CN219269889U - Internal circulation interception pollution discharge slow water deposition device - Google Patents

Abstract

The utility model discloses an internal circulation sewage interception and drainage slow water deposition device which comprises a first cylinder body (1), a second cylinder body (2), a third cylinder body (3), a fourth cylinder body (8), a fifth cylinder body (9), a first siphon (4), a full spectrum LED lamp (5), a solar photovoltaic panel (6) and an sewage interception and drainage device (7). Through the operation of rotary valve switch (76), first siphon (4) and water pump, realized an inner loop and cut blowdown and slow water deposition function, combined full spectrum LED lamp (5), solar photovoltaic board (6) more close the breed of realizing green low-carbon hydroponic planting and edible fish of organic vegetables, the functional strong degree of automation of whole equipment is high and can save a large amount of electric energy, water resource and manual work, has very high market spreading value.

Description

Internal circulation interception pollution discharge slow water deposition device

Technical Field

The utility model relates to the technical field of water tank water treatment equipment, in particular to an internal circulation sewage interception and drainage slow water deposition device.

Background

The water vat is used for cultivating aquatic organisms to play an ornamental role, and is widely applied to household placement along with the improvement of the living standard of people and gradually becomes a modern household necessity. However, due to metabolism and daily feeding of aquatic organisms in the water tank, a lot of sewage such as biological excrement and bait residues are generated in the water tank. Although the water circulation filter device installed in the traditional water tank can play a certain filtering and depositing effect, the area of filtering consumable materials in the filter device is limited, if the filter device is not replaced timely, a large amount of dirt, particularly bait residues, are extremely easy to block the filter device, so that the filter device fails, and the safety accident caused by the blockage of the circulating water pump is more likely to be caused.

Therefore, the internal circulation sewage interception and drainage slow water deposition device is designed to solve the problems, and has practical significance.

Disclosure of Invention

The utility model provides an internal circulation sewage interception and drainage slow water deposition device for solving the problem that a large amount of sewage blocks filter consumables.

The technical scheme adopted by the utility model is as follows:

including first cylinder body, cut waste fitting discharging, the fourth cylinder body, the fifth cylinder body, first cylinder body embeds has first water pump, it is equipped with a water inlet to cut waste fitting discharging, first delivery port, the second delivery port, be equipped with horizontal porous grid in the waste fitting discharging cuts, filter the consumptive material has been placed on the horizontal porous grid, first water pump passes through the pipeline UNICOM to cut waste fitting discharging's water inlet, the water through first delivery port finally flows back to in the first cylinder body, the top in the fifth cylinder body is placed to the fourth cylinder body, it leads to the fourth cylinder body to cut waste fitting discharging's second delivery port through the pipeline UNICOM, a aperture has been opened to the bottom of fourth cylinder body, the inside of fifth cylinder body is equipped with vertical partition with the inside several compartment of cutting apart of fifth cylinder body, the quantity of compartment has two at least, the compartment is equipped with intercommunication mouth and connects each compartment. The small hole at the bottom of the fourth cylinder body is communicated with the compartment. One side of the compartment is provided with a fifth water outlet which is communicated into the first cylinder body.

Further, be equipped with a rotary valve switch, a vertical pipe on the section drain, vertical pipe runs through filtration consumptive material and horizontal porous grid, when rotary valve switch revolves to one side, pipe upper portion UNICOM only first delivery port, the lower part passes horizontal porous grid UNICOM extremely the bottom of section drain, the on-off state of water inlet is open, first delivery port on-off state is open, second delivery port on-off state is closed, sewage by the water inlet enters into the inside of section drain from top to bottom and passes through filtration consumptive material, the filth granule is blocked by filtration consumptive material, and filtration water arrives the section drain's bottom and through the pipe flows out from first delivery port, and when rotary valve switch revolves to the opposite side, pipe upper portion UNICOM only the water inlet, the lower part passes horizontal porous grid UNICOM extremely the bottom of section drain, the on-off state of water inlet is open, first delivery port on-off state is closed, second delivery port on-off state is open, water from top to bottom and through the water inlet is taken away by filtration consumptive material to the second water through the water inlet to bottom and is taken away by the filth granule from bottom to the bottom.

Further, a second cylinder body is arranged on the upper portion of the first cylinder body, a second water inlet and a second water outlet are formed in the second cylinder body, the second water inlet is communicated to the first water outlet of the sewage interception and drainage device through a pipeline, and the second water outlet is communicated to the first cylinder body through a pipeline.

