CN209583795U - It is a kind of to carry out desalination plant using graphene - Google Patents

Abstract

Desalination plant is carried out using graphene the utility model discloses a kind of, including cabinet, graphene forward osmosis membrane, fixed plate, through-hole, the box house is provided with the graphene forward osmosis membrane, graphene forward osmosis membrane side is provided with the fixed plate, the through-hole is provided in the fixed plate, the box inside is provided with liquid level sensor, and stirring rod is provided between the liquid level sensor and the graphene forward osmosis membrane, is provided with shaft between the stirring rod.Beneficial effect is: the utility model passes through setting graphene forward osmosis membrane, the membrane separating process of Water transport is realized as power according to the permeable pressure head of graphene forward osmosis membrane two sides, good separating effect, pass through setting filter screen and activated carbon adsorption layer, preliminary filtering can be carried out to seawater, avoids the normal operation of the impurity effect device in seawater, by the way that observation window is arranged, the degree of sea water desalination can be learnt, convenient for grasping processing progress.

Description

It is a kind of to carry out desalination plant using graphene

Technical field

The utility model relates to field of seawater desalination, carry out desalination plant using graphene more particularly to a kind of.

Background technique

Sea water desalination utilizes seawater desalination to produce fresh water, is the open source increment technique realizing water resource and utilizing, Ke Yizeng Add fresh water total amount, and not by space-time and climatic effect, can ensure that coastal Drinking Water for Residents and Industrial Boiler moisturizing etc. are stablized and supply Water.

Have more than ten more than 100 a scientific research institutions of country in the world in the research for carrying out sea water desalination, have it is hundreds of not Sea water desalination facility with structure and different capabilities is working, and the large-scale seawater desalting plant of a modernization can produce daily Thousands of, tens of thousands of or even nearly million tons of fresh water, the cost of water are reduced constantly, some countries have already decreased to the valence with tap water Lattice are similar, and the desalination water of certain areas has reached the water supply scale of countries and cities.

Current method for desalting seawater mainly has the way of distillation and two kinds of hyperfiltration, and the way of distillation needs to consume a large amount of energy Source, it is at high cost, be unfavorable for industrialization although hyperfiltration has higher salt rejection rate and lower energy consumption, it is therefore desirable to Design a kind of more practical desalination plant.

Utility model content

The purpose of this utility model is that solve the above-mentioned problems and provides a kind of light using graphene progress seawater Makeup is set, and the utility model is by setting graphene forward osmosis membrane, according to the permeable pressure head conduct of graphene forward osmosis membrane two sides Power realizes that the membrane separating process of Water transport, good separating effect can be to seawater by setting filter screen and activated carbon adsorption layer Preliminary filtering is carried out, the normal operation of the impurity effect device in seawater is avoided, by the way that observation window is arranged, can learn seawater The degree of desalination, convenient for grasping processing progress.

The utility model achieves the above object through the following technical schemes:

It is a kind of to carry out desalination plant, including cabinet, graphene forward osmosis membrane, fixed plate, through-hole, institute using graphene It states box house and is provided with the graphene forward osmosis membrane, graphene forward osmosis membrane side is provided with the fixed plate, institute It states and is provided with the through-hole in fixed plate, the box inside is provided with liquid level sensor, the liquid level sensor model CYW11 is provided with stirring rod, is provided between the stirring rod between the liquid level sensor and the graphene forward osmosis membrane Shaft, the shaft top are provided with shaft coupling, are provided with motor above the cabinet, the motor side is provided with protection Shell, the protective shell are internally provided with controller, and the controller model MAM-200, the controller and the cabinet are logical Screw connection is crossed, the cabinet side is provided with the first drainpipe, and the cabinet other side is provided with the second drainpipe, and described the It is provided with the first solenoid valve on one drainpipe, hand-operated valve is provided on second drainpipe, is set above first drainpipe It is equipped with support plate, is provided with water service pipe above the support plate, the water service pipe is provided with filtering far from one end of the cabinet Case, the Rose Box are internally provided with filter screen, and the filter screen side is provided with activated carbon adsorption layer, and the Rose Box is separate The side of the water service pipe is provided with water inlet pipe, and second solenoid valve is provided on the water inlet pipe, and the cabinet front is provided with Control panel is provided with display screen on the control panel, is provided with control button, the control panel below the display screen Side is provided with observation window, the control button, the liquid level sensor, the motor, first solenoid valve, described second Solenoid valve and the display screen are electrically connected with the controller.

