inclined guide plates 10 are symmetrically and fixedly connected on the inner side wall of the collection box 1, the combined structure of the air blowing mechanism 7 and the inclined guide plates 10 is additionally arranged in the invention, the air blowing mechanism 7 can blow air from the lower part, the fallen leaves can be blown to move upwards under the action of wind power, the fallen leaves are in the moving upwards, solid particles such as stones can be separated from the fallen leaves better under the action of dead weight, and the fallen leaves can enter the crushing box connecting pipe 3 more smoothly due to the arrangement of the inclined guide plate 10.

In order to ensure better discharge of solid particles such as stones, in this embodiment, a bottom plate of the collection box 1 is provided with a solid particle discharge port 8, the collection box 1 is internally provided with a pushing mechanism 9, the pushing mechanism 9 includes a rotating column 91 and an annular spiral groove 92, the rotating column 91 is fixedly sleeved outside the rotating rod 52, the rotating column 91 is provided with the annular spiral groove 92, the annular spiral groove 92 is internally and movably provided with a vertical support rod 93, the vertical support rod 93 is fixedly arranged on an upper end surface of a moving plate 94, the moving plate 94 is connected with a pushing and scraping plate 95, an inclined blocking plate 96 is obliquely connected on an upper end surface of the pushing and scraping plate 95, a second sliding block 97 is fixedly connected on a lower end surface of the moving plate 94, the second sliding block 97 is slidably arranged in the second sliding groove 98, the second sliding groove 98 is arranged on an inner bottom wall of the collection box 1, and a third guiding and supporting assembly 99 is fixedly connected on a side wall of the second sliding groove 98, the free end of the third guide supporting component 99 is fixedly connected to the side wall of the second sliding block 97, a combined structure of the solid particle discharging port 8 and the pushing mechanism 9 is additionally arranged in the device, and the combined structure can discharge solid particles such as stones out of the collecting box 1, so that the solid particles such as the stones are prevented from being deposited in the collecting box 1, and further, the subsequent cleaning process is avoided, and the device is more time-saving and labor-saving when in use.

In this embodiment, No. three direction supporting component 99 includes No. three direction support rod 991, No. three direction support section of thick bamboo 992 and No. three direction supporting spring 993, No. three direction support rod 991 activity is pegged graft in No. three direction support section of thick bamboo 992, No. three direction supporting spring 993 winding is connected outside No. three direction support rod 991, and No. three direction supporting spring 993's both ends respectively fixed connection on No. three direction support rod 991's lateral wall and No. three direction support section of thick bamboo 992's lateral wall, No. three direction supporting component 99's setting, both can play the effect that the direction was supported for the motion of movable plate 94, and simultaneously, can provide power for the motion that resets of movable plate 94 again.

The working principle of the invention comprises the following processes:

starting the driving motor 51, the working of the driving motor 51 can drive the rotating rod 52 to rotate, the rotating of the rotating rod 52 can drive the gear lack 53 to rotate, because the gear lack 53 is alternately meshed with two groups of parallel teeth in the ring gear 54, the ring gear 54 can circularly move up and down by the rotation of the gear lack 53, the ring gear 54 can circularly move up and down, the push-pull of the vibrating screen 41 can be realized by the push rod 55, in the process of the up-and-down circular movement of the vibrating screen 41, the vibrating force is realized, thereby forming a vibrating process for the fallen leaves on the vibrating screen 41, and further separating the fallen leaves from solid particles such as stones and the like clamped in the vibrating screen,

the rotating rod 52 can drive the blowing fan blade 71 to rotate while rotating, blowing air of the blowing fan blade 71 can move to the lower part of the vibrating screen 41 sequentially through the air duct 72, the air storage cavity 73 and the air outlet 74, and can blow falling leaves to move upwards under the action of the blowing air, and the falling leaves can also be separated from solid particles such as stones and the like in the process of being blown to move upwards under the guide of the inclined guide plate 10 and entering the crushing box through the crushing box connecting pipe 3;

the solid particles such as stones screened by the vibrating screen 41 intensively move to the left side of the pushing scraping plate 95 under the guidance of the trumpet-shaped guide tube 6, the rotating column 91 is driven to rotate in the rotating process of the rotating rod 52, the rotating column 91 pushes the vertical supporting rod 93 to circularly move leftwards and rightwards through the annular spiral groove 92, the pushing scraping plate 95 is pushed to move leftwards through the moving plate 94 in the leftward movement process of the vertical supporting rod 93, the leftward movement of the pushing scraping plate 95 is driven to push the solid particles such as stones to move leftwards, the solid particles such as the stopping stones are driven to move leftwards through the solid particle discharge port 8 to move outside the collection box 1, in the movement process, the pushing scraping plate 95 is driven to move leftwards, the inclined blocking plate 96 is driven to move leftwards, the blocking of the trumpet-shaped guide tube 6 is completed through the inclined blocking plate 96, and thus the solid particles such as stones can be prevented from falling to the right side of the pushing scraping plate 95, thereby preventing solid particles such as stones from being unable to be pushed out of the collection tank 1.

The invention has the beneficial effects that:

according to the invention, the existing waste resource recycling device for the urban landscape gardens is improved, and the improved waste resource recycling device for the urban landscape gardens can remove solid particles such as stones and the like mixed in fallen leaves while collecting the fallen leaves, so that the solid particles such as the stones and the like can be prevented from increasing the abrasion of the crushing mechanism when the fallen leaves are crushed, the service life of the crushing mechanism can be prolonged, and the improved equipment has a better application prospect.

According to the invention, the screening mechanism 4 is additionally arranged, and solid particles such as stones and the like mixed in fallen leaves can be screened under the vibration action of the screening mechanism 4.

The vibrating screen is additionally provided with the driving mechanism 5, the driving mechanism 5 is used for driving the vibrating screen 41 to vibrate, the driving mechanism 5 is reasonable in structural design, and in the actual working process, the driving mode of the air cylinder is replaced by the motor, so that the effect of efficient working can be achieved, meanwhile, the problem of oil leakage in the driving process of the air cylinder can be prevented, and therefore excessive consumption of resources is avoided.

The invention is additionally provided with the horn-shaped guide pipe 6, and after the vibrating screen 41 screens and drops solid particles such as stones, the horn-shaped guide pipe 6 is arranged in the equipment in order to enable the falling positions of the solid particles such as the stones to be more concentrated.

According to the invention, a combined structure of the air blowing mechanism 7 and the inclined guide plate 10 is additionally arranged, air can be blown from the lower part by the air blowing mechanism 7, fallen leaves can be blown to move upwards under the action of wind power, the fallen leaves can be better separated from the fallen leaves under the action of the dead weight of solid particles such as stones and the like in the upward movement process, and the fallen leaves can enter the crushing box connecting pipe 3 more smoothly by the arrangement of the inclined guide plate 10.

According to the invention, a combined structure of the solid particle discharging port 8 and the pushing mechanism 9 is additionally arranged, and the combined structure can discharge solid particles such as stones out of the collecting box 1, so that the solid particles such as the stones are prevented from being deposited in the collecting box 1, and further, the subsequent cleaning process is avoided, and the equipment is more time-saving and labor-saving when in use.

According to the invention, the driving motor 51 can drive the screening mechanism 4, the blowing mechanism 7 and the pushing mechanism 9 to synchronously move, so that the difficulty of equipment can be reduced, the high efficiency performance of the equipment can be improved, and the problem of resource consumption caused by adding too many power sources can be prevented.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.