CN209123496U - A kind of stainless steel rapid sedimentation tank - Google Patents
A kind of stainless steel rapid sedimentation tank Download PDFInfo
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- CN209123496U CN209123496U CN201821889135.8U CN201821889135U CN209123496U CN 209123496 U CN209123496 U CN 209123496U CN 201821889135 U CN201821889135 U CN 201821889135U CN 209123496 U CN209123496 U CN 209123496U
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- buffer subsystem
- cylindrical body
- sedimentation basin
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Abstract
The utility model provides a kind of stainless steel rapid sedimentation tank, it is related to technical field of medical equipment, including stainless steel sedimentation basin ontology, successively being horizontally disposed with from top to bottom in stainless steel sedimentation basin ontology has first partition and second partition, first partition and second partition are latticed, first partition and second partition will be divided into the first sedimentation basin in stainless steel sedimentation basin ontology, second sedimentation basin and third sedimentation basin, filtering cylinder is provided in first sedimentation basin, filtering cylinder includes pedestal, pedestal is fixed in first partition, hollow form filtering cylindrical body is vertically installed on pedestal, hollow form filters cylindrical body and passes through pedestal, and the bottom surface of hollow form filtering cylindrical body is arranged in first partition, several discharge orifices are additionally provided on the side wall of hollow form filtering cylinder bottom.The utility model has the gradable the advantages that gypsum in muddy water is successively filtered precipitating, the speed of precipitating is improved, and saves water resource.
Description
Technical field
The utility model relates to technical field of medical equipment, and in particular to a kind of stainless steel rapid sedimentation tank.
Background technique
Doctor needs to use many therapeutic appliances in dental filling, and the rear surface that these therapeutic appliances used is often attached
Some filling tooth materials or binder, these therapeutic appliances must be cleaned before the next use.Normal practice is first at one
It is cleaned inside pond, it is cleaned if more muddy another pond that is moved to of water clean up to cleaning up
Just muddy water is exhausted later, water resource more wasteful in this way.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of with gradable successively by the gypsum progress in muddy water
Filtering precipitating, improves the speed of precipitating, and save the stainless steel rapid sedimentation tank of water resource.
In order to solve the above technical problems, the utility model provides a kind of stainless steel rapid sedimentation tank, including stainless steel precipitating
Pond ontology, being successively horizontally disposed in stainless steel sedimentation basin ontology from top to bottom has first partition and second partition, first partition and
Second partition be it is latticed, first partition and second partition will be divided into the first sedimentation basin, second in stainless steel sedimentation basin ontology
Sedimentation basin and third sedimentation basin are provided with filtering cylinder in the first sedimentation basin, and filtering cylinder includes pedestal, and pedestal is fixed at
Hollow form filtering cylindrical body is vertically installed in first partition, on pedestal, and the top and bottom of hollow form filtering cylindrical body are equal
For openning shape, hollow form filters cylindrical body and passes through pedestal, and the bottom surface of hollow form filtering cylindrical body is arranged in first partition, in
Several discharge orifices are additionally provided on the side wall of empty shape filtering cylinder bottom, several dashpots, dashpot are additionally provided on pedestal
Quantity it is identical as the quantity of discharge orifice, and the position of dashpot is corresponding with the position of discharge orifice, and hollow form filters cylindrical body
Top surface opening in be additionally provided with filter screen device, Rose Box is provided in the second sedimentation basin, Rose Box includes rectangular box, square
Shape framework is fixed on second partition, and main Rose Box is provided in rectangular box, is gone back on four side walls of main Rose Box equal
It is provided with secondary Rose Box, the bottom surface of main Rose Box and secondary Rose Box is arranged on second partition, main Rose Box and secondary Rose Box
It is open-topped hollow cube shape structure, the top of main Rose Box is opposite up and down with the bottom surface of hollow form filtering cylindrical body
It answers, and the height of main Rose Box is greater than the height of secondary Rose Box, being also horizontally disposed in third sedimentation basin has wavy filter plate, wave
Shape filter plate is parallel to the bottom surface of stainless steel sedimentation basin ontology, and precipitation hole, precipitation hole are also provided on the trough of wavy filter plate
For rectangular-shaped through-hole, it is additionally provided with wastewater disposal basin at the top of stainless steel sedimentation basin ontology, the bottom of wastewater disposal basin is provided with water outlet, and
The position of water outlet is corresponding with above and below the top side location of hollow form filtering cylindrical body.
