CN100476089C

CN100476089C - Totally-enclosed self-equilibrium cavate type non-negative pressure water supplying system

Info

Publication number: CN100476089C
Application number: CNB200510132494XA
Authority: CN
Inventors: 张明亮; 王学成
Original assignee: Individual
Current assignee: Qingdao Sanli Group Co ltd; Qingdao Sanli Zhongdemei Water Equipment Co Ltd
Priority date: 2005-12-26
Filing date: 2005-12-26
Publication date: 2009-04-08
Anticipated expiration: 2025-12-26
Also published as: CN1990965A

Abstract

The invention relates to an all-closed self-balance cavity water supply system without negative pressure, comprising stabilizing compensator, in which there are multiple isolated cavities and collecting pressure machine and divergence machine are set; vacuum suppressor, in which microprocessor is set; water pump, check valve, gate valve, outfall sewer; pressure sensor, VVVF control cupboard; sterilizer; and water inlet pipe. By combined action of isolated cavities, collecting pressure machine, vacuum suppressor, pressure sensor water supply without negative pressure in the whole equipment is realized under the all-closed status so as to avoid the air pollution of water quality and improve the work stability of system.

Description

Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system

Technical field

The present invention relates to a kind of non-negative pressure water service system, particularly a kind ofly directly be serially connected in running water pipe provides water on the net for high building non-negative pressure water service system.

Background technology

Traditional secondary water-supply mode, all be to adopt to build large pool, the pond is put in the municipal tap water, be pressurised into user side by water pump again and supply water, this way of supplying water often needs bigger floor space, civil engineering costs is also higher, construction period is longer, for providing of living water use, because large pool exists the secondary pollution problem of water, so, exist the threat that user's health suffers damage.

Chinese patent ZL00215684.9 discloses a kind of no negative pressure, has not had the journey of suction pipe network supercharging current stabilization supply equipment; ZL00256147.6 discloses a kind of non-negative pressure method of water supply device; ZL01204960.3 discloses a kind of energy-conservation no negative pressure water storage tank.These disclosed supply equipments, it is that building water supply avoids making millpond that device can directly connect city planting ductwork, in above-mentioned all kinds of patents technical scheme, in order to eliminate the adverse effect of negative pressure to the municipal tap water pipe network, on fluid reservoir (water storage tank), all be provided with automatic air valve formula structure, when water from fluid reservoir (water storage tank), gas make-up enters in the jar, can contact fully with water, the air of pump house apoplexy involving the solid organs can produce certain pollution to water quality, when in a single day the valve of exhaust opening breaks down and leaks, water in the fluid reservoir (water storage tank) can be to splash everywhere, and fluid reservoir (water storage tank) around be provided with electric fixtures such as water pump assembly usually, the water electrode that splash goes out easily causes the electric fixtures short circuit, and supply equipment is destroyed.Chinese patent ZL02294675.6 discloses a kind of no negative pressure supercharging device, harmomegathus repeatedly by capsule realizes charging and discharging the water process, the capsule exudate inevitably can produce certain pollution to water quality at present, and capsule is aging directly influences equipment life, capsule can produce severe contamination, spilling water even flood pump house in case break as consumable accessory.

Summary of the invention

Main purpose of the present invention is can't effectively stop water pollution at existing water system, and the problem of poor reliability, a kind of Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system is provided, and this system adopts totally-enclosed cavity structure, realizes that reliability height, free of contamination high-quality supply water.

The objective of the invention is to be achieved through the following technical solutions:

A kind of Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system; it comprises that inside is divided into a plurality of chambeies and the steady flow compensator that collects depressor and emanator is housed; the vacuum suppresser of microprocessor is housed; sterilizer; water pump; flap valve; gate valve; outfall sewer; pressure sensor; the variable frequency control cabinet; overpressure protector; backflow preventer; inlet channel; by each chamber that isolates; the collection depressor; emanator; vacuum suppresser; the acting in conjunction of pressure sensor is implemented in the non-negative pressure method of water supply under the totally-enclosed situation of total system; thereby stopped the air pollution of water quality; simultaneously also stop spilling of water, reduced the potential faults of water system.

The invention has the beneficial effects as follows that neither air inlet holds one's breath again in the whole process of system water supply, totally-enclosed water supply, do not have during water supply air pollution, water supply quality good, do not have dabble fault, a reliability of water supply height.

Description of drawings

Accompanying drawing is the principle schematic of preferred embodiment provided by the present invention.

