CN203855474U - Double-filtering single-killing process spring water production equipment control device - Google Patents
Double-filtering single-killing process spring water production equipment control device Download PDFInfo
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- CN203855474U CN203855474U CN201420146579.8U CN201420146579U CN203855474U CN 203855474 U CN203855474 U CN 203855474U CN 201420146579 U CN201420146579 U CN 201420146579U CN 203855474 U CN203855474 U CN 203855474U
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Abstract
The utility model relates to a control device and in particular relates to a double-filtering single-killing process spring water production equipment control device. The double-filtering single-killing process spring water production equipment control device comprises a raw water tank (1), a raw water pump (2), a primary filter A (3), a primary filter B (4), a primary filter water outlet valve (5), a micro filter A (6), a micro filter B (7), a micro filtration water outlet valve (8), an ultrafilter A (9), an ultrafilter B (10), an ultrafiltration water outlet valve (11), a sterilization device (12), a filling line (13) and a controller (14). The device is low in investment and convenient to operate, automation of filter backwashing is realized, and manual labor is saved. The raw water is filtered by using the control device, and bacteria, sewage and the like in the raw water can be removed before filling due to primary filtration, micro filtration, ultrafiltration and sterilization, so that the quality of the spring water is guaranteed.
Description
Technical field
The utility model relates to a kind of control device, especially relates to two filters one and kills technique mineral water production equipment control device.
Background technology
Mineral water be naturally gush out from deep under ground or through artificial disclose, unpolluted underground mineral water; Contain a certain amount of mineral salt, trace element or carbon dioxide; Under normal conditions, dynamically relatively stable in natural fluctuation range such as its chemical composition, flow, water temperature.Mineral water will be through the step of filtration, sterilization before canned, and in the time filtering, to regularly anti-cleaning of strainer, anti-cleaning will have the water tank of cleaning and scavenging pump at present.
Summary of the invention
The utility model is for the deficiencies in the prior art, provide a kind of two filters one to kill technique mineral water production equipment control device, effectively solved two filters one and killed the problem that needs to clean water tank, flushing water pump and can not automatically control anti-scavenging period in technique mineral water production process.
For achieving the above object, the technical solution that the utility model adopts is:
Technique mineral water production equipment control device is killed in two filters one, comprises raw water box, raw water pump, A primary filter, B primary filter, initial filter outlet valve, A micro-strainer, B micro-strainer, micro-filtration outlet valve, A ultra-fine filter, B ultrasonic filter, ultrafiltration outlet valve, sterilizing unit, Bottling Line, controller; The water outlet of raw water box is connected by pipeline with the water-in of raw water pump;
The water-in of A primary filter, B primary filter is connected with the water outlet of raw water pump by pipeline, has respectively A water intaking valve, A pressure unit and B water intaking valve, B pressure unit on pipeline; The water outlet of A primary filter, B primary filter is connected with initial filter outlet valve by pipeline, has respectively C pressure unit and D pressure unit on pipeline; The sewage draining exit of A primary filter, B primary filter has respectively A wash water valve, B wash water valve;
The water-in of A micro-strainer, B micro-strainer is connected with initial filter outlet valve by pipeline, has respectively C water intaking valve, E pressure unit and D water intaking valve, F pressure unit on pipeline; The water outlet of A micro-strainer, B micro-strainer is connected with micro-filtration outlet valve by pipeline, has respectively G pressure unit and H pressure unit on pipeline; The sewage draining exit of A micro-strainer, B micro-strainer has respectively C wash water valve, D wash water valve;
The water-in of A ultra-fine filter, B ultrasonic filter is connected with micro-filtration outlet valve by pipeline, has respectively E water intaking valve, I pressure unit and F water intaking valve, J pressure unit on pipeline; The water outlet of A ultra-fine filter, B ultrasonic filter is connected with ultrafiltration outlet valve by pipeline, has respectively K pressure unit and L pressure unit on pipeline; The sewage draining exit of A ultra-fine filter, B ultrasonic filter has respectively E wash water valve, F wash water valve;
Ultrafiltration outlet valve is connected with sterilizing unit and Bottling Line successively by pipeline;
Raw water pump, initial filter outlet valve, micro-filtration outlet valve, ultrafiltration outlet valve, sterilizing unit, A water intaking valve, A pressure unit, B water intaking valve, B pressure unit, C pressure unit, D pressure unit, A wash water valve, B wash water valve, C water intaking valve, E pressure unit, D water intaking valve, F pressure unit, G pressure unit, H pressure unit, C wash water valve, D wash water valve, E water intaking valve, I pressure unit, F water intaking valve, J pressure unit, K pressure unit, L pressure unit, E wash water valve, F wash water valve is connected with controller by signal wire.