Preferably, the filter screen device includes the first buffer subsystem, the second buffer subsystem and middle spacer web, and middle spacer web is square
Shape and structure, middle spacer web is vertically set in the top surface opening of hollow form filtering cylindrical body, and one end of middle spacer web is in
The top surface of empty shape filtering cylindrical body flushes, and on the same horizontal plane, first is slow for the other end of middle spacer web and the first buffer subsystem
It rushes net and the second buffer subsystem is symmetrically arranged at the two sides of middle spacer web, and the first buffer subsystem to hollow form filters cylindrical body bottom
The distance in face is greater than the distance of the second buffer subsystem to hollow form filtering cylindrical body bottom surface, and the first buffer subsystem and the second buffer subsystem are equal
For filter screen, so that muddy water is flow on the first buffer subsystem by water outlet, by the first buffering net filtration, diameter is greater than in muddy water
The graininess gypsum of outlet pipe side length, which is filtered, to be rested on the first buffer subsystem, and filtered muddy water then passes through on middle spacer web
Outlet pipe flow on the second buffer subsystem or is flowed directly to the bottom that hollow form filters cylindrical body by the first buffer subsystem, by second
The muddy water that buffer subsystem filters again flow to the bottom of hollow form filtering cylindrical body.
Preferably, first buffer subsystem and the second buffer subsystem are semicircular structure, the first buffer subsystem and the second buffering
The arcwall face of net is arranged on the inner wall of hollow form filtering cylindrical body, and the diameter of the first buffer subsystem, the second buffer subsystem is straight
The length of diameter and middle spacer web is identical as the hollow form filtering diameter of cylindrical body, delays so that muddy water flow to first by water outlet
Punching is online, and by the first buffering net filtration, the graininess gypsum that diameter is greater than outlet pipe side length in muddy water, which is filtered, rests on the
On one buffer subsystem, the outlet pipe that filtered muddy water then passes through on middle spacer web flow on the second buffer subsystem or by the first buffering
Net is flowed directly to the bottom of hollow form filtering cylindrical body, flow to hollow form filtering circle by the muddy water that the second buffer subsystem filters again
The bottom of cylinder.
Preferably, be additionally provided with several outlet pipes on the middle spacer web, outlet pipe along middle spacer web length direction
It is equally spaced, outlet pipe and discharge orifice are square tube shape, and the side length of outlet pipe is greater than the side length of discharge orifice, is convenient for muddy water
In different size of graininess gypsum can be filtered respectively when successively passing through outlet pipe and discharge orifice.
Preferably, the position of the water outlet is corresponding with above and below the position of the first buffer subsystem, and water outlet and first delays
It is additionally provided with deflector between punching net, convenient for so that muddy water is flow on the first buffer subsystem by water outlet.
Preferably, it is also provided with drain valve on the outer wall of first sedimentation basin, the second sedimentation basin and third sedimentation basin,
The clean water obtained after precipitating can will be filtered in the first sedimentation basin, the second sedimentation basin and third sedimentation basin respectively to be discharged.
The utility model has the beneficial effects that
(1) it is provided with the first buffer subsystem and the second buffer subsystem, is flow on the first buffer subsystem convenient for muddy water by water outlet, is passed through
The first buffering net filtration is crossed, the graininess gypsum that diameter is greater than outlet pipe side length in muddy water, which is filtered, rests on the first buffer subsystem
On, the outlet pipe that filtered muddy water then passes through on middle spacer web flow on the second buffer subsystem or is directly flowed by the first buffer subsystem
To the bottom of hollow form filtering cylindrical body, the bottom of hollow form filtering cylindrical body is flow to by the muddy water that the second buffer subsystem filters again
Portion is filtered for multiple times the turbidity that can reduce muddy water, and can effectively remove when the graininess gypsum that will be adulterated in muddy water, improves the later period
Filter the speed of precipitating;
(2) secondary Rose Box is provided on four side walls of main Rose Box, the height of main Rose Box is greater than secondary Rose Box
Highly, it after flowing to main Rose Box convenient for the muddy water after filtering precipitating in the first sedimentation basin, overflows after being filled in main Rose Box
Out in extremely secondary Rose Box, it is spilled over in rectangular box after being filled in secondary Rose Box, then flow in third sedimentation basin, so that turbid
Gypsum in water is deposited in one by one in main Rose Box and secondary Rose Box.
