CN222389664U

CN222389664U - A sewage organic matter energy conversion device capable of collecting CO2

Info

Publication number: CN222389664U
Application number: CN202421240184.4U
Authority: CN
Inventors: 冯尧奇; 马梁坤; 刘瑞浩; 陈浩
Original assignee: Henan Licheng Environmental Technology Co ltd
Current assignee: Henan Licheng Environmental Technology Co ltd
Priority date: 2024-05-31
Filing date: 2024-05-31
Publication date: 2025-01-24
Anticipated expiration: 2034-05-31

Abstract

The utility model relates to the technical field of sewage treatment and discloses a sewage organic matter energy conversion device capable of collecting CO ₂, which comprises a treatment box, wherein a water inlet and a water outlet are respectively arranged at the upper part and the lower part of the treatment box, a collecting pipeline is arranged at the upper part of the treatment box, a conveying pipe is arranged at the upper part of the collecting pipeline, one end of the conveying pipe is respectively connected with two connecting pipes through an adjusting component, one ends of the two connecting pipes are respectively connected with a collecting tank outside the treatment box through a fastening component, the treatment box is sequentially connected with the inside of the collecting tank through the collecting pipeline, the conveying pipe and the connecting pipes, and CO ₂ after sewage decomposition can be collected into the inside of the collecting tank through the collecting pipeline, the conveying pipe and the connecting pipes, so that the effect of collecting CO ₂ is achieved, and the phenomenon that CO ₂ is directly discharged into the air and damages the ecological environment is avoided.

Description

Sewage organic matter energy conversion device capable of collecting CO 2

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to a sewage organic matter energy conversion device capable of collecting CO ₂.

Background

Along with the development of industry, sewage components are more and more complex, certain refractory organic substances and toxic substances are required to be treated by a microbial method, so that the sewage has conditions of microbial growth and propagation, and therefore, the microorganisms can acquire nutrients from the sewage and degrade and utilize the toxic substances at the same time, so that the sewage is purified, the biological treatment of the sewage is a treatment method for degrading organic pollutants in a dissolved state or a colloid state in the sewage by utilizing the life activities of the microorganisms, so that the sewage is purified, and the metabolism types of the microorganisms are aerobic and anaerobic, so that the purification method is divided into aerobic purification and anaerobic purification, and most of the sewage is decomposed by an ozone generator in the treatment process, but CO ₂ after sewage decomposition is usually directly discharged into the environment, so that the ecological environment is damaged.

So we propose a sewage organic matter energy conversion device capable of collecting CO ₂ so as to solve the above-mentioned problems.

Disclosure of utility model

The present utility model aims to solve the above-mentioned problems.

The sewage organic matter energy conversion device capable of collecting CO ₂ comprises a treatment box, wherein a water inlet and a water outlet are respectively arranged at the upper part and the lower part of the treatment box, a collecting pipeline is arranged at the upper part of the treatment box, a conveying pipe is arranged at the upper part of the collecting pipeline, one end of the conveying pipe is respectively connected with two connecting pipes through an adjusting component, and one ends of the two connecting pipes are respectively connected with a collecting tank outside the treatment box through a fastening component.

Further, an ozone generator is further arranged outside the treatment box, the output end of the ozone generator is connected with a spray pipe arranged in the treatment box through a pipeline, and a plurality of spray heads are arranged on the spray pipe.

The adjusting assembly comprises an adjusting valve, first connectors connected with the conveying pipe and the two connecting pipes are respectively arranged on the adjusting valve, a spherical valve core is rotatably arranged in the adjusting valve, an L-shaped channel is formed in the spherical valve core, a rotating shaft is fixed on the outer surface of the spherical valve core, and an adjusting handle is arranged outside the adjusting valve in a manner that one end of the rotating shaft extends to the adjusting valve.

Further, the fastening component comprises a threaded seat fixed at the top of the collecting tank and a threaded cap slidably mounted on the connecting pipe, one end of the connecting pipe is fixed with a second connector for blocking the threaded cap, and the threaded cap is in threaded connection with the threaded seat.

Further, a filter screen for filtering impurities is arranged in the treatment box, and the filter screen is positioned at the water inlet end of the water inlet.

Further, a drain outlet is further arranged on the side part of the treatment box, the inlet end of the drain outlet is positioned in the filter screen, and the discharge end of the drain outlet extends to the outside of the treatment box and is provided with a sealing cover in a threaded manner.