Described A primary filter, B primary filter are sand-bed filter or carbon filter or more medium filter.
Described A micro-strainer, B micro-strainer are sintering metal millipore filtration micro-strainer or inorganic microporous filter membrane micro-strainer or organic polymer millipore filtration micro-strainer.
Described A ultra-fine filter, B ultrasonic filter are plate-type hyperfiltration device or tubular ultrafilter or spiral wound device.
Described sterilizing unit is ozone-sterilizing device or ultraviolet sterilization apparatus.
Described controller is PLC controller.
Described initial filter outlet valve, micro-filtration outlet valve, ultrafiltration outlet valve, A water intaking valve, B water intaking valve, A wash water valve, B wash water valve, C water intaking valve, D water intaking valve, C wash water valve, D wash water valve, E water intaking valve, F water intaking valve, E wash water valve, F wash water valve are motorized valve.
When production, controller opens raw water pump, initial filter outlet valve, micro-filtration outlet valve, ultrafiltration outlet valve, sterilizing unit, A water intaking valve, B water intaking valve, C water intaking valve, D water intaking valve, close A wash water valve, B wash water valve, C wash water valve, D wash water valve; Former water from out entering A primary filter raw water box after raw water pump pressurization, B primary filter is preliminary filter after, enter A micro-strainer, B micro-strainer carries out after micro-filtration, enter A ultra-fine filter, B ultrasonic filter and carry out sterilization after ultrafiltration, it is filling that the water after filtration enters Bottling Line.
In the time that the numerical value of A pressure unit, C pressure unit reaches certain value, start the anti-A of cleaning primary filter, controller opens A wash water valve, cuts out A water intaking valve, initial filter outlet valve; Former water enters in B primary filter and carries out initial filter, and the water after initial filter is back to A primary filter from the water outlet of A primary filter, and the impurity under filtering in A primary filter is discharged from A wash water valve.After certain hour, controller opens A water intaking valve, initial filter outlet valve, close A wash water valve, completes the anti-cleaning of A primary filter.
In the time that the numerical value of B pressure unit, D pressure unit reaches certain value, start the anti-B of cleaning primary filter, controller opens B wash water valve, cuts out B water intaking valve, initial filter outlet valve; Former water enters in A primary filter and carries out initial filter, and the water after initial filter is back to B primary filter from the water outlet of B primary filter, and the impurity under filtering in B primary filter is discharged from B wash water valve.After certain hour, controller opens B water intaking valve, initial filter outlet valve, close B wash water valve, completes the anti-cleaning of B primary filter.
In like manner, when the pressure value before and after A micro-strainer, B micro-strainer, A ultra-fine filter, B ultrasonic filter reaches certain value, controller carries out opening and closing operations to corresponding valve, anti-cleaning.
the beneficial effects of the utility model:
1, the utility model is without anti-retention basin, the reduced investment of cleaning.
2, the utility model, without anti-flushing water pump, cleans strainer is counter by the switching of each valve, easy to operate.
3, the utility model is intake and water outlet pressure force measurement to strainer by pressure unit, thereby controller is controlled the switching of each valve, has realized the anti-automatization of cleaning of strainer, has saved manpower.
4, former water filters with the utility model, because having initial filter, micro-filtration, ultrafiltration to filter and sterilization for three times, can be by bacterium, the dirt etc. of former water in filling front removal, thus ensure the quality of mineral water.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Water (flow) direction schematic diagram when Fig. 2 is of the present utility model production.
1-raw water box, 2-raw water pump, 3-A primary filter, 4-B primary filter, 5-initial filter outlet valve, 6-A micro-strainer, 7-B micro-strainer, 8-micro-filtration outlet valve, 9-A ultra-fine filter, 10-B ultra-fine filter, 11-ultrafiltration outlet valve, 12-sterilizing unit, 13-Bottling Line, 14-controller, 15-A water intaking valve, 16-A pressure unit, 17-B water intaking valve, 18-B pressure unit, 19-C pressure unit, 20-D pressure unit, 21-A wash water valve, 22-B wash water valve, 23-C water intaking valve, 24-E pressure unit, 25-D water intaking valve, 26-F pressure unit, 27-G pressure unit, 28-H pressure unit, 29-C wash water valve, 30-D wash water valve, 31-E water intaking valve, 32-I pressure unit, 33-F water intaking valve, 34-J pressure unit, 35-K pressure unit, 36-L pressure unit, 37-E wash water valve, 38-F wash water valve.