Further, the upper portion of second cylinder body is provided with sixth cylinder body, second siphon, and the inside of second cylinder body is provided with the third water pump, and the third water pump passes through the pipeline UNICOM to sixth cylinder body, and the second siphon is installed in sixth cylinder body one side, and when the water level risees to the top of second siphon, the second siphon is discharged the water siphon in the sixth cylinder body.

Further, the inside of first cylinder body is provided with the second water pump, the upper portion of first cylinder body is provided with third cylinder body, first siphon, and the second water pump passes through the pipeline UNICOM to in the third cylinder body, and first siphon is installed in third cylinder body one side, and when the water level risees to the top of first siphon, the first siphon is discharged the water siphon in the third cylinder body to in the first cylinder body.

Further, at least one top of the third cylinder body and the sixth cylinder body is provided with a full spectrum LED lamp.

Furthermore, the full spectrum LED lamp is powered by a solar photovoltaic panel.

Further, the rotary valve switch is regulated in two steps, and is one of an electric control valve switch and an electric control timing valve switch.

Further, the filtering consumable in the intercepting and discharging device is one or any of sand-like solid particles, activated carbon, filter cotton, filter balls and filter screens.

Further, a through hole device is arranged on the small hole at the bottom of the fourth cylinder body, the through hole device is fixed in the fourth cylinder body, a vertical through needle is arranged at the lower part of the through hole device, and the vertical through needle passes through the small hole when moving up and down.

The beneficial effects are that:

the water with dirt enters the intercepting and draining device through the water inlet of the intercepting and draining device and then flows out through the water outlet of the intercepting and draining device, and the daily excrement of aquatic animals, bait residues and other dirt are blocked on the filtering consumable placed in the intercepting and draining device. When the dirt is accumulated to a certain amount, the water outlet of the sewage interception and drainage device is closed, the valve switch on the sewage interception and drainage device is opened, the dirt rapidly flows into the corresponding cylinder body from the sewage drainage port due to the change of the flowing direction of the water body and the driving, the small water outlet communicated with the compartment is arranged on the corresponding cylinder body, the dirt and the water slowly flow into the compartment of the sedimentation tank along the small water outlet due to the gravity, the dirt is deposited step by step in the compartment of the sedimentation tank due to the gravity factor, and the water is finally cleaned step by step, and finally the cleaned water flows out along the water outlet of the compartment to be basically cleaned.

Drawings

The drawings described herein are for providing a further understanding of the utility model and the exemplary embodiments and descriptions thereof are intended to illustrate the utility model and not to limit the utility model unduly.

Fig. 1 is a schematic structural diagram of a first embodiment of the present utility model.

Fig. 2 is a schematic view showing a structure of the filtering state of the sewage interception and drainage device of the present utility model.

Fig. 3 is a schematic view of the structure of the present utility model in a flushing state of the intercepting drain.

Fig. 4 is a schematic view of the water flow direction structure of the present utility model.

Fig. 5 is a schematic view of the structure of a fourth cylinder of the present utility model.

Fig. 6 is a schematic view of a fifth cylinder structure according to the present utility model.

Fig. 7 is a schematic structural diagram of a second embodiment of the present utility model.

Fig. 8 is a schematic structural view of a third embodiment of the present utility model.

Fig. 9 is a schematic structural view of a fourth embodiment of the present utility model.

Reference numerals: 1-first cylinder, 11-first water pump, 12-second water pump, 2-second cylinder, 21-second water inlet, 22-second water outlet, 23-third water pump, 3-third cylinder, 4-first siphon, 5-full spectrum LED lamp, 6-solar photovoltaic panel, 7-section blowdown device, 71-water inlet, 72-first water outlet, 73-second water outlet, 74-transverse porous grid, 75-filtration consumable 76-rotary valve switch, 77-vertical round tube, 8-fourth cylinder, 81-small hole, 82-through hole device, 83-vertical through needle, 9-fifth cylinder, 91-vertical partition, 92-compartment, 93-intercommunication mouth, 94-fifth water outlet, 10-sixth cylinder, 101-second siphon

Detailed Description

The utility model will be further described with reference to the drawings and examples of embodiments for a clearer and more intuitive understanding of the utility model.

As shown in fig. 1, 2, 3, 4, 5 and 6, a first embodiment of the present utility model is provided. The utility model provides an internal circulation cuts blowdown slow water deposition device, includes first cylinder body 1, first water pump 11, cuts blowdown device 7, water inlet 71, first delivery port 72, second delivery port 73, horizontal porous grid 74, filtration consumptive material 75 is quartz sand, rotatory valve switch 76, vertical pipe 77, fourth cylinder body 8, aperture 81, through-hole ware 82, vertical through needle 83, fifth cylinder body 9, vertical wall 91, compartment 92, intercommunication mouth 93, no. five delivery ports 9.

