CN219409311U - Full-automatic intelligent control water treatment dosing system - Google Patents

Abstract

The utility model discloses a full-automatic intelligent control water treatment dosing system, which belongs to the technical field of tap water treatment and comprises a sampling device, a dispensing pipeline, a dosing pipeline and an intelligent control cabinet, wherein the sampling device comprises sampling points, and the sampling points comprise a source water tank and a clean water tank. Through intelligent control cabinet, first stirring pond, the second stirring pond, first delivery pump, the second delivery pump, first medicine storage tank, first charge pump, the setting of second charge pump, first flowmeter and second flowmeter etc., realize peeling off the process of will dispensing alone and realize semi-automatic operation through automated means, other full automatic operation in process, the manual work link of dosing in-process has significantly reduced, make the liquid medicine dosing developments follow the ability of sampling quality of water greatly improved, the water treatment ability is stronger, the cost of labor is lower, the liquid medicine utilization ratio is higher, operation management is simpler easy.

Description

Full-automatic intelligent control water treatment dosing system

Technical Field

The utility model relates to the technical field of tap water treatment, in particular to a full-automatic intelligent control water treatment dosing system.

Background

In the water treatment industry, especially in a water works, the traditional dosing mode is realized by manual work, namely, water samples are detected manually, dosing amount is calculated manually according to the water samples, medicament proportion is calculated manually, and dosing operation is performed manually by operating equipment. The dosing mode has the advantages of more links from water sample detection to dosing, long period, serious hysteresis, serious dependence on manpower, low automation degree, poor dosing effect and obvious water quality fluctuation.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a full-automatic intelligent control water treatment dosing system, which has the characteristics of high automation degree and good dosing effect.

(2) Technical proposal

In order to achieve the above purpose, the utility model provides a full-automatic intelligent control water treatment dosing system, which comprises a sampling device, a dispensing pipeline, a dosing pipeline and an intelligent control cabinet, wherein the sampling device comprises a sampling point, the sampling point comprises a source water tank and a clean water tank, the dispensing pipeline comprises a first stirring tank, a second stirring tank, a first medicine storage tank and a second medicine storage tank, an outlet of the first stirring tank is communicated with an inlet of the first medicine storage tank through a first conveying pump and a pipeline, an outlet of the second stirring tank is communicated with an inlet of the second medicine storage tank through a second conveying pump and a pipeline, a first valve and a second valve are respectively arranged on an outlet of the first stirring tank and an outlet of the second stirring tank, a third valve and a fourth valve are respectively arranged on an inlet of the first medicine storage tank and an inlet of the second medicine storage tank, the dosing pipeline comprises a dosing point, an outlet of the first medicine storage tank is communicated with an inlet of the first medicine storage tank through a first dosing pump, a first flowmeter and a pipeline, an outlet of the second medicine storage tank is communicated with an outlet of the second medicine storage tank through a second pipeline and a seventh valve and an outlet of the second pump.

When the full-automatic intelligent control water treatment dosing system adopting the technical scheme is used, the dosing process is independently stripped off and semi-automatic operation is realized by an automatic means, and other processes are fully-automatic operation, so that the manual links in the dosing process are greatly reduced, the capability of dynamically following the sampled water quality of the liquid medicine dosing is greatly improved, the water treatment capability is stronger, the labor cost is lower, and the liquid medicine utilization rate is higher.

Further, the first stirring tank, the second stirring tank, the first medicine storage tank and the second medicine storage tank are all provided with liquid level sensors.

Further, a fifth valve is communicated between the first delivery pump outlet and the second delivery pump outlet through a pipeline, and a sixth valve is communicated between the first delivery pump inlet and the second delivery pump inlet through a pipeline.

Further, a ninth valve is communicated between the inlet of the first dosing pump and the inlet of the second dosing pump through a pipeline.

