CN111846189A

CN111846189A - Yacht vacuum sewage discharge system

Info

Publication number: CN111846189A
Application number: CN202010574675.2A
Authority: CN
Inventors: 夏义江; 姚佳雨; 苏鹏程; 王小惠; 欧卓琳; 甄希金; 蔡广华
Original assignee: Beibu Gulf University
Current assignee: Beibu Gulf University
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2020-10-30
Anticipated expiration: 2040-06-22
Also published as: CN111846189B

Abstract

The invention discloses a yacht vacuum sewage discharge system, and relates to the technical field of ship sewage treatment. The yacht vacuum sewage discharge system comprises a sewage vacuum collection device and a sewage treatment device, wherein the sewage vacuum collection device is hermetically communicated with the sewage treatment device through a rotor pump unit and a vacuum sewage discharge pipeline, the sewage treatment device comprises a first treatment device and a second treatment device which are connected, the first treatment device comprises a device body, a crushing device is arranged in the device body, and the crushing device comprises a crushing motor, a fan-shaped blade and a motor base; the motor base is fixed in the device body; the crushing motor is fixed on the motor base, and a fan-shaped blade is arranged on an output shaft of the crushing motor; the second treatment device comprises an inner shell capable of rotating at a high speed, and a filter layer, a first electric telescopic rod, a scraping device and the like which are arranged in the inner shell. The invention improves the separation efficiency of dirt and water in the sewage and has good separation effect.

Description

Yacht vacuum sewage discharge system

Technical Field

The invention relates to the technical field of ship sewage treatment, in particular to a yacht vacuum sewage discharge system.

Background

The yacht can integrate functions of navigation, sports, entertainment, leisure and the like, and meet the requirement of individuals and families for enjoying life. In developing countries, yachts are mostly used as management projects of parks and tourist attractions for people to consume, and are also used as working means of port prisoners, public security and frontier defense in a small quantity.

With the unprecedented development of the shipping industry and ocean development, the pollution of the ocean environment is more and more serious, and the human beings pay more and more attention to the protection of the ocean environment. The ship domestic sewage treatment device is a special treatment device arranged on a ship and a platform in order to prevent domestic sewage generated by the ship and the ocean platform from polluting sailing water areas. Traditional marine domestic sewage treatment plant, it is too simple to marine domestic sewage treatment plant's design, and sewage treatment process is more single, does not carry out multiple treatment to sewage to the sewage after the processing still can not reach the requirement of emission.

Disclosure of Invention

The invention aims to solve the problems and provides a yacht vacuum sewage disposal system which improves the separation efficiency of sewage and water in sewage, has a good separation effect and enables upper-layer water obtained after separation in a sewage treatment device to reach a discharge standard.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

a yacht vacuum sewage discharge system comprises a sewage vacuum collection device and a sewage treatment device, wherein the sewage vacuum collection device is hermetically communicated with the sewage treatment device through a rotor pump unit and a vacuum sewage discharge pipeline,

the sewage treatment device comprises a first treatment device and a second treatment device which are connected, the first treatment device comprises a device body, a crushing device is arranged in the device body, and the crushing device comprises a crushing motor, a fan-shaped blade and a motor base; the motor base is fixed in the device body; the crushing motor is fixed on the motor base, and a fan-shaped blade is arranged on an output shaft of the crushing motor;

the second treatment device comprises an outer shell and an inner shell sleeved in the outer shell, the device body is communicated with the inner shell through a sewage discharge pipeline, an end cover is arranged at the upper end of the inner shell, a vertical rod is arranged on the end cover, a filter layer is fixedly arranged in the inner shell, and the periphery of the filter layer is fixedly connected with the inner wall of the inner shell; the vertical rod is provided with a cross rod, two ends of the cross rod are respectively connected with an electric telescopic rod, the upper ends of the two first electric telescopic rods are respectively fixedly connected with two ends of the cross rod, the lower ends of the two first electric telescopic rods respectively penetrate through the end covers and are connected with scraping devices, and one outer side of each scraping device is abutted to the inner peripheral wall of the inner shell; the interior bottom of shell body has set firmly the motor, the output shaft of motor has the link, the link keep away from the output shaft one end with the outer bottom fixed connection of interior casing.

