CN212982552U - Micro-flocculation treatment partition water tank relay water supply monitoring system - Google Patents
Micro-flocculation treatment partition water tank relay water supply monitoring system Download PDFInfo
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- CN212982552U CN212982552U CN202021540638.1U CN202021540638U CN212982552U CN 212982552 U CN212982552 U CN 212982552U CN 202021540638 U CN202021540638 U CN 202021540638U CN 212982552 U CN212982552 U CN 212982552U
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Abstract
A micro-flocculation treatment subarea water tank relay water supply monitoring system comprises: the system comprises a tap water pipe network, a micro flocculation treatment device, a water tank, a water supply pump group, a low-region water supply subsystem, a relay pump group, a high-region water supply subsystem and an intelligent control cabinet; the low-region water supply subsystem comprises a low-region water tank and a low-region user pipe network; the high-area water supply subsystem comprises a high-area water tank and a high-area user pipe network; the water tank supplies water to the lower water tank through the water supply pump set, and the lower water tank supplies water to the higher water tank through the relay pump set, so that relay water supply of the water tank is formed. The utility model divides the super high-rise water supply, each division is provided with a high-level water tank, and the water tanks are connected in series for relay water supply, so that the water supply is reliable, the equipment and the pipeline are simple, and the energy consumption is low; because set up a plurality of water tanks, the end of entrying sets up flocculating agent flocculation and explosion gas oxidation and cooperates scale removal device, slows down the scale deposit and leads to the water tank to wash frequently, has ensured water supply safety simultaneously.
Description
Technical Field
The utility model relates to an automatic control field, in particular to secondary water supply automatic control system.
Background
The prior secondary water supply technology lacks a preposed water treatment device for effectively treating potential pollutants of a tap water pipe network, and provides a water supply system which is stable and reliable in water supply, simpler in equipment and pipelines and easy to install and maintain for super high-rise water supply.
SUMMERY OF THE UTILITY MODEL
The purpose of the present invention is to solve at least one of the technical drawbacks.
Therefore, the utility model aims to provide a micro-flocculation treatment subarea water tank relay water supply monitoring system, which comprises a tap water pipe network, a micro-flocculation treatment device, a water tank, a water supply pump group, a low-area water supply subsystem, a relay pump group, a high-area water supply subsystem and an intelligent control cabinet;
a water inlet pressure sensor is arranged at a water inlet of the tap water pipe network;
the micro-flocculation treatment device comprises a filter tank water feeding pump, a filter tank back flushing pump, a flocculating agent feeding box, a gas-water mixer, an air compressor and a manganese sand filter;
the tap water pipe network pipeline is connected with the filter tank water feeding pump and a parallel water inlet of the filter tank backwashing pump;
a water outlet pressure sensor of the water feeding pump is arranged at a water outlet of the water feeding pump of the filter tank;
a water outlet of the backwash pump of the filter tank is provided with a backwash pump water pressure sensor;
a flocculating agent flow valve is arranged at a feeding pipeline of the flocculating agent feeding box;
the filter tank feed pump and the flocculant feeding box are connected with an outlet pipeline in parallel and are connected with a water inlet of the gas-water mixer;
the air compressor pipeline is connected with an air inlet of the air-water mixer;
the top of the manganese sand filter is provided with an exhaust pipeline extending to the lower part of the outer wall of the filter;
the gas-water mixing outlet pipeline of the gas-water mixer is connected with the water inlet of the manganese sand filter, and the water outlet of the manganese sand filter is connected with the water inlet of the water tank;
a filter water outlet electric valve is arranged at the connecting pipeline between the water outlet of the manganese sand filter and the water inlet of the water tank;
the pipeline of the filter tank back flush pump is connected with the back flush water inlet of the manganese sand filter, and a filter blow-down electric valve is arranged at a blow-down pipeline at the bottom of the manganese sand filter;
a hydraulic water level control valve is arranged at the tail end of a water inlet connecting pipeline outside the water tank body;
a floating ball liquid level switch is arranged at the upper part in the water tank body, and the rocker arm of the hydraulic water level control valve is connected with the floating ball liquid level switch;
a liquid level sensor is arranged in the water tank body, and a top joint of the liquid level sensor is positioned on the outer side of the top of the water tank body;
a multipoint water absorber is arranged at the bottom in the water tank body, and a pipeline of the multipoint water absorber is connected with the water supply pump set;
