CN113019529A

CN113019529A - Garbage separation and recovery device in seaweed

Info

Publication number: CN113019529A
Application number: CN202110315673.6A
Authority: CN
Inventors: 莫国旭
Original assignee: Shenzhen Qinliujie Technology Co ltd
Current assignee: Shenzhen Qinliujie Technology Co ltd
Priority date: 2021-03-24
Filing date: 2021-03-24
Publication date: 2021-06-25

Abstract

The invention discloses a device for separating and recovering garbage in seaweed, which comprises a shell, and the technical scheme provides a device for separating and recovering the garbage in the seaweed, wherein when the seaweed is difficult to clean after being mixed with soft plastic garbage after being cleaned, the seaweed needing to be cleaned is put into the device from an inlet component, the device enables the seaweed to enter a compression separation device in batches, so that the seaweed is cleaned finely, then the algae introduced into the compression separation component is compacted on a separation screen plate, at the moment, fragile plant seaweed is crushed and falls through the screen plate, when the garbage stays on the screen plate, the screen plate is blocked, so that a pressing plate is pressed immovably, at the moment, the pressing plate is loosened, but a crushing cavity is sealed, at the moment, a gas overturning component is matched with the gas separation component to enable the garbage and the residual seaweed in the cavity to overturn in the cavity, so that the garbage leaves the screen plate, then the overturning is stopped for several times, then the seaweed is crushed again, and the, thereby enabling the garbage to be smoothly discharged later.

Description

Garbage separation and recovery device in seaweed

Technical Field

The invention relates to the field of separation, in particular to a device for separating and recovering garbage in seaweed.

Background

Algae are fragile plants, are composed of simple aquatic organisms, store light energy through photosynthesis to produce vegetable oil, the vegetable oil can be converted into biodiesel, and products such as feed and fertilizer can be produced after processing treatment, so that the application is very wide.

However, when the algae is generally salvaged, it is difficult to separate and dispose the algae because of environmental problems because the algae is always mixed with a large amount of soft plastic garbage such as plastic bags, and thus, a large amount of labor cost is required to be invested in recycling and processing the algae, and it is difficult to dispose the algae, so that it is difficult to avoid a very large waste problem during separation.

Disclosure of Invention

In view of this, the invention provides a device for separating and recovering garbage in seaweed, which can realize the safe and effective separation of soft plastic garbage which is difficult to separate before the processing of algae.

A seaweed garbage separating and recycling device comprises a shell, an inlet cavity with a left opening is formed in the left cavity wall on the upper side of the shell, an inlet component is arranged in the inlet cavity and comprises a feeding component arranged in the middle of the inlet cavity, the inlet component further comprises a sealing component arranged at the right cavity opening, a crushing cavity with a left upper cavity wall communicated with the inlet cavity is further arranged in the middle of the shell, a compression separation component is arranged in the crushing cavity and comprises a compression loosening component arranged above the crushing cavity, the crushing separation component further comprises a separation cavity communicated with the left upper cavity wall in the middle of the crushing cavity, a gas separation component is arranged in the separation cavity and comprises a billowing cavity communicated with the left upper cavity wall in the lower side of the crushing cavity, and a gas billowing component is arranged in the billowing cavity, a discharge cavity communicated with the crushing cavity is arranged in the right cavity wall below the crushing cavity, and a discharge assembly is arranged at the communication position of the discharge cavity and the crushing cavity.

Further, the feeding assembly comprises a motor arranged in the rear cavity wall of the inlet cavity, a shifting plate shaft in rotary connection with the front cavity wall and the rear cavity wall of the inlet cavity is in power connection with the front end face of the motor, and six shifting plates are arranged on the shifting plate shaft.

Further, the seal assembly is including establishing in the upper chamber wall of entrance cavity right side and the isolation of intercommunication with it cuts off the chamber, keep apart and cut off intracavity sliding connection and keep apart the cutting plate, keep apart fixedly connected with cutting plate toggle pin on the cutting plate below right-hand member face, cutting plate toggle pin right-hand member rotates and is connected with cutting plate toggle block, cutting plate toggle pin in make toggle torsional spring one end be connected with it, toggle the torsional spring other end with cutting plate toggle block left end is connected.