Further, the scraping device comprises a rectangular frame and a brush arranged on the outer side of the rectangular frame, the brush is abutted to the inner peripheral wall of the shell, and the lower ends of the two first electric telescopic rods respectively penetrate through the convex rings and are fixedly connected with the two opposite sides of the rectangular frame.

Furthermore, the scraping device further comprises telescopic mechanisms arranged on two opposite sides of the rectangular frame, each telescopic mechanism comprises a flexible coating body, one end of each flexible coating body is open and the other end of each flexible coating body is sealed, the open end of each flexible coating body is fixedly connected with the side wall of the brush facing away from the rectangular frame, a telescopic framework and a second electric telescopic rod are arranged in each flexible coating body, the telescopic frameworks are fixedly connected with the inner surface of the coating bodies, one end of each second electric telescopic rod is fixed on the side wall of the brush facing away from the rectangular frame, and the second electric telescopic rods are fixedly connected with the telescopic frameworks to drive the telescopic frameworks to stretch and retract.

Further, the flexible covering layer is tarpaulin.

Further, still be equipped with the controller on the shell body, motor, first electric telescopic handle and second electric telescopic handle all with the controller electricity is connected.

Furthermore, denitrifying bacteria and photosynthetic bacteria are further arranged in the inner shell, and a fluorescent lamp is further arranged at the inner top of the inner shell and is electrically connected with the controller.

Furthermore, the upper side wall of the inner shell is connected with a drain pipe, the drain pipe is further provided with a suspended matter content measuring instrument, and the suspended matter content measuring instrument is electrically connected with the controller.

Furthermore, a closable vertical wave-proof valve is also arranged on the water discharge pipe.

Furthermore, the rotor pump unit comprises a rotary rotor pump directly connected with the vacuum sewage discharge main pipe and a vacuum pressure switch arranged at the inlet of the vacuum sewage discharge main pipe.

Furthermore, a guide pipe is further connected to the side wall, close to the bottom, of the inner shell, and a connector located on the main deck is further connected to one end, far away from the inner shell, of the guide pipe.

By adopting the technical scheme, the invention has the beneficial effects that:

the invention arranges the sewage treatment device communicated with the sewage vacuum collection device, the sewage treatment device comprises a first treatment device and a second treatment device, a crushing device is arranged in the first treatment device, so as to crush large particle impurities and the like in the sewage, the second treatment device comprises an inner shell which can rotate at a high speed, and a filter layer, a first electric telescopic rod, a scraping device and the like which are arranged in the inner shell, after the sewage with the dirt crushed by the crushing device is crushed into small-particle suspended sewage, the sewage is firstly filtered by the filter layer to filter the small-particle dirt, impurities and the like in the sewage, then the inner shell is driven by the motor to rotate at a high speed through the connecting frame, and the small particles and the like in the sewage are separated from the water by the high-speed rotation of the inner shell, so that the separation efficiency of the small particles and the like in the sewage from the water is improved, and the separation effect is good; meanwhile, due to the arrangement of the scraping device, the inner shell can be firstly controlled to be stretched out through the telescopic mechanism in the scraping device by the controller before rotating at a high speed, so that sewage in the inner shell is separated from the filter layer, and the sewage is prevented from impacting the filter layer under the high-speed rotation of the inner shell, so that small-particle dirt, impurities and the like on the filter layer fall into the filtered sewage after impacting. And the separation of the suspension sewage among the sewage treatment plant is accomplished and the back is discharged, the telescopic machanism shrink among the accessible controller control scraping device, and rethread electric telescopic handle drives scraping device up-and-down motion, utilizes the brush on the scraping device to clean second grade oily sewage treatment plant's inner wall to brush out the tiny particle filth that adheres on sewage treatment plant inner wall, realized the high-efficient cleanness to sewage treatment plant inner wall.

Drawings

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

FIG. 2 is a schematic structural view of a sewage treatment apparatus according to an embodiment of the present invention;

FIG. 3 is a top view of a scraping device of a sewage treatment apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a scraping device in a sewage treatment device according to an embodiment of the present invention after a telescopic mechanism is extended.

