CN109944210B - Ocean beach purification rubbish cleaning device - Google Patents

Abstract

The invention discloses a marine beach purification garbage cleaning device, which comprises a vehicle body, wherein a feeding lifting device, a light and heavy screening device, a large stone screening device and a shell screening device are sequentially arranged on the vehicle body; the feed end of the light and heavy screening device corresponds to the discharge port of the support ring frame, the heavy material outlet end of the light and heavy screening device corresponds to the feed end of the large stone screening device, and the discharge end of the large stone screening device corresponds to the feed end of the shell screening device; the shell screening device comprises a shell screening rack, a fixed shell screen cylinder, a rotary middle screen cylinder and a rotary shell outer cylinder. The sand beach heavy material separating device has the advantages that the structural design is reasonable, the equipment space is saved, the equipment arrangement is compact, heavy materials sinking into water are separated out, then large stones are separated out, and finally shells, crushed shells and small stones are separated out, so that the separation and collection of the heavy materials on the sand beach are realized.

Description

Ocean beach purification rubbish cleaning device

Technical Field

The invention relates to the technical field of beach treatment equipment, in particular to a marine beach purification garbage cleaning device.

Background

At present on open beach, because the visitor is many, cause the beach to go up rubbish more, generally lean on the timely manual clearance of cleaning personnel, but this kind of mode can not clear away the rubbish of beach thoroughly, after the tourism season is prosperous, the management department need arrange a large amount of manual works and carry out the manual filtration to the sand on the beach, screens out the impurity in the sand, also has some units to adopt mechanized equipment to carry out above-mentioned processing. But also limited to the treatment of dry sand. Meanwhile, a large amount of shells and seaweeds in the sand are treated with various non-renewable wastes, so that a great amount of waste is caused, the shells, seaweeds and the like belong to a gift of the sea, and the shell, the seaweeds and the like can be completely prepared into chicken feed rich in nutrient substances through centralized collection and grinding treatment, so that the chicken feed is eaten by livestock, and resources are saved.

How to effectively separate the shells and the shell fragments from the sand and the garbage becomes a problem to be solved.

Disclosure of Invention

The invention aims to provide a marine beach purification garbage cleaning device to solve the problems in the background technology.

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

the marine beach purification garbage cleaning device comprises a vehicle body, wherein a feeding lifting device, a light and heavy screening device, a large stone screening device and a shell screening device are sequentially arranged on the vehicle body;

the feeding lifting device comprises a support ring frame, a scraper ring and a lifting driving mechanism, wherein the support ring frame is installed on a vehicle body, the scraper ring is rotatably sleeved on the periphery of the support ring frame, a circular conveying cavity is defined between the scraper ring and the support ring frame, a plurality of scrapers are uniformly distributed on the inner wall of the circumference of the scraper ring, the scraper divides the circular conveying cavity into a plurality of conveying separation cavities, a feeding hole is formed in the inner side wall of the lower end of the support ring frame, and a discharging hole is formed in the inner side wall of the upper end of the support ring frame; the outer wall of the circumference of the scraper ring is provided with a scraper gear ring, the upper end of the support ring frame extends to form a lifting driving seat, a lifting driving gear is rotatably mounted on the lifting driving seat and is meshed with the scraper gear ring, and a lifting driving motor for driving the lifting driving gear to rotate is further mounted on the side wall of the lifting driving seat;

the feed end of the light and heavy screening device corresponds to the discharge port of the support ring frame, the heavy material outlet end of the light and heavy screening device corresponds to the feed end of the large stone screening device, and the discharge end of the large stone screening device corresponds to the feed end of the shell screening device; the shell screening device comprises a shell screening rack, a fixed shell screen cylinder, a rotary intermediate screen cylinder and a rotary shell outer cylinder, wherein the rotary shell outer cylinder is rotatably sleeved on the periphery of the rotary intermediate screen cylinder, the rotary intermediate screen cylinder is rotatably sleeved on the periphery of the fixed shell screen cylinder, first circular leakage holes for small stones and crushed shells to pass through are distributed in the outer wall of the circumference of the fixed shell screen cylinder, and first strip-shaped leakage holes for the crushed shells to pass through are distributed in the outer wall of the circumference of the rotary intermediate screen cylinder.

As a further scheme of the invention: the light and heavy screening device comprises a light and heavy screening groove and a light and heavy object conveying belt component, a group of light and heavy conveying rotating shafts are rotatably mounted in the light and heavy screening groove, the light and heavy conveying rotating shafts are sleeved with light and heavy conveying belts, and a light and heavy driving motor for driving one light and heavy conveying rotating shaft is mounted on the outer side wall of the light and heavy screening groove; light object conveyer belt subassembly is installed to the rear end slant in light and heavy screening groove, light object conveyer belt subassembly includes light conveying frame, light object conveyer belt, light conveying pivot and light driving motor, and the both ends of light conveying frame are rotated respectively and are installed light conveying pivot, and the cover is equipped with the light object conveyer belt in the light conveying pivot, and the surface of light object conveyer belt still is provided with multirow rake hook, leaves heavy material passageway between the up end of the lower extreme of light object conveyer belt and light and heavy conveyer belt, and the top of light object conveyer belt is the discharge end of light material, install the light driving motor who is used for driving one of them light conveying pivot on the lateral wall of light conveying frame.

