CN205313278U - Independence water purifier - Google Patents

Abstract

The utility model provides an independence water purifier relates to water filtration equipment technical field, including water purifier and receiving terminal, water purifier includes storage water tank, booster pump, reverse osmosis membrane, ultraviolet lamp and pure water case, be provided with conductivity sensor, resistivity sensor and PH sensor between ultraviolet lamp and the pure water case, manometer, conductivity sensor, resistivity sensor and PH sensor are connected with a processing board electricity, it can gather each measured data among the water purifier and send to handle the board, the measured data that receiving terminal can receive water purifier reads and preserves. The utility model discloses an useful part is can carry out temperature regulation to the pure water after the processing in order to satisfy the experiment or to produce requiredly to be provided with the storage water tank and supply water and the storage battery power supply, also can continue the use although cut the supply of water and electricity, do not influence the job schedule.

Description

A kind of independence water purifior

Technical field

The utility model relates to water filtration device technical field, especially a kind of independence water purifior.

Background technology

Water purifior refers to and water float thing, heavy metal, bacterium, virus etc. is removed or be reduced to water purifying plant to a certain degree, and use for laboratory water purifior majority tap water changes into pure water or ultrapure water for researching and analysing. And still there is following defect in current laboratory purifier water: (1) is too big to the dependence of external condition, namely can not use after cutting off the water and electricity supply; (2) take off data of the hydraulic pressure value of display in water purifior, conductivity value or resistivity value is all real-time, all passing data is not carried out record, is unfavorable for that data are thumbed and monitor whether water purifior work stablizes; (3) cleaning frequency of reverse osmosis membrane is 3～4 months at present, replacement frequency is 2～4 years, but owing to the use frequent degree of every platform water purifior is different, there will be reverse osmosis membrane excessively use or not just scrap duration of service and cause the phenomenon of waste, judge to clean and replacement frequency not science according to the time; (4) water purifior pure water out can not be carried out temperature adjustment.

Practical novel content

The utility model overcomes shortcoming of the prior art, a kind of independence water purifior is provided, structure is simple, cost of manufacture is low, pure water after processing can carry out temperature to be regulated with needed for satisfied experiment or production, and it is provided with water tank to supply water and battery power, also can continue to use although cutting the supply of water and electricity, not affecting work progress.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

A kind of independence water purifior, comprises water purifior and receives terminal;

Described water purifior comprises water tank, described water tank is provided with water inlet pipe, rising pipe and tracheae, described water inlet pipe is provided with inlet valve, the first water level sensor also it is provided with in described water tank, described first water level sensor is electrically connected with described inlet valve, controls the keying of described inlet valve, described rising pipe connects topping-up pump, described topping-up pump connects reverse osmosis membrane, described reverse osmosis membrane connects ultraviolet lamp, described ultraviolet lamp connects pure water tank, described pure water tank is provided with pure water outlet, heating unit and refrigeration plant it is provided with in described pure water tank, the controller of described refrigeration plant Heating temperature adjustable with refrigeration plant and refrigeration temperature is electrically connected, it is provided with tensimeter between described water tank rising pipe and topping-up pump, it is provided with conductivity sensor between described ultraviolet lamp and pure water tank, resistivity sensor and PH sensor, described tensimeter, conductivity sensor, resistivity sensor and PH sensor are electrically connected with a disposable plates, described disposable plates is provided with the first transmodulator and projector, described first transmodulator can by tensimeter, conductivity sensor, the measurement numbers translate of resistivity sensor and PH sensor is that wireless signal sends for described projector,

Described reception terminal comprises receptor, the 2nd transmodulator, holder and display screen, described receptor can receive the wireless signal that described projector sends, and transferring to described 2nd transmodulator, signal is converted into readable data and preserves to display screen display and described holder by described 2nd transmodulator.

Further, also comprising the store battery being arranged in described water purifior and powering to each electrical equipment, described store battery is electrically connected with each electrical equipment.

Further, described store battery also connects a protection switch, and described protection switch detects that described store battery can disconnect charging after fully charged.

Further, also comprising the under meter being arranged between described reverse osmosis membrane and ultraviolet lamp, described under meter is electrically connected with described disposable plates.