So set, by the way that the graphene forward osmosis membrane is arranged, according to the infiltration of graphene forward osmosis membrane two sides Pressure difference realizes the membrane separating process of Water transport, good separating effect, by the way that the filter screen and the active carbon is arranged as power Adsorption layer can carry out preliminary filtering to seawater, avoid the normal operation of the impurity effect device in seawater, by the way that institute is arranged Observation window is stated, can learn the degree of sea water desalination, convenient for grasping processing progress.

In above structure, before use device, device is connected into external power supply, by the control button setup parameter, The controller brings into operation, and the second solenoid valve is opened, and seawater is entered in the Rose Box by the water inlet pipe, institute It states filter screen to be filtered the big impurity in seawater, the activated carbon adsorption layer is filtered the small impurity in seawater, mistake Seawater after filter is entered in the cabinet by the water service pipe, and the liquid level sensor carries out the water level in the cabinet Detection, when water level reaches setting value, the second solenoid valve is closed, and the motor brings into operation, and the motor passes through described Shaft coupling drives the shaft rotation, and the shaft drives the stirring rod rotation, and the stirring rod is stirred seawater, by Osmotic pressure in graphene forward osmosis membrane two sides is different, and the graphene forward osmosis membrane permeates seawater, after infiltration Seawater be stored on the right of the cabinet, these water are exactly fresh water, and after sea water desalination, first solenoid valve is opened, dense The cabinet is discharged by first drainpipe in seawater.

Further, the fixed plate and the welding box body, the graphene forward osmosis membrane pass through with the fixed plate Screw connection, the stirring rod are connected by screw to the shaft, and the liquid level sensor and the cabinet are connected by screw It connects.

So set, welding improves the stabilization of the fixed plate so that the fixed plate is fixed on the box house Property, screw connects so that the graphene forward osmosis membrane and the fixed plate are completely embedded reliably, ensure that sea water desalination work Be normally carried out, screw connects so that the stirring rod is fixed in the shaft, and not easily to fall off, screw connection improves described The stability of liquid level sensor ensure that being normally carried out for level sensing work.

Further, the motor is bolted with the cabinet, and the shaft passes through described with the motor The connection of axis device, first drainpipe and the welding box body, first solenoid valve and first drainpipe pass through screw thread Connection.

So set, being bolted the stability for improving the motor, the safety of the motor, the shaft coupling ensure that Device allows the motor that the shaft is driven to rotate, and ensure that the smooth transmitting of kinetic energy, and welding is so that first draining Pipe is completely embedded the leakage for reliably avoiding seawater with the cabinet, and threaded connection allows first solenoid valve more preferable Ground controls the on-off of first drainpipe.

Further, the support plate and the welding box body, the Rose Box are connected by screw to the support plate.

So set, welding improves the support plate so that the support plate and the cabinet stable connection are reliable Stability, screw connect so that the Rose Box is fixed in the support plate, improve the stability of the Rose Box.

Further, the filter screen is connected by screw to the Rose Box, the activated carbon adsorption layer and the mistake Filter box is connected by screw to.

So set, screw connection is so that the installation and replacement of the filter screen are all very convenient, screw is connected so that institute It states activated carbon adsorption layer and the Rose Box stable connection is reliable, improve the stability of the activated carbon adsorption layer.

Further, the water inlet pipe and the Rose Box weld, and the second solenoid valve and the water inlet pipe pass through spiral shell Line connection.