The utility model has the beneficial effects that:

The treatment box is connected with the inside of the collection tank sequentially through the collection pipeline, the conveying pipe and the connecting pipe, and CO ₂ after sewage decomposition can be collected into the inside of the collection tank sequentially through the collection pipeline, the conveying pipe and the connecting pipe, so that the effect of collecting CO ₂ is achieved, and the phenomenon that CO ₂ is directly discharged into the air to damage the ecological environment is avoided.

According to the utility model, the adjusting component is arranged at the joint of the conveying pipe and the two connecting pipes, and under the condition that the CO ₂ in one collecting tank is fully collected, the adjusting component can be directly adjusted, so that the other collecting tank can directly collect CO ₂, the condition that the collecting pipe or the conveying pipe is closed in the replacing process of the collecting tank is avoided, the collecting tank is convenient to replace, and convenience is provided for staff.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a treatment tank according to the present utility model;

FIG. 3 is a schematic view showing the internal structure of the treatment tank in the present utility model;

FIG. 4 is a schematic view of the connection structure of the ozone generator and the shower pipe in the present utility model;

FIG. 5 is a schematic cross-sectional view of an adjustment assembly according to the present utility model;

fig. 6 is a schematic view of an exploded construction of the fastening assembly of the present utility model.

Name corresponding to each label in the figure:

1. A treatment box; 2, a water inlet, 3, a water outlet, 4, a collecting pipeline, 5, a conveying pipe, 6, an adjusting component, 61, an adjusting valve, 62, a first connecting joint, 63, a spherical valve core, 64, an L-shaped channel, 65, a rotating shaft, 66, an adjusting handle, 7, a connecting pipe, 8, a fastening component, 81, a screw seat, 82, a screw cap, 83, a second connecting head, 9, a collecting tank, 10, an ozone generator, 11, a pipeline, 12, a spray pipe, 13, a spray header, 14, a filter screen, 15, a drain outlet, 16 and a sealing cover.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the utility model, fall within the scope of protection of the utility model.

Embodiments of the utility model:

The utility model provides a sewage organic matter energy conversion device that can carry out CO ₂ collection, including treatment box 1, water inlet 2 is installed to one side on treatment box 1 upper portion, through the setting of water inlet 2, can put in sewage to the inside of treatment box 1, outlet 3 is installed to one side of treatment box 1 lower part, through outlet 3's setting, can discharge the water after the treatment in the treatment box 1, filter screen 14 is installed to the inside wall of treatment box 1, and the delivery port of water inlet 2 is located the inside of filter screen 14, through filter screen 14's setting, can filter the impurity in the sewage, drain 15 is still installed to the lateral wall of treatment box 1, and drain 15 is located between water inlet 2 and outlet 3, and the dirt inlet end of drain 15 is located filter screen 14, through the setting of drain 15, can discharge the impurity after the filtration, drain end of drain 15 extends to the outside screw thread of treatment box 1 and installs sealed lid 16, play sealed effect through the setting of sealed lid 16, reduce the condition that the in-process of treatment box 1 to sewage treatment appears.

The ozone generator 10 is arranged outside the treatment box 1, the pipeline 11 is arranged at the output end of the ozone generator 10, one end of the pipeline 11 is connected with the spray pipe 12 arranged in the treatment box 1, a plurality of spray heads 13 are arranged on the spray pipe 12, and organic matters in the treatment box 1 can be decomposed through the arrangement of the ozone generator 10, the pipeline 11 and the spray pipe 12, so that the sewage is purified.

The collecting pipeline 4 is installed on the upper portion of the treatment box 1, and the conveying pipe 5 is installed on the collecting pipeline 4, one end of the conveying pipe 5 is connected with the two connecting pipes 7 through the adjusting component 6 respectively, the direction of CO ₂ exhaust can be adjusted through the setting of the adjusting component 6, one end of the two connecting pipes 7, which is far away from the adjusting component 6, is connected with the collecting tank 9 through the fastening component 8 respectively, and therefore the effect of collecting CO ₂ can be achieved.

Specifically, the adjusting assembly 6 comprises an adjusting valve 61, a first connecting joint 62 connected with the conveying pipe 5 and the two connecting pipes 7 is respectively arranged on the adjusting valve 61, a spherical valve core 63 is rotatably arranged in the first connecting joint 62, an L-shaped channel 64 is formed in the spherical valve core 63, a rotating shaft 65 is fixed on the outer surface of the spherical valve core 63, an adjusting handle 66 is arranged at one end of the rotating shaft 65 extending to the outside of the adjusting valve 61, and the spherical valve core 63 can be driven to rotate through the adjusting handle 66, so that the direction of the L-shaped channel 64 can be changed, and the flowing direction of CO ₂ can be changed.

