CN118684286A - Energy-saving plasma water purification device driven by solar energy - Google Patents

Abstract

The invention discloses an energy-saving plasma water purifying device based on solar drive, which belongs to the technical field of water purification and comprises a water purifying tank, wherein a bearing seat is fixedly arranged on the outer wall of one side of the water purifying tank, a water storage tank is fixedly arranged on the bearing seat, and a mounting bracket is fixedly arranged on the outer wall of one side of the water storage tank; according to the invention, the water pressure bearing component and the ionization cleaning component are arranged in a matching way, so that the reciprocating movement of the ionization cleaning component on the secondary filter screen can be controlled in the process of equipment application by controlling the storage and discharge of water quantity, the secondary ionization treatment of reverse osmosis substances can be realized, the residues and accumulation of the reverse osmosis substances on the secondary filter screen are avoided, the effective filtering effect of the secondary filter screen is effectively ensured, the secondary filter screen is not required to be replaced regularly, the use cost of equipment is effectively reduced, manual management and control are not required, and the practical application effect of the equipment is greatly improved.

Description

Energy-saving plasma water purification device driven by solar energy

Technical Field

The invention belongs to the technical field of water purification, and in particular relates to an energy-saving plasma water purification device driven by solar energy.

Background Art

The field of sewage deep treatment and recycling "calls" for green and low-carbon technologies, which brings severe challenges to water purification technology. The existing water purification equipment that can achieve better treatment effects mainly adopts RO reverse osmosis technology, but it has problems such as high power consumption, large amount of wastewater generated during the treatment process, resulting in waste of water resources, inability to retain minerals in the water, and the need to regularly replace the filter element and filter membrane. In addition, the existing water purifiers are expensive and are not suitable for large-scale promotion and use due to the need to regularly replace the filter membrane and the high cost of using power-consuming wastewater. It is still difficult to achieve regular replacement of filter elements and filter membranes in most areas. In addition, due to the inconvenience of sewage discharge caused by imperfect sewer facilities, the failure to discharge wastewater in time can easily cause secondary pollution of water. The purified water is even worse than the original water quality. In order to be able to purify the water source more effectively, plasma water purification equipment needs to be applied.

A Chinese patent discloses (CN104276703A) a plasma water purifier with a fiber filter curtain. The fiber filter curtain is arranged between the plasma discharge electrodes. The fiber filter curtain serves as both a filter and a water flow guide curtain. The fiber filter curtain is a micron fiber cloth with a nanocrystalline photocatalyst sprayed on the surface. The fiber cloth has a large specific surface area, strong adsorption capacity, and strong adsorption characteristics for pollutants. The device makes full use of the fiber filter curtain's strong adsorption capacity for pollutants and the photocatalytic capacity of the nanocrystalline catalyst, as well as the plasma's strong decomposition capacity for pollutants. It can not only greatly improve the single purification efficiency, but also always maintain the cleanliness, strong adsorption capacity and photocatalytic capacity of the fiber filter curtain surface. It can be widely used in sewage treatment, healthy water production and activated water production. Although the existing plasma water purification equipment can produce a good purification effect on water bodies, there are still some problems in practical applications. Generally speaking, general plasma water purification equipment is equipped with a fine filter inside, which is used to filter some fine impurities. However, when the equipment is used, some ionized bacteria or heavy metals and organic matter will reverse osmosis to the filter. Over time, these residues will accumulate more and more on the fine filter, which will greatly affect the filtering effect of the fine filter. The fine filter needs to be replaced regularly, which increases the cost of equipment use and the overall actual application effect of the equipment is not good. In order to solve the above problems, there is an urgent need for an energy-saving plasma water purification device driven by solar energy.

Summary of the invention

The purpose of the present invention is to solve the problem that although the existing plasma water purification equipment can produce a good purification effect on the water body, there are still some problems in practical application. Generally speaking, the general plasma water purification equipment is internally provided with a fine filter screen, which is used to filter some fine impurities. However, when the equipment is used, some ionized bacteria or heavy metals and organic matter will reversely permeate to the filter screen. Over time, these residues will accumulate more and more on the fine filter screen, which will greatly affect the filtering effect of the fine filter screen. The fine filter screen needs to be replaced regularly, resulting in increased equipment use costs and poor overall equipment actual application effect. Therefore, an energy-saving plasma water purification device based on solar energy drive is proposed.

