CN214457318U - Carbon dioxide sprays remove device in sewage - Google Patents

Carbon dioxide sprays remove device in sewage Download PDF

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Publication number
CN214457318U
CN214457318U CN202023289904.0U CN202023289904U CN214457318U CN 214457318 U CN214457318 U CN 214457318U CN 202023289904 U CN202023289904 U CN 202023289904U CN 214457318 U CN214457318 U CN 214457318U
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unit
carbon dioxide
sewage
air duct
spraying
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CN202023289904.0U
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李小斌
劳顺健
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Huzhou Xidangyang Ecological Agriculture Development Co ltd
Huzhou Hongxin Ecological Agriculture Technology Co ltd
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Huzhou Xidangyang Ecological Agriculture Development Co ltd
Huzhou Hongxin Ecological Agriculture Technology Co ltd
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Abstract

The utility model belongs to the technical field of aquaculture, especially, relate to a carbon dioxide sprays remove device in sewage. The utility model discloses a dryer unit sweeps unit spun liquid droplet attitude sewage, get rid of carbon dioxide wherein, chemical filler is to sewage further treatment in the filter plate unit simultaneously, adjust the position of dryer and filter plate through the rotary disk, under the higher condition of aquatic carbon dioxide content, thereby it sprays the hole to improve the dryer position more to be close, thereby make the amount of wind to rivers stronger, it is faster to get rid of efficiency, and under the lower condition of aquatic carbon dioxide content, reduce the dryer position and make the more even carbon dioxide that blows off in the water droplet, can adjust the dryer position to the filter disc below when necessary, make carbon dioxide blow off the degree higher. The utility model has the advantages of wide application range, is suitable for various water conditions, and can effectively adjust the change of the carbon dioxide content in the sewage.

