CN212222538U - Carbon crystal micro-nano film binary catalytic device - Google Patents

Abstract

The utility model discloses a membrane binary catalytic unit is received a little to carbon crystal for remove the algae to the water, it includes: the inner cavity of the frame box is provided with two groups of mounting groove blocks at intervals, the odd mounting groove blocks are arranged with a group of upward notches, and the even mounting groove blocks are arranged with a group of downward notches; the number of the carbon crystal micro-nano film polar plates is eight, and the carbon crystal micro-nano film polar plates are respectively inserted into the two groups of mounting groove blocks; the electrode plate limiting fixing piece is used for fixing the carbon crystal micro-nano film electrode plate in the mounting groove block; the first conductor bar is used for connecting the carbon crystal micro-nano film polar plates in the odd mounting groove blocks in a parallel capacitor mode; the second conductor bar is used for connecting the carbon crystal micro-nano film polar plates in the even number mounting groove blocks in a parallel capacitance mode; and the power output port of the box-type variable frequency power supply is electrically connected with the first conductor bar and the second conductor bar through leads respectively. Can quickly eliminate organic compounds such as pesticides, fertilizers, hormones and the like and algae in the water body.

Description

Carbon crystal micro-nano film binary catalytic device

Technical Field

The utility model discloses be applied to the water treatment field, specifically be a membrane binary catalytic unit is received a little to the carbon crystal.

Background

The water body treatment is characterized in that water body bathing is taken as a key, the bathing treatment effect is excellent by adopting a carbon crystal micro-nano film binary catalysis principle, a super material based on nickel-based carbon crystal micro-nano film two-dimensional carbon crystal quantum field effect water body mineralization reduction is used in the equipment, water molecules can be deconstructed, super redox groups can be generated, chain type propagation reaction can be formed in the water body, hydroxyl free radicals with strong oxidation effect and hydrogen free radicals with strong reduction effect are generated to polluted water bodies, organic matters in the polluted water bodies can be decomposed by the hydroxyl free radicals, carbon chain nitrogen chains of the organic matters are opened, carbon dioxide, water, nitrogen, nitride and the like are generated, the hydroxyl free radicals can kill unicellular algae, after blue algae (mould blue) in the water body, cell membranes of bacteria can be rapidly penetrated, and the non-reversible oxidation reaction can be generated with cell enzymes, so that the cells die, and the algae removing effect is obvious, but does not harm other organisms in the water. The super-strong redox groups generated in the process meet other organic wastes in water, and can also induce strong redox reaction to deconstruct molecular chains of the super-strong redox groups and degrade the super-strong redox groups into CO2 and H20, so that the aim of treating and purifying the water body is fulfilled. The 'quantum field effect mineralization reduction treatment technology' of the carbon crystal micro-nano membrane binary catalytic device can kill fecal coliform bacteria and viruses in the polluted water body, can also quickly eliminate the odor of the polluted water body, and continuously reduces organic matters in the bottom sediment of the polluted water body after a period of treatment; the hydrogen free radicals can mineralize and reduce acid radicals and partial metal ions in the polluted water body, and if the owners have the removal requirement, partial metal ions can be removed through enrichment extraction. Can quickly and effectively reduce the main water quality indexes of COD, BOD5, ammonia nitrogen, total phosphorus, chlorophyll a, algae density and the like in the water body, thereby achieving the purpose of improving the water quality of the water body.

The current water treatment equipment based on the foam nickel-based graphene material has the following limitations; firstly, the installation process of the carbon crystal micro-nano membrane polar plate is complicated, and the carbon crystal micro-nano membrane polar plate is difficult to disassemble and replace after being fixedly installed. Secondly, in the process of connecting the carbon crystal micro-nano membrane pole plates in parallel in two groups, the conductor bars are easy to contact with the other group of carbon crystal micro-nano membrane pole plates to cause short circuit and other faults, and the existing design structure is inconvenient to operate due to narrow operation space when the conductor bars are used for connection operation. And thirdly, when the equipment is arranged and used, the water flow speed flowing through the equipment is not fast enough, namely, the efficiency of water treatment in a certain time is not high enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art not enough, provide a membrane binary catalytic unit is received a little to the carbon crystalline substance.