In order to achieve the above-mentioned purpose, the present invention adopts the following technical scheme: an energy-saving plasma water purification device driven by solar energy, comprising a water purification tank, a bearing seat is fixedly installed on one side outer wall of the water purification tank, a water storage tank is fixedly installed on the bearing seat, a mounting bracket is fixedly installed on one side outer wall of the water storage tank, a water pump is fixedly installed on the mounting bracket, one end of a water guide pipe arranged on the water pump is fixedly connected to a water inlet arranged on the side wall of the water storage tank, a photovoltaic module is installed on the top surface of the water purification tank through a hinge, a water outlet is arranged on one side outer wall of the water purification tank, a plasma water purification module is arranged inside the water purification tank, and a water purification tank cover and a water storage tank cover are respectively arranged on the top surfaces of the water purification tank and the water storage tank;

A built-in groove is arranged on the top surface of the water purification tank cover, a water passage groove is arranged at the connection between the water purification tank and the water storage tank, a primary filter screen is arranged in the water passage groove, a guide rail is fixedly installed on the inner wall of the bottom surface of the water storage tank, a water pressure bearing component is slidably installed on the guide rail, an ionization cleaning component is arranged at one end of the water pressure bearing component, the water pressure bearing component is used for bearing the pressure of the water body, and the ionization cleaning component is used for cleaning reverse osmosis microorganisms and bacteria, a flexible elastic plate is arranged on the inner surface of the water purification tank, and a secondary filter screen is arranged in the groove body opened on the inner side of the flexible elastic plate.

As a further description of the above technical solution:

The water pressure bearing assembly includes a water pressure bearing plate, which is slidably mounted on a guide rail. A pressure spring, a mounting side plate and a drain valve are fixedly mounted on an outer wall of one side of the water pressure bearing plate. The pressure spring, the mounting side plate and the drain valve are arranged from top to bottom, and one end of the pressure spring is fixedly connected to an inner wall of one side of a water tank.

As a further description of the above technical solution:

One end of the mounting side plate passes through the water trough and the primary filter and extends to the interior of the clean water tank. One end of the mounting side plate is fixedly mounted with a mounting side frame, and a touch pressure plate is fixedly mounted on the top surface of the mounting side frame.

As a further description of the above technical solution:

The ionization cleaning assembly includes a second mounting shaft, which is rotatably mounted in a rotating hole arranged inside the mounting side frame, and an ionization roller and a stirring blade are fixedly mounted on the outside of the second mounting shaft, and a plurality of ionization heads are arranged on the outer surface of the ionization roller.

As a further description of the above technical solution:

The stirring blades are located at both sides of the ionizing roller. An inner hollow groove is arranged inside the stirring blades. An inner spring is fixedly installed inside the inner hollow groove. A telescopic inner plate is fixedly installed at one end of the inner spring.

As a further description of the above technical solution:

A contact pressure head is fixedly mounted on one end of the telescopic inner plate, the outer surface of the telescopic inner plate is slidably connected to the inner surface of the stirring blade, and the ionizing roller is rollingly connected to the outer surface of the secondary filter screen.

As a further description of the above technical solution:

A telescopic bracket is arranged at the bottom of the photovoltaic component, and a solar energy collection accessory is arranged inside the built-in groove. The solar energy collection accessory is used for stable solar energy collection. The solar energy collection accessory includes a solar energy collection box, and the solar energy collection box is fixedly installed inside the built-in groove.

As a further description of the above technical solution:

A plurality of solar heat tubes are fixedly installed inside the solar thermal collector box, two mounting plates are fixedly installed on the bottom surface of the solar thermal collector box, a mounting base is rotatably installed between the two mounting plates via a rotating shaft, a bottom groove is arranged on the inner side of the mounting base, and a swinging water stirring component is rotatably installed on the inner wall of the bottom groove.