The first water pump 11 is arranged in the first cylinder body 1, the intercepting and discharging device 7 is provided with a water inlet 71, a first water outlet 72 and a second water outlet 73, the intercepting and discharging device 7 is internally provided with a transverse porous grating 74, a filtering consumable 75 is placed on the transverse porous grating, the first water pump 11 is communicated to the water inlet 71 of the intercepting and discharging device 7 through a pipeline, water flowing through the first water outlet 72 flows back into the first cylinder body 1, the fourth cylinder body 8 is placed at the top of the fifth cylinder body 9, the second water outlet 73 of the intercepting and discharging device 7 is communicated to the fourth cylinder body 8 through a pipeline, the bottom of the fourth cylinder body 8 is provided with a small hole 81, the inside of the fifth cylinder body 9 is provided with a vertical partition 91 for dividing the inside of the fifth cylinder body 9 into three compartments 92, a compartment 92 is provided with a five-number water outlet 94 connected with each compartment 92, the small hole 21 at the bottom of the fourth cylinder body 8 is communicated with the compartment 92, one side of the compartment 92 is provided with a five-number water outlet 94 connected with the inside of the first cylinder body 1, the small hole 81 at the bottom of the fourth cylinder body 8 is provided with a through hole 82, the through hole 82 is fixed in the fourth cylinder body 8, the through hole 82 is communicated with the small hole 83 through the needle 83, and when the through hole 83 is blocked by the needle 83, the small hole 81 can be prevented from moving vertically, and the dirt can be prevented from moving vertically.

The sewage interception and drainage device 7 is provided with a rotary valve switch 76 and a vertical circular tube 77, and the vertical circular tube 77 penetrates through the filtering consumable 75 and the transverse porous grid 74. When the rotary valve switch 76 is rotated to one side, the upper part of the circular tube 77 is communicated with the first water outlet 72 only, the lower part of the circular tube passes through the transverse porous grating 74 and is communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is opened, the on-off state of the second water outlet 73 is closed, sewage enters the inside of the intercepting and discharging device 7 from the water inlet 71 and flows through the filtering consumable 75 from top to bottom, dirt particles are blocked by the filtering consumable 75, filtered water reaches the bottom of the intercepting and discharging device 7 and flows out from the first water outlet 72 through the circular tube 77, and the filtering of the water in the first cylinder body 1 is realized; when the rotary valve switch 76 is screwed to the other side, the upper part of the circular tube 77 is communicated with the water inlet 71 only, the lower part of the circular tube 77 passes through the transverse porous grid 74 to be communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is closed, the on-off state of the second water outlet 73 is opened, water passes through the water inlet 71 and enters the bottom of the intercepting and discharging device 7 through the circular tube 77, water flows from bottom to top and passes through the filtering consumable 75, dirt particles are carried away by the water and are discharged into the fourth cylinder 8 through the second water outlet 73, and as the bottom of the fourth cylinder 8 is provided with a small hole 81, sewage passes through and flows into the fifth cylinder 9 at a slow speed, then the sewage is deposited among compartments 92 in the fifth cylinder 9 to be purified step by step, flows out through the fifth water outlet 94 and flows back into the first cylinder 1, and the mechanism realizes the cleaning of quartz stone of the filtering consumable 75 and the slow release deposition and purification of the sewage.

In the first embodiment, the rotary valve switch 76 is a two-stage mediated electrically controlled timed valve switch. The switching of the two states of the rotary valve switch realizes the filtration of water in the first cylinder body 1 and the cleaning of quartz sand of the filtration consumable 75 in the interception and drainage device 7, and realizes the step-by-step deposition purification of sewage, thereby easily realizing the purpose that the aquarium filtration system does not need cotton and does not need cotton replacement. The whole process has high automation degree and is extremely convenient.

As shown in fig. 2, 3, 4, 5, 6 and 7, a second embodiment of the present utility model is provided. The utility model provides an internal circulation cuts blowdown slow water deposition device, includes first cylinder body 1, first water pump 11, second cylinder body 2, no. two water inlet 21, no. two delivery ports 22, cuts waste fitting 7, water inlet 71, first delivery port 72, second delivery port 73, horizontal porous grid 74, filtration consumptive material 75 is quartz sand, rotatory valve switch 76, vertical pipe 77, fourth cylinder body 8, aperture 81, through-hole ware 82, vertical through needle 83, fifth cylinder body 9, vertical cut off 91, compartment 92, intercommunication mouth 93, no. five delivery ports 94.