Specific embodiment
embodiment 1
As shown in Figure 1 and Figure 2, technique mineral water production equipment control device is killed in two filters one, comprises raw water box 1, raw water pump 2, A primary filter 3, B primary filter 4, initial filter outlet valve 5, A micro-strainer 6, B micro-strainer 7, micro-filtration outlet valve 8, A ultra-fine filter 9, B ultrasonic filter 10, ultrafiltration outlet valve 11, sterilizing unit 12, Bottling Line 13, controller 14; The water outlet of raw water box 1 is connected by pipeline with the water-in of raw water pump 2;
The water-in of A primary filter 3, B primary filter 4 is connected with the water outlet of raw water pump 2 by pipeline, has respectively A water intaking valve 15, A pressure unit 16 and B water intaking valve 17, B pressure unit 18 on pipeline; The water outlet of A primary filter 3, B primary filter 4 is connected with initial filter outlet valve 5 by pipeline, has respectively C pressure unit 19 and D pressure unit 20 on pipeline; The sewage draining exit of A primary filter 3, B primary filter 4 has respectively A wash water valve 21, B wash water valve 22;
The water-in of A micro-strainer 6, B micro-strainer 7 is connected with initial filter outlet valve 5 by pipeline, has respectively C water intaking valve 23, E pressure unit 24 and D water intaking valve 25, F pressure unit 26 on pipeline; The water outlet of A micro-strainer 6, B micro-strainer 7 is connected with micro-filtration outlet valve 8 by pipeline, has respectively G pressure unit 27 and H pressure unit 28 on pipeline; The sewage draining exit of A micro-strainer 6, B micro-strainer 7 has respectively C wash water valve 29, D wash water valve 30;
The water-in of A ultra-fine filter 9, B ultrasonic filter 10 is connected with micro-filtration outlet valve 8 by pipeline, has respectively E water intaking valve 31, I pressure unit 32 and F water intaking valve 33, J pressure unit 34 on pipeline; The water outlet of A ultra-fine filter 9, B ultrasonic filter 10 is connected with ultrafiltration outlet valve 11 by pipeline, has respectively K pressure unit 35 and L pressure unit 36 on pipeline; The sewage draining exit of A ultra-fine filter 9, B ultrasonic filter 10 has respectively E wash water valve 37, F wash water valve 38;
Ultrafiltration outlet valve 11 is connected with sterilizing unit 12 and Bottling Line 13 successively by pipeline;
Raw water pump 2, initial filter outlet valve 5, micro-filtration outlet valve 8, ultrafiltration outlet valve 11, sterilizing unit 12, A water intaking valve 15, A pressure unit 16, B water intaking valve 17, B pressure unit 18, C pressure unit 19, D pressure unit 20, A wash water valve 21, B wash water valve 22, C water intaking valve 23, E pressure unit 24, D water intaking valve 25, F pressure unit 26, G pressure unit 27, H pressure unit 28, C wash water valve 29, D wash water valve 30, E water intaking valve 31, I pressure unit 32, F water intaking valve 33, J pressure unit 34, K pressure unit 35, L pressure unit 36, E wash water valve 37, F wash water valve 38 is connected with controller 14 by signal wire.
Described A primary filter 3, B primary filter 4 are sand-bed filter.
Described A micro-strainer 6, B micro-strainer 7 are sintering metal millipore filtration micro-strainer.
Described A ultra-fine filter 9, B ultrasonic filter 10 are plate-type hyperfiltration device.
Described sterilizing unit 12 is ozone-sterilizing device.
Described controller 14 is PLC controller.
Described initial filter outlet valve 5, micro-filtration outlet valve 8, ultrafiltration outlet valve 11, A water intaking valve 15, B water intaking valve 17, A wash water valve 21, B wash water valve 22, C water intaking valve 23, D water intaking valve 25, C wash water valve 29, D wash water valve 30, E water intaking valve 31, F water intaking valve 33, E wash water valve 37, F wash water valve 38 are motorized valve.