Description

Carbon dioxide sprays remove device in sewage
Technical Field
The utility model belongs to the technical field of aquaculture, especially, relate to a carbon dioxide sprays remove device in sewage.
Background
Aquaculture means that fishes or various seafoods are cultivated in fish farms artificially opened on the bank, and can be divided into three categories of fresh water cultivation, salt water cultivation and sea surface cultivation according to the difference of cultivation water quality, and the cultivation of common fishes with louse meshes, oysters and eels is carried out. The aquaculture industry is in a transition period from a traditional high-yield stocking mode to large-scale cultivation and quality benefit conversion, but a large amount of carbon dioxide can be generated by fish respiration and biodegradation, the concentration of the carbon dioxide in a water body gradually rises along with the time, the pH value is rapidly reduced due to the alkali elimination effect of the carbon dioxide because the concentration of the carbon dioxide is in a negative correlation corresponding relation with the pH value, the acid-base balance of the water body is damaged, the biodegradation efficiency is reduced, the water quality of a circulating water cultivation system is controlled to be very difficult, the high-concentration carbon dioxide is very harmful to the growth and survival of the fishes, and the fishes die due to asphyxiation due to the toxic effect when the concentration of the carbon dioxide exceeds a certain extreme value, so that a carbon dioxide removing device for rapidly removing a large amount of carbon dioxide from a high-density cultivation water body is urgently needed in the market.
The patent publication is CN202139079U, and the chinese utility model patent that the publication date is 2012.02.08 discloses a breed water carbon dioxide remove device, including tower body, at least one deck packing layer, the water intake pipe on intercommunication tower body upper portion, the outlet pipe way of intercommunication tower body lower part, establish at the air outlet at tower body top, establish at the air inlet that the tower body lateral wall is a little higher than the delivery port, the negative pressure device that induced drafts and establish at the tower body apart from the liquid distributor of packing layer upper surface take the altitude place. Wherein each packing layer comprises a support plate and a packing; the water inlet pipeline is provided with a water inlet device comprising a plurality of distributed spraying openings at the top of the tower body, and a gate valve and a flowmeter are arranged at the position of the water inlet pipeline close to a water inlet of the water inlet pipeline so as to control the flow of inlet water; the negative pressure air draft device is a frustum-shaped air draft tube, the top of the negative pressure air draft device is optionally provided with an air cap to improve negative pressure by utilizing air flow, and the negative pressure air draft device is also optionally provided with a butterfly valve and a gas flowmeter to control air exhaust amount.
However, in the utility model, the shortcoming lies in that the air inlet is fixed and can't be removed on the tower top, can't carry out effectual regulation to the condition that carbon dioxide changes in the sewage to its application scope has been restricted.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a carbon dioxide sprays remove device in sewage, sweep unit spun liquid droplet attitude sewage through the dryer unit, get rid of carbon dioxide wherein, chemical filler is to sewage further treatment in the filter plate unit simultaneously, adjust the position of dryer and filter plate through the rotary disk, under the higher condition of aquatic carbon dioxide content, thereby it more is close to the hole of spraying to improve the dryer position, make the amount of wind to rivers stronger, it is faster to get rid of efficiency, and under the lower condition of aquatic carbon dioxide content, it makes the carbon dioxide in the more even blow-off water droplet to reduce the dryer position, can adjust the dryer position to the filter disc below when necessary, make the carbon dioxide blow off degree higher. The utility model has the advantages of wide application range, is suitable for various water conditions, and can effectively adjust the change of the carbon dioxide content in the sewage.
The utility model provides a technical scheme that above-mentioned problem adopted is: the utility model provides a carbon dioxide sprays remove device in sewage, includes the barrel unit, sets up the inside top of barrel unit is used for spraying the unit that sprays of sewage, sets up the barrel unit is inside to be located the filter plate unit of unit below sprays sets up be used for blowing off the dryer unit of carbon dioxide in the sewage on the barrel unit, and set up on the barrel unit and with the filter plate unit with the rotary disk unit of dryer unit connection.