1, steady flow compensator, 2, vacuum suppresser, 3, microprocessor; 4, switch, 5, pipeline, 6, sterilizer; 7, capsul, 8, pressure sensor, 9, backflow preventer; 10, vacuum table, 11, inlet channel, 12, pipe; 13, collection depressor, 14, pipe, 15, emanator; 16, delivery port, 17, pipeline, 18, outlet conduit; 19, water pump, 20, gate valve, 21, flap valve; 22, overpressure protector, 23, pressure sensor, 24, flap valve; 25, outfall sewer, 26, display, 27, the variable frequency control cabinet; 28, first dividing plate, 29, second partition.

The specific embodiment

Below with reference to above accompanying drawing, the specific embodiment of the present invention is done further detailed description.

The inside of steady flow compensator 1 is divided into A by first dividing plate 28 and second partition 29; B; three chambeies of C; first dividing plate 28 and second partition 29 can be made the end socket form in order better to bear pressure; also can make straight plate form; inlet channel 11 communicates with chamber A; emanator 15 and pipe 14 are installed in the A of chamber; delivery port 16 is in the bottom in A chamber; delivery port 16 is connecting outlet conduit 18; outlet conduit 18 is connected with the water inlet of water pump 19; collection depressor 13 is installed in the B chamber; vacuum suppresser 2 is installed on the top of steady flow compensator 1; vacuum suppresser 2 is communicated with collection depressor 13 by pipe 12; inner chamber middle part at vacuum suppresser 2 is equipped with switch 4; display 26 is installed on the external surface of vacuum suppresser 2; display 26 can be with LCD or charactron display; inner chamber top at vacuum suppresser 2 is equipped with microprocessor 3; the middle part of vacuum suppresser 2 is communicated with capsul 7 by pipeline 5; sterilizer 6 is installed in capsul 7; emanator 15 communicates with chamber B; vacuum table 10 is installed on inlet channel 11; between inlet channel 11 and steady flow compensator 1, backflow preventer 9 is installed; delivery port at water pump 19 is equipped with gate valve 20 and flap valve 21; a bypass line that flap valve 24 is housed in parallel with water pump; bypass line and water pump 19 converge at outfall sewer 25; chamber C in the steady flow compensator 1 communicates with outfall sewer 25 by pipeline 17; pipeline 17 passes the bottom in A chamber; communicate with the C chamber then; overpressure protector 22 and pressure sensor 23 are housed on outfall sewer 25; microprocessor 3 and switch 4; pressure sensor 8; collection depressor 13; display 26; variable frequency control cabinet 27 links by lead, and variable frequency control cabinet 27 is by lead and sterilizer 6; water pump 19; overpressure protector 22; pressure sensor 23 connects.

When system has just come into operation or at A, anhydrous in the C chamber, the inflow of city planting ductwork is during greater than user's water supply volume, A, the C chamber is in filling process, in the A chamber along with the rising ozone gaseous mixture of liquid level, inert gas enters collection depressor 13 through vacuum suppresser 2 and pipe 12, arrive the B chamber by collection depressor 13, in the B chamber, assemble, when the tap water pressure in pressure in the B chamber and the A chamber reaches balance, collection depressor 13 is started working, the working signal and the power supply of collection depressor 13 are provided by microprocessor 3 and variable frequency control cabinet 27 respectively, the 2-5 that the work of collection depressor 13 reaches tap water pressure in the A chamber with the compression of the gas in the B chamber is doubly and greater than user's water setting pressure, in the A chamber, all be full of tap water, replenish when coming the water yield less than user's water supply volume in order to tap water, all being full of water final vacuum TVS 2 in the A chamber closes by the buoyancy of ball float, cut off the connection in A chamber and B chamber, collect depressor 13 and quit work this moment, emanator 15 stops always in this process, the water of elevated pressures arrives outfall sewer 25 through gate valve 20 and flap valve 21 when water pump 19 running pressurizations, when the pressure in the C chamber during less than the pressure in the outfall sewer 25, water enters the C chamber through pipeline 17, water level in the C chamber raises, top confining gas pressurized, when pressure in pressure in the C chamber and the outfall sewer 25 reach identical after, be in an equilibrium state, when pressure in the outfall sewer 25 less than the C chamber in during pressure, water (flow) direction is opposite, the C chamber is actual in the course of work of system plays a low discharge pressurize, the effect of voltage stabilizing and elimination water hammer, because of the Compressed Gas in the C chamber is inevitably wanted a water-soluble part, continuity along with System production time, gas flow in the C chamber can be less and less, influence low discharge pressurize and voltage regulation result, because of the pressure in the B chamber always greater than user's water setting pressure, promptly greater than the pressure in the C chamber, when C chamber, compression back middle water level is higher than certain when a bit, emanator 15 is by detecting voluntarily and realizing automatically and will give the ozone gaseous mixture of pressure in the B chamber, inert gas diffuses in the C chamber, divergence stops after reaching requirement voluntarily, thereby has effectively guaranteed the stability of systematic Water supply pressure.

