CN202516721U - Integral jet flow device for water treatment automatic control valve - Google Patents
Integral jet flow device for water treatment automatic control valve Download PDFInfo
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- CN202516721U CN202516721U CN2012200186878U CN201220018687U CN202516721U CN 202516721 U CN202516721 U CN 202516721U CN 2012200186878 U CN2012200186878 U CN 2012200186878U CN 201220018687 U CN201220018687 U CN 201220018687U CN 202516721 U CN202516721 U CN 202516721U
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Abstract
The utility model relates to an integral jet flow device for a water treatment automatic control valve. The integral jet flow device comprises a jet flow device main body, wherein the jet flow device main body is provided with a regenerated solution inlet pipe, a spray head, a suction chamber and a throat pipe, and the regenerated solution inlet pipe and the spray head are respectively communicated with the throat pipe through a suction chamber liquid path. Preferably, the regenerated solution inlet pipe and the spray head are in mutually vertical arrangement, the throat pipe, the suction chamber and the spray head are in linear arrangement, the spray head comprises a first end part and a second end part, the first end part is connected with the suction chamber, the hollow cross section of the second end part is greater than the hollow cross section of the first end part, in addition, the hollow cross section of the first end part gradually becomes small in the direction towards the suction chamber, the hollow cross section of the throat pipe gradually becomes small in the direction towards the suction chamber, and the regenerated solution suction efficiency is improved through designing the spray head and throat pipe angle, the internal dimension and the space. The integral jet flow device has the advantages that the design is ingenious, the structure is simple and compact, the manufacture and the assembly are convenient, the leakage risk does not exist, the defects of low regenerated solution suction efficiency or even abnormal work and the like cannot be easily caused, and the integral jet flow device is suitable for large-scale popularization and application.
Description
Technical field
The utility model relates to the water treatment facilities technical field, and particularly water treatment autocontrol valve technical field specifically is meant a kind of water treatment autocontrol valve integral type ejector.
Background technology
See also shown in Figure 1A and Figure 1B; The large-scale ejector of autocontrol valve is the separate type ejector in the existing water treatment field; Comprise separate type ejector trunnion 101, separate type ejector chamber 102 and separate type ejector shower nozzle 103; Separate type ejector trunnion 101, separate type ejector chamber 102 and separate type ejector shower nozzle 103 are independent respectively; Separate type ejector chamber 102 has actified solution inlet pipe 104, trunnion mounting pipe 105 and larynx mounting pipe 106, and separate type ejector trunnion 101 is plugged in the trunnion mounting pipe 105 and through sealing ring 107 sealings, separate type ejector shower nozzle 103 is plugged in the larynx mounting pipe 106 and passes through sealing ring 108 sealings.
Therefore, existing separate type ejector constitutional detail is many, makes and makes inconvenience; Be isolating construction, need assembly, use inconvenient to using together; And need pass through sealing ring 107,108 fitted seal respectively between separate type ejector chamber 102 and the separate type ejector trunnion 101 and between separate type ejector chamber 102 and the separate type ejector shower nozzle 103, thereby the risk of earial drainage arranged so cause drawbacks such as sucking the low even cisco unity malfunction of actified solution efficient easily.
Therefore, a kind of water treatment autocontrol valve integral type ejector need be provided, thus simple for structure, to make with easy to assembly, the risk of no earial drainage is difficult for causing drawbacks such as the low even cisco unity malfunction of suction actified solution efficient.
The utility model content
The purpose of the utility model is to have overcome above-mentioned shortcoming of the prior art; A kind of water treatment autocontrol valve integral type ejector is provided, and this water treatment autocontrol valve integral type ejector design is ingenious, simple for structure; Manufacturing and easy to assembly; The risk of no earial drainage is difficult for causing sucking drawback such as the low even cisco unity malfunction of actified solution efficient, is suitable for large-scale promotion application.
To achieve these goals; The water treatment autocontrol valve integral type ejector of the utility model; Be characterized in; Comprise the ejector main body, said ejector main body has actified solution inlet pipe, shower nozzle, suction chamber and trunnion, and said actified solution inlet pipe and said shower nozzle are communicated with said trunnion through said suction chamber liquid road respectively.
Preferably, said actified solution inlet pipe and the vertical setting each other of said shower nozzle, said trunnion, said suction chamber and said shower nozzle are provided with in line.
Preferably; Said shower nozzle comprises first end and the second end; Said first end connects said suction chamber, and the hollow cross-section of said the second end is greater than the hollow cross-section of said first end, and the hollow cross-section of said first end diminishes along the direction towards said suction chamber gradually
Preferably, the hollow cross-section of said trunnion diminishes along the direction towards said suction chamber gradually.