The further preferred technical scheme is as follows: the barrel unit comprises a cylinder, a spraying hole, a rotating disc hole, a vertical port and a drain pipe, wherein the spraying hole is formed in the upper portion of the cylinder and used for installing the spraying unit, the rotating disc hole is formed in the lower portion of the cylinder and used for installing the rotating disc unit, the vertical port is formed in the cylinder and used for blowing air out through the air duct unit, and the drain pipe is arranged at the bottom of the cylinder.
The further preferred technical scheme is as follows: the spraying unit comprises a spraying pipe for introducing sewage and a sprayer arranged on the spraying pipe.
The further preferred technical scheme is as follows: the filter plate unit comprises a filter plate, cross-shaped columns arranged on two sides of the filter plate, vertical columns penetrating through the cross-shaped columns and fixed, filter plate adjusting teeth vertically arranged on the vertical columns, and elastic clamping rings arranged on the inner annular surface of the cylinder unit and used for supporting the vertical columns.
The further preferred technical scheme is as follows: and calcium hydroxide filler is filled in the filter plate.
The further preferred technical scheme is as follows: the air duct unit comprises an air duct, an air duct sleeve ring sleeved at the front end of the air duct, a perforated fixing block arranged on the air duct sleeve ring, an air duct mounting column penetrating through the perforated fixing block and fixing the air duct, air duct adjusting teeth vertically arranged on the air duct mounting column, and a second elastic clamping ring arranged on the outer ring surface of the barrel unit and used for supporting the air duct mounting column.
The further preferred technical scheme is as follows: the rotary disc unit comprises a hollow rotary disc, a sliding pipe and a filter plate adjusting gear, wherein the sliding pipe is arranged at the circle center of the hollow rotary disc and communicated with the circle center of the hollow rotary disc, and the filter plate adjusting gear is connected with the sliding pipe relative to the other end of the hollow rotary disc and meshed with the filter plate adjusting teeth.
The further preferred technical scheme is as follows: the rotary disc unit also comprises telescopic teeth which are arranged between the hollow rotary disc and the filter plate adjusting gear and are meshed with the air duct adjusting teeth, and a pressing column which enables the telescopic teeth to stretch.
The further preferred technical scheme is as follows: the rotary disk unit further comprises a pressing column connecting column connected with the pressing column, a pushing column connected with the bottom of the pressing column connecting column, a pushing column spring arranged at one end of the pushing column and in contact with the inner wall of the hollow rotary disk, an adjusting round platform arranged on the pushing column and opposite to the other end of the pushing column spring, a supporting plate arranged at the lower end of the telescopic tooth, and a reset spring arranged in the sliding pipe and used for pushing the telescopic tooth downwards.
The further preferred technical scheme is as follows: the rotary disk unit further comprises a spring sleeve, a slide way, a telescopic tooth hole, a supporting triangle, supporting plate clamping grooves and a partition plate, wherein the spring sleeve is arranged in the hollow rotary disk and sleeved with the pushing column spring and the pushing column, the slide way is arranged in the sliding pipe and used for clamping the adjusting circular truncated cone, the telescopic tooth hole is arranged on the slide way and used for installing the telescopic teeth, the supporting triangle is arranged at the lower end of the supporting plate and contacted with the adjusting circular truncated cone, the inclination angle of the supporting triangle is consistent with the arc surface of the circular truncated cone, the supporting plate clamping grooves are arranged at the two ends of the supporting plate and used for clamping, and the partition plate is arranged along the telescopic tooth hole and used for clamping the reset spring.
The utility model discloses a dryer unit sweeps unit spun liquid droplet attitude sewage, get rid of carbon dioxide wherein, chemical filler is to sewage further treatment in the filter plate unit simultaneously, adjust the position of dryer and filter plate through the rotary disk, under the higher condition of aquatic carbon dioxide content, thereby it sprays the hole to improve the dryer position more to be close, thereby make the amount of wind to rivers stronger, it is faster to get rid of efficiency, and under the lower condition of aquatic carbon dioxide content, reduce the dryer position and make the more even carbon dioxide that blows off in the water droplet, can adjust the dryer position to the filter disc below when necessary, make carbon dioxide blow off the degree higher. The utility model has the advantages of wide application range, is suitable for various water conditions, and can effectively adjust the change of the carbon dioxide content in the sewage.
Drawings
Fig. 1 is a schematic structural view of the carbon dioxide spraying and removing device of the present invention.