Further, it includes establishing to compress tightly the relaxation subassembly electronic compression rod on the crushing chamber epicoele wall, power is connected with under the electronic compression rod on the terminal surface crushing intracavity sliding connection's pressure movable plate, be equipped with distance sensor on the pressure movable plate right side up end, crushing chamber below the separation chamber accent with it is connected with the algae otter board to turn over to rotate between the chamber accent to tumble, be equipped with in the algae otter board rear cavity wall with the friction power chamber of crushing chamber intercommunication, be equipped with friction motor on the chamber wall under the friction power chamber, power is connected with on the friction motor up end with the friction axle that the chamber wall rotated the connection on the friction power chamber, the epaxial be fixed with the friction gear of meshing.

Further, the gas separation subassembly is including establishing the isolation otter board of separation chamber right side accent, the separation chamber right-hand member is fixed with separation high pressure air gun, the fixed air pump of separation chamber right-hand member, the air pump right-hand member makes separation gas-supply pipe one end communicate with it, the separation gas-supply pipe other end with separation high pressure air gun intercommunication, the air pump left end is equipped with the air inlet with it intercommunication and with external intercommunication.

Further, the gas churning assembly comprises an electric telescopic rod arranged in the left cavity wall of the churning cavity, a churning air gun block is connected to the right end face of the electric telescopic rod in a power mode, the churning air gun block is in sliding connection with the churning cavity, a churning high-pressure air gun is further arranged at the right end of the churning air gun block, one end of a churning air pipe is communicated with the separation high-pressure air gun, and the other end of the churning air pipe penetrates into the inner portion of the shell cavity wall from the wall of the churning cavity on a tree and is communicated with the air pump.

Further, the discharge assembly comprises an electric guide rail arranged in the upper cavity wall of the discharge cavity, a separation plate is dynamically connected below the electric guide rail, and the separation plate is positioned at a left cavity opening above the discharge cavity and is sealed and separated from the crushing cavity.

The invention has the beneficial effects that: this technical scheme provides one kind and is difficult to when clearing up after algae is clear away and soft plastics rubbish mixes, the marine alga that will clear up is put into the device from the entry subassembly, the device makes the marine alga get into compression separator in batches, thereby reach the clearance careful, later in compression separator, it compresses tightly on the separation otter board to lead in the marine alga, fragile plant marine alga is broken this moment and sees through the otter board and drops, when rubbish stops on the otter board, block up the otter board thereby make the clamp plate press motionless, the clamp plate loosens but seals the chamber of crushing this moment, gaseous component that overturns makes rubbish and surplus marine alga in the chamber roll at the intracavity with gaseous separator cooperation this moment, make rubbish leave the otter board, later stop overturning, then crush again, after repeating several times, the intracavity marine alga remains a few thus smoothly with rubbish separation, thereby later make rubbish discharged smoothly.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the air blowing tumble in the embodiment of FIG. 1;

FIG. 3 is a schematic diagram of the non-operating structure of FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic view of the garbage discharging apparatus of FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram at B-B in FIG. 3 according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of FIG. 1 at C according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to the accompanying drawings 1-7, the device for separating and recycling garbage from seaweed comprises a casing 10, an inlet cavity 11 with a leftward opening is formed in a left cavity wall on the upper side of the casing 10, an inlet component is arranged in the inlet cavity 11, the inlet component comprises a feeding component arranged in the middle of the inlet cavity 11, the inlet component further comprises a sealing component arranged at a right cavity opening of the inlet cavity 11, a crushing cavity 28 with an upper left cavity wall communicated with the inlet cavity 11 is further arranged in the middle of the casing 10, a compression separation component is arranged in the crushing cavity 28, the compression separation component comprises a compression loosening component arranged above the crushing cavity 28, the crushing separation component further comprises a separation cavity 16 arranged in the left cavity wall in the middle of the crushing cavity 28 and communicated with the crushing cavity, a gas separation component is arranged in the separation cavity 16, and the compression separation component comprises a churning cavity 20 arranged in the left cavity wall below the crushing cavity 28 and communicated with the compression separation component, a gas churning assembly is arranged in the churning cavity 20, a discharge cavity 23 communicated with the gas churning assembly is arranged in the right cavity wall below the crushing cavity 28, and a discharge assembly is arranged at the communication position of the discharge cavity 23 and the crushing cavity 28; this technical scheme provides one kind and is difficult to when clearing up after algae is clear away and soft plastics rubbish mixes, the marine alga that will clear up is put into the device from the entry subassembly, the device makes the marine alga get into compression separator in batches, thereby reach the clearance careful, later in compression separator, it compresses tightly on the separation otter board to lead in the marine alga, fragile plant marine alga is broken this moment and sees through the otter board and drops, when rubbish stops on the otter board, block up the otter board thereby make the clamp plate press motionless, the clamp plate loosens but seals the chamber of crushing this moment, gaseous component that overturns makes rubbish and surplus marine alga in the chamber roll at the intracavity with gaseous separator cooperation this moment, make rubbish leave the otter board, later stop overturning, then crush again, after repeating several times, the intracavity marine alga remains a few thus smoothly with rubbish separation, thereby later make rubbish discharged smoothly.