Detailed description of the invention
Attached drawing is used to provide the preferred understanding to the utility model, and constitutes part of specification, practical with this
Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is a kind of structural schematic diagram of stainless steel rapid sedimentation tank of the utility model;
Fig. 2 is a kind of water outlet position view of stainless steel rapid sedimentation tank of the utility model;
Fig. 3 is a kind of middle spacer web position view of stainless steel rapid sedimentation tank of the utility model;
Fig. 4 is a kind of outlet pipe position view of stainless steel rapid sedimentation tank of the utility model;
Fig. 5 is a kind of the second buffer subsystem position view of stainless steel rapid sedimentation tank of the utility model;
Fig. 6 is a kind of Rose Box structural schematic diagram of stainless steel rapid sedimentation tank of the utility model;
Fig. 7 is a kind of wavy filter-plate structure schematic diagram of stainless steel rapid sedimentation tank of the utility model;
Fig. 8 is a kind of water outlet position view of stainless steel rapid sedimentation tank of the utility model;
Appended drawing reference are as follows: 1, stainless steel sedimentation basin ontology;11, first partition;12, second partition;2, the first sedimentation basin;3,
Second sedimentation basin;4, third sedimentation basin;5, cylinder is filtered;51, pedestal;52, hollow form filters cylindrical body;53, discharge orifice;54,
Dashpot;6, Rose Box;61, rectangular box;62, main Rose Box;63, secondary Rose Box;7, wavy filter plate;71, precipitation hole;8,
Filter screen device;81, the first buffer subsystem;82, the second buffer subsystem;83, middle spacer web;84, outlet pipe;85, deflector;86, go out
The mouth of a river;9, drain valve;10, wastewater disposal basin.
Specific embodiment
Specific embodiment of the present utility model is described with reference to the accompanying drawing.
It as shown in figures 1-8, is a kind of stainless steel rapid sedimentation tank of the present embodiment, including stainless steel sedimentation basin ontology 1, no
Successively being horizontally disposed with from top to bottom in rust steel sedimentation basin ontology 1 has a first partition 11 and second partition 12, first partition 11 and the
Two partitions 12 be it is latticed, first partition 11 and second partition 12 will be divided into the first sedimentation basin in stainless steel sedimentation basin ontology 1
2, the second sedimentation basin 3 and third sedimentation basin 4 are provided with filtering cylinder 5 in first sedimentation basin 2, and filtering cylinder 5 includes pedestal 51,
Pedestal 51 is fixed in first partition 11, and hollow form filtering cylindrical body 52, and hollow form mistake are vertically installed on pedestal 51
The top and bottom of filter cylindrical body 52 are openning shape, and hollow form filters cylindrical body 52 and passes through pedestal 51, and hollow form filtering circle
The bottom surface of cylinder 52 is arranged in first partition 11, is additionally provided with several flowing water on the side wall of hollow form filtering 52 bottom of cylindrical body
Hole 53 is additionally provided with several dashpots 54 on pedestal 51, and the quantity of dashpot 54 is identical as the quantity of discharge orifice 53, and dashpot
54 position is corresponding with the position of discharge orifice 53, is additionally provided with filter screen dress in the top surface opening of hollow form filtering cylindrical body 52
8 are set, Rose Box 6 is provided in the second sedimentation basin 3, Rose Box 6 includes rectangular box 61, and rectangular box 61 is fixed at second
On partition 12, it is provided with main Rose Box 62 in rectangular box 61, is also provided with secondary filtering on four side walls of main Rose Box 62
The bottom surface of case 63, main Rose Box 62 and secondary Rose Box 63 is arranged on second partition 12, main Rose Box 62 and secondary Rose Box 63
It is open-topped hollow cube shape structure, the top of main Rose Box 62 and hollow form filter the bottom surface of cylindrical body 52 or more
It is corresponding, and the height of main Rose Box 62 is greater than the height of secondary Rose Box 63, in third sedimentation basin 4 also it is horizontally disposed have it is wavy
Filter plate 7, wavy filter plate 7 are parallel to the bottom surface of stainless steel sedimentation basin ontology 1, are also provided on the trough of wavy filter plate 7
Precipitation hole 71, precipitation hole 71 are rectangular-shaped through-hole, and the top of stainless steel sedimentation basin ontology 1 is additionally provided with wastewater disposal basin 10, wastewater disposal basin
10 bottom is provided with water outlet 86, and the position of water outlet 86 is opposite up and down with the top side location of hollow form filtering cylindrical body 52
It answers.
