CN221049909U - Mangrove planting sea area rubbish cleaning device - Google Patents

Abstract

The utility model discloses a mangrove planting sea area garbage cleaning device, which comprises a ship body, a transmission mechanism arranged at the water inlet end of the ship body and an equipment cabin arranged at the output end of the transmission mechanism, wherein the equipment cabin comprises a compression pushing mechanism arranged at the output end of the transmission mechanism and a limit conveying mechanism arranged at the output end of the compression pushing mechanism and used for conveying compressed garbage to the inside of the ship body.

Description

Mangrove planting sea area rubbish cleaning device

Technical Field

The utility model belongs to the technical field of ships, and particularly relates to a mangrove planting sea area garbage cleaning device.

Background

Mangrove forest is a tidal flat wetland woody biological community which grows at the upper part of a low-energy coast intertidal zone in a tropical zone and a subtropical zone and is immersed by periodical tidal water, and is composed of evergreen shrubs or arbor taking mangrove plants as main bodies.

The sea surface floating garbage mainly comprises plastic bags, floating wood blocks, plastic bottles, pop cans and the like, and the traditional garbage cleaning device is mainly used for salvaging and collecting garbage in a piling mode, so that the garbage can not be effectively stored due to the fact that the accommodating space of the cleaning device is limited, the garbage treatment capacity of the traditional cleaning device is low, and the garbage floating on the sea surface can not be efficiently collected.

Disclosure of utility model

In order to solve the problems, the utility model provides a mangrove planting sea area garbage cleaning device which can effectively clean sea surface garbage and can accommodate more garbage, and the specific scheme is as follows:

The utility model provides a mangrove planting sea area rubbish cleaning device, includes the hull, still includes the transport mechanism of setting at the hull income water end and sets up the equipment compartment at transport mechanism output, the equipment compartment is including setting up the compression release mechanism at transport mechanism output, setting up at the compression release mechanism output and being used for carrying the spacing transport mechanism of inside to the hull rubbish after compressing, wherein, spacing transport mechanism and hull inner chamber intercommunication set up.

Preferably, the storage cabin is arranged on two sides of the ship body, square tubes are arranged on the inner side walls of the ship body, double servo motors are fixedly arranged in the square tubes, transmission roll shafts are arranged at the output ends of the double servo motors, a transmission belt arranged in the storage cabin is connected to the transmission roll shafts in a transmission mode, a first through hole communicated with the equipment cabin is further formed in the top of the storage cabin, and an expansion arm is fixedly connected to the front end of the ship body.

Preferably, the conveying mechanism comprises a front conveying assembly and a conveying assembly arranged at the output end of the front conveying assembly, wherein the front conveying assembly comprises a first motor, a first roller shaft arranged at the output end of the first motor and a first conveying belt arranged on the side wall of the first roller shaft in a transmission manner; the conveying assembly comprises a leakage-proof frame, a second motor fixedly arranged on the side wall of the leakage-proof frame, a second roll shaft arranged at the output end of the second motor, and a second conveying belt which is arranged on the side wall of the second roll shaft in a transmission manner and positioned at the output end of the first conveying belt.

Preferably, the surfaces of the first conveying belt and the second conveying belt are respectively provided with a strip-shaped bulge, and the second conveying belt is also provided with a first drain hole.

Preferably, the conveying mechanism further comprises a leakage preventing wall arranged at the output end of the second conveying belt, a third motor is fixedly arranged on the side wall of the leakage preventing wall, a third roll shaft is arranged at the output end of the third motor, and a third conveying belt arranged at the tail end of the second conveying belt is connected to the third roll shaft in a transmission mode.

Preferably, the compression pushing mechanism comprises a fixed frame fixedly arranged at the top end of the equipment compartment, a first air cylinder fixedly arranged in the fixed frame, a compression mould arranged in the equipment compartment and matched with the first air cylinder, and a discharge assembly arranged in the equipment compartment and used for driving the material in the compression mould to be discharged; the discharging assembly comprises a second shell fixedly arranged in the equipment cabin, a fourth motor fixedly arranged in the second shell, a gear fixedly arranged at the output end of the fourth motor and a rack meshed with the gear and capable of performing telescopic displacement along the inner cavity of the second shell, and the side wall of the first cylinder is fixedly connected with a first sensor.