When production, controller 14 is opened raw water pump 2, initial filter outlet valve 5, micro-filtration outlet valve 8, ultrafiltration outlet valve 11, sterilizing unit 12, A water intaking valve 15, B water intaking valve 17, C water intaking valve 23, D water intaking valve 25, closes A wash water valve 21, B wash water valve 22, C wash water valve 29, D wash water valve 30; Former water from out entering after A primary filter 3, the preliminary filtration of B primary filter 4 raw water box 1 after raw water pump 2 pressurizations, enter A micro-strainer 6, B micro-strainer 7 carries out after micro-filtration, enter A ultra-fine filter 9, B ultrasonic filter 10 and carry out sterilization after ultrafiltration, it is filling that the water after filtration enters Bottling Line 13.
In the time that the numerical value of A pressure unit 16, C pressure unit 19 reaches certain value, start the anti-A of cleaning primary filter 3, controller 14 is opened A wash water valve 21, closes A water intaking valve 15, initial filter outlet valve 5; Former water enters in B primary filter 4 and carries out initial filter, and the water after initial filter is back to A primary filter 3 from the water outlet of A primary filter 3, and the impurity under filtering in A primary filter 3 is discharged from A wash water valve 21.After certain hour, controller 14 is opened A water intaking valve 15, initial filter outlet valve 5, closes A wash water valve 21, completes the anti-cleaning of A primary filter 3.
In the time that the numerical value of B pressure unit 18, D pressure unit 20 reaches certain value, start the anti-B of cleaning primary filter 4, controller 14 is opened B wash water valve 22, closes B water intaking valve 17, initial filter outlet valve 5; Former water enters in A primary filter 3 and carries out initial filter, and the water after initial filter is back to B primary filter 4 from the water outlet of B primary filter 4, and the impurity under filtering in B primary filter 4 is discharged from B wash water valve 22.After certain hour, controller 14 is opened B water intaking valve 17, initial filter outlet valve 5, closes B wash water valve 22, completes the anti-cleaning of B primary filter 4.
In like manner, in the time that the pressure value of A micro-strainer 6, B micro-strainer 7, A ultra-fine filter 9, B ultrasonic filter 10 front and back reaches certain value, controller 14 carries out opening and closing operations to corresponding valve, anti-cleaning.
embodiment 2
Embodiment is as embodiment 1, and difference is that described A primary filter, B primary filter are carbon filter.Described A micro-strainer, B micro-strainer are inorganic microporous filter membrane micro-strainer.Described A micro-strainer, B micro-strainer are inorganic microporous filter membrane micro-strainer.Described A ultra-fine filter, B ultrasonic filter are tubular ultrafilter.
embodiment 3
Embodiment is as embodiment 1, and difference is that described A primary filter, B primary filter are more medium filter.Described A micro-strainer, B micro-strainer are organic polymer millipore filtration micro-strainer.Described sterilizing unit is ultraviolet sterilization apparatus.Described A micro-strainer, B micro-strainer are organic polymer millipore filtration micro-strainer.Described A ultra-fine filter, B ultrasonic filter are spiral wound device.Described sterilizing unit is ultraviolet sterilization apparatus.
Claims (7)
1. technique mineral water production equipment control device is killed in two filters one, it is characterized in that, comprise raw water box (1), raw water pump (2), A primary filter (3), B primary filter (4), initial filter outlet valve (5), A micro-strainer (6), B micro-strainer (7), micro-filtration outlet valve (8), A ultra-fine filter (9), B ultrasonic filter (10), ultrafiltration outlet valve (11), sterilizing unit (12), Bottling Line (13), controller (14); The water outlet of raw water box (1) is connected by pipeline with the water-in of raw water pump (2);
The water-in of A primary filter (3), B primary filter (4) is connected with the water outlet of raw water pump (2) by pipeline, has respectively A water intaking valve (15), A pressure unit (16) and B water intaking valve (17), B pressure unit (18) on pipeline; The water outlet of A primary filter (3), B primary filter (4) is connected with initial filter outlet valve (5) by pipeline, has respectively C pressure unit (19) and D pressure unit (20) on pipeline; The sewage draining exit of A primary filter (3), B primary filter (4) has respectively A wash water valve (21), B wash water valve (22);
The water-in of A micro-strainer (6), B micro-strainer (7) is connected with initial filter outlet valve (5) by pipeline, has respectively C water intaking valve (23), E pressure unit (24) and D water intaking valve (25), F pressure unit (26) on pipeline; The water outlet of A micro-strainer (6), B micro-strainer (7) is connected with micro-filtration outlet valve (8) by pipeline, has respectively G pressure unit (27) and H pressure unit (28) on pipeline; The sewage draining exit of A micro-strainer (6), B micro-strainer (7) has respectively C wash water valve (29), D wash water valve (30);