Preferably; Said shower nozzle comprises first frustum of a cone hollow space and cylinder hollow space; The thin end of said first frustum of a cone hollow space connects said cylinder hollow space; Said cylinder hollow space connects said suction chamber, and said trunnion comprises second frustum of a cone hollow space, and the thin end of said second frustum of a cone hollow space connects said suction chamber.
More preferably; The awl wire clamp angle of said first frustum of a cone hollow space is 36 °; The diameter of said cylinder hollow space is 8.38 millimeters; The height of said cylinder hollow space is 0.51 millimeter, and the awl wire clamp angle of said second frustum of a cone hollow space is 5.8 °, and the diameter of said second frustum of a cone hollow space is 16.5 millimeters; The height of said second frustum of a cone hollow space is 66.32 millimeters, and the spacing of the thin end of said second frustum of a cone hollow space and the thin end of said first frustum of a cone hollow space is 22.82 millimeters.
More preferably; The awl wire clamp angle of said first frustum of a cone hollow space is 36 °; The diameter of said cylinder hollow space is 6.22 millimeters; The height of said cylinder hollow space is 0.51 millimeter, and the awl wire clamp angle of said second frustum of a cone hollow space is 5.8 °, and the diameter of said second frustum of a cone hollow space is 12.2 millimeters; The height of said second frustum of a cone hollow space is 66.32 millimeters, and the spacing of the thin end of said second frustum of a cone hollow space and the thin end of said first frustum of a cone hollow space is 22.82 millimeters.
The beneficial effect of the utility model specifically is:
1, the water treatment autocontrol valve integral type ejector of the utility model of the utility model comprises the ejector main body, and said ejector main body has actified solution inlet pipe, shower nozzle, suction chamber and trunnion, and said actified solution inlet pipe and said shower nozzle are communicated with said trunnion through said suction chamber liquid road respectively; Design ingenious; Simple for structure, manufacturing and easy to assembly, the risk of no earial drainage; Be difficult for causing sucking drawback such as the low even cisco unity malfunction of actified solution efficient, be suitable for large-scale promotion application.
2, the shower nozzle of the water treatment autocontrol valve integral type ejector of the utility model comprises first frustum of a cone hollow space and cylinder hollow space, and the thin end of first frustum of a cone hollow space connects said cylinder hollow space, and the cylinder hollow space connects said suction chamber; Trunnion comprises second frustum of a cone hollow space; The thin end of second frustum of a cone hollow space connects suction chamber, and the awl wire clamp angle of first frustum of a cone hollow space is 36 °, and the diameter of cylinder hollow space is 8.38 millimeters or 6.22 millimeters; The height of cylinder hollow space is 0.51 millimeter; The awl wire clamp angle of second frustum of a cone hollow space is 5.8 °, and the diameter of second frustum of a cone hollow space is 16.5 millimeters or 12.2 millimeters, and the height of second frustum of a cone hollow space is 66.32 millimeters; The spacing of the thin end of second frustum of a cone hollow space and the thin end of first frustum of a cone hollow space is 22.82 millimeters; Thereby the startup flow that gets into ejector is 1: 1 with the flow that sucks actified solution, and the efficient that sucks actified solution is high, designs ingenious; Simple for structure, be suitable for large-scale promotion application.
Description of drawings
Figure 1A is that the master that the separate type ejector is controlled in existing water treatment automatically looks cross-sectional schematic.
Figure 1B is the assembling sketch map that the separate type ejector is controlled in the existing water treatment shown in Figure 1A automatically.
Fig. 2 is that the master of a specific embodiment of the utility model looks cross-sectional schematic.
Fig. 3 is the use sketch map of specific embodiment shown in Figure 2.
Fig. 4 is the result of use sketch map of specific embodiment shown in Figure 2.
Fig. 5 is the result of use sketch map that the separate type ejector is controlled in the existing water treatment shown in Figure 1A automatically.
The specific embodiment
In order more to be expressly understood the technology contents of the utility model, the special following examples of lifting specify.
See also shown in Figure 2; The water treatment autocontrol valve integral type ejector of the utility model comprises ejector main body 10; Said ejector main body 10 has actified solution inlet pipe 11, shower nozzle 12, suction chamber 13 and trunnion 14, and said actified solution inlet pipe 11 is communicated with said trunnion 14 through said suction chamber 13 liquid roads respectively with said shower nozzle 12.
Said actified solution inlet pipe 11, said shower nozzle 12, said suction chamber 13 and said trunnion 14 can adopt any suitable orientation to be provided with; It is said to see also Fig. 2; In the specific embodiment of the utility model; Said actified solution inlet pipe 11 and said shower nozzle 12 mutual vertical settings, said trunnion 14, said suction chamber 13 and said shower nozzle 12 are provided with in line.