Preferably, the tip fixedly connected with first push pedal of rack, first push pedal lateral wall parallel arrangement has first push rod and second push rod, compression mould is including setting firmly at the bottom plate of second shells inner wall, setting firmly at the curb plate of bottom plate both sides opposite side, setting up at the terminal second push pedal of first push rod and with the relative setting of second push rod and be located the terminal baffle of second push rod, wherein, the curb plate outer wall still is provided with the second wash port.

Preferably, the equipment cabin is further internally provided with a blockage cleaning mechanism, and the blockage cleaning mechanism comprises a third shell fixedly arranged on the inner wall of the equipment cabin, a second cylinder fixedly arranged in the third shell and a cleaning rod arranged at the output end of the second cylinder and matched with the second drain hole.

Preferably, the device cabin is further provided with a limit conveying mechanism matched with the compression pushing mechanism, the limit conveying mechanism comprises a limit cabin arranged at the outlet end of the compression pushing mechanism, a fourth shell fixedly arranged on the outer wall of the device cabin, a fifth motor fixedly arranged in the fourth shell, a screw rod arranged at the output end of the fifth motor, guide rails arranged on two sides of the screw rod and a slider spirally arranged on the screw rod and in sliding connection with the guide rails, the slider is fixedly connected with the limit cabin, and a second inductor is fixedly arranged on the side wall of the limit cabin.

Preferably, the clamping groove is formed in the top of the equipment cabin, the sealing plate is arranged in the clamping groove in a sliding mode, the handle is arranged at the top end of the sealing plate, a third drain hole is further formed in the bottom of the equipment cabin, and a second through groove communicated with the storage cabin is further formed in the equipment cabin.

According to the technical scheme, the utility model has the following beneficial effects: according to the utility model, through the arrangement of the transmission mechanism, garbage floating on the sea surface can be collected when the transmission mechanism works, the garbage collected by the transmission mechanism is transmitted into the equipment cabin, the garbage entering the cabin is compressed by the compression pushing mechanism in the cabin, so that the space occupied by the garbage is reduced, the compressed garbage can be pushed to the limit conveying mechanism and is conveyed to the inside of the ship body for storage through the limit conveying mechanism, the garbage can be effectively collected and stored, and the cleaning device can accommodate more garbage, so that the efficiency of cleaning the garbage on the sea surface is improved.

Drawings

FIG. 1 is an exploded view of the present utility model;

FIG. 2 is a schematic perspective view of the present utility model;

FIG. 3 is a schematic view of the structure of a hull;

FIG. 4 is a schematic diagram of a transport mechanism;

FIG. 5 is a schematic diagram of a connection between a compression pushing mechanism and a spacing transport mechanism;

FIG. 6 is a schematic view of a compression-ejection mechanism;

FIG. 7 is a schematic view of the connection of the jam clearing mechanism to the compression pushing mechanism;

FIG. 8 is a schematic structural view of the limit position conveying mechanism;

Fig. 9 is a schematic view of the structure of the equipment bay.

In the figure: 1. a hull; 101. square tubes; 102. a double servo motor; 103. a storage compartment; 104. a belt; 105. a transfer roller shaft; 106. a first through hole; 107. expanding an arm; 2. a transmission mechanism; 201. a first conveyor belt; 202. a first roller shaft; 203. a first motor; 204. a second conveyor belt; 205. a second roller shaft; 206. a second motor; 207. a first drain hole; 208. a bar-shaped protrusion; 209. a leakage-proof frame; 210. a third conveyor belt; 211. leakage preventing walls; 212. a third motor; 3. an equipment compartment; 301. a clamping groove; 302. a sealing plate; 303. a handle; 304. a third drain hole; 305. a second through slot; 4. a compression pushing mechanism; 401. a fixed frame; 402. a first cylinder; 403. compressing a die; 404. a first inductor; 405. a second housing; 406. a fourth motor; 407. a rack; 408. a gear; 409. a first push plate; 410. a first push rod; 411. a second push rod; 412. a second push plate; 413. a baffle; 414. a second drain hole; 415. a bottom plate; 416. a side plate; 5. a blockage cleaning mechanism; 501. a third housing; 502. a second cylinder; 503. cleaning a rod; 6. a limit conveying mechanism; 601. a limit bin; 602. a fourth housing; 603. a fifth motor; 604. a screw rod; 605. a guide rail; 606. a slide block; 607. a second inductor.

Detailed Description

The present utility model will be described in detail below with reference to the drawings and detailed embodiments, and before the technical solutions of the embodiments of the present utility model are described in detail, the terms and terms involved will be explained, and in the present specification, the components with the same names or the same reference numerals represent similar or identical structures, and are only limited for illustrative purposes.