As a further description of the above technical solution:

The swinging water stirring assembly comprises a first installation shaft, which is rotatably mounted on the inner wall of the bottom groove through a mounting sleeve arranged at one end of the first installation shaft, and a plurality of inclined blades are fixedly mounted on the outside of the first installation shaft.

As a further description of the above technical solution:

A light-transmitting groove is arranged inside the photovoltaic component, and two focusing components are fixedly mounted on the inner wall of the light-transmitting groove. The focusing components are used for rapid concentration of sunlight on the solar thermal collection accessories. The focusing components include a mounting plate, and the mounting plate is fixedly mounted on the inner wall of the light-transmitting groove. An inclined focusing mirror is fixedly mounted on the outer wall of one side of the mounting plate.

In summary, due to the adoption of the above technical solution, the beneficial effects of the present invention are:

1. In the present invention, a water pressure bearing component and an ionization cleaning component are provided in a matching manner. When the device is used, the water source to be purified is pumped into the water tank through a water pump. As the water storage amount in the water tank gradually increases, the pressure on one side of the water pressure bearing plate gradually increases. When the bearing pressure of the water pressure bearing plate is greater than the elastic force of the pressure spring, the water pressure bearing plate moves to one side, synchronously driving the installation side frame and the ionization cleaning component to move sideways. At this time, the ionization roller rolls on the secondary filter screen. When the water pressure bearing plate is displaced to the limit position, the drain valve is controlled to open, and the water flow on one side is discharged into the clean water tank. At this time, the water body will be filtered once through the primary filter screen, and after entering the clean water tank, it can be filtered through the secondary filter screen for secondary precision filtration. At this time, the plasma water purification module is turned on to purify the water body. As the water flow discharged through the drain valve increases, the pressure on one side of the water pressure bearing plate gradually decreases, and the water pressure bearing plate will be re-displaced by the pressure spring. Under the action of the spring, it slowly resets, and the ionization cleaning component will also reset accordingly. At this time, the ionization roller rolls twice on the secondary filter. When the ionization roller rolls, the ionization roller can effectively roll and ionize the secondary filter through the ionization head, thereby performing secondary ionization treatment on some ionized bacteria or heavy metals and organic matter of reverse osmosis in the water purification process of the equipment, so that the above-mentioned substances of reverse osmosis can be effectively removed from the secondary filter. Through this design, during the application of the equipment, the storage and discharge of water can be controlled, thereby controlling the reciprocating movement of the ionization cleaning component on the secondary filter, thereby realizing secondary ionization treatment of reverse osmosis substances, avoiding the residue and accumulation of reverse osmosis substances on the secondary filter, effectively maintaining the effective filtering effect of the secondary filter, and there is no need to regularly replace the secondary filter, which effectively reduces the use cost of the equipment and does not require manual control, greatly improving the actual application effect of the equipment.

2. In the present invention, by matching the stirring blade and the telescopic inner plate on the ionization cleaning component, when the ionization roller rolls on the secondary filter screen, the stirring blade will also rotate synchronously, so as to perform good stirring treatment on the water body, increase the water flow rate, and increase the water purification rate. At the same time, every time the stirring blade rotates one circle, the single telescopic inner plate will touch the flexible elastic plate once under the action of the built-in spring, so that the flexible elastic plate will vibrate elastically, thereby cooperating with the treatment effect of the ionization cleaning component on the secondary filter screen, and assisting the stable shedding of the attached materials of the secondary ionization. Through this design, the stable treatment effect of the secondary filter screen can be further improved, and the water purification rate in the overall equipment can be improved.

