CN113026869A - Multi-water-tower water supply system and water supply method - Google Patents

Abstract

The invention discloses a multi-water-tower water supply system and a water supply method, belonging to the technical field of water tower water supply systems and comprising six PE (polyethylene) plastic water towers, a variable frequency pump set, water replenishing pipes and water suction pipes, wherein the six PE plastic water towers are connected with one another through the water replenishing pipes, and the six PE plastic water towers are connected with the variable frequency pump set through the water suction pipes. The PE plastic water tower is combined with the variable frequency pump set to convey construction water, so that electric energy is saved, the flow of a pipeline is effectively controlled, the system is relatively stable in operation and convenient to observe in real time, and the maintenance frequency is reduced; the six PE plastic water towers are used for storing construction water, the arrangement is uniform and compact, the sufficient water is ensured, the implementation cost is reduced, and the construction period is shortened.

Description

Multi-water-tower water supply system and water supply method

Technical Field

The invention relates to the technical field of water tower water supply systems, in particular to a multi-water-tower water supply system and a water supply method.

Background

Water towers in general residential areas have a water storage function, and some water towers are also an important component of the production process of water plants, are used for storing water and distributing water, and are used for maintaining and adjusting the water quantity and the water pressure in a water supply pipe network. Thus, water towers are a relatively common and special structure in industrial and civil buildings.

Patent No. CN201820725327.9 discloses a multifunctional variable frequency water supply system. The water hammer effect can seriously affect the life of the gate valve in the water supply system. The utility model discloses an including aqua storage tower, frequency conversion pressure boost module, converter, controller, voltage stabilizing module, first check valve, water pressure sensor and flow sensor. The frequency conversion pressurization module comprises a water pump, a second one-way valve, a first gate valve, a second gate valve and a waterproof hammer assembly. The waterproof hammer assembly comprises a combined cylinder, a third one-way valve, a water increasing pressure difference piece and a water reducing pressure difference piece. The water reducing pressure difference piece comprises a water reducing pipe, a water reducing spring, a first water locking ball and an end cover nut. The water increasing pressure difference piece comprises a water increasing pipe, a water increasing spring, a second water locking ball and a water increasing end cover. The pressure stabilizing module comprises a pressure stabilizing tank, an electromagnetic on-off valve and an air pump. The utility model discloses a frequency conversion pressure boost module can be automatically according to user's demand automatically regulated output. The utility model discloses the life of gate valve has been promoted to "water hammer effect" that can greatly reduced gate valve received.

The current water tower is a single water tower water supply facility, and the water supply facility needs to be planned according to the site of a community, aiming at the conditions of narrow site, low south, high north, large difficulty in temporary water engineering construction, large water consumption and short construction period, the problem can not be effectively and quickly solved at present.

Disclosure of Invention

The invention aims to provide a multi-water-tower water supply system and a water supply method, wherein the PE plastic water tower is combined with a variable frequency pump set to convey construction water, so that electric energy is saved, the flow of a pipeline is effectively controlled, the system is relatively stable in operation and convenient to observe in real time, and the maintenance frequency is reduced; the six PE plastic water towers are used for storing construction water, the arrangement is uniform and compact, the sufficient water is ensured, the implementation cost is reduced, and the construction period is shortened, so that the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-water-tower water supply system comprises six PE plastic water towers, a frequency conversion pump set, water replenishing pipes and water absorbing pipes, wherein the six PE plastic water towers are connected with one another through the water replenishing pipes, and the six PE plastic water towers are connected with the frequency conversion pump set through the water absorbing pipes.

Further, the frequency conversion pump package includes frequency conversion control box, frequency conversion booster pump, water pump surge tank, hot-galvanize steel pipe and pump assembly controller, and the pipe that absorbs water is managed connection frequency conversion booster pump and water pump through two branches respectively, and frequency conversion booster pump and water pump all with hot-galvanize steel pipe interconnect, and be connected with the water pump surge tank on the hot-galvanize steel pipe between frequency conversion booster pump and the water pump, and frequency conversion booster pump and water pump all connect pump assembly controller.

Further, six PE plastic water towers are arranged in two rows and three columns.