Example 1:

Referring to fig. 1 and 2, the mangrove planting sea area garbage cleaning device comprises a ship body 1, a transmission mechanism 2 arranged at the water inlet end of the ship body 1 and an equipment cabin 3 arranged at the output end of the transmission mechanism 2, wherein the equipment cabin 3 comprises a compression pushing mechanism 4 arranged at the output end of the transmission mechanism 2 and a limit conveying mechanism 6 arranged at the output end of the compression pushing mechanism 4 and used for conveying compressed garbage to the inside of the ship body 1, the limit conveying mechanism 6 is communicated with the inner cavity of the ship body 1, and when the mangrove planting sea area garbage cleaning device is used, sea surface floating garbage can be effectively conveyed into the equipment cabin 3 through the transmission mechanism 2, redundant seawater in the garbage can be discharged through the compression pushing mechanism 4 in a matched mode, garbage is compressed into blocks, so that occupied space of the garbage is reduced, and the compressed garbage can be effectively conveyed to the inside of the ship body 1 through the limit conveying mechanism 6 in a matched mode, so that garbage collection capacity and garbage collection efficiency are improved.

Referring to fig. 3, storage tanks 103 are arranged on two sides of the hull 1, square tubes 101 are arranged on the inner side walls of the hull 1, double servo motors 102 are fixedly arranged in the square tubes 101, conveying roller shafts 105 are arranged at the output ends of the double servo motors 102, conveying belts 104 arranged in the storage tanks 103 are connected to the conveying roller shafts 105 in a transmission mode, first through holes 106 communicated with the equipment tanks 3 are further formed in the tops of the storage tanks 103, expanding arms 107 are fixedly connected to the front ends of the hulls 1, the number of the conveying roller shafts 105 is multiple, the conveying belts 104 are arranged on the outer walls of the conveying roller shafts 105 in a transmission mode, and when the garbage collection device is used, the conveying rollers 104 are driven by the double servo motors 102 to collect garbage located on the sea through the conveying roller shafts 105, and meanwhile the garbage on the sea can be conveyed into the conveying mechanism 2 through the converging function of the expanding arms 107.

Referring to fig. 4, as a preferred solution of the present utility model, the conveying mechanism 2 includes a pre-conveying assembly and a conveying assembly disposed at an output end of the pre-conveying assembly, further, the pre-conveying assembly includes a first motor 203, a first roller 202 disposed at an output end of the first motor 203, and a first conveying belt 201 disposed on a side wall of the first roller 202 in a transmission manner, the conveying assembly includes a leakage-proof frame 209, a second motor 206 fixedly disposed on a side wall of the leakage-proof frame 209, a second roller 205 disposed at an output end of the second motor 206, and a second conveying belt 204 disposed on a side wall of the second roller 205 and disposed at an output end of the first conveying belt 201 in a transmission manner, when in use, the first roller 202 is driven by the first motor 203 to rotate, and the first roller 202 and thus the first conveying belt 201 convey garbage on the sea surface, and in particular, the second conveying belt 204 is driven by the second motor 206, the second roller 204 is driven by the second motor 205 to convey the second conveying belt 204 to the rear side into the equipment compartment 3 for subsequent treatment.

Further, the first conveying belt 201 and the second conveying belt 204 are provided with strip-shaped protrusions 208, the second conveying belt 204 is further provided with a first drain hole 207, and the conveying assembly is further provided with a leakage-proof frame 209, so that the existence of the strip-shaped protrusions 208 can facilitate the improvement of the contact friction force between garbage and the first conveying belt 201 and the second conveying belt 204, the garbage can be prevented from sliding off, the first drain hole 207 arranged on the second conveying belt 204 can drain seawater carried on the garbage, and meanwhile, the leakage-proof frame 209 can prevent the garbage from leaking from the side edges.

As a preferred technical scheme of the present utility model, the conveying mechanism 2 further includes a leakage preventing wall 211 disposed at an output end of the second conveying belt 204, a third motor 212 is fixedly disposed on a side wall of the leakage preventing wall 211, a third roller is disposed at an output end of the third motor 212, and a third conveying belt 210 disposed at an end of the second conveying belt 204 is connected to the third roller in a driving manner, when in use, the third roller is driven by the third motor 212 to rotate, and the third roller further drives the third conveying belt 210 to convey the garbage conveyed by the second conveying belt 204, so as to convey the garbage into the equipment compartment 3 for compression treatment.