3. In the present invention, by matching the photovoltaic components, solar heat collection accessories and focusing components, when the equipment is used, the photovoltaic components can collect solar energy and convert it into electrical energy for use by the equipment. At the same time, some sunlight can be irradiated to the solar heat collection accessories through the light-transmitting grooves arranged on the photovoltaic components. Multiple solar heat pipes can quickly collect heat and conduct it into the water body to heat and sterilize the water body. At the same time, the focusing components can reflect some scattered sunlight back to the solar heat collection accessories, thereby improving the heat collection effect and rate of the solar heat collection accessories. At the same time, when the ionization cleaning components are running, During the movement, the touch plate thereon can reciprocatingly touch the mounting base of the solar thermal collector accessory, thereby driving the mounting base to reciprocate and deflect. During the deflection process, the first mounting axis and the inclined blades can self-rotate under the action of the water body, further increasing the water flow rate. Through this design, the overall equipment can not only collect sunlight to drive the equipment to work, but also collect thermal energy to heat and sterilize the water body. At the same time, when the equipment is running, the inclined blades can be self-rotated, further improving the treatment effect and efficiency of the water body, greatly improving the actual application effect of the overall equipment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of the three-dimensional structure of an energy-saving plasma water purification device driven by solar energy.

FIG. 2 is a schematic diagram of the three-dimensional structure of an energy-saving plasma water purification device driven by solar energy from a first angle.

FIG. 3 is a schematic diagram of the three-dimensional structure of the energy-saving plasma water purification device driven by solar energy from a second angle.

FIG. 4 is a schematic diagram of the exploded three-dimensional structure of an energy-saving plasma water purification device driven by solar energy.

FIG5 is a schematic diagram of the combined three-dimensional structure of a water storage tank and a water purification tank in an energy-saving plasma water purification device driven by solar energy.

FIG6 is a schematic diagram of the exploded three-dimensional structure of the water pressure bearing component and the ionization cleaning component in the energy-saving plasma water purification device driven by solar energy.

FIG. 7 is a schematic diagram of the combined three-dimensional structure of the solar energy collector accessories and the water purification tank cover in the energy-saving plasma water purification device driven by solar energy.

FIG8 is a schematic diagram of the exploded three-dimensional structure of the solar energy collection accessories in the energy-saving plasma water purification device driven by solar energy.

FIG9 is a schematic diagram of the exploded three-dimensional structure of the ionization cleaning component in the energy-saving plasma water purification device driven by solar energy.

FIG. 10 is a schematic diagram of the three-dimensional structure of the swinging water stirring assembly in the energy-saving plasma water purification device driven by solar energy.

Legend:

1. Photovoltaic module; 2. Water storage tank; 3. Water purification tank; 4. Water outlet; 5. Water pump; 6. Mounting bracket; 7. Telescopic bracket; 8. Light transmission slot; 9. Concentrator assembly; 91. Mounting plate; 92. Inclined concentrator; 10. Solar collector accessories; 101. Solar heat pipe; 102. Solar collector box; 103. Mounting film; 104. Mounting base; 105. Bottom slot; 106. Swinging water stirring assembly; 1061. Mounting sleeve; 1062. First mounting axis; 1063. Inclined blades; 11. Clean Water tank cover; 12. Built-in groove; 13. Water tank cover; 14. Water pressure bearing assembly; 141. Drain valve; 142. Water pressure bearing plate; 143. Pressure bearing spring; 144. Mounting side plate; 145. Touch pressure plate; 146. Mounting side frame; 15. Ionization cleaning assembly; 151. Ionization head; 152. Ionization roller; 153. Built-in spring; 154. Touch pressure head; 155. Telescopic inner plate; 156. Stirring blade; 157. Second mounting shaft; 16. Flexible elastic plate; 17. Secondary filter; 18. Primary filter.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

Please refer to Figures 1-10. The present invention provides a technical solution: an energy-saving plasma water purification device driven by solar energy, comprising a clean water tank 3, a bearing seat is fixedly installed on one side outer wall of the clean water tank 3, a water storage tank 2 is fixedly installed on the bearing seat, a mounting bracket 6 is fixedly installed on one side outer wall of the water storage tank 2, a water pump 5 is fixedly installed on the mounting bracket 6, one end of a water guide pipe arranged on the water pump 5 is fixedly connected to a water inlet arranged on the side wall of the water storage tank 2, a photovoltaic module 1 is installed on the top surface of the clean water tank 3 through a hinge, a water outlet 4 is arranged on one side outer wall of the clean water tank 3, a plasma water purification module is arranged inside the clean water tank 3, and a clean water tank cover 11 and a water storage tank cover 13 are respectively arranged on the top surfaces of the clean water tank 3 and the water storage tank 2;