the water outlet end of the water supply pump set is provided with a water outlet pressure sensor of the water supply pump set;
the low-region water supply subsystem comprises a low-region water tank and a low-region user pipe network;
a low-region hydraulic water level control valve is arranged at the tail end of a water inlet connecting pipeline outside the low-region water tank body;
a low-region floating ball liquid level switch is arranged at the upper part in the low-region water tank body, and a rocker arm of the low-region hydraulic water level control valve is connected with the low-region floating ball liquid level switch;
a low-region liquid level sensor is arranged in the low-region water tank body, and a top joint of the low-region liquid level sensor is positioned on the outer side of the top of the low-region water tank body;
the water outlet of the water supply pump set is connected with the low-region hydraulic water level control valve;
the water outlet pipeline at the bottom of the low-region water tank is connected with the low-region user pipe network;
a water outlet pipeline at the lower part of the outer side of the low-region water tank body is connected with the relay pump set;
the water outlet end of the relay pump set is provided with a relay pump set water outlet pressure sensor;
the high-area water supply subsystem comprises a high-area water tank and a high-area user pipe network;
a high-region hydraulic water level control valve is arranged at the tail end of a water inlet connecting pipeline outside the high-region water tank body;
a high-region floating ball liquid level switch is arranged at the upper part in the high-region water tank body, and a rocker arm of the high-region hydraulic water level control valve is connected with the high-region floating ball liquid level switch;
a high-region liquid level sensor is arranged in the high-region water tank body, and a top joint of the high-region liquid level sensor is positioned on the outer side of the top of the high-region water tank body;
the water outlet pipeline of the relay pump set is connected with the high-region hydraulic water level control valve;
the water outlet pipeline at the bottom of the high-region water tank is connected with the high-region user pipe network;
the intelligent control cabinet is respectively connected with the water inlet pressure sensor, the water outlet pressure sensor of the water supply pump, the water outlet pressure sensor of the back washing pump, the liquid level sensor, the water outlet pressure sensor of the water supply pump set, the low-region liquid level sensor, the water outlet pressure sensor of the relay pump set and the high-region liquid level sensor through signal lines;
the intelligent control cabinet is respectively connected with the water feeding pump of the filter tank, the back washing pump of the filter tank, the air compressor, the electrically operated valve for pollution discharge of the filter, the electrically operated valve for water outlet of the filter, the water supply pump group and the relay pump group through control lines.
The utility model has the advantages and positive effects that: the super high-rise water supply is divided into zones, each zone is provided with a high-level water tank, relay water supply is connected among the water tanks in series, the water supply is reliable, the equipment and the pipeline are simple, and the energy consumption is low; because set up a plurality of water tanks, the end of entrying sets up flocculating agent flocculation and explosion gas oxidation and cooperates scale removal device, slows down the scale deposit and leads to the water tank to wash frequently, has ensured water supply safety simultaneously.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
fig. 1 is a schematic diagram of the relay water supply monitoring system of the micro-flocculation treatment partition water tank of the utility model.
In the figure, 1, a tap water pipe network, 11, a water inlet pressure sensor, 2, a micro-flocculation treatment device, 21, a filter tank water feeding pump, 21a, a water feeding pump water outlet pressure sensor, 22, a filter tank back washing pump, 22a, a back washing pump water outlet pressure sensor, 23, a flocculant feeding box, 23a, a flocculant flow valve, 24, a gas-water mixer, 25, an air compressor, 26, a manganese sand filter, 26a, an exhaust pipeline, 26b, a filter blowdown electric valve, 26c, a filter water outlet electric valve, 3, a water tank, 31, a hydraulic water level control valve, 31a floating ball liquid level switch, 32, a liquid level sensor, 33, a multi-point water absorber, 4, a water supply pump group, 4a water supply pump water outlet pressure sensor, 5, a low-area water supply subsystem, 51, a low-area water tank, 511, a low-area hydraulic water level control valve, 511a low-area floating ball liquid level switch, 512, a low-area liquid level sensor, a, 52. The system comprises a low-region user pipe network, 6 relay pump sets, 6a relay pump sets water outlet pressure sensors, 7 high-region water supply subsystems, 71 high-region water tanks, 711 high-region hydraulic water level control valves, 711a high-region floating ball liquid level switches, 712 high-region liquid level sensors, 72 high-region user pipe networks and 8 intelligent control cabinets.