As a further scheme of the invention: the rear end of the light and heavy screening groove is also provided with a heavy material baffle plate used for plugging a heavy material outlet in a sliding manner, a screening transverse installation frame is fixed on the side wall of the light and heavy screening groove above the heavy material baffle plate, a plurality of material blocking compression springs are connected between the screening transverse installation frame and the heavy material baffle plate, the lower end of the screening transverse installation frame is provided with at least two groups of material blocking electromagnets, and the upper end of the heavy material baffle plate is correspondingly provided with at least two groups of material blocking electromagnets;

a light and heavy frame flange is further fixed below the rear end of the light and heavy screening groove, the light and heavy frame flange is fixedly connected with a mesh screen flange of the inclined mesh screen, mesh screen water leakage holes are distributed on the surface of the inclined mesh screen, and the lower end of the inclined mesh screen corresponds to the feeding end of the large stone screening device;

the front end of the light and heavy screening groove is also provided with a flushing mechanism, and the flushing mechanism comprises a flushing head, a flushing water pump and a flushing water pumping pipe which are sequentially connected.

As a further scheme of the invention: the large stone screening device comprises a large stone screening rack, a shell conveying belt, a shell conveying rotating shaft, a shell conveying motor, a vibrating screen disc and a large stone collecting box, wherein the shell conveying rack is mounted on the large stone screening rack, a group of shell conveying rotating shafts are rotatably mounted in the shell conveying rack, the shell conveying rotating shafts are sleeved with the shell conveying belt, and the outer side wall of the shell conveying rack is provided with the shell conveying motor for driving one shell conveying rotating shaft; the vibrating screen frame has still been extended to shell conveying frame upper end, the vibrating screen frame top is provided with the shale shaker dish that the slope was arranged, be connected with the shale shaker spring between the both sides side of shale shaker dish and the shale shaker frame, the both sides side of shale shaker dish still is connected with the vibration and inserts the post, the vertical activity cartridge of vibration post is in the shale shaker frame, the last distributed mounting of shale shaker dish has vibrating motor, the last distribution of shale shaker dish is provided with the long and thin sieve mesh that supplies shell and small stone piece to pass through, still install the boulder collecting box in the boulder screening frame, the boulder collecting box corresponds with the lower extreme of shale shaker dish.

As a further scheme of the invention: the rear end of the shell conveying rack is also rotatably provided with a first brush rotating shaft, a plurality of rows of first rolling brushes for contacting the surface of the shell conveying belt are distributed on the first brush rotating shaft, and a first brush driving motor for driving the first brush rotating shaft is arranged on the outer side wall of the shell conveying rack; water leakage holes are distributed on the shell conveying belt, and a water leakage notch is formed in the lower end of the shell conveying rack.

As a further scheme of the invention: the fixed shell screen drum is fixedly arranged on a shell screening rack, a first spiral hairbrush used for being in contact with the outer wall of the fixed shell screen drum is arranged on the circumferential inner wall of the rotary intermediate screen drum, an intermediate screen drum rotary gear ring is fixed at the front end and the rear end of the circumferential outer wall of the rotary intermediate screen drum, the intermediate screen drum rotary gear ring is rotatably arranged on a first auxiliary shell screening rack through a rotary support, and a first rotary driving mechanism used for driving the rotary intermediate screen drum to rotate is further arranged on the first auxiliary shell screening rack; a second spiral hairbrush used for being in contact with the circumferential outer wall of the rotary intermediate screen drum is arranged on the circumferential inner wall of the rotary shell outer drum, a shell outer drum rotary gear ring is fixed in the middle of the circumferential outer wall of the rotary shell outer drum, the shell outer drum rotary gear ring is rotatably installed on a second auxiliary shell screening rack through a rotary support, and a second rotary driving mechanism used for driving the rotary shell outer drum to rotate is further installed on the second auxiliary shell screening rack; and a shell screening and separating spiral mechanism is arranged in the fixed shell screen cylinder.

As a further scheme of the invention: first rotary driving mechanism includes first rotary driving frame, middle sieve section of thick bamboo drive gear and middle sieve section of thick bamboo driving motor, rotates on the first rotary driving frame and installs middle sieve section of thick bamboo drive gear, and middle sieve section of thick bamboo drive gear is connected with middle sieve section of thick bamboo gyration ring gear meshing, middle sieve section of thick bamboo driving motor's output and middle sieve section of thick bamboo drive gear's axle head drive are connected.

As a further scheme of the invention: the second rotary driving mechanism comprises a second rotary driving base, a shell outer barrel driving gear and a shell outer barrel driving motor, the shell outer barrel driving gear is rotatably mounted on the second rotary driving base and meshed with a shell outer barrel rotary gear ring, and the output end of the shell outer barrel driving motor is in driving connection with the shaft end of the shell outer barrel driving gear.

As a further scheme of the invention: the shell screening and separating screw mechanism comprises a shell screening and separating rotating shaft and a shell screening and separating driving motor, the front end of the shell screening and separating rotating shaft is rotatably installed on a shell screening inner barrel support, the shell screening inner barrel support is fixed in a fixed shell screen cylinder, the rear end of the shell screening and separating rotating shaft is rotatably installed on a shell screening supporting baffle, the shell screening supporting baffle is fixed at the rear end of the fixed shell screen cylinder, and the output end of the shell screening and separating driving motor is in driving connection with the shell screening and separating rotating shaft; the shell screening spiral blade is fixed on the shell screening separation rotating shaft, and a shell screening spiral brush is fixedly arranged on the outer side edge of the shell screening spiral blade.

