CN216202553U - Phase modifier demineralized water system statistics measures recovery unit of water - Google Patents

Abstract

The utility model discloses a recycling device of water for statistical measurement of a phase modulator desalting water system, which comprises a water supply tank of the phase modulator desalting water system, a meter measuring water outlet pipe of the phase modulator desalting water system and a recycling container with a water storage cavity, wherein the meter measuring water outlet pipe is communicated with the water storage cavity, and a water conveying assembly for conveying water in the water storage cavity to the water supply tank is arranged between the water storage cavity and the water supply tank. The recovery device has the advantages of saving water resources, reducing cost, simple structure, easy implementation, low energy consumption, long service life and the like.

Description

Phase modifier demineralized water system statistics measures recovery unit of water

Technical Field

The utility model relates to the technical field of power transmission and distribution equipment, in particular to a recycling device for water used for statistics and measurement of a phase modulator desalting water system.

Background

The phase modulator is applied to a power system to improve the power factor of a power grid and maintain the voltage level of the power grid. The reactive power control system can automatically increase reactive output when the voltage of a power grid is reduced according to the requirement of the power system, and absorb reactive power when the voltage of the power grid is increased so as to maintain the voltage, improve the stability of the power system and improve the power supply quality of the system.

The demineralized water system of the phase modifier is used as an important auxiliary system for the safe and stable operation of the double-water internal cooling phase modifier, and the water supply reliability of the water source of the demineralized water system is directly related to the operation of the phase modifier set. The meters of various water quality measuring meters, PH meters and the like in the demineralized water system of the phase modifier need flowing running water during measurement, the water used for measuring various meters in the demineralized water system of the existing phase modifier is directly discharged after passing through the meters, and the water loss of a water measuring loop for feeding water to various meters in the demineralized water system of the phase modifier is measured and calculated to be about 6.04m³The waste of water resources is large day by day, the problems of high energy and cost exist, and the energy conservation and the waste water emission reduction are not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects in the prior art and provide the recycling device for the statistical measurement water of the phase modifier demineralized water system, which can save water resources, reduce the cost, has a simple structure, is easy to implement, has low energy consumption and long service life.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a phase modifier demineralized water system statistics measures recovery unit of water, includes phase modifier demineralized water system's feed tank with the water outlet pipe is measured to phase modifier demineralized water system's table meter, still including the recovery vessel who has the water storage chamber, the table meter measure the water outlet pipe with water storage chamber intercommunication, the water storage chamber with be equipped with between the feed tank and be used for carrying the water delivery subassembly of feed tank with water storage chamber normal water.

As a further improvement of the above technical solution:

the water delivery assembly comprises more than two water pumps, a front water delivery pipe communicated with the water storage cavity and a rear water delivery pipe communicated with the water supply tank, each water pump is connected with the front water delivery pipe and the rear water delivery pipe through an independent connecting pipeline, and two on-off control valves respectively arranged on two sides of each water pump are arranged on each connecting pipeline.

Each connecting pipeline is provided with a pressure gauge and a one-way valve which ensures that water can only flow from the front water pipe to the rear water pipe in one way.

The water pump, the pressure gauge and the one-way valve are sequentially arranged on the connecting pipeline along the direction from the front water pipe to the rear water pipe, and the water pump, the pressure gauge and the one-way valve are positioned between the two on-off control valves.

And the front water delivery pipe is provided with an on-off valve for controlling the on-off of the front water delivery pipe.

And a detector for detecting the water level height in the water storage cavity is arranged on the recovery container.

The water storage cavity is internally provided with a vertical partition board which divides the water storage cavity into two cavities, the bottoms of the two cavities are communicated through holes arranged on the vertical partition board or through a gap arranged between the vertical partition board and the bottom surface of the water storage cavity, the detector is positioned in one of the two cavities, and the water delivery assembly is connected with the other cavity.

The upper portion of water storage chamber is equipped with the overflow hole, the overflow hole is connected with the overflow pipe, the overflow pipe is close to overflow hole position department and is equipped with one section U type section of bellying downwards.