Detailed Description
The present invention will now be described in more detail with reference to the accompanying drawings, in which preferred embodiments of the invention are shown, it being understood that those skilled in the art may modify the invention herein described while still achieving the beneficial results of the invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.
As shown in fig. 1, a micro-flocculation treatment subarea water tank relay water supply monitoring system comprises: a tap water pipe network 1, a micro flocculation treatment device 2, a water tank 3, a water supply pump set 4, a low-region water supply subsystem 5, a relay pump set 6, a high-region water supply subsystem 7 and an intelligent control cabinet 8;
a water inlet pressure sensor 11 is arranged at the water inlet of the tap water pipe network 1;
the micro-flocculation treatment device 2 comprises a filter tank water feeding pump 21, a filter tank back flushing pump 22, a flocculating agent feeding box 23, a gas-water mixer 24, an air compressor 25 and a manganese sand filter 26;
the tap water pipe network 1 is connected with the parallel water inlets of the filter tank water feeding pump 21 and the filter tank back flushing pump 22 through pipelines;
a water outlet pressure sensor 21a of the water pump is arranged at the water outlet of the water pump 21 of the filter tank;
a water outlet of the filter tank back washing pump 22 is provided with a back washing pump water outlet pressure sensor 22 a;
a flocculating agent flow valve 23a is arranged at the feeding pipeline of the flocculating agent feeding box 23;
the filter tank water feeding pump 21 and the flocculating agent feeding box 23 are connected in parallel with an outlet pipeline and connected with a water inlet of a gas-water mixer 24;
the air compressor 25 is connected with the air inlet of the air-water mixer 24 through a pipeline;
the top of the manganese sand filter 26 is provided with an exhaust pipeline 26a extending to the lower part of the outer wall of the filter;
a gas-water mixing outlet pipeline of the gas-water mixer 24 is connected with a water inlet of the manganese sand filter 26, and a water outlet of the manganese sand filter 26 is connected with a water inlet of the water tank 3;
a filter water outlet electric valve 26c is arranged at the connecting pipeline between the water outlet of the manganese sand filter 26 and the water inlet of the water tank 3;
the pipeline of the filter tank back flush pump 22 is connected with a back flush water inlet of a manganese sand filter 26, and a filter blow-down electric valve 26b is arranged at a blow-down pipeline at the bottom of the manganese sand filter 26;
a hydraulic water level control valve 31 is arranged at the tail end of a connecting pipeline at the outer water inlet of the tank body of the water tank 3;
a floating ball liquid level switch 31a is arranged at the upper part in the tank body of the water tank 3, and a rocker arm of a hydraulic water level control valve 31 is connected with the floating ball liquid level switch 31 a;
a liquid level sensor 32 is arranged in the tank body of the water tank 3, and a joint at the top of the liquid level sensor 32 is positioned at the outer side of the top of the tank body of the water tank 3;
a multi-point water absorber 33 is arranged at the bottom in the tank body of the water tank 3, and the multi-point water absorber 33 is connected with a water supply pump set 4 through a pipeline;
the water outlet end of the water supply pump set 4 is provided with a water outlet pressure sensor 4a of the water supply pump set;
the low-region water supply subsystem 5 comprises a low-region water tank 51 and a low-region user pipe network 52;
a low-region hydraulic water level control valve 511 is arranged at the tail end of a connecting pipeline of an external water inlet of the low-region water tank 51;
a low-region floating ball liquid level switch 511a is arranged at the upper part in the box body of the low-region water tank 51, and a rocker arm of a low-region hydraulic water level control valve 511 is connected with the low-region floating ball liquid level switch 511 a;
a low-region liquid level sensor 512 is arranged in the low-region water tank 51, and a joint at the top of the low-region liquid level sensor 512 is positioned at the outer side of the top of the low-region water tank 51;
the water outlet of the water supply pump group 4 is connected with a low-region hydraulic water level control valve 511;
the water outlet pipeline at the bottom of the low-region water tank 51 is connected with a low-region user pipe network 52;