Further, also comprising the 2nd water level sensor being arranged in described water tank, the pilot lamp that described 2nd water level sensor is arranged on outside described water purifior with is electrically connected.

Compared with prior art, the beneficial effects of the utility model are:

(1) leaving water temperature(LWT) is controlled: after processing, the pure water of gained carries out temperature adjustment, meets experiment or produces the service requirements to differing temps, it is to increase working efficiency; (2) power-off does not affect use after cutting off the water supply: the utility model is provided with water tank and store battery, and cutting off the water supply when outside and still can maintain after power-off uses for some time, avoids because external conditions has influence on work progress, strengthens adaptability; (3). Take off data is controlled: the take off data in water purifior working process can be received and preserve by the reception terminal of setting, it is convenient to data to be carried out monitor in real time and follow-up thumbs analysis, be beneficial to and analyze whether water purifior work stable and whether water quality changes.

Accompanying drawing explanation

Accompanying drawing is used to provide of the present utility model it is further understood that be used from explanation the utility model with embodiment one of the present utility model, does not form restriction of the present utility model, in the accompanying drawings:

Fig. 1 is the workflow diagram of a kind of independence water purifior described in the utility model;

Fig. 2 is the workflow diagram receiving terminal.

In figure, 1 water tank, 11 water inlet pipes, 12 rising pipes, 13 tracheaes, 111 inlet valves, 14 first water level sensors, 15 the 2nd water level sensors, 2 topping-up pumps, 3 reverse osmosis membranes, 4 ultraviolet lamps, 5 pure water tanks, 51 pure water outlets, 52 heating units, 53 refrigeration plants, 6 controllers, 7 tensimeters, 8 conductivity sensors, 9 resistivity sensors, 10 PH sensors, 11 disposable plates, 111 first transmodulators, 112 projectors, 12 reception terminals, 121 receptors, 122 the 2nd transmodulators, 123 holders, 124 display screens, 13 under meters.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described, it will be appreciated that preferred embodiment described herein is only for instruction and explanation of the utility model, and is not used in restriction the utility model.

It is a kind of independence water purifior described in the utility model as depicted in figs. 1 and 2, comprise water purifior and receive terminal 12, water purifior comprises water tank 1, water tank 1 is provided with water inlet pipe 11, rising pipe 12 and tracheae 13, water inlet pipe 11 is provided with inlet valve 111, inlet valve 111 controls the circulation of water in water inlet pipe 11, the first water level sensor 14 also it is provided with in water tank 1, first water level sensor 14 is electrically connected with inlet valve 11, the keying of control inlet valve 11, when the position that waterborne in water tank 1 is raised to the first water level sensor 14, first water level sensor 14 can by information feed back to inlet valve 111, the closedown of control inlet valve 111,When water level is lower than the first water level sensor 14, inlet valve 111 is in the state of opening; Rising pipe 12 connects topping-up pump 2, topping-up pump 2 connects reverse osmosis membrane 3, reverse osmosis membrane 3 connects ultraviolet lamp 4, ultraviolet lamp 4 connects pure water tank 5, pure water tank 5 is provided with pure water outlet 51, is provided with heating unit 52 and refrigeration plant 53 in pure water tank 5, and the controller 6 of refrigeration plant 52 Heating temperature adjustable with refrigeration plant 53 and refrigeration temperature is electrically connected, can be set the Heating temperature in pure water tank 5 and refrigeration temperature by controller 6, the pure water that can obtain differing temps carries out testing or working; It is provided with tensimeter 7 between water tank 1 rising pipe 12 and topping-up pump 2, conductivity sensor 8, resistivity sensor 9 and PH sensor 10 it is provided with between ultraviolet lamp 4 and pure water tank 5, tensimeter 7, conductivity sensor 8, resistivity sensor 9 and PH sensor 10 are electrically connected with a disposable plates 11, disposable plates 11 is provided with the first transmodulator 111 and the measurement numbers translate of tensimeter 7, conductivity sensor 8, resistivity sensor 9 and PH sensor 10 can be that wireless signal sends for projector 112 by projector 112, first transmodulator 111. Receive terminal 12 and comprise receptor 121, the 2nd transmodulator 122, holder 123 and display screen 124, receptor 121 can receive the wireless signal that projector 112 sends, and transfer to the 2nd transmodulator 122, signal is converted into readable data to display screen 124 and shows and preserve with holder 123 by the 2nd transmodulator 122, it may also be useful to person directly can check real-time monitoring data in display screen 124 and thumb the historical data being kept in holder 123. Giving the store battery that each electrical equipment is powered in water purifior, store battery is electrically connected with each electrical equipment, after having a power failure; store battery can also be powered to water purifior; avoiding affecting work, store battery also connects a protection switch, and protection switch detects that store battery can disconnect charging after fully charged.