Fig. 2 is a schematic structural diagram of the middle filter plate unit of the present invention.
Fig. 3 is a schematic diagram of the position structure of the middle filter plate adjusting gear of the present invention.
Fig. 4 is a schematic structural diagram of the outer portion of the rotation plate unit of the present invention.
Fig. 5 is the structure schematic diagram of the vertical port of the middle cylinder unit of the utility model.
Fig. 6 is a schematic structural diagram of the interior of the rotation plate unit of the present invention.
Fig. 7 is a schematic view of the planar structure inside the rotary disk unit of the present invention.
Fig. 8 is a schematic structural diagram of the position of the return spring in the present invention.
Detailed Description
The following description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.
Example (b): as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, a spraying and removing device for carbon dioxide in sewage comprises a cylinder unit 11, a spraying unit 12 arranged above the inside of the cylinder unit 11 and used for spraying sewage, a filter plate unit 1 arranged inside the cylinder unit 11 and located below the spraying unit 12, an air duct unit 2 arranged on the cylinder unit 11 and used for blowing off carbon dioxide in sewage, and a rotating disk unit 3 arranged on the cylinder unit 1 and connected with the filter plate unit 1 and the air duct unit 2.
In this embodiment, the cylinder unit 11 is a main place for containing, treating and discharging sewage, the spraying unit 12 is used for uniformly spraying sewage on the filter plate unit 1, the air duct unit 2 is used for blowing off carbon dioxide in the sewage sprayed by the spraying unit 12, and the rotary disk unit 3 is used for adjusting the vertical relative position of the filter plate unit 1 and the air duct unit 2.
The barrel unit 11 includes a cylinder 11a, a spray hole 11b provided at an upper portion of the cylinder 11a for mounting the spray unit 12, a rotary disk hole 11c provided at a lower portion of the cylinder 11a for mounting the rotary disk unit 3, a vertical port 11d provided at the cylinder 11a for blowing air through the air duct unit 2, and a drain pipe 11e provided at a bottom of the cylinder 11 a.
In this embodiment, the cylinder 11a may be made of a stainless steel structure, and under the conditions of large sewage content and high treatment capacity, the cylinder 11a may also be made of a concrete structure to save construction cost, the vertical port 11d is rectangular and is vertically disposed along the cylinder 11a, and the air duct unit 2 may move along the opening range of the vertical port 11 d.
The spraying unit 12 comprises a spraying pipe 12a for introducing sewage and a sprayer 12b arranged on the spraying pipe 12 a.
In this embodiment, the spray pipe 12a is terminated with a sewage inlet, and a part of the spray pipe 12a in the cylinder 11a is provided with a plurality of small holes for connecting the spray 12b, and the spray 12b is similar to a shower nozzle for showering and can spray sewage in a small droplet manner, so as to facilitate the further blow-off removal of the air duct unit 2.
The filter plate unit 1 comprises a filter plate 101, cross-shaped columns 102 arranged on two sides of the filter plate 101, vertical columns 103 penetrating through the cross-shaped columns 102 and fixed, filter plate adjusting teeth 104 vertically arranged on the vertical columns 103, and an elastic clamping ring 105 arranged on the inner annular surface of the cylinder body unit 11 and used for supporting the vertical columns 103.
In this embodiment, it has a plurality of unordered apertures of arranging to open on the filter plate 101, can place the filler in the aperture, cross type post 102 left end or right-hand member with filter plate 101 is connected, upper and lower both ends trompil, vertical post 103 with cross type post 102 cup joints and fixes, corrosion resistance's rubber sleeve is equipped with to vertical post lantern ring 105 inner wall, cup joints on vertical post 103, only under the gravity condition of filter plate 101 vertical post 103 can not slide down, if additionally exert other power, then vertical post 103 can with vertical post lantern ring 105 relative movement.
The filter plate 101 is filled with calcium hydroxide filler.
In this embodiment, since the stripping of the air duct unit 2 cannot completely remove carbon dioxide, the calcium hydroxide filler is used to further remove carbon dioxide in the sewage, so that the treated sewage meets the corresponding discharge standard, and similarly, other alkaline fillers can also play the same role.
The air duct unit 2 comprises an air duct 201, an air duct sleeve ring 202 sleeved at the front end of the air duct 201, a fixing block 203 with holes arranged on the air duct sleeve ring 202, an air duct mounting column 204 penetrating through the fixing block 203 with holes and fixed, air duct adjusting teeth 205 vertically arranged on the air duct mounting column 204, and a second elastic clamping ring 206 arranged on the outer annular surface of the barrel unit 11 and used for supporting the air duct mounting column 204.