a water outlet pipeline at the lower part of the outer side of the box body of the low-region water tank 51 is connected with the relay pump unit 6;
the water outlet end of the relay pump unit 6 is provided with a relay pump unit water outlet pressure sensor 6 a;
the high-area water supply subsystem 7 comprises a high-area water tank 71 and a high-area user pipe network 72;
a high-region hydraulic water level control valve 711 is arranged at the tail end of a connecting pipeline of an external water inlet of the high-region water tank 71;
a high-region floating ball liquid level switch 711a is arranged at the upper part in the high-region water tank 71, and a rocker arm of a high-region hydraulic water level control valve 711 is connected with the high-region floating ball liquid level switch 711 a;
a high-region liquid level sensor 712 is arranged in the high-region water tank 71, and a joint at the top of the high-region liquid level sensor 712 is positioned at the outer side of the top of the high-region water tank 71;
a water outlet pipeline of the relay pump unit 6 is connected with a high-region hydraulic water level control valve 711;
the water outlet pipeline at the bottom of the high-region water tank 71 is connected with a high-region user pipe network 72;
the intelligent control cabinet 8 is respectively connected with signal lines of a water inlet pressure sensor 11, a water outlet pressure sensor 21a of a water supply pump, a water outlet pressure sensor 22a of a back washing pump, a liquid level sensor 32, a water outlet pressure sensor 4a of a water supply pump group, a low-zone liquid level sensor 512, a water outlet pressure sensor 6a of a relay pump group and a high-zone liquid level sensor 712;
the intelligent control cabinet 8 is respectively connected with a filter tank water feeding pump 21, a filter tank back flushing pump 22, an air compressor 25, a filter blow-down electric valve 26b, a filter water outlet electric valve 26c, a water supply pump unit 4 and a relay pump unit 6 through control lines.
The present invention has been described in detail with reference to the embodiments, but the present invention is only a preferred embodiment, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.
Claims (1)
1. A micro flocculation treatment subarea water tank relay water supply monitoring system is characterized by comprising: a tap water pipe network (1), a micro flocculation treatment device (2), a water tank (3), a water supply pump set (4), a low-region water supply subsystem (5), a relay pump set (6), a high-region water supply subsystem (7) and an intelligent control cabinet (8);
a water inlet pressure sensor (11) is arranged at a water inlet of the tap water pipe network (1);
the micro-flocculation treatment device (2) comprises a filter tank water feeding pump (21), a filter tank back flushing pump (22), a flocculating agent feeding box (23), a gas-water mixer (24), an air compressor (25) and a manganese sand filter (26);
the tap water pipe network (1) is connected with the filter tank water feeding pump (21) and a parallel water inlet of the filter tank backwashing pump (22) through pipelines;
a water outlet of the water pump (21) of the filter tank is provided with a water pump outlet pressure sensor (21 a);
a water outlet of the filter tank back washing pump (22) is provided with a back washing pump water outlet pressure sensor (22 a);
a flocculating agent flow valve (23a) is arranged at the feeding pipeline of the flocculating agent feeding box (23);
the filter tank water feeding pump (21) and the flocculant feeding box (23) are connected in parallel, and an outlet pipeline is connected with a water inlet of the gas-water mixer (24);
the air compressor (25) is connected with an air inlet of the air-water mixer (24) through a pipeline;
an exhaust pipeline (26a) is arranged at the top of the manganese sand filter (26) and extends to the lower part of the outer wall of the filter;
the gas-water mixing outlet pipeline of the gas-water mixer (24) is connected with the water inlet of the manganese sand filter (26), and the water outlet of the manganese sand filter (26) is connected with the water inlet of the water tank (3);
a filter water outlet electric valve (26c) is arranged at the connecting pipeline between the water outlet of the manganese sand filter (26) and the water inlet of the water tank (3);
the pipeline of the filter tank back flush pump (22) is connected with the back flush water inlet of the manganese sand filter (26), and a filter blow-down electric valve (26b) is arranged at the blow-down pipeline at the bottom of the manganese sand filter (26);