In the figure, 1-sewage vacuum collection device, 2-rotor pump unit, 3-vacuum sewage discharge pipeline, 4-first treatment device, 5-second treatment device, 51-inner shell, 52-connecting frame, 53-motor, 54-vertical rod, 541-cross rod, 55-outer shell, 551-controller, 56-convex ring, 57-filter screen, 58-first electric telescopic rod, 59-scraping device, 591-rectangular frame, 592-brush, 593-flexible cladding body, 594-telescopic framework, 595-second electric telescopic rod, 6-drain pipe, 61-suspended matter content determinator, 62-closeable vertical type wave-proof valve and 7-guide pipe.

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.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Examples

Referring to fig. 1-4, a yacht vacuum sewage system includes a sewage vacuum collection device 1 and a sewage treatment device, wherein the sewage vacuum collection device 1 is hermetically communicated with the sewage treatment device through a rotor pump unit 2 and a vacuum sewage pipeline 3, so that sewage in the sewage vacuum collection device 1 flows into the rotor pump unit against pipeline resistance and is discharged to the sewage treatment device through the vacuum sewage pipeline 3 by the rotor pump unit.

The sewage treatment device comprises a first treatment device 4 and a second treatment device 5 which are connected through a sewage discharge pipeline, wherein the first treatment device 4 comprises a device body 41, a crushing device 42 is arranged in the device body 41, and the crushing device 42 comprises a crushing motor 421, a fan-shaped blade 422 and a motor base 423; the motor seat 423 is fixed in the device body 41; the grinding motor 421 is fixed on the motor base 423, and the output shaft of the grinding motor 421 is provided with a fan-shaped blade 422. The first treatment device 4 is used for crushing large-particle impurities in the sewage, and is convenient for discharging the sewage and further effectively treating the sewage by the second treatment device 5.

The second processing device 5 includes an outer casing 55 and an inner casing 51 sleeved in the outer casing 55, in this embodiment, the inner casing 51 is a square body. An end cover is arranged at the upper end of the inner shell 51, the device body 41 is communicated with a liquid inlet on the end cover of the inner shell 51 through a sewage discharge pipeline, and a suction pump (not shown) is arranged on the sewage discharge pipeline. The end cover is provided with a vertical rod 54, a convex ring 56 is fixedly arranged in the inner shell 51, a filter layer 57 is arranged on the convex ring 56, the periphery of the filter layer 57 is fixed on the convex ring 56, and the filter layer 57 in the embodiment comprises an activated carbon layer fixedly arranged on the convex ring 56 and a filter screen arranged on the activated carbon layer. A cross bar 541 is arranged on the upright 54, two ends of the cross bar 541 are respectively connected with an electric telescopic rod 58, the upper ends of the two first electric telescopic rods 58 are respectively fixedly connected with two ends of the cross bar 541, the lower ends of the two first electric telescopic rods 58 respectively penetrate through the end covers and are connected with a scraping device 59, and one outer side of the scraping device 59 is abutted against the inner peripheral wall of the inner shell 51; the inner bottom of the outer shell 55 is fixedly provided with a motor 53, an output shaft of the motor 53 is connected with a connecting frame 52, and one end of the connecting frame 52 far away from the output shaft is fixedly connected with the outer bottom of the inner shell 51, so that the inner shell 51 is fixed on the connecting frame 52. The joint of the first electric telescopic rod 58 and the end cover is further provided with a sealing ring to ensure the tightness of the inner shell 51.

Further, in this embodiment, the scraping device 59 includes a rectangular frame 591 and a brush 592 disposed on an outer side of the rectangular frame 591, the brush 592 abuts against an inner peripheral wall of the housing 51, and lower ends of the two first electric telescopic rods 58 respectively pass through the protruding rings 56 and are fixedly connected with two opposite sides of the rectangular frame 591. Just still be equipped with telescopic machanism on the relative both sides of rectangular frame 591, telescopic machanism includes a flexible cladding 593, the one end opening other end of flexible cladding 593 is sealed, the open end of flexible cladding 593 with rectangular frame 591 is brush 592's lateral wall fixed connection dorsad, be equipped with flexible skeleton 594 and second electric telescopic handle 595 in the flexible cladding 593, flexible skeleton 594 with flexible cladding 593's internal surface fixed connection, the one end of second electric telescopic handle 595 is fixed in on the lateral wall of rectangular frame 591 brush 592 dorsad, just second electric telescopic handle 595 with flexible skeleton 594 fixed connection is with the drive flexible skeleton 594 realizes flexiblely. The outer shell 55 is further provided with a controller 551, and the motor 53, the first electric telescopic rod 58 and the second electric telescopic rod 595 are all electrically connected with the controller 551. In this embodiment, the controller 551 is a wireless controller.