A built-in groove 12 is arranged on the top surface of the water purification tank cover 11, a water passage groove is arranged at the connection between the water purification tank 3 and the water storage tank 2, a primary filter screen 18 is arranged in the water passage groove, a guide rail is fixedly installed on the inner wall of the bottom surface of the water storage tank 2, a water pressure bearing component 14 is slidably installed on the guide rail, an ionization cleaning component 15 is arranged at one end of the water pressure bearing component 14, the water pressure bearing component 14 is used for bearing the pressure of the water body, and the ionization cleaning component 15 is used for cleaning reverse osmosis microorganisms and bacteria, a flexible elastic plate 16 is arranged on the inner surface of the water purification tank 3, and a secondary filter screen 17 is arranged in the groove body opened on the inner side of the flexible elastic plate 16.

The water pressure bearing assembly 14 includes a water pressure bearing plate 142, which is slidably mounted on a guide rail, and a pressure spring 143, a mounting side plate 144 and a drain valve 141 are fixedly mounted on an outer wall of one side of the water pressure bearing plate 142, and the pressure spring 143, the mounting side plate 144 and the drain valve 141 are arranged from top to bottom, one end of the pressure spring 143 is fixedly connected to an inner wall of one side of the water storage tank 2, one end of the mounting side plate 144 passes through the water trough and the primary filter 18 and extends to the interior of the clean water tank 3, one end of the mounting side plate 144 is fixedly mounted with a mounting side frame 146, and a touch pressure plate 145 is fixedly mounted on the top surface of the mounting side frame 146.

The ionization cleaning assembly 15 includes a second mounting shaft 157, which is rotatably mounted in a rotating hole provided inside the mounting side frame 146. An ionization roller 152 and a stirring blade 156 are fixedly mounted on the outside of the second mounting shaft 157. A plurality of ionization heads 151 are provided on the outer surface of the ionization roller 152. The stirring blade 156 is located on both sides of the ionization roller 152. An inner hollow groove is provided inside the stirring blade 156. A built-in spring 153 is fixedly mounted inside the inner hollow groove. A telescopic inner plate 155 is fixedly mounted on one end of the built-in spring 153.

The specific implementation method is as follows: when the device is used, the water source to be purified is pumped into the water tank 2 through the water pump 5. As the amount of water stored in the water tank 2 gradually increases, the pressure on one side of the water pressure plate 142 gradually increases. When the pressure on the water pressure plate 142 is greater than the elastic force of the pressure spring 143, the water pressure plate 142 moves to one side, and synchronously drives the installation side frame 146 and the ionization cleaning component 15 to move sideways. At this time, the ionization roller 152 rolls on the secondary filter 17. When the water pressure plate 142 moves to the extreme position, the drain valve 141 is controlled to open, and the water flow on one side is discharged into the clean water tank 3. At this time, the water will be filtered once through the primary filter 18, and can pass through the secondary filter after entering the clean water tank 3. 17 performs secondary precision filtration, at this time, the plasma water purification module is turned on to purify the water body, with the increase of water flow discharged through the side of the drain valve 141, the pressure on one side of the water pressure plate 142 gradually decreases, and the water pressure plate 142 will slowly reset under the action of the pressure spring 143, and the ionization cleaning component 15 will also reset accordingly, at this time, the ionization roller 152 rolls twice on the secondary filter screen 17, when the ionization roller 152 rolls, the ionization roller 152 can effectively roll and ionize the secondary filter screen 17 through the ionization head 151, so that some reverse osmosis ionized bacteria or heavy metals and organic matter in the water purification process of the equipment are subjected to secondary ionization treatment, so that the above-mentioned substances of reverse osmosis can be effectively fallen off on the secondary filter screen 17.