In order to solve the technical problem, the utility model discloses a membrane binary catalytic unit is received a little to carbon crystal for remove the algae to the water, it includes:

the inner cavity of the frame box is provided with two groups of mounting groove blocks at intervals, the odd mounting groove blocks are arranged with a group of upward notches, and the even mounting groove blocks are arranged with a group of downward notches;

the number of the carbon crystal micro-nano film polar plates is eight, and the carbon crystal micro-nano film polar plates are respectively inserted into the two groups of mounting groove blocks;

the electrode plate limiting fixing piece is used for fixing the carbon crystal micro-nano film electrode plate in the mounting groove block;

the first conductor bar is used for connecting the carbon crystal micro-nano film polar plates in the odd mounting groove blocks in a parallel capacitor mode;

the second conductor bar is used for connecting the carbon crystal micro-nano film polar plates in the even number mounting groove blocks in a parallel capacitance mode;

and the power output port of the box-type variable frequency power supply is electrically connected with the first conductor bar and the second conductor bar through leads respectively.

As a possible implementation manner, further, the electrode plate limiting fixing piece is a semicircular limiting piece and is rotatably connected to the notch of the installation groove block, and the electrode plate limiting fixing piece is rotated to the top of the carbon crystal micro-nano film electrode plate inserted into the installation groove block to fix and limit the carbon crystal micro-nano film electrode plate, so that the carbon crystal micro-nano film electrode plate is prevented from slipping.

As a preferred option, a buoy for suspending the frame box in water is further fixedly connected to the outside of the frame box.

As a preferable option, further, a motor impeller is attached to one side of the housing case.

As a possible implementation manner, further, a hollowed-out hexagonal grid insulating plate is arranged between the carbon crystal micro-nano membrane polar plates.

The utility model adopts the above technical scheme, following beneficial effect has:

1. the carbon crystal micro-nano membrane pole plate is matched with the box type variable frequency power supply, so that the whole device can carry out effective water treatment work, and organic compounds such as pesticides, fertilizers and hormones and algae in water can be quickly eliminated.

2. The carbon crystal micro-nano membrane polar plate is rapidly installed and disassembled by the electrode plate limiting fixing piece matched with the installation groove block, so that the problems that the carbon crystal micro-nano membrane polar plate is complex in installation process and difficult to disassemble and replace are solved.

3. Thereby through setting up the different installation groove piece of two sets of notch orientations, solved and carried out the parallelly connected in-process of grouping to the plate electrode, the conductor bar takes place the contact with the plate electrode of another group easily and leads to trouble such as short circuit and the narrow and small problem of operating space.

4. The electric impeller is arranged, so that the flow speed of water flowing through the vicinity of the equipment is accelerated, and the water treatment efficiency of the equipment is improved.

Drawings

The present invention will be described in further detail with reference to the following drawings and embodiments:

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of a carbon crystal micro-nano film polar plate of the utility model;

FIG. 3 is a side view of the structure of the underwater part of the present invention;

FIG. 4 is a top view of the structure of the underwater part of the present invention;

FIG. 5 is an enlarged view of part A of the present invention;

FIG. 6 is a side view of the structure of the present invention;

fig. 7 is a rear view of the structure of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention.

As shown in fig. 1-7, the utility model provides a membrane binary catalytic unit is received a little to carbon crystal for remove the algae to the water, it includes:

the inner cavity of the frame box 1 is provided with two groups of mounting groove blocks 101 at intervals, the odd mounting groove blocks 101 are arranged with a group of upward notches, and the even mounting groove blocks 101 are arranged with a group of downward notches;

the number of the carbon crystal micro-nano membrane pole plates 2 is eight, and the carbon crystal micro-nano membrane pole plates are respectively inserted into the two groups of mounting groove blocks 101; the carbon crystal micro-nano membrane polar plate 2 can be a polar plate made of a foam nickel-based graphene material in the prior art.

The electrode plate limiting fixing piece 201 is used for fixing the carbon crystal micro-nano film electrode plate 2 in the mounting groove block 101;

the first conductor bar 3 is used for connecting the carbon crystal micro-nano film polar plates 2 in the odd-number mounting groove blocks 101 in a parallel capacitor mode;

the second conductor bar 4 is used for connecting the carbon crystal micro-nano film polar plates 2 in the even number mounting groove blocks 101 in a parallel capacitor mode;

and a power outlet of the box-type variable frequency power supply 5 is electrically connected with the first conductor bar 3 and the second conductor bar 4 through leads respectively. The box-type variable frequency power supply 5 has two groups of adjustable output voltages and two optional output frequencies, each group of voltages can simultaneously control a plurality of carbon crystal micro-nano film binary catalytic device equipment boxes with various models, the sum of the total rated power of the carbon crystal micro-nano film binary catalytic device equipment boxes cannot exceed the rated power of the variable frequency power supply, the output voltage is 0-36V, and the output current is 0-13.8A

As a possible implementation manner, further, the electrode plate limiting and fixing piece 201 is a semicircular limiting piece and is rotatably connected to the notch of the installation groove block 101, and the electrode plate limiting and fixing piece 201 rotates to the top of the carbon crystal micro-nano membrane electrode plate 2 inserted into the installation groove block 101 to fix and limit the carbon crystal micro-nano membrane electrode plate, so as to prevent the carbon crystal micro-nano membrane electrode plate 2 from slipping.