Referring to fig. 5, 6 and 7, as a preferred technical solution of the present utility model, the compression pushing mechanism 4 includes a fixing frame 401, a first cylinder 402, a compression mold 403 and a discharging assembly, the fixing frame 401 is fixedly disposed at the top end of the equipment compartment 3, the first cylinder 402 is vertically fixedly disposed inside the fixing frame 401, the compression mold 403 is disposed inside the equipment compartment 3 and is used in cooperation with the first cylinder 402, the discharging assembly is disposed inside the equipment compartment 3 and is used for driving the compressed material in the compression mold 403 to be discharged, further, the discharging assembly includes a second housing 405, a fourth motor 406, a rack 407 and a gear 408, the second housing 405 is fixedly disposed inside the equipment compartment 3, the fourth motor 406 is fixedly disposed inside the second housing 405, the gear 408 is fixedly disposed at the output end of the fourth motor 406, the rack 407 is meshed with the gear 408 and can stretch out and draw back along the inner cavity of the second shell 405, wherein, first cylinder 402 lateral wall fixedly connected with first inductor 404, the output of first cylinder 402 is equipped with the briquetting that matches with compression mould 403, during the use, fixed frame 401 passes through bolt and equipment compartment 3 fixed connection, in the rubbish is transmitted compression mould 403 through third conveyer belt 210, through the vertical motion of first cylinder 402, drive the briquetting compresses rubbish in the compression mould 403, compress the rubbish that will enter into in the compression mould 403, the existence of first inductor 404 can control the vertical travel distance of first cylinder 402, after the compression is accomplished, fourth motor 406 rotates through driving gear 408, and then drives rack 407 and stretch out and draw back along the inner cavity of second shell 405, in order to push out the rubbish after compressing compression mould 403.

Further, the end portion of the rack 407 is fixedly connected with a first push plate 409, the first push plate 409 is slidably disposed in an inner cavity of the second housing 405, the side walls of the first push plate 409 are parallel to a first push rod 410 and a second push rod 411, that is, the first push rod 410 and the second push rod 411 are disposed on the side walls of the first push plate 409 along different vertical heights, the compression mold 403 includes a bottom plate 415 fixedly disposed on the inner wall of the second housing 405, side plates 416 fixedly disposed on two opposite sides of the bottom plate 415, a second push plate 412 disposed at the end of the first push rod 410, and a baffle 413 disposed opposite to the second push rod 411 and disposed at the end of the second push rod 411, wherein, when in use, the outer wall of the side plates 416 is further provided with a second drain hole 414, the first push plate 409 is driven to move under the pushing of the rack 407, and the second push plate 412 and the baffle 413 are pushed out of the bottom plate 415 by the first push rod 410 and the second push rod 411, the compressed garbage disposed between the bottom plate 415 and the side plates 416 is discharged to the compression mold 403, the pushed out of the compressed garbage is dropped into the limit mechanism 6, and is conveyed into the limit mechanism 103, and stored in the limit mechanism 6.

Further, referring to fig. 7, when the garbage is compressed by the compression mold 403, the seawater contained in the garbage is discharged through the second drain hole 414, and the garbage debris blocks the second drain hole 414, so that a blockage cleaning mechanism 5 is further provided in the equipment compartment 3, the blockage cleaning mechanism 5 includes a third housing 501 fixedly provided on the inner wall of the equipment compartment 3, a second cylinder 502 fixedly provided in the third housing 501, and a cleaning rod 503 provided at the output end of the second cylinder 502 and matched with the second drain hole 414, and when the garbage is compressed, if the second drain hole 414 is blocked by the overflowed garbage and cannot realize the seawater discharge, the cleaning rod 503 matched with the second drain hole 414 is driven to push the blocked garbage into the compression mold 403 by the action of the second cylinder 502 to wait for the recompression.