The first water pump 11 is arranged in the first cylinder body 1, the second cylinder body 2 is arranged on the upper portion of the first cylinder body 1, the second cylinder body 2 is provided with a second water inlet 21 and a second water outlet 22, the second water inlet 21 is communicated to the first water outlet 72 of the sewage interception and drainage device 7 through a pipeline, and the second water outlet 22 is communicated into the first cylinder body 1 through a pipeline. The sewage interception and drainage device 7 is provided with a water inlet 71, a first water outlet 72 and a second water outlet 73, a transverse porous grid 74 is arranged in the sewage interception and drainage device 7, a filtering consumable 75 is placed on the transverse porous grid, a first water pump 11 is communicated to the water inlet 71 of the sewage interception and drainage device 7 through a pipeline, water passing through the first water outlet 72 enters the second cylinder body 2 from the second water inlet 21 and flows back into the first cylinder body 1 from the second water outlet 22, the fourth cylinder body 8 is placed at the top of the fifth cylinder body 9, the second water outlet 73 of the sewage interception and drainage device 7 is communicated to the fourth cylinder body 8 through the pipeline, a small hole 81 is formed in the bottom of the fourth cylinder body 8, a vertical partition 91 is arranged in the fifth cylinder body 9 to divide the interior of the fifth cylinder body 9 into three compartments 92, communicating ports 93 are arranged between the compartments 92, small holes 21 at the bottom of the fourth cylinder body 8 are communicated to the compartments 92, a five-number water outlet 94 is arranged on one side of the compartments 92 and communicated into the first cylinder body 1, a through hole 82 is arranged on the small hole 81 at the bottom of the fourth cylinder body 8, the through hole 82 is fixed in the fourth cylinder body 8, a small hole 83 is fixed in the through hole 82, and the through hole 83 can be prevented from moving vertically through the small hole 81 when the needle 81 is blocked.

The sewage interception and drainage device 7 is provided with a rotary valve switch 76 and a vertical circular tube 77, and the vertical circular tube 77 penetrates through the filtering consumable 75 and the transverse porous grid 74. When the rotary valve switch 76 is rotated to one side, the upper part of the circular tube 77 is communicated with the first water outlet 72 only, the lower part of the circular tube passes through the transverse porous grating 74 and is communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is opened, the on-off state of the second water outlet 73 is closed, sewage enters the inside of the intercepting and discharging device 7 from the water inlet 71 and flows through the filtering consumable 75 from top to bottom, dirt particles are blocked by the filtering consumable 75, filtered water reaches the bottom of the intercepting and discharging device 7 and flows out from the first water outlet 72 through the circular tube 77 to finally flow back into the first cylinder body 1, and the function realizes the filtration of the water in the first cylinder body 1 and the second cylinder body 2; when the rotary valve switch 76 is screwed to the other side, the upper part of the circular tube 77 is communicated with the water inlet 71 only, the lower part of the circular tube 77 passes through the transverse porous grid 74 to be communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is closed, the on-off state of the second water outlet 73 is opened, water passes through the water inlet 71 and enters the bottom of the intercepting and discharging device 7 through the circular tube 77, water flows from bottom to top and passes through the filtering consumable 75, dirt particles are carried away by the water and are discharged into the fourth cylinder 8 through the second water outlet 73, and as the bottom of the fourth cylinder 8 is provided with a small hole 81, sewage passes through and flows into the fifth cylinder 9 at a slow speed, then the sewage is deposited among compartments 92 in the fifth cylinder 9 to be purified step by step, flows out through the fifth water outlet 94 and flows back into the first cylinder 1, and the mechanism realizes the cleaning of quartz stone of the filtering consumable 75 and the slow release deposition and purification of the sewage.

In the second embodiment, the rotary valve switch 76 is a two-stage regulated electrically controlled timed valve switch. The switching of the two states of the rotary valve switch realizes the filtration of water in the first cylinder body 1 and the cleaning of quartz sand of the filtration consumable 75 in the interception and drainage device 7, and realizes the step-by-step deposition purification of sewage, thereby easily realizing the purpose that the aquarium filtration system does not need cotton and does not need cotton replacement. The whole process has high automation degree and is extremely convenient.