Furthermore, a liquid level controller is arranged on any one of the six PE plastic water towers, and the PE plastic water tower is connected with a water inlet pipe.

Furthermore, any one PE type plastic water tower in the six PE type plastic water towers is connected with an overflow pipe.

Furthermore, any one of the six PE plastic water towers is provided with a water pump water shortage protector, and the water pump water shortage protector is electrically connected with the pump set controller.

Furthermore, the PE type plastic water tower comprises a tower body, a water suction port and a water replenishing port, wherein the water suction port is formed in the lower end of the tower body and is connected with a water suction pipe through the water suction port, the water replenishing port is formed in the upper end of the tower body, and the water replenishing port is connected with the water replenishing pipe.

Furthermore, the top end of the tower body is provided with an air hole, and the water replenishing pipe is connected with an exhaust pipe.

Furthermore, the water replenishing pipe, the water inlet pipe, the overflow pipe, the exhaust pipe and the water absorption pipe are all PPR pipes, and the water replenishing pipe, the water inlet pipe, the overflow pipe, the exhaust pipe and the water absorption pipe are all connected with the PE type plastic water tower through PE flanges.

According to another aspect of the present invention, there is provided a water supply method of a multi-water tower water supply system, comprising the steps of:

s101: building a combined PE (polyethylene) plastic water tower, assembling a variable frequency pump set, and connecting the variable frequency pump set and the variable frequency pump set by using a pipeline to build a multi-water-tower water supply system;

s102: starting a variable frequency pump set, driving water to enter the PE type plastic water tower from a water inlet pipe by a water pump, and enabling the water to flow to each seat of the PE type plastic water tower through a water supplementing pipe;

s103: the liquid level controller detects the water level in the PE plastic water tower, the water pump stops running after the water level reaches a set value, and water exceeding the set water level is discharged from the overflow pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the multi-water-tower water supply system and the water supply method, the PE plastic water tower is combined with the variable frequency pump set to convey construction water, so that electric energy is saved, the flow of a pipeline is effectively controlled, the system is relatively stable in operation and convenient to observe in real time, and the maintenance frequency can be effectively reduced.

2. The multi-water-tower water supply system and the water supply method provided by the invention have the advantages that the six PE plastic water towers are adopted to store construction water instead of the traditional water tanks, the arrangement is uniform and compact, the sufficient water is ensured, the space required by installation is small, the turnover is convenient, the manufacturing cost, the maintenance cost and the rotating cost are low, and the implementation cost is reduced on the premise of ensuring high water yield and water delivery speed.

3. According to the multi-tower water supply system and the water supply method, the PPR pipeline is used for hot melting and connecting all parts, the construction speed is high, and the construction period is shortened.

Drawings

FIG. 1 is an overall structure diagram of a multi-tower water supply system according to a first embodiment of the present invention;

FIG. 2 is a structural diagram of a variable frequency pump set of a multi-water tower water supply system according to a first embodiment of the present invention;

FIG. 3 is an overall structure diagram of a multi-tower water supply system according to a second embodiment of the present invention;

FIG. 4 is an overall structure diagram of a multi-tower water supply system according to a third embodiment of the present invention;

FIG. 5 is an overall structure diagram of a multi-tower water supply system according to a fourth embodiment of the present invention;

FIG. 6 is a schematic diagram of a PE water tower of a multi-tower water supply system according to a fifth embodiment of the present invention;

FIG. 7 is an overall structural view of a multi-tower water supply system according to a sixth embodiment of the present invention;

FIG. 8 is a view showing a PE flange structure of a multi-tower water supply system according to a seventh embodiment of the present invention;

FIG. 9 is a flow chart of the water supply method of the multi-tower water supply system of the present invention.