So set, welding is so that the water inlet pipe is fixed on the Rose Box, not easily to fall off, threaded connection is so that institute The on-off of the water inlet pipe can preferably be controlled by stating second solenoid valve.

Further, the protective shell is connected by screw to the cabinet, and the control panel passes through with the cabinet Screw connection.

So set, screw connection improves the stability of the protective shell, the peace of the controller is further ensured Entirely, screw connects the control convenient for staff to device so that the control panel is not easily to fall off.

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

1, it by setting graphene forward osmosis membrane, is realized according to the permeable pressure head of graphene forward osmosis membrane two sides as power The membrane separating process of Water transport, good separating effect；

2, by setting filter screen and activated carbon adsorption layer, preliminary filtering can be carried out to seawater, is avoided in seawater The normal operation of impurity effect device；

3, by setting observation window, the degree of sea water desalination can be learnt, convenient for grasping processing progress.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only Some embodiments of the utility model, for those of ordinary skill in the art, in the premise of not making the creative labor property Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of schematic diagram of internal structure that desalination plant is carried out using graphene described in the utility model；

Fig. 2 is a kind of main view that desalination plant is carried out using graphene described in the utility model；

Fig. 3 is a kind of left view that fixed plate in desalination plant is carried out using graphene described in the utility model；

Fig. 4 is a kind of circuit structure flow diagram that desalination plant is carried out using graphene described in the utility model.

The reference numerals are as follows:

1, cabinet；2, graphene forward osmosis membrane；3, fixed plate；4, through-hole；5, shaft；6, stirring rod；7, liquid level sensor； 8, shaft coupling；9, motor；10, protective shell；11, controller；12, the first drainpipe；13, the first solenoid valve；14, support plate；15, Water service pipe；16, Rose Box；17, filter screen；18, activated carbon adsorption layer；19, water inlet pipe；20, second solenoid valve；21, second row Water pipe；22, hand-operated valve；23, control panel；24, display screen；25, control button；26 observation windows.

Specific embodiment

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot understand For limitations of the present invention.In addition, term " first ", " second " etc. are used for description purposes only, and should not be understood as indicating Or it implies relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " second " etc. are defined as a result, Feature can explicitly or implicitly include one or more of the features.It is in the description of the present invention, unless another It is described, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, on being understood by concrete condition State the concrete meaning of term in the present invention.

The utility model is described in further detail with reference to the accompanying drawing:

First embodiment:

As Figure 1-Figure 4, a kind of to carry out desalination plant, including cabinet 1, graphene forward osmosis membrane using graphene 2, fixed plate 3, through-hole 4, cabinet 1 are internally provided with graphene forward osmosis membrane 2, and graphene forward osmosis membrane 2 is to desalinize seawater, stone Black 2 side of alkene forward osmosis membrane is provided with fixed plate 3, and fixed plate 3 is provided in fixed plate 3 to fix graphene forward osmosis membrane 2 Through-hole 4, through-hole 4 pass through to fresh water, and liquid level sensor 7 is provided on the inside of cabinet 1, and 7 model CYW11 of liquid level sensor is used With sensed water level, stirring rod 6 is provided between liquid level sensor 7 and graphene forward osmosis membrane 2, stirring rod 6 to stir seawater, Shaft 5 is provided between stirring rod 6, shaft 5 is provided with shaft coupling 8, shaft coupling 8 is used to fix stirring rod 6 above shaft 5 To connect motor 9 and shaft 5, motor 9 is provided with above cabinet 1, motor 9 is set to convert electrical energy into kinetic energy, 9 side of motor It is equipped with protective shell 10, for protective shell 10 to protect the safety of controller 11, protective shell 10 is internally provided with controller 11, controller 11 Model MAM-200 is run to control device, and controller 11 is connected by screw to cabinet 1, and 1 side of cabinet is provided with the One drainpipe 12, the first drainpipe 12 are provided with the second drainpipe 21, the second draining concentrated seawater, 1 other side of cabinet is discharged Pipe 21 is provided with the first solenoid valve 13, the first solenoid valve 13 is to control first row fresh water is discharged on the first drainpipe 12 The on-off of water pipe 12, is provided with hand-operated valve 22 on the second drainpipe 21, on-off of the hand-operated valve 22 to control the second drainpipe 21, Support plate 14 is provided with above first drainpipe 12, support plate 14 is provided with logical to support Rose Box 16 above support plate 14 Water pipe 15, for water service pipe 15 to convey seawater, water service pipe 15 is provided with Rose Box 16 far from one end of cabinet 1, in Rose Box 16 Portion is provided with filter screen 17, and filter screen 17 is provided with activated carbon adsorption to the big impurity in filtering sea, 17 side of filter screen Layer 18, activated carbon adsorption layer 18 to the small impurity in filtering sea, Rose Box 16 far from the side of water service pipe 15 be provided with into Water pipe 19, water inlet pipe 19 are provided with second solenoid valve 20, second solenoid valve 20 is to control to convey seawater on water inlet pipe 19 The on-off of water inlet pipe 19,1 front of cabinet are provided with control panel 23, and display screen 24, display screen 24 are provided on control panel 23 To display parameters, control button 25 is provided with below display screen 24, control button 25 is to setup parameter, 23 side of control panel Face is provided with observation window 26, and observation window 26 is to observe sea water desalination degree, control button 25, liquid level sensor 7, motor 9, One solenoid valve 13, second solenoid valve 20 and display screen 24 are electrically connected with controller 11.

