CN211596932U

CN211596932U - Pressure-dividing box type water supply equipment

Info

Publication number: CN211596932U
Application number: CN201921916241.5U
Authority: CN
Inventors: 李龙
Original assignee: HANGZHOU WODE WATER PUMP MANUFACTURE CO Ltd
Current assignee: HANGZHOU WODE WATER PUMP MANUFACTURE CO Ltd
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-09-29
Anticipated expiration: 2029-11-07

Abstract

The utility model relates to a pressure-dividing box formula water supply equipment, including water tank, water tank protection device, mandatory hydrologic cycle water tank liquid level control device and system, fold and press static pressure reposition of redundant personnel bleeder mechanism, fold and press the full frequency conversion of static pressure and pressurize the unit, fold and press static pressure reposition of redundant personnel partial pressure control system and full frequency conversion control cabinet. The utility model discloses a fold and press static pressure reposition of redundant personnel bleeder mechanism, carry out the preferred combination with traditional pressure of folding the characteristics that supply water, static pressure supply water, can utilize the automatic frequency conversion of stack pressure boost of municipal pipe network to supply water and can utilize the regulation volume of water tank to supply water under the static pressure automatically.

Description

Pressure-dividing box type water supply equipment

Technical Field

The utility model relates to a box water supply equipment, more specifically say, be about a partial pressure box water supply equipment.

Background

At present, the current situation of the water supply industry in China can be known that water supply or secondary water supply usually adopts a single form of pressure-superposed or water tank and frequency converter set, pressure-superposed water supply is not enough in storage capacity although energy is saved, and the pressure of a pipe network is not enough, so that the water tank and frequency converter set can ensure larger storage capacity, but cannot realize energy conservation and environmental protection.

The power failure factor is not considered, and the two aspects are mainly that water is cut off due to water plants or pipelines, and water is cut off due to cleaning of the water tank. The reason of a water plant or a pipeline is more objective, and certainly, the water plant or the pipeline is also damaged due to maintenance and water cut-off or the pipeline caused by third-party construction, but the continuous water supply of the water tank is not influenced, and the regulation and storage capacity of the water tank determines that the water plant or the pipeline cannot be influenced by municipal water cut-off in a short time. And as for residents, the more influence is that the water is stopped or stopped when the water tank is cleaned, the cleaning time is influenced by the volume of the water tank and the self cleanliness of the water tank, meanwhile, because the number of the water tanks is increased, the cleaning difficulty is increased, the cleaning time is correspondingly prolonged, and the number of the affected residents is increased, so that the consideration of the water supply enterprise that the water is stopped or stopped when the water tank is cleaned is reduced as much as possible is taken into consideration.

At present, most water supply enterprises leave a factory after passing strict detection, but are influenced by a pipe network, a tail end water tank and a community intranet along the way, the water quality qualification rate of a tap of a resident home is only about 80%, each area is different, the individual area reaches more than 95%, but some areas are 70%, which indicates that great challenges exist in water quality safety, and secondary water supply becomes the largest factor influencing water quality safety. The water tank is used as an important component for regulating and storing water supply, and can not be ignored, meanwhile, the safety guarantee of the water quality in the water tank needs to be paid attention to, as safety protection, the water tank is provided with a self-cleaning sterilizer, an ultraviolet sterilizer or an ozone generator, when treatment is carried out, more protection is carried out, the reason that the water in the water tank is easy to deteriorate is that the water cannot effectively circulate away due to the existence of a dead water layer and a detention layer, meanwhile, the existing control mode of the water tank is that water enters as soon as the water is available to a user, the water enters the water tank, the water in the water tank cannot circulate easily, the water is not fresh, the disinfection effect is relatively limited, and the problem that the water quality does not reach the standard easily occurs, so how to guarantee the water in the water tank is fresh and fresh is really circulated is considered.

On the basis of ensuring the continuous water supply and the water quality safety, the energy consumption which influences the economic benefit of water supply enterprises is naturally a factor considered by the water supply enterprises. In the operation expenditure of the equipment of the water supply enterprise, the maximum expenditure of energy consumption and the operation expenditure of the water plant are more than 70 percent of the expenditure of electricity charge, and the expenditure is individually even higher. The energy consumption is so high for many reasons, such as whether the water plant and the secondary water supply terminal are linked? Is the device type selection reasonable? Is the device operating in the high efficiency zone? The linkage between the water plant and the water tank is an important factor, so how to realize peak clipping and valley filling and how to skillfully utilize water pressure while supplying water by using the water tank?