As a further scheme of the invention: the shell crushing device and the shell crushing device are sequentially arranged below the discharge end of the fixed shell screen cylinder, a small stone collecting box is arranged below the discharge end of the rotary middle screen cylinder, the shell crushing device is arranged below the discharge end of the rotary shell outer cylinder, and a shell powder collecting box is arranged at the discharge end of the shell crushing device.

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

1. the invention adopts the feeding and lifting device to lift the mixed material to a certain height, and compared with a transmission conveyer belt structure, the invention saves more space, is convenient for lifting and conveying the material, and is more suitable for being arranged on a vehicle body.

2. According to the invention, the light and heavy screening device is arranged, sea weeds, light garbage and the like are easy to float on water, and shells, stones and other materials are easy to sink under water by utilizing the difference of the buoyancy and the gravity of objects, so that the purpose of independent treatment after separation of the shells and the sea weeds is achieved, the water inlet and the water outlet of the light and heavy screening device are kept balanced, the water flow in the light and heavy screening tank can be continuously replaced, the principle is simple, and the structure is ingenious.

3. According to the invention, the large stone screening device is arranged, heavy materials sinking underwater fall onto the vibrating screen disc, the large stones fall into the large stone collecting box along the vibrating screen disc under the action of the vibrating motor, and the shells and the small stones finally fall onto the shell conveying belt through the long and thin screen holes in the vibrating screen disc, so that the large stones can be effectively separated.

4. The shell screening device comprises a fixed shell screen cylinder, a rotary middle screen cylinder and a rotary shell outer cylinder which have different relative rotating speeds, and is used for screening and separating shells, broken shells and small stones after the large stones are removed, so that the shells, the broken shells and the small stones can be effectively separated, the equipment space is saved, and the equipment arrangement is compact.

5. The sand beach heavy material separating device has the advantages that the structural design is reasonable, the equipment space is saved, the equipment arrangement is compact, heavy materials sinking into water are separated out, then large stones are separated out, and finally shells, crushed shells and small stones are separated out, so that the separation and collection of the heavy materials on the sand beach are realized.

Drawings

FIG. 1 is a schematic perspective view of a marine beach garbage cleaning device;

FIG. 2 is a schematic perspective view of a feeding and lifting device in the marine beach garbage cleaning device;

FIG. 3 is a schematic view of a cut-open structure of a feeding and lifting device in the marine beach garbage cleaning device;

FIG. 4 is a schematic top view of a feeding and lifting device in the marine beach garbage cleaning device;

FIG. 5 is a schematic perspective view of a light and heavy screening device in the marine beach garbage cleaning device;

FIG. 6 is a schematic view of a split structure of a light and heavy screening device in the marine beach garbage cleaning device;

FIG. 7 is a schematic perspective view of a large stone screening device in the marine beach garbage cleaning device;

FIG. 8 is a schematic view of a split structure of a large stone screening device in the marine beach garbage cleaning device;

FIG. 9 is a schematic perspective view of a shell screening device in the marine beach garbage cleaning device;

FIG. 10 is a schematic side view of a shell screening device in the marine beach garbage cleaning device;

FIG. 11 is a sectional structure diagram of a shell screening device F-F section in the marine beach purification garbage cleaning device.

In the figure: 100-a vehicle body, 200-a washing mechanism, 300-a shell crushing device, 400-a shell falling-in shell crushing device, 500-a small stone collecting box, 600-a shell powder collecting box, 4-a feeding lifting device, 41-a supporting ring frame, 42-a scraper ring, 421-a scraper gear ring, 422-a scraper, 43-a feeding hole, 44-a discharging hole, 45-a lifting driving motor, 46-a lifting driving seat, 47-a lifting driving gear and 48-a circular ring conveying cavity; 5-light and heavy screening device, 51-light and heavy screening groove, 511-light and heavy conveying belt, 512-light and heavy driving motor, 513-light and heavy conveying rotating shaft, 52-light conveying rack, 521-light object conveying belt, 522-harrow hook, 523-light driving motor, 524-light conveying rotating shaft, 53-screening transverse mounting rack, 54-material blocking electromagnet, 55-heavy material baffle, 56-material blocking compression spring, 57-light and heavy rack flange and 58-inclined plane mesh screen; 8-boulder screening device, 81-boulder screening frame, 82-shell conveying frame, 821-shell conveying belt, 822-shell conveying motor, 823-shell conveying rotating shaft, 824-first brush driving motor, 825-first brush rotating shaft, 826-first rolling brush, 827-vibrating screen frame, 83-vibrating screen disc, 831-slender screen hole, 832-vibrating plug column, 84-vibrating motor, 85-vibrating screen spring and 86-boulder collecting box; 9-shell screening device, 91-shell screening frame, 911-second rotary driving base, 912-shell outer cylinder driving motor, 913-shell outer cylinder driving gear, 914-first rotary driving base, 915-middle screen cylinder driving motor, 916-middle screen cylinder driving gear, 92-rotary shell outer cylinder, 921-shell outer cylinder rotary gear ring, 922-second spiral brush, 93-rotary middle screen cylinder, 931-middle screen cylinder rotary gear ring, 932-first spiral brush, 933-first strip-shaped leakage hole, 94-fixed shell screen cylinder, 941-shell screening support baffle, 942-shell screening inner cylinder support, 943-first circular leakage hole, 95-shell screening separation driving motor, 96-shell screening separation rotating shaft, 961-shell screening spiral blade, 962-shell screening spiral hair brush.