Filter screen device 8 includes the first buffer subsystem 81, the second buffer subsystem 82 and middle spacer web 83, and middle spacer web 83 is rectangle
Shape structure, middle spacer web 83 is vertically set in the top surface opening of hollow form filtering cylindrical body 52, and one end of middle spacer web 83
It is flushed with the top surface of hollow form filtering cylindrical body 52, the other end of middle spacer web 83 and the first buffer subsystem 81 are in the same horizontal plane
On, the first buffer subsystem 81 and the second buffer subsystem 82 are symmetrically arranged at the two sides of middle spacer web 83, and the first buffer subsystem 81 to
The distance that hollow form filters 52 bottom surface of cylindrical body is greater than the distance of the second buffer subsystem 82 to hollow form filtering 52 bottom surface of cylindrical body, and
First buffer subsystem 81 and the second buffer subsystem 82 are filter screen, so that muddy water is flow on the first buffer subsystem 81 by water outlet 86,
It is filtered by the first buffer subsystem 81, the graininess gypsum that diameter is greater than 84 side length of outlet pipe in muddy water, which is filtered, to be rested on first and delay
It rushes on net 81, the outlet pipe 84 that filtered muddy water then passes through on middle spacer web 83 flow on the second buffer subsystem 82 or by first
Buffer subsystem 81 is flowed directly to the bottom of hollow form filtering cylindrical body 52, flow to by the muddy water that the second buffer subsystem 82 filters again
The bottom of empty shape filtering cylindrical body 52, the first buffer subsystem 81 and the second buffer subsystem 82 are semicircular structure, the first buffer subsystem 81
It is arranged at the arcwall face of the second buffer subsystem 82 on the inner wall of hollow form filtering cylindrical body 52, and the first buffer subsystem 81 is straight
The length of diameter, the diameter of the second buffer subsystem 82 and middle spacer web 83 is identical as the hollow form filtering diameter of cylindrical body 52, so that
Muddy water is flow on the first buffer subsystem 81 by water outlet 86, is filtered by the first buffer subsystem 81, and diameter is greater than outlet pipe in muddy water
The graininess gypsum of 84 side lengths, which is filtered, to be rested on the first buffer subsystem 81, and filtered muddy water then passes through on middle spacer web 83
Outlet pipe 84 flow on the second buffer subsystem 82 or is flowed directly to the bottom that hollow form filters cylindrical body 52 by the first buffer subsystem 81,
It flow to the bottom of hollow form filtering cylindrical body 52 by the muddy water that the second buffer subsystem 82 filters again, is also set up on middle spacer web 83
There are several outlet pipes 84, outlet pipe 84 is equally spaced along the length direction of middle spacer web 83, and outlet pipe 84 and discharge orifice 53 are equal
It is square tubulose, and the side length of outlet pipe 84 is greater than the side length of discharge orifice 53, convenient for different size of graininess stone in muddy water
Cream can be filtered respectively when successively passing through outlet pipe 84 and discharge orifice 53, the position of the position of water outlet 86 and the first buffer subsystem 81
It is corresponding up and down, and it is additionally provided with deflector 85 between water outlet 86 and the first buffer subsystem 81, convenient for so that muddy water passes through water outlet
Mouth 86 is flow on the first buffer subsystem 81, is also provided on the outer wall of the first sedimentation basin 2, the second sedimentation basin 3 and third sedimentation basin 4
Drain valve 9, will can be filtered in the first sedimentation basin 2, the second sedimentation basin 3 and third sedimentation basin 4 respectively after precipitating obtain it is dry
Net water discharge.