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses a main aim at provides a partial pressure case formula water supply equipment, through this technical scheme, has solved the problem that traditional equipment noise is big, burn out the motor. The water pump adopts the configuration of laminating and static pressure water pump, so that the equipment runs under the optimal working condition, the problem that the traditional water pump deviates from the high-efficiency area under the low frequency is solved, and the electric energy is greatly saved. The equipment is provided with a static pressure area system and a pressure-superposed area system, and pressure-superposed water supply and variable-frequency water supply are both considered, so that the municipal pipe network pressure is effectively utilized, and the requirements of users can be met.

Meanwhile, the equipment can periodically circulate water stored in the water tank, so that the freshness and the liveness of water are ensured. The device has an automatic cleaning function, and when the water quality fed back by the sensor does not reach the standard, the device automatically calls an automatic cleaning logic to perform all-dimensional cleaning on the water tank.

In order to achieve the above purpose, the technical solution of the present invention is realized as follows: a pressure-dividing box type water supply device comprises a water tank, a water tank water inlet protection device, an automatic water tank cleaning device, an automatic water tank sewage discharge device, a pressure-superposed static pressure dividing and pressure-dividing device, a confluence main pipe, a valve set fastening piece and a full frequency conversion control cabinet; a pressure-superposed static pressure shunting and partial pressure control system, a forced water circulation water tank liquid level control system, a pressure-superposed static pressure full-frequency conversion pressurizing unit control system, a corresponding frequency converter, a central processing unit and an electrical functional element are arranged in the full-frequency conversion control cabinet.

The pressure-superposed static pressure shunting and pressure-dividing device is designed in a partition mode, a steady flow compensation container is designed into a completely isolated cavity, the pressure-superposed static pressure shunting and pressure-dividing device can be divided into a pressure-superposed area and a static pressure area according to the function of the pressure-superposed static pressure and pressure-dividing device in the integral operation of equipment, an inlet of the pressure-superposed area is connected with a municipal pipe network, an outlet of the pressure-superposed area is connected with a pressure-superposed full-variable-frequency water pump, and pressure-superposed water supply is realized. The inlet of the static pressure area is connected with the water outlet of the water tank, and the outlet of the static pressure area is connected with the static pressure full frequency conversion water pump. The area realizes static pressure water supply through static pressure water supply logic and a control system. The device preferentially combines the characteristics of traditional pressure-superposed water supply and static pressure water supply, can utilize the superposed pressurized automatic variable frequency water supply of a municipal pipe network and can also utilize the storage capacity of a water tank to automatically supply water in variable frequency under the static pressure

Laminating static pressure full-frequency-conversion pressurizing unit: the laminated full-variable-frequency water pump is a full-variable-frequency water pump which is driven by a full-variable-frequency motor and controlled by a full-variable-frequency vector control system and can meet the water requirement of a user under the laminated working condition. The static pressure full-frequency-conversion water pump is a full-frequency-conversion water pump which is driven by a full-frequency-conversion vector control system to control a full-frequency-conversion motor and can meet the water consumption requirement of a user under a static pressure working condition. The pressure-superposed pump and the static pressure pump can be two groups of full frequency-variable water pumps with different flow and lift, and the lift of the pressure-superposed full frequency-variable water pump is lower than that of the static pressure full frequency-variable water pump under the normal condition. In the operation of pressure tank formula full frequency conversion water supply equipment, can make the unit all operate in the high-efficient district at any water supply operating mode through the rational arrangement of the full frequency conversion water pump of pressure-superposed static pressure, improve equipment operating efficiency, the noise reduction, and the system is more stable, energy-conserving.

The system enables the pressure-superposed water supply logic and the static pressure water supply logic to be effectively combined, is independent of each other, is synergistic with each other, and can be operated in a synergistic way and be used for each other. When the water consumption peak is high, the system automatically switches the pressure-superposed control system to the static pressure control system, so that the pressure-superposed full-variable-frequency water pump reduces or stops the fetching of water and pressure for the municipal pipe network, and the static pressure full-variable-frequency water pump stores water through the water tank and supplies the water to users. Reduce the water supply burden of municipal pipe network, protected the pressure of municipal pipe network. When the water is sufficient in the valley period, the municipal pipe network supplies water, the system can control the water tank water inlet protection device to be started and supply water to the water tank, the requesting of the static pressure full-frequency-conversion water pump for water storage of the water tank is reduced or stopped, the automatic switching is performed to the pressure-superposed water supply control system, and the pressure-superposed full-frequency-conversion water pump can be used for pressure-superposed water supply for users from municipal water supply. And the system can control the simultaneous opening or closing of the pressure-superposed system and the static pressure system, and equipment can simultaneously take water from the municipal administration system and the water tank to supply to users. The energy-saving water supply concept of peak clipping and valley filling is realized.