Second embodiment:

The difference of second embodiment and first embodiment is: fixed plate 3 and cabinet 1 weld, graphene forward osmosis membrane 2 with Fixed plate 3 is connected by screw to, and stirring rod 6 is connected by screw to shaft 5, and liquid level sensor 7 and cabinet 1 are connected by screw It connects.

Specifically, fixed plate 3 and cabinet 1 weld, and welding improves fixed plate so that fixed plate 3 is fixed on inside cabinet 1 3 stability, graphene forward osmosis membrane 2 are connected by screw to fixed plate 3, screw connect so that graphene forward osmosis membrane 2 with Fixed plate 3 is completely embedded reliably, ensure that being normally carried out for sea water desalination work, and stirring rod 6 is connected by screw to shaft 5, Screw connects so that stirring rod 6 is fixed in shaft 5, and not easily to fall off, liquid level sensor 7 is connected by screw to cabinet 1, screw Connection improves the stability of liquid level sensor 7, ensure that being normally carried out for level sensing work.

3rd embodiment:

The difference of 3rd embodiment and first embodiment is: motor 9 is bolted with cabinet 1, shaft 5 and motor 9 are connected by shaft coupling 8, and the first drainpipe 12 is welded with cabinet 1, and the first solenoid valve 13 and the first drainpipe 12 are connected by screw thread It connects.

Specifically, motor 9 is bolted with cabinet 1, is bolted the stability for improving motor 9, ensure that electricity The safety of machine 9, shaft 5 are connect with motor 9 by shaft coupling 8, and shaft coupling 8 allows motor 9 that shaft 5 is driven to rotate, and guarantees The smooth transmitting of kinetic energy, the first drainpipe 12 are welded with cabinet 1, are welded so that the first drainpipe 12 is completely embedded with cabinet 1 Reliably, the leakage of seawater is avoided, the first solenoid valve 13 is connected through a screw thread with the first drainpipe 12, is threadedly coupled so that first Solenoid valve 13 can preferably control the on-off of the first drainpipe 12.