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 to 11, the present invention provides a technical solution: the marine beach purification garbage cleaning device comprises a vehicle body 100, wherein a feeding lifting device 4, a light and heavy screening device 5, a large stone screening device 8 and a shell screening device 9 are sequentially arranged on the vehicle body 100;

referring to fig. 2 to 4, the feeding lifting device 4 includes a support ring frame 41 mounted on the vehicle body 100, a scraper ring 42 and a lifting driving mechanism, the scraper ring 42 is rotatably sleeved on the periphery of the support ring frame 41, a circular conveying cavity 48 is defined between the scraper ring 42 and the support ring frame 41, a plurality of scrapers 422 are uniformly distributed on the inner wall of the circumference of the scraper ring 42, the circular conveying cavity 48 is divided into a plurality of conveying separation cavities by the scrapers 422, a feeding port 43 is formed in the inner side wall of the lower end of the support ring frame 41, and a discharging port 44 is formed in the inner side wall of the upper end of the support ring frame 41; a scraper ring gear 421 is arranged on the circumferential outer wall of the scraper ring 42, a lifting driving seat 46 extends from the upper end of the support ring frame 41, a lifting driving gear 47 is rotatably mounted on the lifting driving seat 46, the lifting driving gear 47 is meshed with the scraper ring gear 421, and a lifting driving motor 45 for driving the lifting driving gear 47 to rotate is further mounted on the side wall of the lifting driving seat 46;

the feeding end of the light and heavy screening device 5 corresponds to the discharging port of the support ring frame 41, the heavy material outlet end of the light and heavy screening device 5 corresponds to the feeding end of the large stone screening device 8, and the discharging end of the large stone screening device 8 corresponds to the feeding end of the shell screening device 9; the shell screening device 9 comprises a shell screening rack 91, a fixed shell screen cylinder 94, a rotary intermediate screen cylinder 93 and a rotary shell outer cylinder 92, the rotary shell outer cylinder 92 is rotatably sleeved on the periphery of the rotary intermediate screen cylinder 93, the rotary intermediate screen cylinder 93 is rotatably sleeved on the periphery of the fixed shell screen cylinder 94, first circular leakage holes 943 for small stones and broken shells to pass through are distributed on the outer wall of the circumference of the fixed shell screen cylinder 94, and first strip-shaped leakage holes 933 for broken shells to pass through are distributed on the outer wall of the circumference of the rotary intermediate screen cylinder 93.

The beach sand material mixture with fine sand screened out is sent to a feeding hole 43 of a feeding lifting device 4, a lifting driving gear 47 rotates under the driving of a lifting driving motor 45 to drive a scraper ring gear 421 to rotate, a scraper 422 in a scraper ring 42 lifts the mixture to a discharging hole 44 of the feeding lifting device 4, the mixture falls to a feeding end of a light and heavy screening device 5 from the discharging hole 44, and the light material screened out by the light and heavy screening device 5 is screened out and then discharged for subsequent treatment; the light and heavy screening device 5 screens out heavy materials and guides the heavy materials into the large stone screening device 8, the large stone screening device 8 screens out and collects the large stones in the heavy materials, the mixed materials of the shells and the small stones are guided into the feeding end of the shell screening device 9, the small stones and the crushed shells enter the rotary intermediate screen cylinder 93 through the first circular leakage holes 943 of the fixed shell screen cylinder 94, then the crushed shells enter the rotary shell outer cylinder 92 through the first strip-shaped leakage holes 933 of the rotary intermediate screen cylinder 93, and therefore effective separation of the large stones, the small stones, the shells and the crushed shells is achieved.

Referring to fig. 5 to 6, preferably, the light and heavy screening device 5 includes a light and heavy screening tank 51 and a light and heavy object conveyor belt assembly, a set of light and heavy conveying rotating shafts 513 is rotatably installed in the light and heavy screening tank 51, a light and heavy conveyor belt 511 is sleeved on the light and heavy conveying rotating shafts 513, and a light and heavy driving motor 512 for driving one of the light and heavy conveying rotating shafts 513 is installed on an outer side wall of the light and heavy screening tank 51; the rear end of the light and heavy screening groove 51 is obliquely provided with a light object conveyor belt component, the light object conveyor belt component comprises a light conveyor frame 52, a light object conveyor belt 521, a light conveying rotating shaft 524 and a light driving motor 523, the two ends of the light conveyor frame 52 are respectively rotatably provided with the light conveying rotating shaft 524, the light conveying rotating shaft 524 is sleeved with the light object conveyor belt 521, the outer surface of the light object conveyor belt 521 is further provided with a plurality of rows of rake hooks 522, a heavy material channel is reserved between the lowest end of the light object conveyor belt 521 and the upper end face of the light and heavy conveyor belt 511, the highest end of the light object conveyor belt 521 is a light material discharging end, and the outer side wall of the light conveyor frame 52 is provided with the light driving motor 523 for driving one of the light conveying rotating shafts 524.

The working principle of the light and heavy screening device 5 is as follows: under the drive of the light and heavy driving motor 512, the light and heavy conveying belt 511 conveys the mixture falling into the light and heavy screening device 5, in the conveying process, the light object conveying belt 521 works under the drive of the light driving motor 523, and light materials such as seaweed, light plastic belts and the like are brought onto the light object conveying belt 521 by a plurality of rows of rake hooks 522 arranged on the outer surface of the light object conveying belt 521, and finally are led out by the light object conveying belt 521 to be processed by subsequent equipment; while the remaining heavy material is conveyed via the heavy material channel towards the end of the light and heavy conveyor belt 511.