A forced water circulation liquid level control device and a control system. The device is installed on a water tank, and the system control software is embedded in a full frequency conversion control cabinet. The system forces the water storage of the water tank to supply water to users through the static pressure full-frequency-conversion water pump under the working condition specified in the specified time and controls the water inlet protection device of the water tank to replenish water to the water tank in the specified time, input and output circulation is carried out, the system specifies that the water storage of the water tank supplies the users firstly, the water is replenished when the liquid level reaches the fully-circulating liquid level identified by the system, the system is linked with the automatic cleaning device of the water tank and the automatic sewage discharge device of the water tank, the water tank can be cleaned without stopping water supply under the unique water supply logic of partial pressure split-flow water supply, and the water requirement of the users is. The system uses the principle of combining accurate liquid level control with the actual working condition of pressure-superposed static pressure flow-dividing partial pressure water supply, so that the water quality of the water tank is effectively ensured, and the water consumption of users is safer.

The full-frequency-conversion pressurizing unit control system implements one-to-one vector control on the pressurizing unit, so that the system control is more efficient, quicker and more stable.

The utility model discloses during the water peak period, municipal pressure is not enough, in order to satisfy the user demand, protection pipe network pressure, and the system switches into the static pressure district water supply operation logic. By adopting two sets of control logics, the water supply can be superposed, the water supply can be operated in a variable-frequency water supply mode, the energy conservation is considered, the user demand can be met, the water tank can be automatically cleaned, the water is stored in the water tank in a timed circulating mode, and the freshness and the vitality of the water quality are ensured.

The beneficial effect after adopting above-mentioned technical scheme is: the utility model can save energy by more than 20 percent, especially solve the problem of high energy consumption of the traditional equipment, change two extreme water supply modes of the traditional equipment, namely, the superposition and the frequency conversion, and combine the two water supply logics together, thereby not only meeting the user requirements, but also enabling the water pumps to operate in respective high-efficiency areas; in addition, the device ensures the full circulation of the water stored in the water tank, ensures the freshness of the water quality, can automatically clean the water tank in the water using process of a user, and realizes the continuous water supply for the user. The utility model discloses a different cavities that adopt bleeder mechanism with the different water supply sources of pressure reach the state of constant voltage after carrying out the partial pressure to improve the high-efficient water supply of equipment greatly, satisfied user's demand.

The utility model discloses an electromechanical integration design, easily control, compact structure, simple, pleasing to the eye, the operation supplies water reliably to convenient the maintenance, area is little.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a side view of fig. 1.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

The utility model relates to a pressure dividing box type water supply device, which comprises a water tank 1,

water pumps

2 and 3, a motor 4 and a full frequency conversion control cabinet 5, wherein the

water pumps

2 and 3 are fixed below the motor 4, a pressure-superposed static pressure shunt pressure dividing control system, a forced water circulation water tank liquid level control system, a pressure-superposed static pressure full frequency conversion pressurizing unit control system and a corresponding frequency converter, a central processing unit and an electrical functional element are arranged in the full frequency conversion control cabinet, the water tank 1 is provided with a water inlet 6 and

water outlets

7 and 8, the water inlet 6 is connected with a municipal pipe network, the water outlet 7 is connected with one end of the pressure-superposed static pressure shunt pressure dividing device, an outlet E of the pressure-superposed static pressure shunt pressure dividing device is connected with an inlet of the water pump 2, the water outlet 8 of the water tank is connected with the other end of the pressure-superposed static pressure shunt pressure dividing device, an outlet F of the pressure shunt, a water supply pressure tank 12 is arranged on the water supply pipe 11, and an electric control valve 13, a pressure stabilizing regulator 14 and a pressure sensor 15 are arranged on a branch of the laminated static pressure shunting and dividing device 9 communicated with the water outlet 7 of the water tank 1.