In above structure, before use device, device is connected into external power supply, passes through 25 setup parameter of control button, control Device 11 processed brings into operation, and second solenoid valve 20 is opened, and seawater is entered in Rose Box 16 by water inlet pipe 19,17 pairs of seas of filter screen Big impurity in water is filtered, and activated carbon adsorption layer 18 is filtered the small impurity in seawater, and filtered seawater passes through Water service pipe 15 enters in cabinet 1, and liquid level sensor 7 detects the water level in cabinet 1, when water level reaches setting value, Second solenoid valve 20 is closed, and motor 9 brings into operation, and motor 9 drives shaft 5 to rotate by shaft coupling 8, and shaft 5 drives stirring rod 6 Rotation, stirring rod 6 are stirred seawater, since the osmotic pressure of 2 two sides of graphene forward osmosis membrane is different, graphene forward osmosis membrane 2 pairs of seawater permeate, and the seawater after infiltration is stored in 1 the right of cabinet, these water are exactly fresh water, after sea water desalination, the One solenoid valve 13 is opened, and cabinet 1 is discharged by the first drainpipe 12 in concentrated seawater.

The basic principles and main features and advantage of the utility model have been shown and described above.The technical staff of the industry It should be appreciated that the present utility model is not limited to the above embodiments, the above embodiments and description only describe this The principle of utility model, on the premise of not departing from the spirit and scope of the utility model, the utility model also has various change And improvement, these various changes and improvements fall within the scope of the claimed invention.

Claims (7)

1. a kind of carry out desalination plant using graphene, it is characterised in that: including cabinet, graphene forward osmosis membrane, fixation Plate, through-hole, the box house are provided with the graphene forward osmosis membrane, and graphene forward osmosis membrane side is provided with described Fixed plate is provided with the through-hole in the fixed plate, and the box inside is provided with liquid level sensor, the liquid level sensor It is provided with stirring rod between the graphene forward osmosis membrane, shaft is provided between the stirring rod, is set above the shaft It is equipped with shaft coupling, motor is provided with above the cabinet, the motor side is provided with protective shell, setting inside the protective shell There is controller, the controller is connected by screw to the cabinet, and the cabinet side is provided with the first drainpipe, the case The body other side is provided with the second drainpipe, and the first solenoid valve is provided on first drainpipe, is set on second drainpipe It is equipped with hand-operated valve, support plate is provided with above first drainpipe, is provided with water service pipe, the water flowing above the support plate It manages one end far from the cabinet and is provided with Rose Box, the Rose Box is internally provided with filter screen, and the filter screen side is set It is equipped with activated carbon adsorption layer, the Rose Box is provided with water inlet pipe far from the side of the water service pipe, is arranged on the water inlet pipe There is second solenoid valve, the cabinet front is provided with control panel, and display screen, the display screen are provided on the control panel Lower section is provided with control button, and the control panel side is provided with observation window, the control button, the liquid level sensor, The motor, first solenoid valve, the second solenoid valve and the display screen are electrically connected with the controller.

2. it is according to claim 1 it is a kind of utilize graphene carry out desalination plant, it is characterised in that: the fixed plate With the welding box body, the graphene forward osmosis membrane is connected by screw to the fixed plate, the stirring rod with described turn Axis is connected by screw to, and the liquid level sensor is connected by screw to the cabinet.

3. it is according to claim 1 it is a kind of utilize graphene carry out desalination plant, it is characterised in that: the motor with The cabinet is bolted, and the shaft is connect with the motor by the shaft coupling, first drainpipe and institute Welding box body is stated, first solenoid valve is connected through a screw thread with first drainpipe.

4. it is according to claim 1 it is a kind of utilize graphene carry out desalination plant, it is characterised in that: the support plate With the welding box body, the Rose Box is connected by screw to the support plate.

5. it is according to claim 1 it is a kind of utilize graphene carry out desalination plant, it is characterised in that: the filter screen It is connected by screw to the Rose Box, the activated carbon adsorption layer is connected by screw to the Rose Box.

6. it is according to claim 1 it is a kind of utilize graphene carry out desalination plant, it is characterised in that: the water inlet pipe It is welded with the Rose Box, the second solenoid valve is connected through a screw thread with the water inlet pipe.

7. it is according to claim 1 it is a kind of utilize graphene carry out desalination plant, it is characterised in that: the protective shell It is connected by screw to the cabinet, the control panel is connected by screw to the cabinet.