CN203238085U - Flow turbulence structure for oxygen-dissolving water equipment - Google Patents
Flow turbulence structure for oxygen-dissolving water equipment Download PDFInfo
- Publication number
- CN203238085U CN203238085U CN 201320124591 CN201320124591U CN203238085U CN 203238085 U CN203238085 U CN 203238085U CN 201320124591 CN201320124591 CN 201320124591 CN 201320124591 U CN201320124591 U CN 201320124591U CN 203238085 U CN203238085 U CN 203238085U
- Authority
- CN
- China
- Prior art keywords
- wing plate
- housing
- dissolved oxygen
- plate
- turbulence structure
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Oxygen, Ozone, And Oxides In General (AREA)
- Aeration Devices For Treatment Of Activated Polluted Sludge (AREA)
Abstract
The utility model discloses a flow turbulence structure for oxygen-dissolving water equipment. The flow turbulence structure is arranged in the oxygen-dissolving water equipment and comprises an outer frame, two wing plates and a flow suppression plate, wherein the two wing plates are obliquely connected to the inner circumferential surface of the outer frame in a bilateral symmetry way; a long and narrow open space is formed between the two wing plates; oxygen passes through the open space; the flow suppression plate is connected to the inner circumferential surface of the outer frame and positioned below the two wing plates. By obliquely arranging the wing plates, oxygen can temporarily stay in water for a relatively long time when ascending in water, so that the time of contact between oxygen and water for dissolution is prolonged, and the oxygen concentration of water increases.
Description
Technical field
The utility model and the device-dependent of making dissolved oxygen water; Refer to especially a kind of turbulence structure for the dissolved oxygen wetting system.
Background technology
The tap water that oxygen concentration is high though its pure oxygen can be drunk and enter in the human body along with water, and is rapidly absorbed and reaches sanatory purpose with active cells.But oxygen is melt in the air easily, so how this to guarantee oxygen in the process that dissolved oxygen water generates, can be effectively with the water contact lysis and for preserving, and real in making the important topic of dissolved oxygen water.
Both be useful on the equipment of making dissolved oxygen water, and belonged to main equipment more, and make and peddle in the bottled water mode.For consumers, must frequently buy more, replenish, very inconvenience.Though in the streets there is the dealer to be devoted to develop the equipment of small home formula, and import from bottom of gullet with oxygen, and in the process that rises, generate dissolved oxygen water with the technology of water contact lysis by oxygen, but, just as above-mentioned, oxygen is easy to dissipate, and lift velocity is fast, is difficult to prolong the time with the water contact lysis, therefore, aspect the performance of oxygen concentration, still genus is not attained perfect and is remained to be improved again in improving water.
The utility model content
In view of this, the purpose of this utility model is to provide a kind of turbulence structure for the dissolved oxygen wetting system, can increase the time of oxygen and water contact lysis, to improve the oxygen concentration of water.
Edge is to reach above-mentioned purpose, and the turbulence structure that the utility model is provided for the dissolved oxygen wetting system is positioned in this dissolved oxygen wetting system, comprises a housing, a wing plate and a suppression plate.Wherein this housing has an apical margin, a root edge and an inner peripheral surface; This wing plate has two ends, and its first end is connected in nearly this upper edge of inner peripheral surface of this housing, and the second end is towards the center of this housing and gradually towards having a down dip extension, this wing plate bottom surface arranges at least one separation rib; This suppression plate is connected in the inner peripheral surface of this housing, and is positioned at this wing plate below.
Wherein, include and symmetrically arranged another wing plate of this wing plate, this another wing plate also has two ends, and its first end is connected in nearly this upper edge of inner peripheral surface of this housing, also towards the center of this housing and gradually towards having a down dip extension, this another wing plate bottom surface also arranges at least one separation rib to the second end.
Wherein, this housing definition has a horizontal base line by this apical margin, and this wing plate that is inclined to set, another wing plate are folded with an angle with this horizontal base line respectively, between this angle circle in 15 to 20 degree.