Preferably, a heavy material baffle 55 for blocking a heavy material outlet is further slidably arranged at the rear end of the light and heavy material screening groove 51, a screening transverse mounting frame 53 is fixed on the side wall of the light and heavy material screening groove 51 above the heavy material baffle 55, a plurality of material blocking compression springs 56 are connected between the screening transverse mounting frame 53 and the heavy material baffle 55, at least two groups of material blocking electromagnets 54 are arranged at the lower end of the screening transverse mounting frame 53, and at least two groups of material blocking electromagnets 54 are correspondingly arranged at the upper end of the heavy material baffle 55; during operation, the material blocking electromagnet 54 is electrified, the material blocking electromagnet 54 at the lower end of the screening transverse mounting frame 53 and the material blocking electromagnet 54 at the upper end of the heavy material baffle 55 are mutually adsorbed, so that the heavy material baffle 55 is opened, water and objects submerged in the water are conveyed out by the light and heavy conveyor belt 511, when the heavy material baffle 55 does not work, the material blocking electromagnet 54 is powered off, and the heavy material baffle 55 is closed under the action of the material blocking compression spring 56.

A light and heavy frame flange 57 is further fixed below the rear end of the light and heavy screening groove 51, the light and heavy frame flange 57 is fixedly connected with a mesh screen flange of the inclined plane mesh screen 58, mesh screen water leakage holes are distributed on the surface of the inclined plane mesh screen 58, and the lower end of the inclined plane mesh screen 58 corresponds to the feeding end of the large stone screening device 8; the water carried out by the light and heavy conveyor 511 and objects sinking under the water fall onto the inclined mesh screen 58, water and fine sand flow out from the water leakage holes of the mesh screen, and the other objects roll down along the inclined mesh screen 58 and are guided into the large stone screening device 8 for subsequent treatment.

Referring to fig. 1, a flushing mechanism 200 is further installed at the front end of the light and heavy screening tank 51, and the flushing mechanism 200 includes a flushing head, a flushing water pump and a flushing water pumping pipe which are connected in sequence. Under the action of the flushing water pump, the flushing water pumping pipe and the flushing head, the water is brought into the light and heavy screening groove 51, and the balance between the water inlet and the water outlet is ensured.

Referring to fig. 7 to 9, preferably, the boulder screening device 8 includes a boulder screening frame 81, a shell conveying frame 82, a shell conveying belt 821, a shell conveying rotating shaft 823, a shell conveying motor 822, a vibrating screen disc 83, and a boulder collecting box 86, the shell conveying frame 82 is installed on the boulder screening frame 81, a group of shell conveying rotating shafts 823 is installed in the shell conveying frame 82 in a rotating manner, the shell conveying rotating shafts 823 are sleeved with the shell conveying belt 821, and a shell conveying motor 822 for driving one of the shell conveying rotating shafts 823 is installed on the outer side wall of the shell conveying frame 82; the shell conveying rack 82 upper end has still extended shale shaker frame 827, shale shaker frame 827 top is provided with the shale shaker dish 83 of slope arrangement, be connected with shale shaker spring 85 between the both sides side of shale shaker dish 83 and the shale shaker frame 827, the both sides side of shale shaker dish 83 still is connected with the vibration and inserts post 832, the vertical activity cartridge of vibration post 832 is on shale shaker frame 827, vibrating motor 84 is installed in the distribution on the shale shaker dish 83, the last distribution of shale shaker dish 83 is provided with the long and thin sieve mesh 831 that supplies shell and small stone to pass through, still install boulder collecting box 86 on the boulder screening rack 81, boulder collecting box 86 corresponds with the lower extreme of shale shaker dish 83.

The working principle of the large stone screening device 8 is as follows: heavy underwater material falls onto the shaker pan 83 and under the action of the vibration motor 84, the boulders fall along the shaker pan 83 into the boulder collection bin 86, while the shells and boulders pass through the elongated screen openings 831 on the shaker pan 83 and finally fall onto the shell conveyor belt 821, which transports the shells and boulders towards the feed end of the subsequent shell screening device 9.

Referring to fig. 8 to 9, preferably, a first brush rotating shaft 825 is rotatably installed at the rear end of the shell conveying frame 82, a plurality of rows of first rolling brushes 826 for contacting the surface of the shell conveying belt 821 are distributed on the first brush rotating shaft 825, and a first brush driving motor 824 for driving the first brush rotating shaft 825 is installed on the outer side wall of the shell conveying frame 82; water leakage holes are distributed on the shell conveying belt 821, and a water leakage notch 828 is arranged at the lower end of the shell conveying rack 82.

The first brush driving motor 824 drives the first rolling brush 826 to rotate, and the shell and small stone fall to the feeding end of the fixed shell screen cylinder 94 under the cleaning of the first rolling brush 826.