The working principle of the utility model is: muddy water is poured into wastewater disposal basin 10, muddy water passes through 10 bottom of wastewater disposal basin
Water outlet 86 is flow on the first buffer subsystem 81, is filtered by the first buffer subsystem 81, and diameter is greater than 84 side length of outlet pipe in muddy water
Graininess gypsum, which is filtered, to be rested on the first buffer subsystem 81, and filtered muddy water then passes through the outlet pipe 84 on middle spacer web 83
It flow on the second buffer subsystem 82 or the bottom that hollow form filters cylindrical body 52 is flowed directly to by the first buffer subsystem 81, by second
The muddy water that buffer subsystem 82 filters again flow to the bottom of hollow form filtering cylindrical body 52, the top of main Rose Box 62 and hollow form mistake
Corresponding above and below the bottom surface of filter cylindrical body 52, muddy water is from the bottom of hollow form filtering cylindrical body 52 after the filtering of first partition 11
It flow in main Rose Box 62, is spilled over to after being filled in main Rose Box 62 in secondary Rose Box 63, overflow after being filled in secondary Rose Box 63
Out in rectangular box 61, the gypsum in muddy water can be carried out in main Rose Box 62, secondary Rose Box 63 and rectangular box 61
Filter is conducive to post precipitation, then flow on the wavy filter plate 7 in third sedimentation basin 4 after being filtered by second partition 12, wave
Precipitation hole 71 is also provided on the trough of shape filter plate 7, the gypsum in muddy water can be precipitated by precipitation hole 71;When by first
After filling muddy water precipitating a period of time in sedimentation basin 2, the second sedimentation basin 3 and third sedimentation basin 4, openable drain valve 9, Ji Kefen
The clean water obtained after precipitating will not be filtered in the first sedimentation basin 2, the second sedimentation basin 3 and third sedimentation basin 4 to be discharged.
The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, although ginseng
The utility model is described in detail according to previous embodiment, it for those skilled in the art, still can be with
It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features.It is all
Within the spirit and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in practical
Within novel protection scope.
Claims (6)
1. a kind of stainless steel rapid sedimentation tank, it is characterised in that: including stainless steel sedimentation basin ontology (1), stainless steel sedimentation basin sheet
Successively being horizontally disposed in body (1) from top to bottom has first partition (11) and second partition (12), first partition (11) and second every
Plate (12) be it is latticed, it is heavy that first partition (11) and second partition (12) will be divided into first in stainless steel sedimentation basin ontology (1)
Shallow lake pond (2), the second sedimentation basin (3) and third sedimentation basin (4), the first sedimentation basin (2) is interior to be provided with filtering cylinder (5), Filter column
Body (5) includes pedestal (51), and pedestal (51) is fixed on first partition (11), and pedestal is vertically installed with hollow form on (51)
It filters cylindrical body (52), and the top and bottom of hollow form filtering cylindrical body (52) are openning shape, hollow form filters cylindrical body
(52) pedestal (51) are passed through, and the bottom surface of hollow form filtering cylindrical body (52) is arranged on first partition (11), hollow form filtering
It is additionally provided with several discharge orifices (53) on the side wall of cylindrical body (52) bottom, pedestal is additionally provided with several dashpots on (51)
(54), the quantity of dashpot (54) is identical as the quantity of discharge orifice (53), and the position of dashpot (54) and discharge orifice (53)
Position is corresponding, is additionally provided with filter screen device (8), the second sedimentation basin in the top surface opening of hollow form filtering cylindrical body (52)
(3) it is provided with Rose Box (6) in, Rose Box (6) includes rectangular box (61), and rectangular box (61) is fixed at second partition
(12) it on, is provided with main Rose Box (62) in rectangular box (61), is also provided with pair on four side walls of main Rose Box (62)
The bottom surface of Rose Box (63), main Rose Box (62) and secondary Rose Box (63) is arranged on second partition (12), main Rose Box
(62) and secondary Rose Box (63) is open-topped hollow cube shape structure, the top of main Rose Box (62) and hollow form mistake
It is corresponding above and below the bottom surface of filter cylindrical body (52), and the height of main Rose Box (62) is greater than the height of secondary Rose Box (63), third
Also horizontally disposed in sedimentation basin (4) to have wavy filter plate (7), wavy filter plate (7) is parallel to stainless steel sedimentation basin ontology (1)
Bottom surface is also provided with precipitation hole (71) on the trough of wavy filter plate (7), and precipitation hole (71) is rectangular-shaped through-hole, stainless steel
It is additionally provided at the top of sedimentation basin ontology (1) wastewater disposal basin (10), the bottom of wastewater disposal basin (10) is provided with water outlet (86), and is discharged
The position of mouth (86) is corresponding with above and below the top side location of hollow form filtering cylindrical body (52).