Wherein, being separated by between the second end of this wing plate and the second end of this another wing plate is formed with the open space of a thin-and-long, and this open space has a width; This suppression plate has a developed width, and this developed width is not less than this width.
Wherein, this suppression plate is intermediate muster and have respectively the plate body of a left tilted surface and a right tilted surface in both sides.
The utility model provides a kind of turbulence structure for the dissolved oxygen wetting system again, comprises a housing, two wing plates and a suppression plate.Wherein this housing has an inner peripheral surface; This two wing plate is the inner peripheral surface that left and right symmetrically is connected in this housing, one end of this two wing plate is towards the center of this housing and gradually towards downward-extension, and being separated by between this end of this two wing plate is formed with the open space of a thin-and-long, and this open space definition has a length and a width; This suppression plate is connected in the inner peripheral surface of this housing, and is positioned at the orthographicprojection below of this open space, and this suppression plate has the length that a length is equivalent to this open space, and this suppression plate has the width that a developed width is not less than this open space.
Wherein, the bottom surface of this two wing plate is respectively provided to a few separation rib.
Wherein, this housing definition has a horizontal base line by this apical margin, and this two wing plate and this horizontal base line among sandwiched one angle are between this angle circle in 15 to 20 degree.
Wherein, this suppression plate is intermediate muster and have respectively the plate body of a left tilted surface and a right tilted surface in both sides.
Effect of the present utility model is to utilize wing plate to be inclined to set, so that in the uphill process of oxygen in water, can obtain the more time that persists in water, and in order to increase and water contact lysis time, and the oxygen concentration of raising water.
Description of drawings
Fig. 1 is the stereographic map of the utility model one preferred embodiment turbulence structure.
Fig. 2 is the vertical view of Fig. 1.
Fig. 3 be Fig. 1 partly cut open stereographic map.
Fig. 4 is A-A ' the direction sectional view of Fig. 2.
Fig. 5 is the synoptic diagram that the above-mentioned preferred embodiment turbulence structure of the utility model is applied to a container.
[nomenclature]
100 turbulence structures
10 housings
12 apical margins, 14 root edges, 16 inner peripheral surfaces
20 wing plates
22 first ends, 24 second ends
30 suppression plates
32 left tilted surfaces, 34 right tilted surfaces
40 separation ribs
The L horizontal base line
The length of L1 open space
The R switch room
The width of W1 open space
The developed width of W2 suppression plate
200 containers
201 water-ins
202 water outlets
203 inlet mouths
204 air outlets
Embodiment
For being illustrated more clearly in the utility model, hereby lift preferred embodiment and cooperate diagram to be described in detail as follows, please refer to the drawing 1 is to shown in Figure 4, the turbulence structure 100 that is used for the dissolved oxygen wetting system for the utility model one preferred embodiment, described turbulence structure 100 is placed in the container 200 of dissolved oxygen wetting system as shown in Figure 5, and the quantity of this turbulence structure 100 must suitably be adjusted stacking number according to this container 200 internal spaces size.Aforementioned container 200 also is provided with a water-in 201, a water outlet 202, an inlet mouth 203 and an air outlet 204, and wherein, this water-in 201 is positioned at this container 200 tops, and injection, additional is used for supplying drinking water; This water outlet 202 is used for drawing the dissolved oxygen water that contains oxygen; This inlet mouth 203 is positioned at this container 200 bottoms, in order to oxygen being imported this container 200 inside, oxygen and in uphill process with container 200 in water contact, dissolve; This air outlet 204 remains on closing condition in dissolved oxygen water generation process, the beginning can open when only the air in this container 200 need to be taken a breath operation.