A filter screen is arranged in the U-shaped section.

The bottom of the water storage cavity is provided with a sewage draining hole, the sewage draining hole is connected with a sewage draining pipe, and a sewage draining valve used for controlling the on-off of the sewage draining pipe is arranged on the sewage draining pipe.

Compared with the prior art, the utility model has the advantages that:

the recycling device for the water used for counting and measuring the phase modifier desalted water system can recycle and collect the water discharged by a meter measuring water outlet pipe of the phase modifier desalted water system into a water storage cavity of a recycling container, and then convey the water recycled and collected in the water storage cavity to a water supply tank of the phase modifier desalted water system through a water conveying assembly, so that the water is recycled by the phase modifier desalted water system, the waste of water used for measuring by each meter in the phase modifier desalted water system is avoided, water resources can be saved, the cost is reduced, and the purposes of energy conservation and emission reduction are achieved. Meanwhile, the recovery container is adopted to firstly concentrate the recovery meter to measure the water discharged by the water outlet pipe, and the water in the recovery container can be accumulated to a certain amount and then conveyed to the water supply tank by the water conveying assembly, so that the working frequency and time of the water conveying assembly can be reduced, the energy consumption and the operation cost are saved, and the service life of the water conveying assembly is prolonged. The recovery device also has the advantages of simple structure and easy implementation.

Drawings

FIG. 1 is a schematic diagram of the structure of a recovery apparatus.

Illustration of the drawings:

1. a water supply tank; 2. the meter measures the water outlet pipe; 3. a recovery vessel; 31. a water storage cavity; 32. a vertical partition plate; 33. an overflow aperture; 34. an overflow pipe; 341. a U-shaped section; 35. a sewage draining hole; 36. a blow-off pipe; 37. a blowoff valve; 4. a water delivery assembly; 41. a water pump; 42. a front water delivery pipe; 43. a rear water delivery pipe; 44. connecting a pipeline; 45. an on-off control valve; 46. an on-off valve; 47. a pressure gauge; 48. a one-way valve; 5. a detector.

Detailed Description

The utility model is described in further detail below with reference to the figures and specific examples.

As shown in fig. 1, the recycling apparatus for water used in statistical measurement of a phase modulator demineralized water system of the present embodiment includes a water supply tank 1 of the phase modulator demineralized water system and a meter measurement water outlet pipe 2 of the phase modulator demineralized water system, and both the water supply tank 1 and the meter measurement water outlet pipe 2 are the existing structures in the phase modulator demineralized water system. The water supply device also comprises a recovery container 3 with a water storage cavity 31, a meter measuring water outlet pipe 2 is communicated with the water storage cavity 31, and a water delivery assembly 4 used for delivering water in the water storage cavity 31 to the water supply tank 1 is arranged between the water storage cavity 31 and the water supply tank 1. This recovery unit can measure the meter of phase modifier demineralized water system and measure water outlet pipe 2 exhaust water recovery and collect the water storage chamber 31 of recovery container 3, the water supply tank 1 of water storage chamber 31 in water storage chamber is retrieved to rethread water delivery subassembly 4 and is collected, supply the camera demineralized water system reuse, the waste of each meter measurement water in the phase modifier demineralized water system has been avoided, can save the water resource, and the cost is reduced, reach energy saving and emission reduction's purpose. Meanwhile, the recovery container 3 is adopted to firstly concentrate the recovery meter to measure the water discharged by the water outlet pipe 2, and the water in the recovery container 3 can be accumulated to a certain amount and then is conveyed to the water supply tank 1 by the water conveying component 4, so that the working frequency and time of the water conveying component 4 can be reduced, the energy consumption and the operation cost can be saved, and the service life of the water conveying component 4 can be prolonged. The recovery device also has the advantages of simple structure and easy implementation.