In this embodiment, the air duct 201 is a main air guiding device for local ventilation, the outer casing is made of a material with acid and alkali corrosion resistance, the air duct collar 202 is sleeved at the air outlet of the air duct 201 to drive the air duct 201 to move up and down, the air duct mounting post collar 206 is sleeved on the air duct mounting post 204, the fixing block 203 with holes does not slide down under the condition of only gravity of the air duct 201, and if other force is additionally applied, the air duct mounting post 204 and the air duct mounting post collar 206 move relatively.
The rotating disc unit 3 comprises a hollow rotating disc 301, a sliding tube 302 arranged at the center of the hollow rotating disc 301 and communicated with the interior of the hollow rotating disc, and a filter plate adjusting gear 303 connected with the other end, opposite to the hollow rotating disc 301, of the sliding tube 302 and meshed with the filter plate adjusting teeth 104.
In this embodiment, the filter plate adjusting gear 303 is provided at one end of the sliding tube 302, and the filter plate adjusting gear 303 can be engaged with or disengaged from the filter plate adjusting teeth 104 by sliding of the sliding tube 302.
The rotary disk unit 3 further includes a telescopic tooth 304 provided between the hollow rotary disk 301 and the filter plate adjusting gear 303 and engaged with the air duct adjusting tooth 205, and a pressing column 305 that causes the telescopic tooth 304 to be telescopic.
In this embodiment, pressing the pressing rod 305 causes the retractable teeth 304 to jack up and engage with the air duct adjustment teeth 205, and releasing the pressing rod 305 causes the retractable teeth 304 to retract, and the retractable teeth 304 can engage with or disengage from the air duct adjustment teeth 205 through the sliding of the sliding tube 302.
The rotating disk unit 3 further comprises a pressing column connecting column 306 connected with the pressing column 305, a pushing column 307 connected with the bottom of the pressing column connecting column 306, a pushing column spring 308 arranged at one end of the pushing column 307 and contacting with the inner wall of the hollow rotating disk 301, an adjusting circular truncated cone 309 arranged at the other end of the pushing column 307 opposite to the pushing column spring 308, a supporting plate 310 arranged at the lower end of the telescopic tooth 304, and a return spring 311 arranged in the sliding tube 302 and used for pushing the telescopic tooth 304 downwards.
In this embodiment, when the pressing column 305 is pressed, the pressing column connecting column 306 moves backwards to drive the pushing column 307 to move backwards and press the pushing column spring 308, and the adjusting circular truncated cone 309 moves backwards to jack up the retractable teeth 304.
In addition, when the pressing column 305 is released, the pushing column spring 308 jacks the pushing column 307 forward, so that the adjusting circular truncated cone 309 is driven to move forward, the telescopic teeth 304 lose support, and retract under the action of the return spring 311 jacking the support plate 310.
The rotating disk unit 3 further comprises a spring sleeve 317 which is arranged inside the hollow rotating disk 301 and is sleeved with the pushing column spring 308 and the pushing column 307, a slide 312 which is arranged in the sliding tube 302 and is engaged with the adjusting circular truncated cone 309, a telescopic tooth hole 313 which is arranged on the slide 312 and is used for installing the telescopic tooth 304, a supporting triangular plate 314 which is arranged at the lower end of the supporting plate 310 and is in contact with the adjusting circular truncated cone 309 and has the same inclination angle with the circular truncated cone arc surface, supporting plate engaging grooves 315 which are arranged at two ends of the supporting plate 310 and are used for engaging, and a partition 316 which is arranged along the telescopic tooth hole 313 and is used for engaging with the return spring 311.
In this embodiment, the spring sleeve 317 is used for fixing the pushing column spring 308, and will not fall off from the pushing column 307 when the hollow rotating disc 301 is squeezed or rotated, the slide 312 is used for fixing the adjusting circular truncated cone 309 so as to advance in the fixing direction and not be affected by the rotation of the hollow rotating disc 301, the supporting triangle 314 is in smooth contact with the adjusting circular truncated cone 309 so as to facilitate the adjusting circular truncated cone 309 to adjust the jacking or retraction of the retractable teeth 304, and the supporting plate engaging groove 315 and the partition 316 cooperate to ensure that the return spring 311 will not fall off from the supporting plate 310 when the hollow rotating disc 301 is squeezed or rotated.
The embodiments of the present invention have been described in detail, but the present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art. These are non-inventive modifications, which are intended to be protected by the patent laws within the scope of the appended claims.