Referring to fig. 10 to 11, preferably, the fixed shell screen cylinder 94 is fixedly installed on the shell screening machine frame 91, a first spiral brush 932 for contacting with the outer wall of the fixed shell screen cylinder 94 is arranged on the circumferential inner wall of the rotary intermediate screen cylinder 93, an intermediate screen cylinder rotary gear ring 931 is fixed at both the front end and the rear end of the circumferential outer wall of the rotary intermediate screen cylinder 93, the intermediate screen cylinder rotary gear ring 931 is rotatably installed on a first auxiliary frame for shell screening through a rotary support, and a first rotary driving mechanism for driving the rotary intermediate screen cylinder 93 to rotate is further installed on the first auxiliary frame for shell screening; a second spiral hairbrush 922 used for being in contact with the outer circumferential wall of the rotary middle screen drum 93 is arranged on the inner circumferential wall of the rotary shell outer drum 92, a shell outer drum rotary gear ring 921 is fixed in the middle of the outer circumferential wall of the rotary shell outer drum 92, the shell outer drum rotary gear ring 921 is rotatably mounted on a shell screening second auxiliary frame through a rotary support, and a second rotary driving mechanism used for driving the rotary shell outer drum 92 to rotate is further mounted on the shell screening second auxiliary frame; a shell screening and separating screw mechanism is arranged in the fixed shell screen cylinder 94.

Under the effect of the shell screening and separating screw mechanism, small stone blocks and crushed shells pass through first circular leak holes 943 distributed on the outer wall of the circumference of the fixed shell screen cylinder 94 and enter the rotary middle screen cylinder 93, and then the crushed shells enter the rotary shell outer cylinder 92 through first strip-shaped leak holes 933 of the rotary middle screen cylinder 93, so that effective separation of large stone blocks, small stone blocks, shells and crushed shells is realized.

Preferably, the first rotary driving mechanism comprises a first rotary driving base 914, an intermediate screen drum driving gear 916 and an intermediate screen drum driving motor 915, the intermediate screen drum driving gear 916 is rotatably mounted on the first rotary driving base 914, the intermediate screen drum driving gear 916 is in meshed connection with an intermediate screen drum rotary gear ring 931, and an output end of the intermediate screen drum driving motor 915 is in driving connection with an axial end of the intermediate screen drum driving gear 916.

The working principle of the first rotary driving mechanism is as follows: under the drive of sieve section of thick bamboo driving motor 915 in the middle of, sieve section of thick bamboo drive gear 916 is rotatory in the middle of the drive, and it is rotatory to drive sieve section of thick bamboo gyration ring 931 in the middle of the drive, and sieve section of thick bamboo 93 is rotatory in the middle of driving the rotation promptly, and in rotatory process, first spiral brush 932 cleans the circumference outer wall of fixed shell sieve section of thick bamboo 94, and the sieve section of thick bamboo 93 in the middle of the small stone and the garrulous shell of being convenient for fall into.

Preferably, the second rotary driving mechanism comprises a second rotary driving base 911, a shell outer cylinder driving gear 913 and a shell outer cylinder driving motor 912, the second rotary driving base 911 is rotatably provided with the shell outer cylinder driving gear 913, the shell outer cylinder driving gear 913 is in meshed connection with the shell outer cylinder rotary gear ring 921, and an output end of the shell outer cylinder driving motor 912 is in driving connection with an axial end of the shell outer cylinder driving gear 913.

The working principle of the second rotary driving mechanism is as follows: under the drive of shell urceolus drive gear 913, shell urceolus drive gear 913 is rotatory, drives shell urceolus gyration ring gear 921 and rotates, drives rotation shell urceolus 92 rotatory promptly, and at rotatory in-process, the circumference outer wall of sieve section of thick bamboo 93 in the middle of the rotation is cleaned to second spiral brush 922, is convenient for garrulous shell to fall into in the rotation shell urceolus 92.

Referring to fig. 11, preferably, the shell screening and detaching screw mechanism includes a shell screening and detaching rotating shaft 96 and a shell screening and detaching driving motor 95, a front end of the shell screening and detaching rotating shaft 96 is rotatably mounted on a shell screening inner cylinder bracket 942, the shell screening inner cylinder bracket 942 is fixed in a fixed shell screening cylinder 94, a rear end of the shell screening and detaching rotating shaft 96 is rotatably mounted on a shell screening support baffle 941, the shell screening support baffle 941 is fixed at a rear end of the fixed shell screening cylinder 94, and an output end of the shell screening and detaching driving motor 95 is drivingly connected to the shell screening and detaching rotating shaft 96; a shell screening spiral blade 961 is fixed on the shell screening separation rotating shaft 96, and a shell screening spiral brush 962 is fixed on the outer side edge of the shell screening spiral blade 961.

The working principle of the shell screening and separating screw mechanism is as follows: under the drive of the shell screening and separating drive motor 95, the shell screening and separating rotating shaft 96 and the shell screening spiral blades 961 rotate, and in the rotating process, the shell screening spiral hairbrush 962 cleans materials, so that small stones and broken shells pass through the first circular leakage holes 943 distributed on the outer wall of the circumference of the fixed shell screen cylinder 94, and the intact shells which do not pass through are finally discharged from the discharge end of the fixed shell screen cylinder 94.

Preferably, a shell crushing device 300 and a shell crushing device 400 are sequentially arranged below the discharge end of the fixed shell screen cylinder 94, a small stone collecting box 500 is arranged below the discharge end of the rotary intermediate screen cylinder 93, a shell crushing device 400 is arranged below the discharge end of the rotary shell outer cylinder 92, and a shell powder collecting box 600 is arranged at the discharge end of the shell crushing device 400. The shell crushing device 300 may be a crushing apparatus with a set of crushing rollers as in the prior art, and the shell crushing device 400 may be a universal crusher as in the prior art, which will not be described in detail herein.