In this embodiment, the water delivery assembly 4 includes more than two water pumps 41, a front water delivery pipe 42 communicated with the water storage cavity 31, and a rear water delivery pipe 43 communicated with the water supply tank 1, each water pump 41 is connected with the front water delivery pipe 42 and the rear water delivery pipe 43 through an independent connecting pipeline 44, and each connecting pipeline 44 is provided with two on-off control valves 45 respectively disposed on two sides of the water pump 41. The two water pumps 41 can be independently controlled to pump water in the water storage cavity 31 to the water supply tank 1, and any one or two water pumps 41 can be selected as required to supply water, so that the flexible selection of flow and pressure is realized. Because each connecting pipeline 44 is provided with two on-off control valves 45 respectively arranged at two sides of the water pump 41, the connecting pipeline 44 can be closed by closing the two on-off control valves 45 on any connecting pipeline 44, so that the operation and selection are convenient, and when the water pump 41 breaks down or needs to be maintained, the water pump 41 can be maintained and repaired on line only by closing the two on-off control valves 45 on the connecting pipeline 44 where the water pump 41 is positioned.

In this embodiment, each connecting pipeline 44 is provided with a pressure gauge 47 and a one-way valve 48 for making water flow from the front water pipe 42 to the rear water pipe 43 in one-way manner, so that water in the water supply tank 1 can be effectively prevented from flowing back into the recovery container 3, and when only one water pump 41 is selected to operate, only the other water pump 41 needs to be turned off, and no other device is needed for assistance or operation, thereby saving cost, reducing operation difficulty and ensuring stable operation.

In this embodiment, the water pump 41, the pressure gauge 47 and the check valve 48 are sequentially arranged on the connecting pipeline 44 along the direction from the front water pipe 42 to the rear water pipe 43, and the water pump 41, the pressure gauge 47 and the check valve 48 are located between the two on-off control valves 45. The check valve 48 is located at the water outlet end of the water pump 41, and when only one water pump 41 is selected to work, the water pressure does not affect the other water pump 41, so that the performance of the water pump 41 can be ensured, and the service life of the water pump 41 can be prolonged.

In this embodiment, the front water pipe 42 is provided with an on-off valve 46 for controlling the on-off of the front water pipe 42, and the on-off valve 46 is provided to facilitate the maintenance of each connecting pipeline 44 and the components thereon, as well as the rear water pipe 43.

In this embodiment, install on the recovery tank 3 and be used for detecting the detector 5 of water level height in the water storage chamber 31, be convenient for detect water level height in the water storage chamber 31 to conveniently control the operation of water delivery subassembly 4. Preferably, the detector 5 is an ultrasonic level sensor.

Preferably, the recovery unit of this embodiment sets up a switch board that links to each other with detector 5, this switch board simultaneous control water delivery subassembly 4 operation and closing, when detector 5 detected the liquid level height and is higher than the high level value of settlement, switch board automatic control water delivery subassembly 4 operation is carried the water in 31 storage water cavity to feed water tank 1, when detector 5 detected the liquid level height and is less than the low level value of settlement, switch board automatic control water delivery subassembly 4 closes and stops to carry water, can realize regularly, automatically carry the water in 31 storage water cavity to feed water tank 1, do not need the manual intervention, can use manpower sparingly, reduce cost, guarantee that the water in 31 storage water cavity reaches timely quilt of a definite amount and is carried to feed water tank 1. Of course, the control cabinet may also be provided with buttons that are manually operated to control the operation and closing of the water delivery assembly 4. To achieve the above purpose, the control cabinet may adopt the prior art, and will not be described herein.

In this embodiment, a vertical partition plate 32 is installed in the water storage cavity 31 to divide the water storage cavity 31 into two chambers, the bottoms of the two chambers are communicated through a through hole formed in the vertical partition plate 32 or through a gap formed between the bottom surfaces of the vertical partition plate 32 and the water storage cavity 31, the detector 5 is located in one of the chambers, and the water delivery assembly 4 is connected with the other chamber. The measuring accuracy of the detector 5 can be prevented from being affected when the water delivery assembly 4 operates to deliver water.