Referring to fig. 8, as a preferred solution of the present utility model, a limit conveying mechanism 6 matched with the compression pushing mechanism 4 is further disposed in the equipment compartment 3, the limit conveying mechanism 6 includes a limit bin 601 disposed at an outlet end of the compression pushing mechanism 4, a fourth housing 602 fixedly disposed on an outer wall of the equipment compartment 3, a fifth motor 603 fixedly disposed in the fourth housing 602, a screw rod 604 disposed at an output end of the fifth motor 603, guide rails 605 disposed on two sides of the screw rod 604, and a slider 606 spirally disposed on the screw rod 604 and slidingly connected with the guide rails 605, and the slider 606 is fixedly connected with the limit bin 601, a second sensor 607 is fixedly disposed on a side wall of the limit bin 601, and when the compressed garbage enters the limit conveying mechanism 6 under the pushing of the second push plate 412 and the baffle 413, the slider 606 disposed on the screw rod 604 is driven to start to reciprocate by the sensing action of the second sensor 607 after the garbage is stacked to a certain height, so that the garbage can be effectively conveyed into the storage compartment 103.

Referring to fig. 9, further, a clamping groove 301 is formed in the top of the equipment compartment 3, a sealing plate 302 is slidably disposed in the clamping groove 301, a handle 303 is disposed at the top end of the sealing plate 302, a third drain hole 304 is further formed in the bottom of the equipment compartment 3, a second through hole 305 is further formed in the bottom of the equipment compartment 3 and is communicated with the storage compartment 103, the third drain hole 304 can drain surplus seawater in the compartment, fixing and dismounting of the sealing plate 302 can be facilitated through the arrangement of the clamping groove 301, the handle 303 disposed at the top end of the sealing plate 302 is convenient for taking and placing the sealing plate, the storage compartment 103 can be communicated through the arrangement of the second through hole 305, and garbage conveyed through the limiting bin 601 can enter the storage compartment 103 through the second through hole 305 when conveyed to the upper portion of the second through hole 305, and meanwhile, the double-servo motor 102 conveys the garbage which falls down onto the conveying roller shaft 105 and the conveying belt 104 to the storage compartment 103 when the conveying belt 104 rotates.

When the garbage truck is used, garbage floating on the sea surface is collected by using the conveying mechanism 2, particularly, garbage can be effectively conveyed into the equipment cabin 3 step by step through the first conveying belt 201, the second conveying belt 204 and the third conveying belt 210, seawater carried by the garbage can be filtered for the first time because the first water draining holes 207 are formed in the second conveying belt 204, when the garbage is brought into the compression mold 403 by the third conveying belt 210, the garbage can be effectively compressed into blocks through the compression effect of the first cylinder 402, then the fourth motor 406 drives the rack 407 to linearly move through the gear 408 under the action of the first sensor 404, the rack 407 further drives the first push plate 409 to move, the first push plate 409 further drives the first push plate 410 and the second push plate 411 to act, the first push plate 410 and the second push plate 411 drive the garbage compressed on the second push plate 412 and the baffle 413 to push the limit conveying mechanism 6, when the garbage enters the limit conveying mechanism 6, the garbage is stacked to a certain height through the action of the second sensor, the fifth motor 603 drives the slide block 604, the slide block 606 is driven to move, and the first push plate 409 is driven to reciprocate to move to the limit cabin 601, and the garbage can be effectively stored in the limit conveying mechanism.

The above-described embodiments are merely illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the spirit of the present utility model.

Claims (10)

1. The utility model provides a mangrove planting sea area rubbish cleaning device, includes hull (1), its characterized in that still includes transport mechanism (2) and equipment compartment (3) of setting at transport mechanism (2) output that set up in hull (1) income water end, equipment compartment (3) are including setting up compression release mechanism (4) at transport mechanism (2) output, setting up at compression release mechanism (4) output and are used for carrying the spacing transport mechanism (6) of compression back rubbish to the inside of hull (1), wherein, spacing transport mechanism (6) and hull (1) inner chamber intercommunication setting.

2. The mangrove planting sea area garbage cleaning device according to claim 1, wherein storage cabins (103) are arranged on two sides of the ship body (1), square tubes (101) are arranged on the inner side walls of the ship body (1), double servo motors (102) are fixedly arranged in the square tubes (101), transmission roller shafts (105) are arranged at the output ends of the double servo motors (102), transmission belts (104) arranged in the storage cabins (103) are connected to the transmission roller shafts (105) in a transmission mode, first through holes (106) communicated with the equipment cabins (3) are further formed in the tops of the storage cabins (103), and expansion arms (107) are fixedly connected to the front ends of the ship body (1).