a hydraulic water level control valve (31) is arranged at the tail end of a connecting pipeline of an external water inlet of the tank body of the water tank (3);
a floating ball liquid level switch (31a) is arranged at the upper part in the tank body of the water tank (3), and a rocker arm of the hydraulic water level control valve (31) is connected with the floating ball liquid level switch (31 a);
a liquid level sensor (32) is arranged in the tank body of the water tank (3), and a joint at the top of the liquid level sensor (32) is positioned on the outer side of the top of the tank body of the water tank (3);
a multipoint water absorber (33) is arranged at the bottom in the tank body of the water tank (3), and the multipoint water absorber (33) is connected with the water supply pump set (4) through a pipeline;
the water outlet end of the water supply pump set (4) is provided with a water outlet pressure sensor (4a) of the water supply pump set;
the low-region water supply subsystem (5) comprises a low-region water tank (51) and a low-region user pipe network (52);
a low-region hydraulic water level control valve (511) is arranged at the tail end of a connecting pipeline of an external water inlet of the tank body of the low-region water tank (51);
a low-region floating ball liquid level switch (511a) is arranged at the upper part in the low-region water tank (51), and a rocker arm of the low-region hydraulic water level control valve (511) is connected with the low-region floating ball liquid level switch (511 a);
a low-region liquid level sensor (512) is arranged in the low-region water tank (51), and a top joint of the low-region liquid level sensor (512) is positioned on the outer side of the top of the low-region water tank (51);
the water outlet of the water supply pump group (4) is connected with the low-region hydraulic water level control valve (511);
a water outlet pipeline at the bottom of the low-region water tank (51) is connected with the low-region user pipe network (52);
a water outlet pipeline at the lower part of the outer side of the box body of the low-region water tank (51) is connected with the relay pump set (6);
a water outlet end of the relay pump set (6) is provided with a relay pump set water outlet pressure sensor (6 a);
the high-area water supply subsystem (7) comprises a high-area water tank (71) and a high-area user pipe network (72);
a high-region hydraulic water level control valve (711) is arranged at the tail end of a connecting pipeline of an external water inlet of the high-region water tank (71);
a high-region floating ball liquid level switch (711a) is arranged at the upper part in the high-region water tank (71), and a rocker arm of the high-region hydraulic water level control valve (711) is connected with the high-region floating ball liquid level switch (711 a);
a high-region liquid level sensor (712) is arranged in the high-region water tank (71), and a top joint of the high-region liquid level sensor (712) is positioned on the outer side of the top of the high-region water tank (71);
a water outlet pipeline of the relay pump set (6) is connected with the high-region hydraulic water level control valve (711);
a water outlet pipeline at the bottom of the high-region water tank (71) is connected with the high-region user pipe network (72);
the intelligent control cabinet (8) is respectively connected with signal lines of the water inlet pressure sensor (11), the water supply pump outlet pressure sensor (21a), the back washing pump outlet pressure sensor (22a), the liquid level sensor (32), the water supply pump outlet pressure sensor (4a), the low-region liquid level sensor (512), the relay pump group outlet pressure sensor (6a) and the high-region liquid level sensor (712);
the intelligent control cabinet (8) is respectively connected with the filter tank water feeding pump (21), the filter tank back flushing pump (22), the air compressor (25), the filter blowdown electric valve (26b), the filter water outlet electric valve (26c), the water supply pump set (4) and the relay pump set (6) through control lines.
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CN202021540638.1U CN212982552U (en) | 2020-07-30 | 2020-07-30 | Micro-flocculation treatment partition water tank relay water supply monitoring system |
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CN202021540638.1U CN212982552U (en) | 2020-07-30 | 2020-07-30 | Micro-flocculation treatment partition water tank relay water supply monitoring system |
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