The water-in of A ultra-fine filter (9), B ultrasonic filter (10) is connected with micro-filtration outlet valve (8) by pipeline, has respectively E water intaking valve (31), I pressure unit (32) and F water intaking valve (33), J pressure unit (34) on pipeline; The water outlet of A ultra-fine filter (9), B ultrasonic filter (10) is connected with ultrafiltration outlet valve (11) by pipeline, has respectively K pressure unit (35) and L pressure unit (36) on pipeline; The sewage draining exit of A ultra-fine filter (9), B ultrasonic filter (10) has respectively E wash water valve (37), F wash water valve (38);
Ultrafiltration outlet valve (11) is connected with sterilizing unit (12) and Bottling Line (13) successively by pipeline;
Raw water pump (2), initial filter outlet valve (5), micro-filtration outlet valve (8), ultrafiltration outlet valve (11), sterilizing unit (12), A water intaking valve (15), A pressure unit (16), B water intaking valve (17), B pressure unit (18), C pressure unit (19), D pressure unit (20), A wash water valve (21), B wash water valve (22), C water intaking valve (23), E pressure unit (24), D water intaking valve (25), F pressure unit (26), G pressure unit (27), H pressure unit (28), C wash water valve (29), D wash water valve (30), E water intaking valve (31), I pressure unit (32), F water intaking valve (33), J pressure unit (34), K pressure unit (35), L pressure unit (36), E wash water valve (37), F wash water valve (38) is connected with controller (14) by signal wire.
2. technique mineral water production equipment control device is killed in two filters one according to claim 1, it is characterized in that, described A primary filter (3), B primary filter (4) are sand-bed filter or carbon filter or more medium filter.
3. technique mineral water production equipment control device is killed in two filters one according to claim 1 and 2, it is characterized in that, described A micro-strainer (6), B micro-strainer (7) are sintering metal millipore filtration micro-strainer or inorganic microporous filter membrane micro-strainer or organic polymer millipore filtration micro-strainer.
4. technique mineral water production equipment control device is killed in two filters one according to claim 1 and 2, it is characterized in that, described A ultra-fine filter (9), B ultrasonic filter (10) are plate-type hyperfiltration device or tubular ultrafilter or spiral wound device.
5. technique mineral water production equipment control device is killed in two filters one according to claim 1 and 2, it is characterized in that, described sterilizing unit (12) is ozone-sterilizing device or ultraviolet sterilization apparatus.
6. technique mineral water production equipment control device is killed in two filters one according to claim 1 and 2, it is characterized in that, described controller (14) is PLC controller.
7. technique mineral water production equipment control device is killed in two filters one according to claim 1 and 2, it is characterized in that, described initial filter outlet valve (5), micro-filtration outlet valve (8), ultrafiltration outlet valve (11), A water intaking valve (15), B water intaking valve (17), A wash water valve (21), B wash water valve (22), C water intaking valve (23), D water intaking valve (25), C wash water valve (29), D wash water valve (30), E water intaking valve (31), F water intaking valve (33), E wash water valve (37), F wash water valve (38) are motorized valve.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420146579.8U CN203855474U (en) | 2014-03-29 | 2014-03-29 | Double-filtering single-killing process spring water production equipment control device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420146579.8U CN203855474U (en) | 2014-03-29 | 2014-03-29 | Double-filtering single-killing process spring water production equipment control device |
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| CN203855474U true CN203855474U (en) | 2014-10-01 |
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| CN201420146579.8U Expired - Fee Related CN203855474U (en) | 2014-03-29 | 2014-03-29 | Double-filtering single-killing process spring water production equipment control device |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105084624A (en) * | 2015-09-09 | 2015-11-25 | 广东天美富硒饮品有限公司 | Mineral water disinfection method |
| CN106336060A (en) * | 2016-10-20 | 2017-01-18 | 绥江县绥源食品有限责任公司 | Mountain spring water production process |
-
2014
- 2014-03-29 CN CN201420146579.8U patent/CN203855474U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105084624A (en) * | 2015-09-09 | 2015-11-25 | 广东天美富硒饮品有限公司 | Mineral water disinfection method |
| CN106336060A (en) * | 2016-10-20 | 2017-01-18 | 绥江县绥源食品有限责任公司 | Mountain spring water production process |
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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: 20141001 Termination date: 20150329 |
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| EXPY | Termination of patent right or utility model |