3. The mangrove forest planted sea area garbage cleaning device according to claim 1, wherein the conveying mechanism (2) comprises a front conveying assembly and a conveying assembly arranged at the output end of the front conveying assembly, and the front conveying assembly comprises a first motor (203), a first roller shaft (202) arranged at the output end of the first motor (203) and a first conveying belt (201) arranged on the side wall of the first roller shaft (202) in a transmission manner; the conveying assembly comprises a leakage-proof frame (209), a second motor (206) fixedly arranged on the side wall of the leakage-proof frame (209), a second roller shaft (205) arranged at the output end of the second motor (206) and a second conveying belt (204) which is arranged on the side wall of the second roller shaft (205) in a transmission manner and is positioned at the output end of the first conveying belt (201).

4. A mangrove planting sea area garbage cleaning device according to claim 3, characterized in that the surfaces of the first conveying belt (201) and the second conveying belt (204) are provided with strip-shaped protrusions (208), and the second conveying belt (204) is further provided with a first water drain hole (207).

5. The mangrove planting sea area garbage cleaning device according to claim 3, wherein the conveying mechanism (2) further comprises a leakage preventing wall (211) arranged at the output end of the second conveying belt (204), a third motor (212) is fixedly arranged on the side wall of the leakage preventing wall (211), a third roller shaft is arranged at the output end of the third motor (212), and a third conveying belt (210) arranged at the tail end of the second conveying belt (204) is in transmission connection with the third roller shaft.

6. The mangrove planting sea area garbage cleaning device according to claim 1, wherein the compression pushing mechanism (4) comprises a fixed frame (401) fixedly arranged at the top end of the equipment compartment (3), a first air cylinder (402) fixedly arranged in the fixed frame (401), a compression mold (403) arranged in the equipment compartment (3) and matched with the first air cylinder (402), and a discharge assembly arranged in the equipment compartment (3) and used for driving materials in the compression mold (403) to be discharged; the discharging assembly comprises a second shell (405) fixedly arranged in the equipment cabin (3), a fourth motor (406) fixedly arranged in the second shell (405), a gear (408) fixedly arranged at the output end of the fourth motor (406) and a rack (407) meshed with the gear (408) and capable of performing telescopic displacement along the inner cavity of the second shell (405), and a first inductor (404) is fixedly connected to the side wall of the first cylinder (402).

7. The mangrove planting sea area garbage cleaning device according to claim 6, wherein the end portion of the rack (407) is fixedly connected with a first push plate (409), a first push rod (410) and a second push rod (411) are arranged on the side wall of the first push plate (409) in parallel, the compression mold (403) comprises a bottom plate (415) fixedly arranged on the inner wall of the second shell (405), side plates (416) fixedly arranged on two opposite sides of the bottom plate (415), a second push plate (412) arranged at the tail end of the first push rod (410) and a baffle plate (413) which is opposite to the second push rod (411) and is arranged at the tail end of the second push rod (411), and a second drain hole (414) is further formed in the outer wall of the side plate (416).

8. The mangrove forest planting sea area garbage cleaning device according to claim 7, wherein a blockage cleaning mechanism (5) is further arranged in the equipment compartment (3), and the blockage cleaning mechanism (5) comprises a third shell (501) fixedly arranged on the inner wall of the equipment compartment (3), a second air cylinder (502) fixedly arranged in the third shell (501) and a cleaning rod (503) arranged at the output end of the second air cylinder (502) and matched with the second drain hole (414).

9. The mangrove planting sea area garbage cleaning device according to claim 8, wherein a limit conveying mechanism (6) matched with the compression pushing mechanism (4) is further arranged in the equipment cabin (3), the limit conveying mechanism (6) comprises a limit bin (601) arranged at the outlet end of the compression pushing mechanism (4), a fourth shell (602) fixedly arranged on the outer wall of the equipment cabin (3), a fifth motor (603) fixedly arranged in the fourth shell (602), a screw rod (604) arranged at the output end of the fifth motor (603), guide rails (605) arranged on two sides of the screw rod (604) and a sliding block (606) which is spirally arranged on the screw rod (604) and is in sliding connection with the guide rails (605), the sliding block (606) is fixedly connected with the limit bin (601), and a second inductor (607) is fixedly arranged on the side wall of the limit bin (601).

10. The mangrove planting sea area garbage cleaning device according to claim 1, wherein a clamping groove (301) is formed in the top of the equipment cabin (3), a sealing plate (302) is arranged in the clamping groove (301) in a sliding mode, a handle (303) is arranged at the top end of the sealing plate (302), a third drain hole (304) is further formed in the bottom of the equipment cabin (3), and a second through groove (305) communicated with the storage cabin (103) is further formed in the equipment cabin (3).