In this embodiment, the telescopic frame 592 is formed by cross-connecting telescopic rods, and the adjacent telescopic rods are hinged at the ends respectively. In this embodiment, the flexible covering 593 is made of tarpaulin, so that the flexible covering 593 is made of a waterproof material with high strength, good toughness and softness.

Further, denitrifying bacteria and photosynthetic bacteria are also arranged in the inner shell 51, and a fluorescent lamp (not shown) is also arranged at the inner top of the inner shell 51 and is electrically connected with the controller 551. The denitrifying bacteria can denitrifying nitrogen in the nitrate into nitrogen, the photosynthetic bacteria can decompose and consume organic matters in the sewage under the conditions of light and oxygen, the denitrifying bacteria and the photosynthetic bacteria can fully decompose the nitrate and decompose and consume the organic matters in the sewage in the high-speed rotation process of the inner shell 51 and the on state of the fluorescent lamp, and the purity of the sewage is further improved. In addition, the top of the inner shell 51 is also provided with an exhaust port, the exhaust port is communicated with the outer shell 55 through an air pipe, the air pipe penetrates through the outer shell 55, and the air pipe is provided with a switch so as to discharge nitrogen.

Furthermore, the end cover of the inner shell 51 is further provided with a water outlet which can be detachably connected with a water discharge pipe 6 penetrating through the outer shell 55, the water discharge pipe 6 is further provided with a suspended matter content measuring instrument 61 and an electromagnetic valve, and the suspended matter content measuring instrument 61 is electrically connected with the controller 551. After the sewage treatment device 5 separates the water content and the small-particle dirt, the small-particle dirt is positioned at the lower part in the sewage treatment device 5, the water content is positioned at the upper part in the sewage treatment device 5, namely, the moisture and the small-particle dirt are separated from the upper layer and the lower layer, the separated moisture is discharged through the drain pipe 6, because the water discharge pipe 6 is provided with a suspended matter content tester (or a water quality SS concentration tester SH-200 type) and an electromagnetic valve which are both electrically connected with the controller 551, when the content of the suspended matters measured by the suspended matter content measuring instrument is less than or equal to 35mg/L, the electromagnetic valve is in an open state, when the content of the suspended matters measured by the suspended matter content measuring instrument is more than 35mg/L, the electromagnetic valve is controlled to be closed (refer to GB3552-2018 ship water pollutant discharge control standard), so that the discharged water is standard dischargeable domestic sewage. The drain has still been seted up to interior casing 51's bottom, and the bottom of drain is equipped with and is used for sealed fender lid, and when interior casing 51 rotated the during operation, the drain was for encapsulated situation, and after interior casing 51 rotated the completion, can connect a detachable pipe 7 in drain department, pipe 7 passes shell body 55 and is connected with the emission joint that is located the main deck to make interior casing 51 rotatory end, moisture discharge complete back, can arrange the tiny particle filth of its bottom to receiving equipment on the bank through pipe 7. In addition, a closable vertical type wave-proof valve 62 is arranged on the water discharge pipe 6. Similarly, when the inner shell 51 rotates to work, the liquid inlet and the water outlet on the inner shell 51 are also in a sealed state, when the sewage pump needs to be sent into the inner shell 51, the liquid inlet is opened, and the sewage discharge pipe is connected to the liquid inlet in a reverse mode, and the water outlet is also similar. These settings are conventional for those skilled in the art and will not be described further herein. It should be noted that, in order to facilitate the disassembly and assembly of the sewage pipe, the water discharge pipe 6 and the conduit 7 connected to the inner housing 51, the top and the bottom of the outer housing 55 in this embodiment are both hollow-out shapes formed by arranging a plurality of strip-shaped rods at intervals.

The structure and working principle of the sewage vacuum collection device and the rotor pump set in the embodiment are the prior art, and reference can be made to the structure and working principle of the vacuum collection device and the rotor pump set in the ship domestic sewage treatment process and the vacuum discharge treatment system thereof with the publication number of CN101618927A, which is not repeated here.

