CN211312684U - Water supply system with filtering capability - Google Patents

Abstract

The utility model relates to a water supply system with filtering capability, including subsiding the mechanism, it includes upper end open-ended settling basin to subside the mechanism, the outside of settling basin is provided with first pipeline, install first pneumatic diaphragm pump on the first pipeline, first pneumatic diaphragm pump carries the settling basin top with the water in the water source through first pipeline, there is the second pipeline settling basin outside right side, second pipeline left end inserts in the settling basin from the settling basin upper end, install the pneumatic diaphragm pump of second on the second pipeline, the second pipeline feeds through filtering mechanism, filtering mechanism includes the filtering ponds, the second pipeline feeds through the filtering ponds upper end, the inside from the top down level in proper order of filtering ponds is provided with cotton filter layer of PP and active carbon filter layer, the third delivery port has been seted up to the filtering ponds lower extreme, third delivery port intercommunication has the third pipeline, be provided with the pneumatic diaphragm pump of third on the third pipeline.

Description

Water supply system with filtering capability

Technical Field

The utility model relates to a water supply equipment field especially relates to a water supply system with filtering capability.

Background

In the industrial production process of the alumina ceramics, a large amount of water is often needed to participate in production through a water supply system, and a factory is cost-saving, so that the water can be sourced from natural water sources such as riverways and lakes, impurities are inevitably carried in the water sources, the impurities in the water sources can damage the quality of the alumina ceramics, and the impurities carried in the water bodies need to be filtered before the water is provided for the production of the alumina, so that the development of the water supply system with the filtering function is particularly necessary.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water supply system with filtering capability can filter water.

The technical scheme is as follows:

the utility model provides a water supply system with filtering capability, including subsiding the mechanism, it includes upper end open-ended settling basin to subside the mechanism, the outside of settling basin is provided with first pipeline, install first pneumatic diaphragm pump on the first pipeline, first pneumatic diaphragm pump carries the settling basin top with the water in the water source through first pipeline, there is the second pipeline settling basin outside right side, the second pipeline left end inserts in the settling basin from the settling basin upper end, install the pneumatic diaphragm pump of second on the second pipeline, the second pipeline communicates filtering mechanism, filtering mechanism includes the filtering ponds, the second pipeline communicates the filtering ponds upper end, the inside from the top down of filtering ponds level in proper order has PP cotton filter layer and active carbon filter layer, the third delivery port has been seted up to the filtering ponds lower extreme, third delivery port intercommunication has the third pipeline, be provided with the pneumatic diaphragm pump of third on the third pipeline.

Preferably, the bottom end of the sedimentation tank is funnel-shaped with a large top and a small bottom.

Preferably, the bottom of the sedimentation tank is provided with a sewage draining outlet, and a cover is arranged on the sewage draining outlet.

Preferably, the interior of the sedimentation tank is horizontally provided with a coarse filter screen, and the second pipeline extends to the lower part of the coarse filter screen.

Preferably, a buffering mechanism is arranged in the sedimentation tank below the first water outlet and comprises a buffering disc which is conical and the pointed end of the buffering disc faces upwards.

Preferably, a PP cotton filter layer and an activated carbon filter layer are sequentially and horizontally arranged in the filter tank from top to bottom.

Preferably, the end of the third pipeline is communicated with a first tee joint, the two remaining ports of the first tee joint are respectively communicated with the upper transfer tank and the lower transfer tank, and a first electric butterfly valve and a second electric butterfly valve are respectively arranged at the water inlet outlet of the upper transfer tank and the water inlet outlet of the lower transfer tank.

Preferably, the lower end of the upper transfer tank is provided with a fourth water outlet which is communicated with a fourth pipeline, a fourth pneumatic diaphragm pump is arranged on the fourth pipeline, the tail end of the fourth pipeline is communicated with a second tee joint, the remaining two ports of the second tee joint are respectively communicated with a fifth pipeline and a first water return pipe, the first water return pipe is provided with a third electric butterfly valve, the fifth pipeline is provided with a fourth electric butterfly valve, and the first water return pipe is communicated with the filter tank; a fifth water outlet is formed in the lower end of the lower transfer tank, the fifth water outlet is communicated with a sixth pipeline, a fifth pneumatic diaphragm pump is arranged on the sixth pipeline, the tail end of the sixth pipeline is communicated with a fourth tee joint, the remaining two ports of the fourth tee joint are respectively communicated with a seventh pipeline and a second water return pipe, a fifth electric butterfly valve is arranged on the second water return pipe, and a sixth electric butterfly valve is arranged on the seventh pipeline; the second water return pipe is provided with a check valve which passes upwards, and the second water return pipe is communicated with the first water return pipe.