This turbulence structure 100 of present embodiment includes a housing 10, two wing plates 20 and a suppression plate 30.Wherein, this housing 10 rounded frameworks and have an apical margin 12, a root edge 14 and an inner peripheral surface 16.This two wing plate 20 is constructed identical and is the inner peripheral surface 16 that left and right symmetrically is connected in this housing 10, as shown in Figure 1, each wing plate 20 semicircular in shape, and each wing plate 20 has a first end 22 and one second end 24, wherein this first end 22 is connected in inner peripheral surface 16 nearly these apical margin 12 places of this housing 10, this second end 24 is towards the center of this housing 10 and gradually towards having a down dip extension, as shown in Figure 4, these housing 10 definition have a horizontal base line L by this apical margin 12, and this two wing plate that is inclined to set 20 is folded with an angle θ with this horizontal base line L respectively, this angle θ is between 15 to 20 degree, and the preferably is take 19 degree as good, lid is because learning through the water droplet test, each wing plate 20 during water level decline this container 200 in, is conducive to keep the smooth and easy effect of water flow most when becoming 19 degree angle with this horizontal base line is L shaped.
The bottom surface of this two wing plate 20 is connected with respectively a plurality of separation ribs 40, and as shown in Figure 4, those separation ribs 40 are to extend to form vertically downward in equally spaced mode,, is formed with a R of switch room between the adjacent separation rib 40 that is.The effect of the R of those switch rooms is to work as oxygen in uphill process, provides the spaces that persist more, increases according to this oxygen and is detained the time in water, reaches to promote the dissolution rate that oxygen contacts with water, so can reach the purpose of the oxygen concentration that improves water.And under the interior stacking situation that most turbulence structures 100 are arranged of this container 200, the time that oxygen is detained in water increases, so that the oxygen concentration of water more significantly promotes.
Please continue and consult Fig. 2 and shown in Figure 4, respectively being separated by between this second end 24 of this two wing plate 20 is formed with the open space of a thin-and-long, and this open space definition has a length L 1 and a width W 1.And this suppression plate 30 is connected in the inner peripheral surface 16 of this housing 10, and below the orthographicprojection of the open space that forms between this two wing plate 20, the length of this suppression plate 30 is equivalent to the length L 1 of this open space, and this suppression plate 30 has the width W 1 that a developed width W2 is not less than this open space.Again, this suppression plate 30 has respectively the plate body of a left tilted surface 32 and a right tilted surface 34 in both sides for intermediate muster, this left tilted surface 32 and this right tilted surface 34 help shunting and the flowability of water, and the setting of this suppression plate 30, can increase the path of motion of oxygen in uphill process, namely helpful to the time of oxygen and water contact lysis.
From the above, the utility model utilizes wing plate 20 to be inclined to set, the setting of collocation separation rib 40 and suppression plate 30, so that in the uphill process of oxygen in water, obtain the times that persist in water more, increase according to this oxygen and water contact lysis time, and can improve the oxygen concentration of water.
The above only is the utility model one better possible embodiments, such as uses the equivalence variation that the utility model specification sheets and claim are done, and ought to be included in the claim of the present utility model.
Claims (9)
1. a turbulence structure that is used for the dissolved oxygen wetting system is positioned in this dissolved oxygen wetting system, it is characterized in that comprising:
One housing has an apical margin, a root edge and an inner peripheral surface;
One wing plate has two ends, and its first end is connected in nearly this upper edge of inner peripheral surface of this housing, and the second end is towards the center of this housing and gradually towards having a down dip extension, this wing plate bottom surface arranges at least one separation rib; And
One suppression plate is connected in the inner peripheral surface of this housing, and is positioned at this wing plate below.
2. the turbulence structure that is used for as claimed in claim 1 the dissolved oxygen wetting system, it is characterized in that, include and symmetrically arranged another wing plate of this wing plate, this another wing plate also has two ends, its first end is connected in nearly this upper edge of inner peripheral surface of this housing, also towards the center of this housing and gradually towards having a down dip extension, this another wing plate bottom surface also arranges at least one separation rib to the second end.
3. the turbulence structure that is used for as claimed in claim 2 the dissolved oxygen wetting system, it is characterized in that, this housing definition has a horizontal base line by this apical margin, and this wing plate that is inclined to set, another wing plate are folded with an angle with this horizontal base line respectively, between this angle circle in 15 to 20 degree.
4. be used for as claimed in claim 2 the turbulence structure of dissolved oxygen wetting system, it is characterized in that being separated by between the second end of this wing plate and the second end of this another wing plate is formed with the open space of a thin-and-long, this open space has a width; This suppression plate has a developed width, and this developed width is not less than this width.