Further, the intelligent control cabinet is electrically connected with the first delivery pump, the second delivery pump, the first dosing pump, the second dosing pump, the first valve, the second valve, the third valve, the fourth valve, the fifth valve, the sixth valve, the seventh valve, the eighth valve, the ninth valve, the first flowmeter, the second flowmeter and the liquid level sensor through wires respectively.

(3) Advantageous effects

In summary, the utility model has the following beneficial effects:

1. through intelligent control cabinet, first stirring pond, the second stirring pond, first delivery pump, the second delivery pump, first medicine storage tank, first charge pump, the setting of second charge pump, first flowmeter and second flowmeter etc., realize peeling off the process of will dispensing alone and realize semi-automatic operation through automated means, other full automatic operation in process, the manual work link of dosing in-process has significantly reduced, make the liquid medicine dosing developments follow the ability of sampling quality of water greatly improved, the water treatment ability is stronger, the cost of labor is lower, the liquid medicine utilization ratio is higher, operation management is simpler easy.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the description of the embodiments or the prior art will be briefly described, and it is apparent that the drawings in the following description are only one embodiment of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a system flow structure according to the present utility model;

FIG. 2 is a schematic diagram of a dispensing line in accordance with the present utility model;

FIG. 3 is a schematic view of the structure of the feeding pipeline in the present utility model.

The marks in the drawings are:

1. a first stirring tank; 2. a second stirring tank; 3. a first valve; 4. a second valve; 5. a first transfer pump; 6. a second transfer pump; 7. a third valve; 8. a fourth valve; 9. a fifth valve; 10. a sixth valve; 11. a first medicine storage tank; 12. a second drug storage canister; 13. sampling points; 14. an intelligent control cabinet; 15. a seventh valve; 16. an eighth valve; 17. a ninth valve; 18. a first dosing pump; 19. a second dosing pump; 20. a first flowmeter; 21. a second flowmeter; 22. a feeding point; 23. a dispensing pipeline; 24. a feeding pipeline; 25. and a sampling device.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the present utility model easy to understand, the technical solutions in the embodiments of the present utility model are clearly and completely described below to further illustrate the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, not all versions.

Examples:

the utility model is described in further detail below with reference to fig. 1-3.

Referring to fig. 1-3, the present utility model provides a technical solution: a full-automatic intelligent control water treatment dosing system comprises a sampling device 25, a dispensing pipeline 23, a dosing pipeline 24 and an intelligent control cabinet 14, wherein the sampling device 25 comprises a sampling point 13, the sampling point 13 comprises a source water tank and a clean water tank, the dispensing pipeline 23 comprises a first stirring tank 1, a second stirring tank 2, a first medicine storage tank 11 and a second medicine storage tank 12, an outlet of the first stirring tank 1 is communicated with an inlet of the first medicine storage tank 11 through a first conveying pump 5 and a pipeline, an outlet of the second stirring tank 2 is communicated with an inlet of the second medicine storage tank 12 through a second conveying pump 6 and a pipeline, a first valve 3 and a second valve 4 are respectively arranged on an outlet of the first stirring tank 1 and an outlet of the second stirring tank 2, a third valve 7 and a fourth valve 8 are respectively arranged on an inlet of the first medicine storage tank 11 and an inlet of the second medicine storage tank 12, the dosing pipeline 24 comprises a dosing point 22, the outlet of the first medicine storage tank 11 is communicated with the adding point 22 through the first medicine adding pump 18, the first flowmeter 20 and a pipeline, the outlet of the second medicine storage tank 12 is communicated with the adding point 22 through the second medicine adding pump 19, the second flowmeter 21 and a pipeline, the outlet of the first medicine storage tank 11 and the outlet of the second medicine storage tank 12 are respectively provided with a seventh valve 15 and an eighth valve 16, through the arrangement of the intelligent control cabinet 14, the first stirring tank 1, the second stirring tank 2, the first conveying pump 5, the second conveying pump 6, the first medicine storage tank 11, the first medicine adding pump 18, the second medicine adding pump 19, the first flowmeter 20, the second flowmeter 21 and the like, the automatic separation of the medicine dispensing process is realized, the semiautomatic operation is realized, the full-automatic operation of other processes is realized, the manual links in the medicine adding process are greatly reduced, the capacity of the medicine liquid for dynamically following the sampling water quality is greatly improved, the water treatment capacity is more enhanced, the labor cost is lower, the liquid medicine utilization rate is higher, and the operation management is simpler and easier to use.