Preferably, the upper transfer tank and the lower transfer tank are both provided with an aquatic particulate matter detector.

Has the advantages that: the bottom end of the sedimentation tank is arranged in a funnel shape, so that the downward placement of water and the sedimentation of impurities in the water are facilitated; the arrangement of the sewage draining outlet is convenient for draining settled silt in the settling pond; the arrangement of the coarse filter screen can preliminarily filter impurities contained in water; the pneumatic diaphragm pump can pass through particles and has adjustable flow, and the pneumatic diaphragm pump automatically stops to be smooth when a pipeline is blocked; the arrangement of the buffer disc reduces the water fluctuation in the sedimentation tank and reduces the influence on the impurity sedimentation; the aquatic particulate matter detector and the setting of last transfer jar, lower transfer jar for there is sufficient time to carry out water quality testing under the prerequisite of guaranteeing to supply water in succession.

Drawings

FIG. 1 is a schematic structural diagram of a water supply system with a filtering function according to the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic diagram of the structure at B in FIG. 1;

fig. 4 is a schematic diagram of the structure at C in fig. 1.

Detailed Description

The utility model is further described with reference to the specific embodiment, as shown in fig. 1 to 4, a water supply system with filtering function comprises a sedimentation mechanism, the sedimentation mechanism comprises a sedimentation tank 1, the lower end of the sedimentation tank 1 is provided with supporting legs 2, the sedimentation tank 1 is a water tank with an opening at the upper end, the bottom end of the sedimentation tank 1 is funnel-shaped with a big top and a small bottom, the funnel-shaped arrangement is favorable for the downward flow of water and the sedimentation of impurities in water, the bottom of the sedimentation tank 1 is provided with a sewage discharge outlet 4, the upper cover of the sewage discharge outlet 4 is provided with a cover, the arrangement of the sewage discharge outlet 4 is convenient for discharging the sediment settled in the sedimentation tank 1, the interior of the sedimentation tank 1 is horizontally provided with a coarse strainer 5 from top to bottom in sequence, and the coarse strainer 5 and the arrangement can; a first pipeline 7 is arranged outside the sedimentation tank 1, a first pneumatic diaphragm pump 8 is arranged on the first pipeline 7, and the first pneumatic diaphragm pump 8 is the prior art and is not described again; the natural water source 9 may carry impurities, so that the pipeline is easy to block, the pneumatic diaphragm pump can pass through particles, the flow rate is adjustable, and the pipeline is automatically stopped to be smooth when being blocked; the first pneumatic diaphragm pump 8 conveys water in a water source 9 to the upper part of the sedimentation tank 1 through a first pipeline 7, a first water outlet at the tail end of the first pipeline 7 is vertically downward, a buffer mechanism is arranged in the sedimentation tank 1 below the first water outlet and comprises a conical buffer disc 10 with an upward pointed end, the edge of the buffer disc 10 is submerged below the liquid level of the sedimentation tank 1, the buffer disc 10 is fixedly arranged on the inner wall of the sedimentation tank 1 through bolts, water flowing out of the first water outlet impacts the buffer disc 10, and water flows into the sedimentation tank 1 along the periphery of the buffer disc 10, so that water fluctuation in the sedimentation tank 1 is reduced, and the influence on impurity sedimentation is reduced;

a second pipeline 11 is arranged on the right side outside the sedimentation tank, a second pneumatic diaphragm pump 12 is installed on the second pipeline 11, the left end of the second pipeline 11 is inserted into the sedimentation tank 1 from the upper end of the sedimentation tank 1 and extends to the position below the coarse filter screen 5, the right end of the second pipeline 11 is communicated with a filtering mechanism, the second pipeline 11 and the second pneumatic diaphragm pump 12 convey water in the sedimentation tank 1 to the filtering mechanism, the filtering mechanism comprises a filtering tank 13, the second pipeline 11 is communicated with the upper end of the filtering tank 13, a PP cotton filtering layer 14 and an active carbon filtering layer 15 are sequentially and horizontally arranged in the filtering tank 13 from top to bottom, and the PP cotton filtering layer 14 and the active carbon filtering layer 15 are both in the prior art and are not described again; the PP cotton filter layer 14 filters impurities with smaller particles in water, and the activated carbon filter layer 15 adsorbs impurities such as heterochrosis, peculiar smell, organic chemical substances and the like in the water; a third water outlet is formed in the lower end of the filtering tank 13, the third water outlet is communicated with a third pipeline 16, a third pneumatic diaphragm pump 17 is arranged on the third pipeline 16, the tail end of the third pipeline 16 is communicated with a first tee joint, the two remaining ports of the first tee joint are respectively communicated with an upper transfer tank 18 and a lower transfer tank 19, a first electric butterfly valve 20 and a second electric butterfly valve 21 are respectively arranged at the water inlets and the water outlets of the upper transfer tank 18 and the lower transfer tank 19, and the electric butterfly valves are not described again for the prior art; the upper transfer tank 18 and the lower transfer tank 19 are both provided with an underwater particulate matter detector 22, the underwater particulate matter detector 22 is the prior art and is not described herein again, and the underwater particulate matter detector 22 detects particulate matters in water;