Said shower nozzle 12 can adopt any suitable structure; It is said to see also Fig. 2; In the specific embodiment of the utility model, said shower nozzle 12 comprises first end 15 and the second end 16, and said first end 15 connects said suction chamber 13; The hollow cross-section of said the second end 16 is greater than the hollow cross-section of said first end 15, and the hollow cross-section of said first end 15 diminishes along the direction towards said suction chamber 13 gradually.
Said trunnion 14 can adopt any suitable structure, and it is said to see also Fig. 2, and in the specific embodiment of the utility model, the hollow cross-section of said trunnion 14 diminishes along the direction towards said suction chamber 13 gradually.
Said shower nozzle 12 can adopt any suitable structure with said trunnion 14; It is said to see also Fig. 2; In the specific embodiment of the utility model; The first end 15 of said shower nozzle 12 comprises first frustum of a cone hollow space (not shown) and cylinder hollow space (not shown), and the thin end of said first frustum of a cone hollow space connects said cylinder hollow space, and said cylinder hollow space connects said suction chamber; Said trunnion 14 comprises second frustum of a cone hollow space, and the thin end of said second frustum of a cone hollow space connects said suction chamber.In order to improve the efficient that sucks actified solution; Shower nozzle 12 of the utility model and trunnion 14 inside dimensions are through careful analysis and strict test; The dimensional structure design is the angle through design sprinkler 12; The angle of trunnion 14, distance between the two and change shower nozzle 12 are accomplished the different flows of inhaling regenerated liquids with the through-hole diameter that trunnion 14 gets into suction chambers 13.See also shown in Figure 2; In the specific embodiment of the utility model; The awl wire clamp angle of said first frustum of a cone hollow space is 36 °, and the diameter of said cylinder hollow space is 8.38 millimeters, and the height of said cylinder hollow space is 0.51 millimeter; The awl wire clamp angle of said second frustum of a cone hollow space is 5.8 °; The diameter of said second frustum of a cone hollow space is 16.5 millimeters, and the height of said second frustum of a cone hollow space is 66.32 millimeters, and the spacing of the thin end of said second frustum of a cone hollow space and the thin end of said first frustum of a cone hollow space is 22.82 millimeters., the startup flow that make to get into ejector is promptly intake and the flow that sucks actified solution is 1: 1.Perhaps; The startup flow that also can adopt following ratio make to get into ejector is promptly intake and the flow that sucks actified solution is 1: 1: the awl wire clamp angle of said first frustum of a cone hollow space is 36 °; The diameter of said cylinder hollow space is 6.22 millimeters; The height of said cylinder hollow space is 0.51 millimeter, and the awl wire clamp angle of said second frustum of a cone hollow space is 5.8 °, and the diameter of said second frustum of a cone hollow space is 12.2 millimeters; The height of said second frustum of a cone hollow space is 66.32 millimeters, and the spacing of the thin end of said second frustum of a cone hollow space and the thin end of said first frustum of a cone hollow space is 22.82 millimeters.
See also shown in Figure 3ly, during use, cam 17 forces regenerated liquid valve piston 18 to be opened; Because P1 is greater than P2; So can form Venturi tube effect, suction chamber 13 positions form vacuum at the middle part, and actified solution is pressed into suction chamber 13 through atmospheric pressure; Intake simultaneously from shower nozzle 12 entering suction chambers 13, thereby flow into the actified solution of suction chamber 13 and blend the water outflow from the water inlet mixing and trunnion 14 conducts of flowing through that shower nozzle 12 gets into.
See also Fig. 4 and shown in Figure 5; Be decided to be 3 if suppose mixed solution amount one; For identical actified solution inlet pipe latus rectum; The startup flow of newly-designed entering ejector (i.e. water inlet) is 1: 1 with the flow that sucks actified solution, and the startup flow of the entering ejector of old design (i.e. water inlet) is 2: 1 with the flow that sucks actified solution, and old design is compared with the new design of the utility model; Newly-designed integral type ejector only needs littler startup flow just can suck more actified solution; Because new and old design all is used for identical autocontrol valve, first: if the exchange media of Regeneration Treatment is identical, the old relatively design front end of new design only needs littler pressure just can handle the exchange media of same amount; Second: if the pressure of inlet segment is identical, because the old relatively design of new design suction actified solution is more, so the exchange media that new designing institute can be handled is more.Comprehensive above 2 points, new design is more energy-efficient.
The actified solution inlet pipe 11 of the utility model, shower nozzle 12, suction chamber 13 and trunnion 14 are structure as a whole, manufacturing and easy to assembly; Through the angle of design sprinkler 12, the angle of trunnion 14, distance between the two and change shower nozzle 12 are accomplished the different flows of inhaling actified solutions with the through-hole diameter that trunnion 14 gets into suction chambers 13, and the efficient that sucks actified solution is high.