Specifically, the first stirring tank 1, the second stirring tank 2, the first medicine storage tank 11 and the second medicine storage tank 12 are all provided with liquid level sensors, a fifth valve 9 is communicated between an outlet of the first conveying pump 5 and an outlet of the second conveying pump 6 through a pipeline, a sixth valve 10 is communicated between an inlet of the first conveying pump 5 and an inlet of the second conveying pump 6 through a pipeline, a ninth valve 17 is communicated between an inlet of the first medicine adding pump 18 and an inlet of the second medicine adding pump 19 through a pipeline, and the intelligent control cabinet 14 is respectively and electrically connected with the first conveying pump 5, the second conveying pump 6, the first medicine adding pump 18, the second medicine adding pump 19, the first valve 3, the second valve 4, the third valve 7, the fourth valve 8, the fifth valve 9, the sixth valve 10, the seventh valve 15, the eighth valve 16, the ninth valve 17, the first flowmeter 20, the second flowmeter 21 and the liquid level sensors through wires.

Through adopting above-mentioned technical scheme, the liquid level sensor of the inside of first stirring pond 1, second stirring pond 2, first storage tank 11 and second storage tank 12 is convenient for real-time supervision liquid level, fifth valve 9 and sixth valve 10 are convenient for arbitrary one delivery pump carry the liquid medicine in the arbitrary one stirring pond to arbitrary one storage tank in, ninth valve 17 is convenient for arbitrary one charge pump is thrown the liquid medicine of arbitrary one storage tank inside and is thrown in the point of throwing 22, intelligent control cabinet 14 is convenient for carry out automatic control operation to the electronic component in the water treatment dosing system and realizes with the interconnection interaction of operator through computer, touch-sensitive screen.

The working principle of the utility model is as follows: when the intelligent control cabinet is used, data such as flow, turbidity, pH value of a source water tank, flow, turbidity, pH value, residual chlorine and the like of a clean water tank are collected and stored in the intelligent control cabinet 14, a dispensing part independently operates as a whole, for example, when the liquid level of the first medicine storage tank 11 is lower than a set value, dispensing is started, a touch screen and a computer alarm on the intelligent control cabinet 14 prompt that the liquid level of the first medicine storage tank 11 is low, meanwhile, the first medicine adding pump 18 is automatically switched to the second medicine adding pump 19, the seventh valve 15 is closed, the eighth valve 16 is opened, after a dispensing person pours quantitative powder into the first stirring tank 1, a button is clicked on a computer or the touch screen to start a dispensing program of the first stirring tank 1 and a medicine supplementing program of the first medicine storage tank 11, the first valve 3, the second valve 4, the third valve 7, the fourth valve 8, the fifth valve 9 and the sixth valve 10 are closed, a stirrer and a water adding valve in the first stirring tank 1 are simultaneously opened, stirring is realized, stirring is stopped after stirring is started for 15 minutes, and stirring is started again after stirring is started after 5 minutes. When the liquid level is supplemented to the set value, the first valve 3 and the third valve 7 are opened, the first delivery pump 5 is started, the liquid medicine in the first stirring tank 1 is delivered to the first medicine storage tank 11 through the first delivery pump 5, meanwhile, a stirrer and a water adding valve on the first medicine storage tank 11 are opened, when the liquid level of the first stirring tank 1 is lower than the set value, the first delivery pump 5 is stopped, the first valve 3 and the third valve 7 are closed, when the liquid level of the first medicine storage tank 11 is higher than the set value, the water adding valve of the first medicine storage tank 11 is closed, the stirrer of the first medicine storage tank 11 is used for stirring according to the set time, the intelligent control cabinet 14 automatically controls the first medicine storage tank 11 to be diluted to the formula concentration, so that the medicine in the first medicine storage tank 11 and the second medicine storage tank 12 are fully matched before the medicine is added, and when the medicine is required to be added, a computer screen is switched according to whether the liquid level of the first medicine adding pump 18, the second medicine adding pump 19, the seventh valve 15 and the eighth valve 16 are automatically opened on the first medicine storage tank 11 or the computer screen 17 according to the set value. The first and second dosing pumps 18, 19 are controlled by frequency converters to automatically adjust the flow rates of the first and second flow meters 20, 21, which is a constant flow rate control mode. When the flow rates of the first flow meter 20 and the second flow meter 21 are not fixed, the dosing amount is calculated according to the formula of flow rate = dosing amount x source water flow rate +.a concentration of the medicine storage tank, wherein the dosing amount is manually set by an operator on a computer screen or is equal to the source water turbidity multiplied by a proportionality coefficient, when the working condition is stable, the automatic operation is started, the operator only needs to monitor the computer screen to remind the medicine dispensing operator to dispense medicine and cope with emergency, and therefore the dosing amount is dynamically adjusted according to data in a sampling process.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (5)