A water tank ball float valve 18 is arranged on the water inlet 6 of the water tank 1, a backflow preventer 16 is arranged between the water inlet end of the water tank ball float valve 18 and a municipal pipe network, and an electric control valve 13 in a branch of the laminated static pressure flow dividing and dividing device 9 communicated with the water inlet 6 of the water tank 1 is communicated with the water inlet end of the water tank ball float valve 18. The water outlet ends of the two

water pumps

2 and 3 are provided with one-way stop valves 17. And the pressure sensor 15 and the electric control valve 13 are electrically connected with the variable frequency control cabinet 5.

When the device works, water coming from a municipal pipe network is communicated through the backflow preventer 16, the water tank float valve 18 is connected with the water tank 1 through the connecting rod 6, the water outlet 7 of the water tank 1 is connected with the pressure-superposed static pressure shunt and pressure division device 9, and the pressure-superposed static pressure shunt and pressure division device 9 is communicated with a water supply pipe 11 through the water pump 2 and the one-way stop valve 17 to supply water to a user pipe network. The municipal water supply pipeline is provided with the electric valve and the pressure transmitter, so that the pressure of the municipal pipe network cannot be influenced. When the municipal pipe network water supply quantity can meet the requirement of normal water use, the municipal pipe network directly enters the end of the pressure-superposed static pressure shunt pressure dividing device 9 through the switched-on electric control valve 13 and the pressure stabilizing regulator 14, and then enters the user pipe network through the water supply pipe after being superposed and pressurized by the water pump 2 (small pump), so that the requirement of the user on water use is met. When the municipal pipe network can not satisfy the water requirement, pressure sensor 15 detects that the municipal pipe network comes the water pressure and descends, when the signal feedback to switch board 5, switch board 5 adjusts voltage regulator 14, for change electric control valve 13's aperture, in order not to produce the negative pressure influence to the municipal pipe network, because water supply flow can not satisfy the user pipe network requirement before water pump 2 (fold district water pump), water pump 3 (static pressure district water pump) starts, directly supply water for the user, static pressure district water pump directly starts to compensate municipal pipe network water supply not enough, guarantee the normal water supply demand of user pipe network.

When the water consumption of the user pipe network is small or the water is stopped, the

water pumps

2 and 3 are dormant, a certain high-pressure water is kept by the water supply air pressure tank to carry out pressure stabilization and pressure maintaining on the user pipe network, when a small amount of water is used in the user pipe network, the

water pumps

2 and 3 do not need to be started, the water is supplied to the user pipe network only by the pressure maintaining effect of the water supply air pressure tank 12, the electric energy is greatly saved, and the service lives of the

water pumps

2 and 3 are prolonged.

In the operation process of the equipment, the 22 water quality tester feeds the water quality condition back to the variable frequency control cabinet 5 on line in real time, when an early warning value set in a program of the variable frequency control cabinet 5 is close to an actual value, the equipment opens the operation logic of a cleaning water tank in a valley period, closes a municipal water supply electric valve 26, an electric valve 27, starts a static pressure area water pump 3, pumps water in the water tank 1, switches the logic to start a water pump 2 in a laminating area, closes an electric valve 27 at the inlet of the water pump, opens an electromagnetic valve 20, high-pressure water enters the water tank 1 through a high-pressure connecting pipe 19, starts a rotary nozzle 21, rapidly cleans the water tank 1, discharges an electromagnetic valve 24 at a drain outlet of the water tank through a drain outlet 23 of the water tank, stops cleaning when.

The water supply of the water tank is forcibly switched every 8 hours by using the inlet electric valve 27, so that the water quality is guaranteed to be fresh and alive.