As shown in fig. 2, 3, 4, 5, 6, 8, a third embodiment of the present utility model is provided. An internal circulation sewage interception and drainage slow water deposition device comprises a first cylinder body 1, a first water pump 11, a second water pump 12, a second cylinder body 2, a second water inlet 21, a second water outlet 22, a third water pump 23, a third cylinder body 3, a first siphon pipe 4, an sewage interception and drainage device 7, a water inlet 71, a first water outlet 72, a second water outlet 73, a transverse porous grid 74, a filtering consumable 75, quartz sand, a rotary valve switch 76, a vertical circular tube 77, a fourth cylinder body 8, a small hole 81, a through hole device 82, a vertical through needle 83, a fifth cylinder body 9, a vertical partition 91, a compartment 92, an intercommunication port 93, a fifth water outlet 94, a sixth cylinder body 10 and a second siphon pipe 101.

The first water pump 11 is arranged in the first cylinder body 1, the second cylinder body 2 is arranged on the upper portion of the first cylinder body 1, the second cylinder body 2 is provided with a second water inlet 21 and a second water outlet 22, the second water inlet 21 is communicated to the first water outlet 72 of the sewage interception and drainage device 7 through a pipeline, and the second water outlet 22 is communicated into the first cylinder body 1 through a pipeline. The inside of first cylinder body 1 is provided with second water pump 12, the upper portion of first cylinder body 1 is provided with third cylinder body 3, first siphon 4, and second water pump 12 passes through the pipeline UNICOM to in the third cylinder body 3, and first siphon 4 is installed in third cylinder body 3 one side, and in second water pump 12 sent the water in the first cylinder body 1 to third cylinder body 3, when the water level risees to the top of first siphon 4, the water siphon in the first siphon 4 will third cylinder body 3 is discharged to in the first cylinder body 1, and this function has realized the periodic siphon discharge of water in the third cylinder body 3, especially adapted hydroponic vegetable's planting.

The sewage interception and drainage device 7 is provided with a water inlet 71, a first water outlet 72 and a second water outlet 73, a transverse porous grid 74 is arranged in the sewage interception and drainage device 7, a filtering consumable 75 is placed on the transverse porous grid, a first water pump 11 is communicated to the water inlet 71 of the sewage interception and drainage device 7 through a pipeline, water passing through the first water outlet 72 enters the second cylinder body 2 from the second water inlet 21 and flows back into the first cylinder body 1 from the second water outlet 22, the fourth cylinder body 8 is placed at the top of the fifth cylinder body 9, the second water outlet 73 of the sewage interception and drainage device 7 is communicated to the fourth cylinder body 8 through the pipeline, a small hole 81 is formed in the bottom of the fourth cylinder body 8, a vertical partition 91 is arranged in the fifth cylinder body 9 to divide the interior of the fifth cylinder body 9 into three compartments 92, communicating ports 93 are arranged between the compartments 92, small holes 21 at the bottom of the fourth cylinder body 8 are communicated to the compartments 92, a five-number water outlet 94 is arranged on one side of the compartments 92 and communicated into the first cylinder body 1, a through hole 82 is arranged on the small hole 81 at the bottom of the fourth cylinder body 8, the through hole 82 is fixed in the fourth cylinder body 8, a small hole 83 is fixed in the through hole 82, and the through hole 83 can be prevented from moving vertically through the small hole 81 when the needle 81 is blocked.

The sewage interception and drainage device 7 is provided with a rotary valve switch 76 and a vertical circular tube 77, and the vertical circular tube 77 penetrates through the filtering consumable 75 and the transverse porous grid 74. When the rotary valve switch 76 is rotated to one side, the upper part of the circular tube 77 is communicated with the first water outlet 72 only, the lower part of the circular tube passes through the transverse porous grating 74 to be communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is opened, the on-off state of the second water outlet 73 is closed, sewage enters the inside of the intercepting and discharging device 7 from the water inlet 71 and flows downwards through the filtering consumable 75, dirt particles are blocked by the filtering consumable 75, filtered water reaches the bottom of the intercepting and discharging from the first water outlet 72 through the circular tube 77 and finally flows back into the first cylinder 1, and the function realizes the filtration of the water in the first cylinder 1, the second cylinder 2 and the third cylinder 3; when the rotary valve switch 76 is screwed to the other side, the upper part of the circular tube 77 is communicated with the water inlet 71 only, the lower part of the circular tube 77 passes through the transverse porous grid 74 to be communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is closed, the on-off state of the second water outlet 73 is opened, water passes through the water inlet 71 and enters the bottom of the intercepting and discharging device 7 through the circular tube 77, water flows from bottom to top and passes through the filtering consumable 75, dirt particles are carried away by the water and are discharged into the fourth cylinder 8 through the second water outlet 73, and as the bottom of the fourth cylinder 8 is provided with a small hole 81, sewage passes through and flows into the fifth cylinder 9 at a slow speed, then the sewage is deposited among compartments 92 in the fifth cylinder 9 to be purified step by step, flows out through the fifth water outlet 94 and flows back into the first cylinder 1, and the mechanism realizes the cleaning of quartz stone of the filtering consumable 75 and the slow release deposition and purification of the sewage.