5. be used for as claimed in claim 4 the turbulence structure of dissolved oxygen wetting system, it is characterized in that, this suppression plate is intermediate muster and have respectively the plate body of a left tilted surface and a right tilted surface in both sides.
6. a turbulence structure that is used for the dissolved oxygen wetting system is positioned in this dissolved oxygen wetting system, it is characterized in that comprising:
One housing has an inner peripheral surface;
Two wing plates, be the inner peripheral surface that left and right symmetrically is connected in this housing, one end of this two wing plate is towards the center of this housing and gradually towards downward-extension, and is separated by between this end of this two wing plate and is formed with the open space of a thin-and-long, and this open space definition has a length and a width; And
One suppression plate is connected in the inner peripheral surface of this housing, and is positioned at the orthographicprojection below of this open space, and this suppression plate has the length that a length is equivalent to this open space, and this suppression plate has the width that a developed width is not less than this open space.
7. be used for as claimed in claim 6 the turbulence structure of dissolved oxygen wetting system, it is characterized in that, the bottom surface of this two wing plate is respectively provided to a few separation rib.
8. be used for as claimed in claim 6 the turbulence structure of dissolved oxygen wetting system, it is characterized in that, this housing definition has a horizontal base line by this apical margin, and this two wing plate and this horizontal base line among sandwiched one angle are between this angle circle in 15 to 20 degree.
9. be used for as claimed in claim 6 the turbulence structure of dissolved oxygen wetting system, it is characterized in that, this suppression plate is intermediate muster and have respectively the plate body of a left tilted surface and a right tilted surface in both sides.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201320124591 CN203238085U (en) | 2013-03-19 | 2013-03-19 | Flow turbulence structure for oxygen-dissolving water equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201320124591 CN203238085U (en) | 2013-03-19 | 2013-03-19 | Flow turbulence structure for oxygen-dissolving water equipment |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203238085U true CN203238085U (en) | 2013-10-16 |
Family
ID=49315404
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 201320124591 Expired - Fee Related CN203238085U (en) | 2013-03-19 | 2013-03-19 | Flow turbulence structure for oxygen-dissolving water equipment |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203238085U (en) |
-
2013
- 2013-03-19 CN CN 201320124591 patent/CN203238085U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105702885B (en) | Encapsulating structure and its method for packing, the chemical synthesizing method of a kind of lithium ion battery | |
CN205488249U (en) | Packaging structure of lithium ion attery | |
CN203290779U (en) | Screwing bottle cap | |
CN203238085U (en) | Flow turbulence structure for oxygen-dissolving water equipment | |
CN204750858U (en) | Liquid medicine storage jar | |
CN205856093U (en) | Cross-flow type ozone reaction groove | |
CN205107173U (en) | Multi -function cup | |
CN209447964U (en) | A kind of packaging system of lithium battery | |
CN104030426A (en) | Air change method in dissolved oxygen water generation process | |
CN203634009U (en) | Soda water machine with nutrition rod | |
CN203634001U (en) | Soda water machine with net bag structure | |
CN201189055Y (en) | Multifunctional water glass | |
CN202193286U (en) | Hand-controlled liquid outlet valve | |
CN206325373U (en) | A kind of moisture trap | |
CN205576096U (en) | White spirit goes out to make device | |
CN205132089U (en) | Self -heating drinking water bottle | |
CN205586838U (en) | Take diversion channel's utmost point liquid baffle | |
CN202687033U (en) | Bottle cap | |
CN204858883U (en) | It sweeps stringing structure to increase an ampere type synchronous motor | |
CN203402914U (en) | Liquor pourer | |
CN203246698U (en) | Improved structure of switch bottle cover | |
CN208634891U (en) | A kind of LED light with assisted learning function | |
CN202747527U (en) | Dynamic warning humidifier | |
CN204021591U (en) | The amount of adding entirety heating bottle | |
CN202244769U (en) | Transfer container for cross-flow fan blades |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20131016 Termination date: 20150319 |
|
EXPY | Termination of patent right or utility model |