The utility model discloses to fold and press static pressure reposition of redundant personnel bleeder mechanism to set up two water inlets and three (or three above) delivery port, fold and press static pressure reposition of redundant personnel bleeder mechanism fold the district import and be connected with the municipal administration, fold and press static pressure reposition of redundant personnel bleeder mechanism's static pressure district import and be connected with the water tank export, fold and press static pressure reposition of redundant personnel bleeder mechanism fold the district export with fold the water inlet that presses full frequency conversion water pump and link to each other, fold and press static pressure reposition of redundant personnel bleeder mechanism's static pressure district delivery port and the water inlet that static pressure becomes frequency conversion water. The water outlet of all the water pumps is connected with the confluence main pipe. The water inlet and outlet of all the water pumps are provided with maintenance valves and flexible joints. A pressure-superposed static pressure shunting and partial pressure control system, a mandatory water circulation water tank liquid level control system, a full frequency conversion pressurizing unit control system, a corresponding frequency converter, a central processing unit and an electrical functional element are arranged in the full frequency conversion control cabinet. The utility model discloses it is showing the advantage below to have relatively traditional water supply equipment. Firstly, the utility model adopts the pressure-superposed static pressure shunting and pressure-dividing device to preferentially combine the characteristics of the traditional pressure-superposed water supply and static pressure water supply, and can not only utilize the superposed pressurized automatic frequency conversion water supply of the municipal pipe network, but also utilize the storage capacity of the water tank to automatically frequency convert the water supply under the static pressure; secondly, the split-flow and partial-pressure configuration of the full variable-frequency water pump enables the equipment to operate in a college area under the peak-valley working condition, the energy-saving effect is obvious, and the effective combination of the overlying static pressure enables the peak-clipping and valley-filling operation logic to be fully embodied; thirdly, the utility model implements one-to-one vector control on the pressurizing unit through the full frequency conversion control cabinet, so that the system control is more efficient, quicker and more stable; fourthly, the utility model is provided with a forced water circulation liquid level control device and a control system, the water stored in the forced water tank is input and output in the specified working condition of the static pressure full frequency conversion water pump, the system specifies the principle of supplying water firstly and then supplementing accurate liquid level control, and the water quality of the water tank is effectively ensured to ensure that the water for users is safer; fifth, the utility model discloses a pressure-superposed static pressure reposition of redundant personnel partial pressure control system makes pressure-superposed water supply logic and static pressure water supply logic effectively combine both mutually independent, again mutually in coordination, can be each other again for reserve. Sixth, the utility model discloses unnecessary shut down when the water tank can be realized clearing up to the unique water supply logic that the partial pressure reposition of redundant personnel supplied water, still guarantees user's water requirement. The double-system integrated design of the partial pressure box type full-frequency conversion water supply equipment has the advantages of more stable water supply pressure, higher safety, more energy conservation, full guarantee of system tail end pressure, integrated professional design, compact structure and attractive appearance.

Claims

1. The utility model provides a partial pressure case formula water supply equipment which characterized in that: the pressure-dividing box type full-frequency-conversion water supply equipment comprises a water tank, a pressure-superposed static pressure flow-dividing and pressure-dividing device, a confluence main pipe and a full-frequency-conversion control cabinet; and a pressure-superposed static pressure shunting and partial pressure control system, a forced water circulation water tank liquid level control system, a pressure-superposed static pressure full-frequency-conversion pressurizing unit control system and a corresponding frequency converter are arranged in the full-frequency-conversion control cabinet.

2. The water supply apparatus of claim 1, wherein: the pressure-superposed static pressure shunting and pressure-dividing device is a cavity-divided structure which is completely isolated by a steady flow compensation container and is divided into a pressure-superposed area and a static pressure area, the inlet of the pressure-superposed area is connected with a municipal pipe network, the outlet of the pressure-superposed area is connected with a pressure-superposed full frequency conversion water pump, and pressure-superposed water supply is realized in the area through pressure-superposed water supply logic and a control system; the inlet of the static pressure area is connected with the water outlet of the water tank, and the outlet of the static pressure area is connected with the static pressure full frequency conversion water pump; and (4) supplying water by static pressure through a static pressure water supply logic and control system.

3. The water supply apparatus of claim 1, wherein: the laminated full-variable-frequency water pump of the laminated full-variable-frequency pressurizing unit is a full-variable-frequency water pump which is driven by a full-variable-frequency motor and controlled by a full-variable-frequency vector control system and can meet the water requirement of a user under the laminated working condition; the static pressure full frequency conversion water pump is a full frequency conversion water pump which is driven by a full frequency conversion motor and controlled by a full frequency conversion vector control system and can meet the water consumption requirement of a user under a static pressure working condition; the overlapping pump and the static pressure pump are two groups of full variable frequency water pumps with different flow and lift; the head of the pressure-superposed full-variable-frequency water pump is lower than that of the static pressure full-variable-frequency water pump.

4. The water supply apparatus of claim 1, wherein: the pressure-superposed static pressure flow-dividing and pressure-dividing control system effectively combines a pressure-superposed water supply logic and a static pressure water supply logic; and the system controls the simultaneous opening or closing of the pressure-superposed and static pressure systems, and equipment simultaneously takes water from the municipal works and the water tank to supply to users.

5. The water supply apparatus of claim 1, wherein: the forced water circulation liquid level control device and the control system are installed on the water tank, and the system control software is embedded in the full frequency conversion control cabinet.

6. The water supply apparatus of claim 1, wherein: the full frequency conversion pressurizing unit control system implements one-to-one vector control on the pressurizing unit.