In the third embodiment, the rotary valve switch 76 is a two-stage mediated electrically controlled timed valve switch. The switching of the two states of the rotary valve switch realizes the filtration of water in the first cylinder body 1 and the cleaning of quartz sand of the filtration consumable 75 in the interception and drainage device 7, and realizes the step-by-step deposition purification of sewage, thereby easily realizing the purpose that the aquarium filtration system does not need cotton and does not need cotton replacement. The whole process has high automation degree and is extremely convenient.

The third water pump 23 may also be placed in the sixth cylinder 10, the second siphon pipe 101 is installed beside the sixth cylinder 10, the third water pump 23 pumps the water in the second cylinder 2 into the sixth cylinder 10, when the water level rises to the top of the second siphon pipe 101, the second siphon pipe 101 siphons the water in the sixth cylinder 10 back into the second cylinder 2 or back into the first cylinder 1, thereby realizing periodic siphon discharge of the water in the sixth cylinder 10, and the function is very suitable for planting hydroponic vegetables.

As shown in fig. 2, 3, 4, 5, 6, and 9, a fourth embodiment of the present utility model is provided. The utility model provides an internal circulation cuts blowdown slow water deposition device, including first cylinder body 1, first water pump 11, second water pump 12, second cylinder body 2, no. two water inlet 21, no. two delivery port 22, third cylinder body 3, first siphon 4, full spectrum LED lamp 5, solar photovoltaic board 6, cut blowdown device 7, water inlet 71, first delivery port 72, second delivery port 73, horizontal porous grid 74, filtration consumable 75 is quartz sand, rotary valve switch 76, vertical pipe 77, fourth cylinder body 8, aperture 81, through-hole ware 82, vertical needle 83, fifth cylinder body 9, vertical cut-off 91, compartment 92, intercommunication mouth 93, no. five delivery ports 94.

The first water pump 11 is arranged in the first cylinder body 1, the second cylinder body 2 is arranged on the upper portion of the first cylinder body 1, the second cylinder body 2 is provided with a second water inlet 21 and a second water outlet 22, the second water inlet 21 is communicated to the first water outlet 72 of the sewage interception and drainage device 7 through a pipeline, and the second water outlet 22 is communicated into the first cylinder body 1 through a pipeline. The inside of first cylinder body 1 is provided with second water pump 12, the upper portion of first cylinder body 1 is provided with third cylinder body 3, first siphon 4, and second water pump 12 passes through the pipeline UNICOM to in the third cylinder body 3, and first siphon 4 is installed in third cylinder body 3 one side, and in second water pump 12 sent the water in the first cylinder body 1 to third cylinder body 3, when the water level risees to the top of first siphon 4, the water siphon in the first siphon 4 will third cylinder body 3 is discharged to in the first cylinder body 1, and this function has realized the periodic siphon discharge of water in the third cylinder body 3, especially adapted hydroponic vegetable's planting.

The sewage interception and drainage device 7 is provided with a water inlet 71, a first water outlet 72 and a second water outlet 73, a transverse porous grid 74 is arranged in the sewage interception and drainage device 7, a filtering consumable 75 is placed on the transverse porous grid, a first water pump 11 is communicated to the water inlet 71 of the sewage interception and drainage device 7 through a pipeline, water passing through the first water outlet 72 enters the second cylinder body 2 from the second water inlet 21 and flows back into the first cylinder body 1 from the second water outlet 22, the fourth cylinder body 8 is placed at the top of the fifth cylinder body 9, the second water outlet 73 of the sewage interception and drainage device 7 is communicated to the fourth cylinder body 8 through the pipeline, a small hole 81 is formed in the bottom of the fourth cylinder body 8, a vertical partition 91 is arranged in the fifth cylinder body 9 to divide the interior of the fifth cylinder body 9 into three compartments 92, communicating ports 93 are arranged between the compartments 92, small holes 21 at the bottom of the fourth cylinder body 8 are communicated to the compartments 92, a five-number water outlet 94 is arranged on one side of the compartments 92 and communicated into the first cylinder body 1, a through hole 82 is arranged on the small hole 81 at the bottom of the fourth cylinder body 8, the through hole 82 is fixed in the fourth cylinder body 8, a small hole 83 is fixed in the through hole 82, and the through hole 83 can be prevented from moving vertically through the small hole 81 when the needle 81 is blocked.