In the system work process, when city planting ductwork come the water yield greater than user's water supply volume the time, the water of city planting ductwork enters in the A chamber of steady flow compensator 1 through inlet channel 11, be fed to water pump 19 by pipeline 18 and be pressurized to the user, this moment, the emanator 15 and the collection depressor 13 of chamber A and B inside, chamber all quit work, and system is in normal steadily water supply state.

When the inflow of city planting ductwork during less than user's water supply volume; more than normal steadily water supply state broken; microprocessor 3 passes to variable frequency control cabinet 27 with pressure and liquid level signal; receive the pressure sensor 23 that transmits from variable frequency control cabinet 27 and the operating frequency value of water pump 19 simultaneously; microprocessor 3 carries out integrated treatment; again signal is passed to the main single board computer in the variable frequency control cabinet 27; rotating speed by variable frequency control cabinet 27 control of pump 19 changes or switching by specific curves; cut-out pump working state; emanator 15 work after the corresponding time of delaying time simultaneously; the ozone gaseous mixture of pressure will be given; inert gas is according to the water utilization rate in the C chamber; at first diffuse in the C chamber; make the standby water in the C chamber all drop into user's use; when C chamber water can not satisfy; emanator 15 will be given the ozone gaseous mixture of pressure; inert gas is dispersed in the A chamber; when being descended, A chamber middle water level keeps malleation always; deposit water in the A chamber is fed to the user by the water pump pressurization; to remedy the deficiency that tap water comes the water yield; when the drawdown in the A chamber arrives lowest water level, system's automatic shutdown protection.In the above course of work, vacuum suppresser 2, collection depressor 13, variable frequency control cabinet 27, pressure sensor 8, pressure sensor 23, emanator 15 associated working, guarantee reliably in the A chamber, can not produce negative pressure according to pressure in the A chamber and liquid level signal, and the deposit water in the A chamber again in time and completely Mi mend in user's water.

Vacuum table 10 is installed on the pipe network of municipal tap water; be used for test and monitoring system and negative pressure whether occurs; when reality is used; system is usually operated at normal state; just system comes the water yield usually greater than water supply volume; this moment, this closed system was in relative dead state; especially bacterium is multiplied in the B chamber easily; sterilizer 6 is when system is in normal water supply state; timely to the B chamber; vacuum suppresser 2 inner chambers are sterilized; backflow preventer 9 avoids aqueous reflux to enter city planting ductwork, and overpressure protector 22 occurs can stopping the operation of water pump 19 when out of control in system; prevent system overpressure; switch 4 can provide liquid level signal to microprocessor 3 when ball float moves in vacuum suppresser 2, and display 26 can demonstrate the pressure and the liquid level numerical value of internal system intuitively, makes things convenient for the operation and the monitoring of system.

It should be noted last that: above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to the foregoing description, those of ordinary skill in the art is to be understood that: still can make amendment or be equal to replacement technical scheme of the present invention, and not breaking away from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of the claim scope of the present invention.

Claims

1, a kind of Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system, it comprises steady flow compensator (1), vacuum suppresser (2), sterilizer (6), water pump (19), flap valve (21), gate valve (20), outfall sewer (25), pressure sensor (9), variable frequency control cabinet (27), inlet channel (11), it is characterized in that: the inside of steady flow compensator (1) is divided into A, B, three chambeies of C by first dividing plate (28) and second partition (29), emanator (15) is installed in the A of chamber, collection depressor (13) is installed in the B chamber, and emanator (15) communicates with chamber B.

2, Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system according to claim 1, it is characterized in that: the inner chamber middle part at vacuum suppresser (2) is equipped with switch (4), display (26) is installed on the external surface of vacuum suppresser (2), microprocessor (3) is installed on the inner chamber top of vacuum suppresser (2).

3, Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system according to claim 1 is characterized in that: vacuum suppresser (2) is installed on the top of steady flow compensator (1), and vacuum suppresser (2) is communicated with collection depressor (13) by pipe (12).

4, Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system according to claim 1 is characterized in that: the chamber C in the steady flow compensator (1) communicates with outfall sewer (25) by pipeline (17), and pipeline (17) passes the bottom in A chamber, communicates with the C chamber then.

5, Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system according to claim 1, it is characterized in that: vacuum suppresser (2) is communicated with by the capsul (7) that pipeline (5) is arranged on the A top of chamber in the steady flow compensator (1), and sterilizer (6) is installed in capsul (7).

6, Totally-enclosed self-equilibrium cavate non-negative pressure water supplying system according to claim 1 is characterized in that: inlet channel (11) communicates with chamber A.