In this embodiment, the feeding assembly includes a motor 33 disposed in the rear cavity wall of the inlet cavity 11, a dial plate shaft 35 rotationally connected to the front and rear cavity walls of the inlet cavity 11 is dynamically connected to the front end surface of the motor 33, and six dial plates 34 are disposed on the dial plate shaft 35; after algae is put into the inlet cavity 11, the motor 33 works to drive the shifting plate shaft 35 and the shifting plate 34 to rotate, so that the algae is pushed into the compression separation assembly by the shifting plate 34, and the compression separation work is smoothly performed.

In this embodiment, the sealing assembly includes an isolation cut-off cavity 30 disposed in the upper cavity wall on the right side of the inlet cavity 11 and communicated therewith, an isolation cutting plate 36 is slidably connected in the isolation cut-off cavity 30, a cutting plate toggle pin 38 is fixedly connected to the right end face below the isolation cutting plate 36, a cutting plate toggle block 37 is rotatably connected to the right end of the cutting plate toggle pin 38, one end of a toggle torsion spring 39 is connected to the cutting plate toggle pin 38, and the other end of the toggle torsion spring 39 is connected to the left end of the cutting plate toggle block 37; when the feeding assembly feeds algae into a part of the crushing cavity 28 from the inlet cavity 11, the isolation cutting plate 36 is driven downwards by the cutting plate poking block 37 to move when the compression separation assembly works, so that the algae is cut off at the lower end of the isolation cutting plate 36 and the right end of the inlet cavity 11 is closed, and then the isolation cutting plate 36 is lifted by the cutting plate poking block 37 after the compression separation assembly works.

In this embodiment, the compressing and releasing assembly includes an electric compression rod 29 disposed on the upper wall of the crushing cavity 28, the lower end face of the electric compression rod 29 is power-connected with a pressing plate 27 slidably connected in the crushing cavity 28, the upper end face of the right side of the pressing plate 27 is provided with a distance sensor 26, an algae screen plate 32 is rotatably connected between the opening of the separation cavity 16 below the crushing cavity 28 and the opening of the churning cavity 20, a friction power cavity 41 communicated with the crushing cavity 28 is disposed in the cavity wall behind the algae screen plate 32, the lower cavity wall of the friction power cavity 41 is provided with a friction motor 40, the upper end face of the friction motor 40 is power-connected with a friction shaft 43, the upper end of which is rotatably connected with the upper wall of the friction power cavity 41, and the friction gear 42 engaged with the friction power cavity 32 is fixed on the friction shaft 43; when algae enters the crushing cavity 28, the electric compression rod 29 drives the pressing plate 27 to be arranged at the upper end of the crushing cavity 28, when the algae in the crushing cavity 28 reaches a certain amount, the electric compression rod 29 works to drive the pressing plate 27 to move downwards, meanwhile, the pressing plate 27 drives the sealing component to isolate the inlet cavity 11 from the crushing cavity 28, in the process that the crushing cavity 28 moves downwards, the friction motor 40 works to drive the friction shaft 43, the friction gear 42 and the algae screen plate 32 to rotate, so that the crushing cavity 28 breaks and grinds the algae on the algae screen plate 32, at the moment, the churning air conveying pipe 17 presses the algae on the algae screen plate 32 to enable the algae in contact with the algae screen plate 32 to break and penetrate, and when garbage is in contact with the algae screen plate 32, the pressing plate 27 is not pressed to stop, at this time, the electric compression bar 29 drives the pressing plate 27 to ascend to stop at the lower end of the right opening of the inlet chamber 11, then the air tumbling assembly cooperates with the air separating assembly to tumble algae and garbage in the electric telescopic rod 18, so that the garbage leaves the algae screen 32, then the electric compression bar 29 drives the pressing plate 27 to descend again, so that the algae continues to contact and permeate the algae screen 32, and then the tumbling and the pressing are repeated, so that most of the algae permeate the algae screen 32 to be separated, and then most of the garbage in the crushing chamber 28 is crushed, therefore, after the pressing plate 27 is pressed down in the crushing chamber 28, the distance measured by the distance sensor 26 is the same as the distance between the pressing plate and the upper chamber wall of the crushing chamber 28, and then the discharging assembly works to effectively discharge the garbage.