The sewage interception and drainage device 7 is provided with a rotary valve switch 76 and a vertical circular tube 77, and the vertical circular tube 77 penetrates through the filtering consumable 75 and the transverse porous grid 74. When the rotary valve switch 76 is rotated to one side, the upper part of the circular tube 77 is communicated with the first water outlet 72 only, the lower part of the circular tube passes through the transverse porous grating 74 to be communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is opened, the on-off state of the second water outlet 73 is closed, sewage enters the inside of the intercepting and discharging device 7 from the water inlet 71 and flows downwards through the filtering consumable 75, dirt particles are blocked by the filtering consumable 75, filtered water reaches the bottom of the intercepting and discharging from the first water outlet 72 through the circular tube 77 and finally flows back into the first cylinder 1, and the function realizes the filtration of the water in the first cylinder 1, the second cylinder 2 and the third cylinder 3; when the rotary valve switch 76 is screwed to the other side, the upper part of the circular tube 77 is communicated with the water inlet 71 only, the lower part of the circular tube 77 passes through the transverse porous grid 74 to be communicated to the bottom of the intercepting and discharging device 7, the on-off state of the water inlet 71 is opened, the on-off state of the first water outlet 72 is closed, the on-off state of the second water outlet 73 is opened, water passes through the water inlet 71 and enters the bottom of the intercepting and discharging device 7 through the circular tube 77, water flows from bottom to top and passes through the filtering consumable 75, dirt particles are carried away by the water and are discharged into the fourth cylinder 8 through the second water outlet 73, and as the bottom of the fourth cylinder 8 is provided with a small hole 81, sewage passes through and flows into the fifth cylinder 9 at a slow speed, then the sewage is deposited among compartments 92 in the fifth cylinder 9 to be purified step by step, flows out through the fifth water outlet 94 and flows back into the first cylinder 1, and the mechanism realizes the cleaning of quartz stone of the filtering consumable 75 and the slow release deposition and purification of the sewage.

In the fourth embodiment, the rotary valve switch 76 is a two-stage regulated electrically controlled timed valve switch. The switching of the two states of the rotary valve switch realizes the filtration of water in the first cylinder body 1 and the cleaning of quartz sand of the filtration consumable 75 in the interception and drainage device 7, and realizes the step-by-step deposition purification of sewage, thereby easily realizing the purpose that the aquarium filtration system does not need cotton and does not need cotton replacement. The whole process has high automation degree and is extremely convenient.

In addition, the top of the third cylinder body 3 is provided with a full spectrum LED lamp 5, the full spectrum LED lamp 5 is powered by a solar photovoltaic panel 6, the water planting of vegetables is performed in the third cylinder body 3, and the photovoltaic system can be used for powering the spectrum lamp to achieve the effect of green low-carbon fish and vegetable symbiosis, so that the solar water planting device has high market popularization value.

In conclusion, the utility model has substantial characteristics and progress, realizes the internal circulation sewage interception and water drainage and slow water deposition device, can realize the internal circulation sewage interception and slow water deposition device through the cooperation among the first cylinder body 1, the fourth cylinder body 8, the fifth cylinder body 9 and the sewage interception and drainage device 7, and combines the full-spectrum LED lamp 5 and the solar photovoltaic panel 6 to realize the green low-carbon hydroponic planting of the organic vegetables, so that the whole equipment has strong functionality, high automation degree, can save a large amount of electric energy and labor, and has high market popularization value.

It is apparent that the above examples of the present utility model are merely illustrative of the present utility model and are not limiting of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary or impossible to exemplify all embodiments herein. And obvious changes and modifications which come within the spirit of the utility model are desired to be protected.

Claims (10)

1. An internal circulation cuts blowdown slow water deposition device, its characterized in that: comprises a first cylinder body (1), a interception and drainage device (7), a fourth cylinder body (8), a fifth cylinder body (9), wherein a first water pump (11) is arranged in the first cylinder body (1), the interception and drainage device (7) is provided with a water inlet (71), a first water outlet (72) and a second water outlet (73), a transverse porous grid (74) is arranged in the interception and drainage device (7), a filtering consumable (75) is arranged on the transverse porous grid, the first water pump (11) is communicated to the water inlet (71) of the interception and drainage device (7) through a pipeline, water flowing through the first water outlet (72) finally flows back to the first cylinder body (1), the fourth cylinder body (8) is arranged at the top of the fifth cylinder body (9), the second water outlet (73) of the interception and drainage device (7) is communicated to the fourth cylinder body (8) through a pipeline, the bottom of the fourth cylinder body (8) is provided with a small hole (81), the inside of the fifth cylinder body (9) is divided into a plurality of compartments (92) through vertical partitions (91), the number of compartments (92) are communicated with the small holes (92) at least two compartments (92), the compartments (92) are communicated with each other at least one small hole (93), one side of the compartment (92) is provided with a fifth water outlet (94) which is communicated with the first cylinder body (1).