2. a kind of stainless steel rapid sedimentation tank according to claim 1, it is characterised in that: filter screen device (8) includes the
One buffer subsystem (81), the second buffer subsystem (82) and middle spacer web (83), middle spacer web (83) are rectangular structure, middle spacer web
(83) it is vertically set in the top surface opening of hollow form filtering cylindrical body (52), and one end of middle spacer web (83) and hollow form mistake
Filter cylindrical body (52) top surface flush, the other end and the first buffer subsystem (81) of middle spacer web (83) on the same horizontal plane,
First buffer subsystem (81) and the second buffer subsystem (82) are symmetrically arranged at the two sides of middle spacer web (83), and the first buffer subsystem
(81) distance to hollow form filtering cylindrical body (52) bottom surface is greater than the second buffer subsystem (82) to hollow form filtering cylindrical body (52)
The distance of bottom surface, and the first buffer subsystem (81) and the second buffer subsystem (82) they are filter screen.
3. a kind of stainless steel rapid sedimentation tank according to claim 2, it is characterised in that: the first buffer subsystem (81) and second
Buffer subsystem (82) is semicircular structure, and the arcwall face of the first buffer subsystem (81) and the second buffer subsystem (82) is arranged at hollow form
On the inner wall for filtering cylindrical body (52), and the diameter and middle spacer web of the diameter of the first buffer subsystem (81), the second buffer subsystem (82)
(83) length is identical as the hollow form filtering diameter of cylindrical body (52).
4. a kind of stainless steel rapid sedimentation tank according to claim 2, it is characterised in that: also set up on middle spacer web (83)
Have several outlet pipes (84), outlet pipe (84) is equally spaced along the length direction of middle spacer web (83), outlet pipe (84) and stream
Water hole (53) is square tube shape, and the side length of outlet pipe (84) is greater than the side length of discharge orifice (53).
5. a kind of stainless steel rapid sedimentation tank according to claim 2, it is characterised in that: the position of water outlet (86) and the
It is corresponding above and below the position of one buffer subsystem (81), and deflector is additionally provided between water outlet (86) and the first buffer subsystem (81)
(85)。
6. a kind of stainless steel rapid sedimentation tank according to claim 1, it is characterised in that: the first sedimentation basin (2), second are sunk
Drain valve (9) is also provided on the outer wall of shallow lake pond (3) and third sedimentation basin (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821889135.8U CN209123496U (en) | 2018-11-16 | 2018-11-16 | A kind of stainless steel rapid sedimentation tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821889135.8U CN209123496U (en) | 2018-11-16 | 2018-11-16 | A kind of stainless steel rapid sedimentation tank |
Publications (1)
Publication Number | Publication Date |
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CN209123496U true CN209123496U (en) | 2019-07-19 |
Family
ID=67245446
Family Applications (1)
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CN201821889135.8U Active CN209123496U (en) | 2018-11-16 | 2018-11-16 | A kind of stainless steel rapid sedimentation tank |
Country Status (1)
Country | Link |
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CN (1) | CN209123496U (en) |
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2018
- 2018-11-16 CN CN201821889135.8U patent/CN209123496U/en active Active
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