To sum up, the design of the water treatment autocontrol valve integral type ejector of the utility model is ingenious, simple for structure; Manufacturing and easy to assembly; The risk of no earial drainage is difficult for causing sucking drawback such as the low even cisco unity malfunction of actified solution efficient, is suitable for large-scale promotion application.
In this specification, the utility model is described with reference to its certain embodiments.But, still can make various modifications and conversion obviously and not deviate from the spirit and the scope of the utility model.Therefore, specification and accompanying drawing are regarded in an illustrative, rather than a restrictive.
Claims (7)
1. water treatment autocontrol valve integral type ejector; It is characterized in that; Comprise the ejector main body, said ejector main body has actified solution inlet pipe, shower nozzle, suction chamber and trunnion, and said actified solution inlet pipe and said shower nozzle are communicated with said trunnion through said suction chamber liquid road respectively.
2. water treatment autocontrol valve integral type ejector according to claim 1 is characterized in that, said actified solution inlet pipe and the vertical setting each other of said shower nozzle, and said trunnion, said suction chamber and said shower nozzle are provided with in line.
3. water treatment autocontrol valve integral type ejector according to claim 1; It is characterized in that; Said shower nozzle comprises first end and the second end; Said first end connects said suction chamber, and the hollow cross-section of said the second end is greater than the hollow cross-section of said first end, and the hollow cross-section of said first end diminishes along the direction towards said suction chamber gradually.
4. water treatment autocontrol valve integral type ejector according to claim 1 is characterized in that, the hollow cross-section of said trunnion diminishes along the direction towards said suction chamber gradually.
5. water treatment autocontrol valve integral type ejector according to claim 1; It is characterized in that; Said shower nozzle comprises first frustum of a cone hollow space and cylinder hollow space, and the thin end of said first frustum of a cone hollow space connects said cylinder hollow space, and said cylinder hollow space connects said suction chamber; Said trunnion comprises second frustum of a cone hollow space, and the thin end of said second frustum of a cone hollow space connects said suction chamber.
6. water treatment autocontrol valve integral type ejector according to claim 5; It is characterized in that; The awl wire clamp angle of said first frustum of a cone hollow space is 36 °, and the diameter of said cylinder hollow space is 8.38 millimeters, and the height of said cylinder hollow space is 0.51 millimeter; The awl wire clamp angle of said second frustum of a cone hollow space is 5.8 °; The diameter of said second frustum of a cone hollow space is 16.5 millimeters, and the height of said second frustum of a cone hollow space is 66.32 millimeters, and the spacing of the thin end of said second frustum of a cone hollow space and the thin end of said first frustum of a cone hollow space is 22.82 millimeters.
7. water treatment autocontrol valve integral type ejector according to claim 5; It is characterized in that; The awl wire clamp angle of said first frustum of a cone hollow space is 36 °, and the diameter of said cylinder hollow space is 6.22 millimeters, and the height of said cylinder hollow space is 0.51 millimeter; The awl wire clamp angle of said second frustum of a cone hollow space is 5.8 °; The diameter of said second frustum of a cone hollow space is 12.2 millimeters, and the height of said second frustum of a cone hollow space is 66.32 millimeters, and the spacing of the thin end of said second frustum of a cone hollow space and the thin end of said first frustum of a cone hollow space is 22.82 millimeters.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012200186878U CN202516721U (en) | 2012-01-16 | 2012-01-16 | Integral jet flow device for water treatment automatic control valve |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012200186878U CN202516721U (en) | 2012-01-16 | 2012-01-16 | Integral jet flow device for water treatment automatic control valve |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202516721U true CN202516721U (en) | 2012-11-07 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012200186878U Expired - Lifetime CN202516721U (en) | 2012-01-16 | 2012-01-16 | Integral jet flow device for water treatment automatic control valve |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN202516721U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110407292A (en) * | 2018-04-28 | 2019-11-05 | 芜湖美的厨卫电器制造有限公司 | Ejector and soft water valve |
-
2012
- 2012-01-16 CN CN2012200186878U patent/CN202516721U/en not_active Expired - Lifetime
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110407292A (en) * | 2018-04-28 | 2019-11-05 | 芜湖美的厨卫电器制造有限公司 | Ejector and soft water valve |
| CN110407292B (en) * | 2018-04-28 | 2024-02-20 | 芜湖美的厨卫电器制造有限公司 | Jet device and soft water valve |
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Legal Events
| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CX01 | Expiry of patent term |
Granted publication date: 20121107 |
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| CX01 | Expiry of patent term |