2. An internal circulation sewage interception and slow water deposition device according to claim 1, wherein: the sewage interception and drainage device (7) is provided with a rotary valve switch (76) and a vertical circular tube (77), when the vertical circular tube (77) penetrates through the filtering consumable (75) and the transverse porous grating (74), the upper part of the circular tube (77) is communicated with the first water outlet (72) only, the lower part of the circular tube (77) penetrates through the transverse porous grating (74) to be communicated to the bottom of the sewage interception and drainage device (7), the water inlet (71) is opened, the first water outlet (72) is opened, the second water outlet (73) is closed, sewage enters the sewage interception and drainage device (7) from the water inlet (71) to flow through the filtering consumable (75) from top to bottom, dirt particles are blocked by the filtering consumable (75), when the filtered water flows out from the first water outlet (72) to the bottom of the sewage interception and drainage device (7) through the transverse porous grating (77), the upper part of the circular tube (77) is communicated to the bottom of the sewage interception and drainage device (7), the first water outlet (72) is opened, the second water inlet (73) is opened, the sewage interception and drainage device (7) is opened, the sewage interception and drainage device (71) is opened, the water enters the bottom of the intercepting and discharging device (7) through the water inlet (71) and the circular tube (77), flows from bottom to top and passes through the filtering consumable (75), and dirt particles are taken away by the water and flow out of the second water outlet (73).

3. An internal circulation sewage interception and slow water deposition device according to claim 1, wherein: the upper portion of first cylinder body (1) has placed second cylinder body (2), is equipped with No. two water inlet (21), no. two delivery port (22) on second cylinder body (2), no. two water inlet (21) are through pipeline UNICOM to cut first delivery port (72) of drain (7), no. two delivery port (22) are through pipeline UNICOM to in first cylinder body (1).

4. An internal circulation sewage interception and water release deposition device according to claim 3, wherein: the upper portion of second jar body (2) is provided with sixth cylinder body (10), second siphon (101), and the inside of second jar body (2) is provided with third water pump (23), and third water pump (23) are through pipeline UNICOM to sixth cylinder body (10), and second siphon (101) are installed in sixth cylinder body (10) one side, and when the water level risees to the top of second siphon (101), the water siphon in second siphon (101) will sixth cylinder body (10) is discharged.

5. An internal circulation sewage interception and slow water deposition device according to claim 1, wherein: the inside of first cylinder body (1) is provided with second water pump (12), the upper portion of first cylinder body (1) is provided with third cylinder body (3), first siphon (4), and second water pump (12) are through pipeline UNICOM to in third cylinder body (3), and first siphon (4) are installed in third cylinder body (3) one side, and when the water level risees to the top of first siphon (4), in first siphon (4) the water siphon in with third cylinder body (3) was discharged to first cylinder body (1).

6. An internal circulation sewage interception and slow water deposition device according to claim 5, wherein: the top of at least one of the third cylinder body (3) and the sixth cylinder body (10) is provided with a full spectrum LED lamp (5).

7. The internal circulation sewage interception and slow water deposition device of claim 6, wherein: the full spectrum LED lamp is powered by a solar photovoltaic panel (6).

8. An internal circulation sewage interception and slow water deposition device according to claim 2, wherein: the rotary valve switch (76) is regulated by two gears, and the rotary valve switch (76) is one of an electric control valve switch and an electric control timing valve switch.

9. An internal circulation sewage interception and slow water deposition device according to claim 1, wherein: the filtering consumable (75) in the intercepting and sewage discharging device (7) is one or any of sand-like solid particles, activated carbon, filter cotton, filter balls and filter screens.

10. An internal circulation sewage interception and slow water deposition device according to claim 1, wherein: the novel cylinder is characterized in that a through hole device (82) is arranged on a small hole (81) at the bottom of the fourth cylinder body (8), the through hole device (82) is fixed in the fourth cylinder body (8), a vertical through needle (83) is arranged at the lower part of the through hole device (82), and the vertical through needle (83) penetrates through the small hole (81) when moving up and down.

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