Under meter 13 between reverse osmosis membrane 3 and ultraviolet lamp 4, under meter 13 is electrically connected with disposable plates 11, by the data observed under meter 13, scavenging period and the replacing construction of reverse osmosis membrane 3 can be determined according to discharge, intuitively reflecting the true service condition of reverse osmosis membrane 3, dependence more simple than the past judges that the cleaning of reverse osmosis membrane 3 and replacement frequency are more reliable duration of service.

The 2nd water level sensor 15 being also provided with in water tank 1, the pilot lamp that 2nd water level sensor 15 is arranged on outside water purifior with one is electrically connected, when water level is lower than the 2nd water level sensor 15,2nd water level sensor 15 can control pilot lamp and open, notify use personnel, avoid topping-up pump idle running or the infringement of other instruments.

Finally it is noted that these are only preferred embodiment of the present utility model; it is not limited to the utility model; although the utility model being described in detail with reference to embodiment; for a person skilled in the art; technical scheme described in foregoing embodiments still can be modified by it; or wherein part technology feature is carried out equivalent replacement; but it is all within spirit of the present utility model and principle; any amendment of being done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. an independence water purifior, it is characterised in that, comprise water purifior and receive terminal;

Described water purifior comprises water tank, described water tank is provided with water inlet pipe, rising pipe and tracheae, described water inlet pipe is provided with inlet valve, the first water level sensor also it is provided with in described water tank, described first water level sensor is electrically connected with described inlet valve, controls the keying of described inlet valve, described rising pipe connects topping-up pump, described topping-up pump connects reverse osmosis membrane, described reverse osmosis membrane connects ultraviolet lamp, described ultraviolet lamp connects pure water tank, described pure water tank is provided with pure water outlet, heating unit and refrigeration plant it is provided with in described pure water tank, the controller of described refrigeration plant Heating temperature adjustable with refrigeration plant and refrigeration temperature is electrically connected, it is provided with tensimeter between described water tank rising pipe and topping-up pump, it is provided with conductivity sensor between described ultraviolet lamp and pure water tank, resistivity sensor and PH sensor, described tensimeter, conductivity sensor, resistivity sensor and PH sensor are electrically connected with a disposable plates, described disposable plates is provided with the first transmodulator and projector, described first transmodulator can by tensimeter, conductivity sensor, the measurement numbers translate of resistivity sensor and PH sensor is that wireless signal sends for described projector,

Described reception terminal comprises receptor, the 2nd transmodulator, holder and display screen, described receptor can receive the wireless signal that described projector sends, and transferring to described 2nd transmodulator, signal is converted into readable data and preserves to display screen display and described holder by described 2nd transmodulator.

2. a kind of independence water purifior according to claim 1, it is characterised in that, also comprise the store battery being arranged in described water purifior and powering to each electrical equipment, described store battery is electrically connected with each electrical equipment.

3. a kind of independence water purifior according to claim 2, it is characterised in that, described store battery also connects a protection switch, and described protection switch detects that described store battery can disconnect charging after fully charged.

4. a kind of independence water purifior according to claim 1, it is characterised in that, also comprise the under meter being arranged between described reverse osmosis membrane and ultraviolet lamp, described under meter is electrically connected with described disposable plates.

5. a kind of independence water purifior according to claim 1, it is characterised in that, also comprise the 2nd water level sensor being arranged in described water tank, the pilot lamp that described 2nd water level sensor is arranged on outside described water purifior with is electrically connected.