Claims (10)

1. The utility model provides a carbon dioxide sprays remove device in sewage, its characterized in that, includes barrel unit (11), sets up barrel unit (11) inside top is used for spraying unit (12) that spray sewage sets up barrel unit (11) inside is located filter plate unit (1) of unit (12) below sprays sets up be used for blowing off dryer unit (2) of carbon dioxide in the sewage on barrel unit (11), and set up and be in on barrel unit (11) and with filter plate unit (1) with rotary disk unit (3) that dryer unit (2) are connected.
2. The apparatus for removing carbon dioxide from sewage by spraying as claimed in claim 1, wherein said barrel unit (11) comprises a cylinder (11 a), a spraying hole (11 b) provided at an upper portion of said cylinder (11 a) for installing said spraying unit (12), a rotating disk hole (11 c) provided at a lower portion of said cylinder (11 a) for installing said rotating disk unit (3), a vertical port (11 d) provided at said cylinder (11 a) for blowing air through said air duct unit (2), and a drain pipe (11 e) provided at a bottom portion of said cylinder (11 a).
3. The device for removing carbon dioxide from sewage by spraying according to claim 1, wherein the spraying unit (12) comprises a spraying pipe (12 a) for introducing sewage and a sprayer (12 b) arranged on the spraying pipe (12 a).
4. The device for removing carbon dioxide from sewage by spraying according to claim 1, wherein said filter plate unit (1) comprises a filter plate (101), cross-shaped columns (102) disposed on both sides of said filter plate (101), vertical columns (103) passing through said cross-shaped columns (102) and fixed, filter plate adjusting teeth (104) vertically arranged on said vertical columns (103), and elastic clamping rings (105) disposed on the inner annular surface of said cylinder unit (11) and used for supporting said vertical columns (103).
5. The device for removing carbon dioxide from sewage by spraying according to claim 4, wherein the filter plate (101) is filled with calcium hydroxide filler.
6. The device for removing the carbon dioxide in the sewage by spraying in accordance with claim 4, wherein said air duct unit (2) comprises an air duct (201), an air duct collar (202) sleeved on the front end of said air duct (201), a fixing block (203) with holes arranged on said air duct collar (202), an air duct mounting post (204) passing through said fixing block with holes (203) and fixed, air duct adjusting teeth (205) vertically arranged on said air duct mounting post (204), and a second elastic clamping ring (206) arranged on the outer circumferential surface of said barrel unit (11) and used for supporting said air duct mounting post (204).
7. The device for removing the carbon dioxide in the sewage by spraying according to claim 6, wherein the rotating disc unit (3) comprises a hollow rotating disc (301), a sliding pipe (302) arranged at the center of the hollow rotating disc (301) and communicated with the hollow rotating disc, and a filter plate adjusting gear (303) connected with the other end of the sliding pipe (302) opposite to the hollow rotating disc (301) and meshed with the filter plate adjusting teeth (104).
8. The device for removing carbon dioxide from sewage by spraying of claim 7, wherein said rotary disk unit (3) further comprises a telescopic tooth (304) disposed between said hollow rotary disk (301) and said filter plate adjusting gear (303) and engaged with said air duct adjusting tooth (205), and a pressing column (305) for telescoping said telescopic tooth (304).
9. The carbon dioxide spraying and removing device in sewage according to claim 8, wherein said rotating disk unit (3) further comprises a pressing column connecting column (306) connected with said pressing column (305), a pushing column (307) connected with the bottom of said pressing column connecting column (306), a pushing column spring (308) arranged at one end of said pushing column (307) and contacting with the inner wall of said hollow rotating disk (301), an adjusting circular table (309) arranged at the other end of said pushing column (307) opposite to said pushing column spring (308), a supporting plate (310) arranged at the lower end of said telescopic teeth (304), and a return spring (311) arranged in said sliding tube (302) and used for pushing said telescopic teeth (304) downwards.
10. The device for removing carbon dioxide from sewage by spraying according to claim 9, the rotating disc unit (3) further comprises a spring sleeve (317) which is arranged inside the hollow rotating disc (301) and sleeved with the pushing column spring (308) and the pushing column (307), a slide way (312) which is arranged in the sliding tube (302) and is clamped with the adjusting circular truncated cone (309), a telescopic tooth hole (313) which is arranged on the slide way (312) and is used for installing the telescopic tooth (304), a supporting triangular plate (314) which is arranged at the lower end of the supporting plate (310) and is in contact with the adjusting circular truncated cone (309) and has an inclination angle consistent with the circular truncated cone arc surface, and supporting plate clamping grooves (315) which are arranged at two ends of the supporting plate (310) and play a clamping role, and a partition plate (316) used for clamping the return spring (311) is arranged along the telescopic tooth hole (313).
CN202023289904.0U 2020-12-31 2020-12-31 Carbon dioxide sprays remove device in sewage Active CN214457318U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202023289904.0U CN214457318U (en) 2020-12-31 2020-12-31 Carbon dioxide sprays remove device in sewage

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202023289904.0U CN214457318U (en) 2020-12-31 2020-12-31 Carbon dioxide sprays remove device in sewage

Publications (1)

Publication Number Publication Date
CN214457318U true CN214457318U (en) 2021-10-22

Family

ID=78109112

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202023289904.0U Active CN214457318U (en) 2020-12-31 2020-12-31 Carbon dioxide sprays remove device in sewage

Country Status (1)

Country Link
CN (1) CN214457318U (en)

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