1. The utility model provides a full-automatic intelligent control water treatment dosing system, includes sampling device (25), dispensing pipeline (23), throw adding pipeline (24) and intelligent control cabinet (14), its characterized in that: the sampling device (25) comprises a sampling point (13), the sampling point (13) comprises a source water tank and a clear water tank, the dispensing pipeline (23) comprises a first stirring tank (1), a second stirring tank (2), a first medicine storage tank (11) and a second medicine storage tank (12), the outlet of the first stirring tank (1) is communicated with the inlet of the first medicine storage tank (11) through a first delivery pump (5) and a pipeline, the outlet of the second stirring tank (2) is communicated with the inlet of the second medicine storage tank (12) through a second delivery pump (6) and a pipeline, the outlet of the first stirring tank (1) is respectively provided with a first valve (3) and a second valve (4) on the outlet of the second stirring tank (2), the inlet of the first medicine storage tank (11) is respectively provided with a third valve (7) and a fourth valve (8) on the inlet of the second medicine storage tank (12), the feeding pipeline (24) comprises a feeding point (22), the outlet of the first medicine storage tank (11) is communicated with a first feeding meter (21) through a first feeding pump (22) and a second flowmeter (19) and a second flowmeter (21), the outlet of the first medicine storage tank (11) and the outlet of the second medicine storage tank (12) are respectively provided with a seventh valve (15) and an eighth valve (16).

2. The fully automatic intelligent control water treatment dosing system according to claim 1, wherein: the first stirring tank (1), the second stirring tank (2), the first medicine storage tank (11) and the second medicine storage tank (12) are respectively provided with a liquid level sensor.

3. The fully automatic intelligent control water treatment dosing system according to claim 1, wherein: a fifth valve (9) is communicated between the outlet of the first conveying pump (5) and the outlet of the second conveying pump (6) through a pipeline, and a sixth valve (10) is communicated between the inlet of the first conveying pump (5) and the inlet of the second conveying pump (6) through a pipeline.

4. The fully automatic intelligent control water treatment dosing system according to claim 1, wherein: a ninth valve (17) is communicated between the inlet of the first dosing pump (18) and the inlet of the second dosing pump (19) through a pipeline.

5. The fully automatic intelligent control water treatment dosing system according to claim 1, wherein: the intelligent control cabinet (14) is electrically connected with the first delivery pump (5), the second delivery pump (6), the first dosing pump (18), the second dosing pump (19), the first valve (3), the second valve (4), the third valve (7), the fourth valve (8), the fifth valve (9), the sixth valve (10), the seventh valve (15), the eighth valve (16), the ninth valve (17), the first flowmeter (20), the second flowmeter (21) and the liquid level sensor through wires respectively.