In the figure: 1. a PE type plastic water tower; 11. a tower body; 12. a water suction port; 13. a water replenishing port; 14. PE flange; 2. a variable frequency pump set; 21. a variable frequency control box; 22. a variable frequency booster pump; 23. a water pump; 24. a water pump surge tank; 25. hot dip galvanized steel pipe; 26. a pump set controller; 3. a water replenishing pipe; 4. a liquid level controller; 5. a water pump water shortage protector; 6. a water inlet pipe; 7. air holes are formed; 8. an overflow pipe; 9. an exhaust pipe; 10. a suction pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 to 2, a multi-water-tower water supply system comprises a PE-type plastic water tower 1, a variable frequency pump set 2, a water replenishing pipe 3 and a water suction pipe 10, wherein the PE-type plastic water tower 1 has six seats, the six PE-type plastic water towers 1 are connected with each other through the water replenishing pipe 3, and the six PE-type plastic water towers 1 are all connected with the variable frequency pump set 2 through the water suction pipe 10, wherein the water suction pipe 10 is a DN100 PPR pipe, the water replenishing pipe 3 is a DN80 PPR pipe, the six PE-type plastic water towers 1 are used for storing construction water to replace a traditional water tank, the six water towers are uniformly and compactly arranged, sufficient water is ensured, the storable water amount can be adjusted as required, and more selectable spaces are provided for construction units; one of the PE plastic water towers 1 is connected with a water inlet pipe 6, the water inlet pipe 6 is a DN100 PPR pipe, the PPR pipe is laid to the top of the water tower along the ground, and a top water inlet mode is adopted; at the top of the water tower, a water replenishing pipe 3 penetrates all six PE plastic water towers 1; the six PE plastic water towers 1 are arranged in two rows and three rows, so that water can be rapidly fed and the water quantity is sufficient.

Frequency conversion pump package 2 includes frequency conversion control box 21, frequency conversion booster pump 22, water pump 23, water pump surge tank 24, hot-galvanize steel pipe 25 and pump assembly controller 26, it connects frequency conversion booster pump 22 and water pump 23 respectively to absorb water pipe 10 through two spinal branch union couplings, frequency conversion booster pump 22 and water pump 23 all with hot-galvanize steel pipe 25 interconnect, and be connected with water pump surge tank 24 on the hot-galvanize steel pipe 25 between frequency conversion booster pump 22 and the water pump 23, frequency conversion booster pump 22 and water pump 23 all connect pump assembly controller 26, the pump package adopts frequency conversion control, practice thrift electric energy and effective control pipeline flow, frequency conversion booster pump 22 adopts frequency conversion control, can effectively reduce the electric energy.

Example two

Referring to fig. 3, in this embodiment, compared with the first embodiment, only the liquid level controller 4 is additionally provided, and the liquid level controller 4 is installed on any one PE type plastic water tower 1 of the six PE type plastic water towers 1, the liquid level controller 4 adopted in this embodiment is a full-automatic float switch, and the full-automatic float switch is arranged at the tail end of the water inlet pipe 6 of the water tower, so as to ensure that the water tank is automatically started and stopped when full.

EXAMPLE III

Referring to fig. 4, in the embodiment and the embodiment, compared with the two embodiments, only the overflow pipe 8 is additionally provided, the overflow pipe 8 is a PPR pipe of DN80, the overflow pipe 8 is connected to any one PE type plastic water tower 1 in the six PE type plastic water towers 1, the overflow pipe 8 is provided between the water towers, and normal drainage is performed when the full-automatic float switch fails.

Example four

Referring to fig. 5, in the first embodiment, compared with the first embodiment, only the water pump water shortage protector 5 is additionally provided, and the connection between the water pump water shortage protector 5 and the PE type plastic water tower 1 and the frequency conversion pump group 2 is established, the water pump water shortage protector 5 is installed on any one PE type plastic water tower 1 in the six PE type plastic water towers 1, the water pump water shortage protector 5 is electrically connected with the pump group controller 26, the water pump group water suction pipe 10 is provided with the water pump water shortage protector 5 for secondary protection to prevent the water pump 23 from idling, wherein the water pump water shortage protector 5 used in the present embodiment is of a DSK-2 type, and the frequency conversion booster pump 22 is provided with the water pump water shortage protector 5, so that the problem of the water pump 23 failure caused by insufficient water can be completely solved, the system is relatively stable in operation and convenient for real-time observation, and the maintenance frequency.