In this embodiment, an overflow hole 33 is formed in the upper portion of the water storage cavity 31, the overflow hole 33 is connected to an overflow pipe 34, and a section of U-shaped section 341 protruding downward is formed at a position of the overflow pipe 34 close to the overflow hole 33. This U-shaped section 341 can store water, prevents that toy such as worm from passing through overflow pipe 34 and getting into recovery vessel 3, guarantees the cleanliness factor of recovery vessel 3 internal water.

In this embodiment, a filter screen is provided in the U-shaped section 341 to further prevent small animals such as bugs from entering the recovery vessel 3 through the overflow pipe 34. Preferably, the filter screen adopts the wire net.

In this embodiment, a drain hole 35 is formed in the bottom of the water storage cavity 31, the drain hole 35 is connected with a drain pipe 36, and a drain valve 37 for controlling the on-off of the drain pipe 36 is arranged on the drain pipe 36. The pollution discharge and the cleaning of the water storage cavity 31 are convenient.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-described embodiments. Modifications and variations that may occur to those skilled in the art without departing from the spirit and scope of the utility model are to be considered as within the scope of the utility model.

Claims (10)

1. The utility model provides a recovery unit of condenser desalination system statistics measuring water of phase modifier, includes water supply tank (1) of condenser desalination system of phase modifier and condenser desalination system's table meter measuring water outlet pipe (2), its characterized in that: still including having recovery vessel (3) in water storage chamber (31), the meter measure water outlet pipe (2) with water storage chamber (31) intercommunication, water storage chamber (31) with be equipped with between feed water tank (1) and be used for carrying water delivery subassembly (4) to feed water tank (1) with water storage chamber (31) normal water.

2. The recycling apparatus according to claim 1, wherein: the water delivery assembly (4) comprises more than two water pumps (41), a front water delivery pipe (42) communicated with the water storage cavity (31) and a rear water delivery pipe (43) communicated with the water supply tank (1), each water pump (41) is connected with the front water delivery pipe (42) and the rear water delivery pipe (43) through an independent connecting pipeline (44), and two on-off control valves (45) respectively arranged on two sides of each water pump (41) are arranged on each connecting pipeline (44).

3. The recycling apparatus according to claim 2, wherein: each connecting pipeline (44) is provided with a pressure gauge (47) and a one-way valve (48) which enables water to flow from the front water conveying pipe (42) to the rear water conveying pipe (43) in one way only.

4. A recycling apparatus according to claim 3, characterized in that: the water pump (41), the pressure gauge (47) and the one-way valve (48) are sequentially arranged on the connecting pipeline (44) along the direction from the front water pipe (42) to the rear water pipe (43), and the water pump (41), the pressure gauge (47) and the one-way valve (48) are positioned between the two on-off control valves (45).

5. The recycling apparatus according to claim 2, wherein: and the front water conveying pipe (42) is provided with an on-off valve (46) for controlling the on-off of the front water conveying pipe (42).

6. The recycling apparatus according to claim 1, wherein: and a detector (5) for detecting the water level in the water storage cavity (31) is arranged on the recovery container (3).

7. The recycling apparatus according to claim 6, wherein: install vertical baffle (32) that separate into two cavities with water storage chamber (31) in water storage chamber (31), two the bottom of cavity is through locating the through-hole intercommunication on vertical baffle (32) or through establishing the clearance intercommunication between vertical baffle (32) and water storage chamber (31) bottom surface, detector (5) are located one of them cavity, water delivery subassembly (4) link to each other with another cavity.

8. The recycling apparatus according to any one of claims 1 to 7, wherein: the upper portion of water storage chamber (31) is equipped with overflow hole (33), overflow hole (33) are connected with overflow pipe (34), overflow pipe (34) are close to overflow hole (33) position department and are equipped with one section U type section (341) of bellying downwards.

9. The recycling apparatus according to claim 8, wherein: a filter screen is arranged in the U-shaped section (341).

10. The recycling apparatus according to any one of claims 1 to 7, wherein: the bottom of water storage chamber (31) is equipped with blowhole (35), blowhole (35) are connected with blow off pipe (36), be equipped with on blow off pipe (36) and be used for controlling blow off valve (37) of blow off pipe (36) break-make.

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