As a preferred option, further, a buoy (not shown in the figure) for suspending the frame box 1 in water is fixedly connected to the outside of the frame box 1, so that the frame box 1 is suspended on the surface of the water body to facilitate receiving light energy and is beneficial to being communicated with the water body as a whole.

As a preferable option, a motor impeller 6 is further attached to the housing case 1.

As a possible implementation manner, further, a hollowed hexagonal grid insulating plate (not shown in the figure) is arranged between the carbon crystal micro-nano membrane polar plates 2, so that the weight of the insulating plate is reduced and the structure is stable.

When the water-cooled type variable frequency power supply is used, the box-type variable frequency power supply 5 is stably installed in the electric cabinet, the box-type variable frequency power supply 5 is connected with an alternating current 220V or direct current power supply (a photovoltaic power supply or a super capacitor) 48V, and the box-type variable frequency power supply 5 is arranged outside a water body. A plurality of nickel-based graphene polar plate water body algae removal devices can be used for simultaneously operating according to the scale of the water body; the floating barrel and the frame body box 1 are vertically fastened together by a fixed rope, and the buoyancy of the floating barrel must be larger than the weight of the nickel-based graphene polar plate water body algae removal device; after the floating barrel and the nickel-based graphene polar plate water body algae removal device enter water, fixing the floating barrel at a designated position of the water body by using a fixing pile or other fixing methods; the device is powered and started to work by controlling the box type variable frequency power supply 5. The carbon crystal micro-nano film binary catalytic device equipment box body is usually arranged in the following conditions: the cross section of a river channel water inlet, the cross section of a river channel exit, the cross section of a river channel midstream, the cross section of a main sewage discharge port, a sewage buffer tank and a small cofferdam.

The above embodiments are the embodiments of the present invention, and for those skilled in the art, according to the teaching of the present invention, the equivalent changes, modifications, replacements and variations made by the claims of the present invention should all belong to the scope of the present invention without departing from the principle and spirit of the present invention.

Claims (5)

1. A carbon crystal micro-nano membrane binary catalytic device is used for removing algae from a water body and is characterized in that: it includes:

the inner cavity of the frame box is provided with two groups of mounting groove blocks at intervals, the odd mounting groove blocks are arranged with a group of upward notches, and the even mounting groove blocks are arranged with a group of downward notches;

the number of the carbon crystal micro-nano film polar plates is eight, and the carbon crystal micro-nano film polar plates are respectively inserted into the two groups of mounting groove blocks;

the electrode plate limiting fixing piece is used for fixing the carbon crystal micro-nano film electrode plate in the mounting groove block;

the first conductor bar is used for connecting the carbon crystal micro-nano film polar plates in the odd mounting groove blocks in a parallel capacitor mode;

the second conductor bar is used for connecting the carbon crystal micro-nano film polar plates in the even number mounting groove blocks in a parallel capacitance mode;

and the power output port of the box-type variable frequency power supply is electrically connected with the first conductor bar and the second conductor bar through leads respectively.

2. The carbon crystal micro-nano film binary catalytic device according to claim 1, characterized in that: the spacing mounting of plate electrode is semi-circular spacing piece, and its rotation is connected on the installation groove piece notch, and the spacing mounting of plate electrode rotates to the brilliant little membrane polar plate top of receiving a little of carbon of inserting in the installation groove piece and fixes spacingly to it, prevents that the brilliant little membrane polar plate slippage of receiving a little of carbon.

3. The carbon crystal micro-nano film binary catalytic device according to claim 1, characterized in that: the frame box is fixedly connected with a buoy used for enabling the frame box to be suspended in water.

4. The carbon crystal micro-nano film binary catalytic device according to claim 1, characterized in that: and an electric impeller is arranged on one side of the frame box.

5. The carbon crystal micro-nano film binary catalytic device according to claim 1, characterized in that: and a hollowed hexagonal grid insulating plate is arranged between the carbon crystal micro-nano membrane polar plates.

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