The whole shell discharged from the discharge end of the fixed shell screen cylinder 94 falls onto the shell grinding device 300, the shell is ground by the shell grinding device 300, the ground shell falls into the shell grinding device 400, and the ground shell powder is finally collected by the shell powder collecting box 600;

the small stone blocks discharged from the discharge end of the rotary intermediate screen drum 93 are collected by a small stone block collecting box 500;

the crushed shell discharged from the discharge end of the rotary shell outer cylinder 92 directly falls into the corresponding shell crushing device 400, and the crushed shell powder is finally collected by the shell powder collection box 600.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. Ocean sandy beach purifies rubbish cleaning device, including automobile body (100), its characterized in that: the car body (100) is sequentially provided with a feeding and lifting device (4), a light and heavy screening device (5), a large stone screening device (8) and a shell screening device (9);

the feeding lifting and conveying device (4) comprises a supporting ring frame (41), a scraper ring (42) and a lifting and conveying driving mechanism, wherein the supporting ring frame (41) is installed on a vehicle body (100), the scraper ring (42) is rotatably sleeved on the periphery of the supporting ring frame (41), a circular conveying cavity (48) is defined between the scraper ring (42) and the supporting ring frame (41), a plurality of scrapers (422) are uniformly distributed on the inner wall of the circumference of the scraper ring (42), the circular conveying cavity (48) is divided into a plurality of conveying separation cavities by the scrapers (422), a feeding hole (43) is formed in the inner side wall of the lower end of the supporting ring frame (41), and a discharging hole (44) is formed in the inner side wall of the upper end of; a scraper tooth ring (421) is arranged on the circumferential outer wall of the scraper ring (42), a lifting driving seat (46) extends from the upper end of the support ring frame (41), a lifting driving gear (47) is rotatably mounted on the lifting driving seat (46), the lifting driving gear (47) is meshed with the scraper tooth ring (421), and a lifting driving motor (45) for driving the lifting driving gear (47) to rotate is further mounted on the side wall of the lifting driving seat (46);

the feed end of the light and heavy screening device (5) corresponds to the discharge port of the support ring frame (41), the heavy material outlet end of the light and heavy screening device (5) corresponds to the feed end of the large stone screening device (8), and the discharge end of the large stone screening device (8) corresponds to the feed end of the shell screening device (9); the shell screening device (9) comprises a shell screening rack (91), a fixed shell screen cylinder (94), a rotary intermediate screen cylinder (93) and a rotary shell outer cylinder (92), wherein the rotary shell outer cylinder (92) is rotatably sleeved on the periphery of the rotary intermediate screen cylinder (93), the rotary intermediate screen cylinder (93) is rotatably sleeved on the periphery of the fixed shell screen cylinder (94), first circular leakage holes (943) for small stones and crushed shells to pass through are distributed in the outer wall of the circumference of the fixed shell screen cylinder (94), and first strip-shaped leakage holes (933) for crushed shells to pass through are distributed in the outer wall of the circumference of the rotary intermediate screen cylinder (93);

the light and heavy screening device (5) comprises a light and heavy screening groove (51) and a light object conveyor belt component, a group of light and heavy conveying rotating shafts (513) are rotatably mounted in the light and heavy screening groove (51), the light and heavy conveying rotating shafts (513) are sleeved with light and heavy conveyor belts (511), and the outer side wall of the light and heavy screening groove (51) is provided with a light and heavy driving motor (512) for driving one light and heavy conveying rotating shaft (513); the rear end of the light and heavy screening groove (51) is obliquely provided with a light object conveyor belt component, the light object conveyor belt component comprises a light conveying rack (52), a light object conveyor belt (521), a light conveying rotating shaft (524) and a light driving motor (523), the two ends of the light conveying rack (52) are respectively rotatably provided with the light conveying rotating shaft (524), the light conveying rotating shaft (524) is sleeved with the light object conveyor belt (521), the outer surface of the light object conveyor belt (521) is also provided with a plurality of rows of rake hooks (522), a heavy material channel is left between the lowest end of the light object conveyor belt (521) and the upper end surface of the light and heavy conveyor belt (511), the highest end of the light object conveyor belt (521) is a light material discharge end, a light driving motor (523) for driving one light transmission rotating shaft (524) is arranged on the outer side wall of the light transmission rack (52);

the rear end of the light and heavy screening groove (51) is also provided with a heavy material baffle (55) used for blocking a heavy material outlet in a sliding manner, a screening transverse mounting rack (53) is fixed on the side wall of the light and heavy screening groove (51) above the heavy material baffle (55), a plurality of material blocking compression springs (56) are connected between the screening transverse mounting rack (53) and the heavy material baffle (55), at least two groups of material blocking electromagnets (54) are arranged at the lower end of the screening transverse mounting rack (53), and at least two groups of material blocking electromagnets (54) are correspondingly arranged at the upper end of the heavy material baffle (55);

a light and heavy rack flange (57) is further fixed below the rear end of the light and heavy screening groove (51), the light and heavy rack flange (57) is fixedly connected with a mesh screen flange of an inclined mesh screen (58), mesh screen water leakage holes are distributed on the surface of the inclined mesh screen (58), and the lower end of the inclined mesh screen (58) corresponds to the feeding end of the large stone screening device (8);

the front end of the light and heavy screening tank (51) is also provided with a flushing mechanism (200), and the flushing mechanism (200) comprises a flushing head, a flushing water pump and a flushing water pumping pipe which are sequentially connected;