a fourth water outlet is formed in the lower end of the upper transfer tank 18 and communicated with a fourth pipeline 23, a fourth pneumatic diaphragm pump 24 is arranged on the fourth pipeline 23, the tail end of the fourth pipeline 23 is communicated with a second tee joint, the remaining two ports of the second tee joint are respectively communicated with a fifth pipeline 25 and a first water return pipe 26, a third electric butterfly valve 27 is arranged on the first water return pipe 26, a fourth electric butterfly valve 28 is arranged on the fifth pipeline 25, and the first water return pipe 26 is communicated with the upper end of the filtering tank 13;

a fifth water outlet is formed in the lower end of the lower transit tank 19 and communicated with a sixth pipeline 29, a fifth pneumatic diaphragm pump 30 is arranged on the sixth pipeline 29, a fourth tee joint is communicated with the tail end of the sixth pipeline 29, the remaining two ports of the fourth tee joint are respectively communicated with a seventh pipeline 31 and a second water return pipe 32, a fifth electric butterfly valve 33 is arranged on the second water return pipe 32, and a sixth electric butterfly valve 34 is arranged on the seventh pipeline 31; the second water return pipe 32 is provided with a check valve 35 which passes upwards, the second water return pipe 32 is communicated with the first water return pipe 26, and the check valve 35 prevents water in the first water return pipe 26 from flowing into the second water return pipe 32; the fifth pipeline 25 and the seventh pipeline 31 are provided with a fifth tee 36 at the right end, and the fifth pipeline 25 and the seventh pipeline 31 are converged by the fifth tee 36.

The specific working process is as follows: starting a first pneumatic diaphragm pump 8, conveying water in a water source 9 to the upper part of a sedimentation tank 1 through a first pipeline 7, impacting the buffer disc 10 by the water to disperse the water into water flow, flowing into the sedimentation tank 1 along the periphery of the buffer disc 10, filtering larger impurities by a coarse filter 5 after the water enters the sedimentation tank 1, allowing the water to enter the bottom of the sedimentation tank 1 for sedimentation, conveying the settled water to a filter tank 13 through a second pipeline 11 and a second pneumatic diaphragm pump 12, filtering smaller-particle impurities in the water by a PP cotton filter layer 14, and adsorbing impurities such as heterochrosis, peculiar smell, organic chemical substances and the like in a water body by using an active carbon filter layer 15; then the water body flows into the first three-way under the action of the third pneumatic diaphragm pump 17 through the third water outlet, the first electric butterfly valve 20 is opened, the second electric butterfly valve 21 is closed, so that the water flows into the upper transfer tank 18, when the upper transfer tank 18 is full, the second electric butterfly valve 21 is opened, the first electric butterfly valve 20 is closed, so that the water flows into the lower transfer tank 19, when the water flows into the upper transfer tank 18 or the lower transfer tank 19, the particle content in the water is detected by the particle content detector 22 in the tank, when the water quality of the upper transfer tank 18 is qualified, the fourth electric butterfly valve 28 is opened, the third electric butterfly valve 27 is closed, the water in the upper transfer tank 18 flows into the fifth pipeline 25 under the action of the fourth pneumatic diaphragm pump 24, when the water quality of the upper transfer tank 18 is unqualified, the fourth electric butterfly valve 28 is closed, the third electric butterfly valve 27 is opened, the water in the upper transfer tank 18 flows into the first water return pipe 26 under the action of the fourth pneumatic diaphragm pump 24, then the water flows back into the filtering tank 13 for secondary filtering, when the water quality of the lower transfer tank 19 is qualified, the fifth electric butterfly valve 33 is opened, the sixth electric butterfly valve 34 is closed, the water in the lower transfer tank 19 flows into the seventh pipeline 31 under the action of the fifth pneumatic diaphragm pump 30, when the water quality of the lower transfer tank 19 is unqualified, the fifth electric butterfly valve 33 is closed, the sixth electric butterfly valve 34 is opened, the water in the upper transfer tank 18 flows into the second water return pipe 32 under the action of the fifth pneumatic diaphragm pump 30, then flows back into the first water return pipe 26 for secondary filtering, the fifth pipeline 25 and the seventh pipeline 31 are converged through a fifth tee joint 36 and then are conveyed to a water-using device, and the upper transfer tank 18 and the lower transfer tank 19 are alternately used, so that the water quality detection can be carried out in enough time on the premise of ensuring continuous water supply.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (9)