EXAMPLE five

Referring to fig. 6, in the first embodiment, compared with the first embodiment that only the PE-type plastic water tower 1 has a different structure, the PE-type plastic water tower 1 includes a tower body 11, a water suction port 12 and a water replenishing port 13, the lower end of the tower body 11 is provided with the water suction port 12 and is connected to a water suction pipe 10 through the water suction port 12, the upper end of the tower body 11 is provided with the water replenishing port 13, and the water replenishing port 13 is connected to the water replenishing pipe 3, wherein the PE-type plastic water tower 1 is made of polyethylene, has high material strength and is transparent, can visually observe the water level condition, is convenient to clean and maintain, is aging-resistant, corrosion-resistant, acid and alkali-resistant, energy-saving, non-toxic, environment-friendly, and light in material; the water inlet of the PE plastic water tower 1 adopts a high inlet and low outlet mode; the water pump 23 adopts a low-inlet and high-outlet mode for water absorption and pressurization.

EXAMPLE six

Referring to fig. 7, in the present embodiment, compared with the fifth embodiment, the structure of the PE-only plastic water tower 1 is different, each water tower is communicated with the upper part of the pipeline, and the vent hole 7 is arranged 0.3m away from the top end of the tower body 11 of each water tower, so as to avoid negative pressure in the tower, the water supplementing pipe 3 is connected with the exhaust pipe 9, the exhaust pipe 9 is a PPR pipe of DN32, so as to exhaust gas in the pipeline, ensure smooth water inlet of the water tower, and the PPR pipe is connected by hot melting, so that the construction; the PE plastic water tower 1 can be freely placed, and the placement position can be adjusted as required.

EXAMPLE seven

Referring to fig. 8, in the present embodiment and the sixth embodiment, compared with the connection manner of the PE-type plastic water tower 1 and each pipeline, the water replenishing pipe 3, the water inlet pipe 6, the overflow pipe 8, the exhaust pipe 9 and the water suction pipe 10 are all connected to the PE-type plastic water tower 1 through the PE flange 14, and the pipeline connection between the water towers is in the form of the PE flange 14, which is convenient for maintenance.

Referring to fig. 9, in order to better show the water supply flow of the multi-tower water supply system, the present embodiment provides a water supply method of the multi-tower water supply system, which includes the following steps:

s101: build combination formula PE type plastics water tower 1, equipment frequency conversion pump package 2, and utilize the pipeline to connect both, establish many water tower water supply system, when the construction, 1 area of combination formula PE type plastics water tower is about 28 square meters, required space is less, be applicable to the narrow compactness in engineering project place and will strictly require foundation ditch upper portion load, the water tower height is about 1.8 meters, has higher factor of safety, and the construction pump house protection system of being convenient for, construction convenience: the PE type plastic water tower 1 is a finished product and does not need to be assembled on site, and the requirement on the ground base plane is not high;

s102: starting the frequency conversion pump set 2, driving water to enter the PE type plastic water tower 1 from the water inlet pipe 6 by the water pump 23, and flowing to each PE type plastic water tower 1 through the water supplementing pipe 3; the PE type plastic water tower 1 is combined with a frequency conversion pump set to convey construction water, the investment cost of all equipment is low, compared with a conventional stainless steel water tank, a profile steel foundation needs to be installed at the bottom to ensure the smoothness of the profile steel foundation, and the foundation requirement is high; the conventional stainless steel water tank is higher in manufacturing cost, time and labor are consumed for on-site welding and assembling, and the cost performance of the technology for conveying construction water by combining the PE plastic water tower 1 with the variable frequency pump set 2 is higher in comprehensive comparison; the whole size of the equipment is small, the visual observation of the whole system can be realized, and the maintenance difficulty can be greatly reduced; the adopted materials are all conventional articles, so the expense of maintenance material is low; the turnover cost is lower;

s103: the liquid level controller 4 detects the water level in the PE plastic water tower 1, the water pump 23 stops running after the water level reaches a set value, and water exceeding the set water level is discharged from the overflow pipe 8, so that the water tower can be prevented from being overloaded.