In this embodiment, the gas separation assembly comprises an isolation fine mesh plate 31 arranged at the right orifice of the separation cavity 16, a separation high-pressure air gun 12 is fixed at the right end of the separation cavity 16, an air pump 15 is fixed at the right end of the separation cavity 16, one end of the separation air pipe 13 is communicated with the air pump 15 through the right end surface of the air pump 15, the other end of the separation air pipe 13 is communicated with the separation high-pressure air gun 12, and an air inlet 14 communicated with the air pump 15 and communicated with the outside is arranged at the left end of the air pump 15; when the compaction loosening assembly enables the churning gas conveying pipe 17 to be located below the right end of the inlet cavity 11, the gas pump 15 works at the moment, the separation high-pressure gas gun 12 sprays gas into the crushing cavity 28 through the isolation fine mesh plate 31, and therefore algae in the crushing cavity 28 is churned by matching with the gas churning assembly, and is separated from the algae mesh plate 32, so that the algae can be pressed down again, and the algae can be separated smoothly.

In this embodiment, the gas churning assembly comprises an electric telescopic rod 18 arranged in the left cavity wall of the churning cavity 20, a churning air gun block 19 is dynamically connected to the right end face of the electric telescopic rod 18, the churning air gun block 19 is slidably connected in the churning cavity 20, a churning high-pressure air gun 21 is further arranged at the right end of the churning air gun block 19, one end of a churning air pipe 17 is communicated with the separation high-pressure air gun 12, and the other end of the churning air pipe 17 penetrates into the cavity wall of the case 10 from the cavity wall of the tree churning cavity 20 to be communicated with the air pump 15; when the compaction loosening assembly enables the churning gas conveying pipe 17 to be located below the right end of the inlet cavity 11, in the process, the electric telescopic rod 18 works to enable the churning gas gun block 19 to drive the churning high-pressure gas gun 21 to move right to enable the churning high-pressure gas gun to be located below the algae screen plate 32, then the air pump 15 works to enable the churning high-pressure gas gun 21 to spray air to the algae screen plate 32, so that the air separation assembly is matched, garbage on the algae screen plate 32 is enabled to leave the algae screen plate 32, and the pressing plate 27 enables the algae in the pressing cavity 28 to be repeatedly pressed and crushed, and accordingly the garbage and the algae are separated.

In this embodiment, the discharge assembly includes an electric guide rail 25 arranged in the upper cavity wall of the discharge cavity 23, an isolation plate 24 is dynamically connected below the electric guide rail 25, and the isolation plate 24 is located at the left cavity opening above the discharge cavity 23 to seal and isolate the discharge cavity from the crushing cavity 28; after repeated crushing in the crushing cavity 28, when the distance sensor 26 measures the crushing distance, and at the moment, when the upper end surface of the pressing plate 27 is close to the upper cavity wall of the crushing cavity 28 for multiple times of crushing distance, the electric guide rail 25 works to drive the isolation plate 24 to move rightwards, at the moment, the gas separation assembly works to enable the separation high-pressure gas gun 12 to jet gas so that garbage is discharged from the discharging cavity 23 by a sprayer, and therefore algae and soft plastic garbage are separated.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims

1. The utility model provides a rubbish separation recovery unit in marine alga, includes the casing, its characterized in that: an inlet cavity with a left opening is formed in the left cavity wall on the upper side of the casing, an inlet assembly is arranged in the inlet cavity, the inlet assembly comprises a feeding assembly arranged in the middle of the inlet cavity, the inlet assembly further comprises a sealing assembly arranged at the opening of the right cavity, a crushing cavity with a left upper cavity wall communicated with the inlet cavity is further arranged in the middle of the casing, a compression separation assembly is arranged in the crushing cavity and comprises a compaction loosening assembly arranged above the crushing cavity, the crushing separation assembly further comprises a separation cavity arranged in the left cavity wall in the middle of the crushing cavity and communicated with the left upper cavity wall, a gas separation assembly is arranged in the separation cavity, the compression separation assembly comprises a churning cavity arranged in the left cavity wall below the crushing cavity and communicated with the left upper cavity wall, a gas churning assembly is arranged in the churning cavity, and a discharge cavity communicated with the gas churning assembly is arranged in the right cavity wall below the crushing cavity, and a discharge assembly is arranged at the communication position of the discharge cavity and the crushing cavity.

2. The device for separating and recovering garbage in seaweed as claimed in claim 1, wherein: the feeding assembly comprises a motor arranged in the rear cavity wall of the inlet cavity, a shifting plate shaft which is rotationally connected with the front cavity wall and the rear cavity wall of the inlet cavity is in power connection with the front end surface of the motor, and six shifting plates are arranged on the shifting plate shaft.

3. The device for separating and recovering garbage in seaweed as claimed in claim 1, wherein: the seal assembly is including establishing in the upper chamber wall of entrance cavity right side and the isolation of intercommunication with it cuts off the chamber, keep apart and cut off intracavity sliding connection and keep apart the cutting plate, keep apart fixedly connected with cutting plate on the cutting plate below right-hand member face and dial the round pin, the cutting plate is dialled the round pin right-hand member and is rotated and be connected with the cutting plate and dial the piece, the cutting plate is dialled and is made in the round pin and dial torsional spring one end and be connected with it, stir the torsional spring other end with the cutting plate is dialled the piece left end and is connected.

4. The device for separating and recovering garbage in seaweed as claimed in claim 2, wherein: compress tightly and loosen the subassembly including establishing electronic compression rod on the cavity wall on the crushing chamber, power is connected with under the electronic compression rod on the terminal surface crushing intracavity sliding connection's the pressure movable plate, be equipped with distance sensor on the pressure movable plate right side up end, crushing chamber below the separation chamber accent with it is connected with the algae otter board to turn over to rotate between the chamber accent, be equipped with in the wall of algae otter board rear chamber with the friction power chamber of crushing chamber intercommunication, be equipped with friction motor on the wall of friction power chamber lower chamber, power is connected with on the friction motor up end upper end with the friction axle that the wall of friction power chamber upper chamber rotated the connection, the epaxial being fixed with of friction gear with the meshing.

5. The device for separating and recovering garbage in seaweed as claimed in claim 1, wherein: the gas separation subassembly is including establishing the isolation otter board of separation chamber right side accent, the separation chamber right-hand member is fixed with separation high pressure air gun, the fixed air pump of separation chamber right-hand member, the air pump right-hand member makes separation gas-supply pipe one end intercommunication with it, the separation gas-supply pipe other end with separation high pressure air gun intercommunication, the air pump left end is equipped with the air inlet with it intercommunication and with external intercommunication.

6. The device for separating and recovering garbage in seaweed as claimed in claim 1, wherein: the gas churning assembly comprises an electric telescopic rod arranged in the left cavity wall of the churning cavity, a churning air gun block is connected to the right end face of the electric telescopic rod in a power mode, the churning air gun block is in sliding connection in the churning cavity, a churning high-pressure air gun is further arranged at the right end of the churning air gun block, one end of a churning air pipe is communicated with the separation high-pressure air gun, and the other end of the churning air pipe penetrates into the wall of the churning cavity from a tree and is communicated with the air pump.

7. The device for separating and recovering garbage in seaweed as claimed in claim 1, wherein: the discharge assembly comprises an electric guide rail arranged in the upper cavity wall of the discharge cavity, an isolation plate is dynamically connected below the electric guide rail, and the isolation plate is sealed and isolated from the crushing cavity when positioned at a left cavity opening above the discharge cavity.