1. A water supply system with filtering capability which characterized in that: including subsiding the mechanism, it includes upper end open-ended sedimentation tank to subside the mechanism, the outside of sedimentation tank is provided with first pipeline, install first pneumatic diaphragm pump on the first pipeline, first pneumatic diaphragm pump carries the sedimentation tank top with the water in the water source through first pipeline, there is the second pipeline sedimentation tank outside right side, the second pipeline left end inserts in the sedimentation tank from the sedimentation tank upper end, install second pneumatic diaphragm pump on the second pipeline, the second pipeline communicates filtering mechanism, filtering mechanism includes the filtering ponds, the second pipeline communicates the filtering ponds upper end, the inside from the top down level in proper order of filtering ponds has PP cotton filter layer and active carbon filter layer, the third delivery port has been seted up to the filtering ponds lower extreme, third delivery port intercommunication has the third pipeline, be provided with the pneumatic diaphragm pump of third on the third pipeline.

2. A water supply system with a filtering function as claimed in claim 1, wherein: the bottom end of the sedimentation tank is funnel-shaped with a large upper part and a small lower part.

3. A water supply system with a filtering function as claimed in claim 1, wherein: the bottom of the sedimentation tank is provided with a sewage outlet, and the upper cover of the sewage outlet is provided with a cover.

4. A water supply system with a filtering function as claimed in claim 1, wherein: the inside level of sedimentation tank be provided with the coarse strainer, and the second pipeline extends to the coarse strainer below.

5. A water supply system with a filtering function as claimed in claim 1, wherein: be provided with buffer gear in the sedimentation tank of first pipeline below, buffer gear is including being conical and most advanced buffer tray up.

6. A water supply system with a filtering function as claimed in claim 1, wherein: the filter tank is internally and horizontally provided with a PP cotton filter layer and an activated carbon filter layer from top to bottom in sequence.

7. A water supply system with a filtering function as claimed in claim 1, wherein: the end of the third pipeline is communicated with a first tee joint, the two remaining ports of the first tee joint are respectively communicated with the upper transfer tank and the lower transfer tank, and a first electric butterfly valve and a second electric butterfly valve are respectively arranged at the water inlet outlet of the upper transfer tank and the water inlet outlet of the lower transfer tank.

8. A water supply system with a filtering function as claimed in claim 7, wherein: a fourth water outlet is formed in the lower end of the upper transit tank and communicated with a fourth pipeline, a fourth pneumatic diaphragm pump is arranged on the fourth pipeline, a second tee joint is communicated with the tail end of the fourth pipeline, the remaining two ports of the second tee joint are respectively communicated with a fifth pipeline and a first water return pipe, a third electric butterfly valve is arranged on the first water return pipe, a fourth electric butterfly valve is arranged on the fifth pipeline, and the first water return pipe is communicated with the filter tank; a fifth water outlet is formed in the lower end of the lower transfer tank, the fifth water outlet is communicated with a sixth pipeline, a fifth pneumatic diaphragm pump is arranged on the sixth pipeline, the tail end of the sixth pipeline is communicated with a fourth tee joint, the remaining two ports of the fourth tee joint are respectively communicated with a seventh pipeline and a second water return pipe, a fifth electric butterfly valve is arranged on the second water return pipe, and a sixth electric butterfly valve is arranged on the seventh pipeline; the second water return pipe is provided with a check valve which passes upwards, and the second water return pipe is communicated with the first water return pipe.

9. A water supply system with a filtering function as claimed in claim 7, wherein: the upper transfer tank and the lower transfer tank are both provided with an aquatic particulate matter detector.

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