Specifically, the fastening component 8 comprises a threaded seat 81 fixed at the top of the collecting tank 9 and a threaded cap 82 slidably mounted on the connecting pipe 7, a second connector 83 for blocking the threaded cap 82 is fixed at one end of the connecting pipe 7, the threaded cap 82 and the threaded seat 81 are in threaded connection, and the collecting tank 9 can be disassembled and different collecting tanks 9 can be replaced through the arrangement of the fastening component 8.

During sewage treatment, firstly, sewage to be treated is conveyed to the inside of the treatment tank 1 through the water inlet 2, then the ozone generator 10 is started, the ozone generator 10 is conveyed to the inside of the spray pipe 12 through the pipeline 11, so that the spray pipe 12 can spray ozone molecules through the spray headers 13, sewage in the treatment tank 1 can be decomposed through the ozone molecules, CO ₂ after sewage decomposition swings upwards, CO ₂ is conveyed to one of the connecting pipes 7 through the collecting pipeline 4, the conveying pipe 5 and the adjusting component 6 in sequence, CO ₂ in the connecting pipe 7 can be conveyed to the collecting tank 9, when one of the collecting tanks 9 is full of CO ₂, the adjusting handle 66 is required to be adjusted, the adjusting handle 66 drives the spherical valve core 63 to rotate through the rotating shaft 65, the spherical valve core 63 can drive the L-shaped channel 64, and accordingly the direction of the L-shaped channel 64 can be changed, CO ₂ in the conveying pipe 5 can be collected to the inside of the other collecting tank 9 through the other connecting pipe 7, the threaded cap 82 can be loosened, and the second collecting tank 83 can be replaced from the threaded connector 81.

Claims

1. The sewage organic matter energy conversion device capable of collecting CO ₂ comprises a treatment box (1), wherein a water inlet (2) and a water outlet (3) are respectively arranged on the upper part and the lower part of the treatment box (1), and the sewage organic matter energy conversion device is characterized in that a collecting pipeline (4) is arranged on the upper part of the treatment box (1), a conveying pipe (5) is arranged on the upper part of the collecting pipeline (4), one end of the conveying pipe (5) is respectively connected with two connecting pipes (7) through an adjusting component (6), and one ends of the two connecting pipes (7) are respectively connected with a collecting tank (9) outside the treatment box (1) through a fastening component (8).

2. The sewage organic matter energy conversion device capable of collecting CO ₂ according to claim 1 is characterized in that an ozone generator (10) is further installed outside the treatment box (1), the output end of the ozone generator (10) is connected with a spray pipe (12) installed in the treatment box (1) through a pipeline (11), and a plurality of spray heads (13) are installed on the spray pipe (12).

3. The energy conversion device for sewage organic matters capable of being collected by CO ₂ according to claim 1, wherein the adjusting component (6) comprises an adjusting valve (61), first connecting joints (62) connected with a conveying pipe (5) and two connecting pipes (7) are respectively arranged on the adjusting valve (61), a spherical valve core (63) is arranged in the adjusting valve (61) in a rotating mode, an L-shaped channel (64) is formed in the spherical valve core (63), a rotating shaft (65) is fixed on the outer surface of the spherical valve core (63), and an adjusting handle (66) is arranged outside the adjusting valve (61) in a mode that one end of the rotating shaft (65) extends to the outer portion of the adjusting valve (61).

4. The device for converting organic wastewater energy capable of collecting CO ₂ according to claim 1, wherein the fastening assembly (8) comprises a screw seat (81) fixed on the top of the collection tank (9) and a screw cap (82) slidably mounted on the connection pipe (7), a second connector (83) for blocking the screw cap (82) is fixed at one end of the connection pipe (7), and the screw cap (82) is in screw connection with the screw seat (81).

5. The sewage organic matter energy conversion device capable of collecting CO ₂ according to claim 1, wherein a filter screen (14) for filtering impurities is installed in the treatment box (1), and the filter screen (14) is located at the water inlet end of the water inlet (2).

6. The device for converting organic sewage into energy capable of collecting CO ₂, which is characterized in that a sewage outlet (15) is further arranged on the side part of the treatment box (1), the inlet end of the sewage outlet (15) is positioned in the filter screen (14), and the discharge end of the sewage outlet (15) extends to the outer thread of the treatment box (1) to be provided with a sealing cover (16).