In summary, the following steps: according to the multi-water-tower water supply system and the water supply method, the PE plastic water tower 1 is combined with the variable frequency pump set 2 to convey construction water, so that electric energy is saved, the flow of a pipeline is effectively controlled, the system is relatively stable in operation and convenient to observe in real time, and the maintenance frequency can be effectively reduced; the six PE plastic water towers 1 are adopted to store construction water to replace the traditional water tank, the arrangement is uniform and compact, sufficient water is ensured, the space required by installation is small, the turnover is convenient, the manufacturing cost, the maintenance cost and the rotating cost are low, and the implementation cost is reduced on the premise of ensuring high water quantity and water delivery speed; and the PPR pipeline is used for hot melting and connecting each component, so that the construction speed is high, and the construction period is shortened.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The multi-water-tower water supply system is characterized by comprising six PE (polyethylene) plastic water towers (1), six frequency conversion pump sets (2), water replenishing pipes (3) and water absorbing pipes (10), wherein the six PE plastic water towers (1) are connected with one another through the water replenishing pipes (3), and the six PE plastic water towers (1) are connected with the frequency conversion pump sets (2) through the water absorbing pipes (10).

2. The multi-water-tower water supply system as claimed in claim 1, wherein the variable-frequency pump group (2) comprises a variable-frequency control box (21), a variable-frequency booster pump (22), a water pump (23), a water pump surge tank (24), a hot-dip galvanized steel pipe (25) and a pump group controller (26), the water suction pipe (10) is respectively connected with the variable-frequency booster pump (22) and the water pump (23) through two branch pipes, the variable-frequency booster pump (22) and the water pump (23) are both connected with the hot-dip galvanized steel pipe (25), the hot-dip galvanized steel pipe (25) between the variable-frequency booster pump (22) and the water pump (23) is connected with the water pump surge tank (24), and the variable-frequency booster pump (22) and the water pump (23) are both.

3. A multi-tower water supply system as claimed in claim 2, wherein six of said PE-type plastic water towers (1) are arranged in two rows and three columns.

4. A multi-tower water supply system as claimed in claim 3, wherein any one of the six PE plastic water towers (1) is provided with a liquid level controller (4), and the PE plastic water tower (1) is connected with a water inlet pipe (6).

5. A multi-water tower water supply system according to claim 4, characterized in that any one PE type plastic water tower (1) of six PE type plastic water towers (1) is connected with an overflow pipe (8).

6. A multi-tower water supply system according to claim 5, wherein any one PE plastic water tower (1) in the six PE plastic water towers (1) is provided with a water pump water shortage protector (5), and the water pump water shortage protector (5) is electrically connected with the pump set controller (26).

7. The multi-water-tower water supply system as claimed in claim 6, wherein the PE-type plastic water tower (1) comprises a tower body (11), a water suction port (12) and a water replenishing port (13), the water suction port (12) is formed at the lower end of the tower body (11) and is connected with the water suction pipe (10) through the water suction port (12), the water replenishing port (13) is formed at the upper end of the tower body (11), and the water replenishing port (13) and the water replenishing pipe (3) are connected with each other.

8. A multi-water tower water supply system according to claim 7, characterized in that the top of the tower body (11) is provided with air holes (7), and the water replenishing pipe (3) is connected with an exhaust pipe (9).

9. The multi-water-tower water supply system as claimed in claim 8, wherein the water replenishing pipe (3), the water inlet pipe (6), the overflow pipe (8), the air exhaust pipe (9) and the water suction pipe (10) are all PPR pipes, and the water replenishing pipe (3), the water inlet pipe (6), the overflow pipe (8), the air exhaust pipe (9) and the water suction pipe (10) are all connected with the PE-type plastic water tower (1) through PE flanges (14).

10. A method of supplying water to a multi-tower water supply system as claimed in any one of claims 1 to 9, comprising the steps of:

s101: a combined PE plastic water tower (1) is built, a variable frequency pump set (2) is assembled and connected by a pipeline, and a multi-water-tower water supply system is built;

s102: starting a frequency conversion pump set (2), driving water to enter the PE type plastic water tower (1) from a water inlet pipe (6) by a water pump (23), and enabling the water to flow to each PE type plastic water tower (1) through a water supplementing pipe (3);

s103: the liquid level controller (4) detects the water level in the PE plastic water tower, the water pump (23) stops running after the water level reaches a set value, and water exceeding the set water level is discharged from the overflow pipe (8).

Images