the large stone screening device (8) comprises a large stone screening rack (81), a shell conveying rack (82), a shell conveying belt (821), a shell conveying rotating shaft (823), a shell conveying motor (822), a vibrating screen disc (83) and a large stone collecting box (86), wherein the shell conveying rack (82) is installed on the large stone screening rack (81), a group of shell conveying rotating shafts (823) are installed in the shell conveying rack (82) in a rotating mode, the shell conveying rotating shafts (823) are sleeved with the shell conveying belt (821), and the outer side wall of the shell conveying rack (82) is provided with the shell conveying motor (822) used for driving one shell conveying rotating shaft (823); the upper end of the shell conveying rack (82) is also extended with a vibrating screen rack (827), a vibrating screen disc (83) which is obliquely arranged is arranged above the vibrating screen rack (827), vibrating screen springs (85) are connected between the two side edges of the vibrating screen disc (83) and the vibrating screen rack (827), vibrating insert columns (832) are further connected with the two side edges of the vibrating screen disc (83), the vibrating insert columns (832) are vertically movably inserted in the vibrating screen rack (827), vibrating motors (84) are distributed and mounted on the vibrating screen disc (83), long and thin sieve holes (831) for passing of shells and small stones are distributed and arranged on the vibrating screen disc (83), a large stone collecting box (86) is further mounted on the large stone screening rack (81), and the large stone collecting box (86) corresponds to the lowest end of the vibrating screen disc (83);

a first brush rotating shaft (825) is rotatably mounted at the rear end of the shell conveying rack (82), a plurality of rows of first rolling brushes (826) which are used for being in surface contact with the shell conveying belt (821) are distributed on the first brush rotating shaft (825), and a first brush driving motor (824) used for driving the first brush rotating shaft (825) is mounted on the outer side wall of the shell conveying rack (82); water leakage holes are distributed on the shell conveying belt (821), and a water leakage notch (828) is formed in the lower end of the shell conveying rack (82).

2. The marine beach cleaning waste disposer of claim 1, wherein: the fixed shell screen drum (94) is fixedly installed on a shell screening rack (91), a first spiral type hairbrush (932) used for being in contact with the outer wall of the fixed shell screen drum (94) is arranged on the circumferential inner wall of the rotary middle screen drum (93), a middle screen drum rotary gear ring (931) is fixed at the front end and the rear end of the circumferential outer wall of the rotary middle screen drum (93), the middle screen drum rotary gear ring (931) is rotatably installed on a shell screening first auxiliary rack through a rotary support, and a first rotary driving mechanism used for driving the rotary middle screen drum (93) to rotate is further installed on the shell screening first auxiliary rack; a second spiral hairbrush (922) used for being in contact with the outer circumferential wall of a rotary middle screen drum (93) is arranged on the inner circumferential wall of the rotary shell outer drum (92), a shell outer drum rotary gear ring (921) is fixed in the middle of the outer circumferential wall of the rotary shell outer drum (92), the shell outer drum rotary gear ring (921) is rotatably installed on a second auxiliary shell screening rack through a rotary support, and a second rotary driving mechanism used for driving the rotary shell outer drum (92) to rotate is further installed on the second auxiliary shell screening rack; and a shell screening and separating spiral mechanism is arranged in the fixed shell screen cylinder (94).

3. The marine beach cleaning waste disposer of claim 2, wherein: first gyration actuating mechanism includes first gyration drive frame (914), middle sieve section of thick bamboo drive gear (916) and middle sieve section of thick bamboo driving motor (915), rotates on first gyration drive frame (914) and installs middle sieve section of thick bamboo drive gear (916), and middle sieve section of thick bamboo drive gear (916) and middle sieve section of thick bamboo gyration ring gear (931) meshing are connected, the output of middle sieve section of thick bamboo driving motor (915) is connected with the axle head drive of middle sieve section of thick bamboo drive gear (916).

4. The marine beach cleaning waste disposer of claim 2, wherein: the second rotary driving mechanism comprises a second rotary driving base (911), a shell outer cylinder driving gear (913) and a shell outer cylinder driving motor (912), the second rotary driving base (911) is rotatably provided with the shell outer cylinder driving gear (913), the shell outer cylinder driving gear (913) is meshed with the shell outer cylinder rotary gear ring (921), and the output end of the shell outer cylinder driving motor (912) is in driving connection with the shaft end of the shell outer cylinder driving gear (913).

5. The marine beach cleaning waste disposer of claim 2, wherein: the shell screening and separating screw mechanism comprises a shell screening and separating rotating shaft (96) and a shell screening and separating driving motor (95), the front end of the shell screening and separating rotating shaft (96) is rotatably installed on a shell screening inner cylinder support (942), the shell screening inner cylinder support (942) is fixed in a fixed shell screen cylinder (94), the rear end of the shell screening and separating rotating shaft (96) is rotatably installed on a shell screening supporting baffle plate (941), the shell screening supporting baffle plate (941) is fixed at the rear end of the fixed shell screen cylinder (94), and the output end of the shell screening and separating driving motor (95) is in driving connection with the shell screening and separating rotating shaft (96); a shell screening spiral blade (961) is fixed on the shell screening separation rotating shaft (96), and a shell screening spiral hairbrush (962) is fixed on the outer side edge of the shell screening spiral blade (961).

6. The marine beach cleaning waste disposer of claim 2, wherein: the shell crushing device (300) and the shell crushing device (400) are sequentially arranged below the discharge end of the fixed shell screen cylinder (94), the small stone collecting box (500) is arranged below the discharge end of the rotary middle screen cylinder (93), the shell crushing device (400) is arranged below the discharge end of the rotary shell outer cylinder (92), and the shell powder collecting box (600) is arranged at the discharge end of the shell crushing device (400).

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