The invention sets a sewage treatment device communicated with a sewage vacuum collection device 1, the sewage treatment device comprises a first treatment device 4 and a second treatment device 5, a crushing device is arranged in the first treatment device 4 to crush large-particle impurities in sewage, the second treatment device 5 comprises an inner shell 51 capable of rotating at high speed, a filter layer 57, a first electric telescopic rod 58, a scraping device 59 and the like which are arranged in the inner shell 51, so that the sewage with dirt crushed by the crushing device 42 is crushed into small-particle suspended sewage, the small-particle dirt, the impurities and the like in the sewage are filtered by the filter layer 57, the inner shell 51 is rotated at high speed by a connecting frame 52 under the drive of a motor 53, the small particles and the like in the sewage are separated from water by the high-speed rotation of the inner shell 51, and the separation efficiency of the small particles and the like in the sewage and the water is further improved, the separation effect is good; meanwhile, due to the arrangement of the scraping device 59, the inner shell 51 can be firstly controlled by the controller 551 to extend through the telescopic mechanism in the scraping device 59 before rotating at a high speed, so that the sewage in the inner shell 51 is separated from the filtering layer, and the sewage is prevented from impacting on the filtering layer 57 under the high-speed rotation of the inner shell 51, so that small-particle dirt, impurities and the like on the filtering layer 57 fall into the filtered sewage under the impact. And the separation of the suspension sewage among the sewage treatment plant 5 is accomplished and the back is discharged, the telescopic machanism shrink among the accessible controller 551 control scraping device 59, and rethread first electric telescopic handle 58 drives scraping device 59 up-and-down motion, utilizes brush 592 on scraping device 59 to clean the inner wall of second grade oily water treatment plant 5 to brush out the tiny particle filth that adheres on the inner wall of sewage treatment plant 5, realized the high-efficient cleanness to the inner wall of sewage treatment plant 5.

Claims

1. A yacht vacuum sewage discharge system comprises a sewage vacuum collection device and a sewage treatment device, wherein the sewage vacuum collection device is hermetically communicated with the sewage treatment device through a rotor pump unit and a vacuum sewage discharge pipeline,

2. The yacht vacuum sewer system of claim 1, wherein the scraping device comprises a rectangular frame and a brush arranged on the outer side of the rectangular frame, the brush is abutted against the inner peripheral wall of the shell, and the lower ends of the two first electric telescopic rods respectively penetrate through the convex rings and are fixedly connected with two opposite sides of the rectangular frame.

3. The yacht vacuum sewage system of claim 2, wherein the scraping device further comprises telescopic mechanisms disposed on opposite sides of the rectangular frame, the telescopic mechanisms comprise a flexible cladding body, one end of the flexible cladding body is open and the other end is sealed, the open end of the flexible cladding body is fixedly connected with the side wall of the rectangular frame facing away from the brush, a telescopic framework and a second electric telescopic rod are disposed in the flexible cladding body, the telescopic framework is fixedly connected with the inner surface of the cladding body, one end of the second electric telescopic rod is fixed on the side wall of the rectangular frame facing away from the brush, and the second electric telescopic rod is fixedly connected with the telescopic framework to drive the telescopic framework to stretch and retract.

4. A yacht vacuum sewer system according to claim 3, wherein the flexible cover is a tarpaulin.

5. The yacht vacuum sewer system of claim 3, wherein a controller is further disposed on the outer shell, and the motor, the first electric telescopic rod and the second electric telescopic rod are electrically connected to the controller.

6. The yacht vacuum sewer system of claim 5, wherein denitrifying bacteria and photosynthetic bacteria are further disposed in the inner shell, and a fluorescent lamp is further disposed on the inner top of the inner shell, and the fluorescent lamp is electrically connected to the controller.

7. The yacht vacuum sewer system of claim 6, wherein a drain pipe is connected to the upper side wall of the inner shell, and a suspended matter content measuring instrument is further disposed on the drain pipe and electrically connected to the controller.

8. The yacht vacuum sewer system of claim 7, wherein the drain pipe is further provided with a closable vertical wave valve.

9. The yacht vacuum sewer system of claim 1, wherein the rotor pump assembly comprises a rotary rotor pump directly connected to the main vacuum sewer pipe and a vacuum pressure switch disposed at an inlet of the main vacuum sewer pipe.

10. The yacht vacuum sewer system of claim 8, wherein the side wall of the inner shell near the bottom is further connected with a conduit, and the end of the conduit far from the inner shell is further connected with a joint positioned on the main deck.