Through this design, during the application of the equipment, the storage and discharge of water can be controlled, thereby controlling the reciprocating movement of the ionization cleaning component 15 on the secondary filter, thereby realizing secondary ionization treatment of the reverse osmosis material, avoiding the residue and accumulation of the reverse osmosis material on the secondary filter, and effectively maintaining the effective filtering effect of the secondary filter 17. There is no need to regularly replace the secondary filter 17, which effectively reduces the use cost of the equipment and does not require manual control, greatly improving the actual application effect of the equipment.

A pressure contact head 154 is fixedly mounted on one end of the telescopic inner plate 155 , the outer surface of the telescopic inner plate 155 is slidably connected to the inner surface of the stirring blade 156 , and the ionizing roller 152 is rollingly connected to the outer surface of the secondary filter screen 17 .

The specific implementation method is as follows: while the ionization roller 152 rolls on the secondary filter 17, the stirring blade 156 will also rotate synchronously, stirring the water body well, increasing the water flow rate and the water purification rate. At the same time, every time the stirring blade 156 rotates one circle, the single telescopic inner plate 155 will touch the flexible elastic plate 16 once under the action of the built-in spring 153, causing the flexible elastic plate 16 to vibrate elastically, thereby cooperating with the treatment effect of the ionization cleaning component 15 on the secondary filter 17, and assisting in the stable shedding of the secondary ionized attachments.

Through this design, the stable processing effect of the secondary filter 17 can be further improved, while the water purification rate in the overall equipment can be increased.

A telescopic bracket 7 is provided at the bottom of the photovoltaic component 1, and a solar thermal collection accessory 10 is provided inside the built-in groove 12. The solar thermal collection accessory 10 is used for stable solar thermal collection. The solar thermal collection accessory 10 includes a solar thermal collection box 102, and the solar thermal collection box 102 is fixedly installed inside the built-in groove 12. A plurality of solar thermal tubes 101 are fixedly installed inside the solar thermal collection box 102. Two mounting bottom plates 103 are fixedly installed on the bottom surface of the solar thermal collection box 102, and a mounting base 104 is rotatably installed between the two mounting bottom plates 103 via a rotating shaft. A bottom groove 105 is provided on the inner side of the mounting base 104, and a swinging water stirring component 106 is rotatably installed on the inner wall of the bottom groove 105.

The swinging water stirring assembly 106 includes a first installation shaft 1062 , which is rotatably mounted on the inner wall of the bottom groove 105 via a mounting sleeve 1061 disposed at one end thereof, and a plurality of inclined blades 1063 are fixedly mounted on the outside of the first installation shaft 1062 .

The photovoltaic component 1 is provided with a light-transmitting groove 8 inside, and two focusing components 9 are fixedly installed on the inner wall of the light-transmitting groove 8. The focusing components 9 are used for rapid concentration of sunlight on the solar thermal collection accessory 10. The focusing components 9 include a mounting plate 91, and the mounting plate 91 is fixedly installed on the inner wall of the light-transmitting groove 8. A bevel concentrating mirror 92 is fixedly installed on the outer wall of one side of the mounting plate 91.

The specific implementation method is as follows: when the equipment is used, the photovoltaic component 1 can collect solar energy and convert it into electrical energy for use by the equipment. At the same time, some sunlight can be irradiated onto the solar thermal collection accessory 10 through the light-transmitting groove 8 set on the photovoltaic component 1. Multiple solar heat pipes 101 can quickly collect heat and conduct it into the water body to heat and sterilize the water body. At the same time, the focusing component 9 can re-reflect some scattered sunlight onto the solar thermal collection accessory 10, thereby improving the heat collection effect and rate of the solar thermal collection accessory 10. At the same time, during the movement of the ionization cleaning component 15, the touch plate 145 thereon can reciprocate to touch the mounting frame 104 of the solar thermal collection accessory 10, thereby driving the mounting frame 104 to reciprocate and deflect. During the deflection process, the first mounting shaft 1062 and the inclined blades 1063 can rotate self-drivenly under the action of the water body, further increasing the water flow rate.

Through this design, the overall device can not only collect sunlight to drive the device to work, but also collect thermal energy to heat and sterilize the water body. At the same time, when the equipment is running, the inclined blades 1063 can be self-driven to rotate, further improving the treatment effect and efficiency of the water body, greatly improving the actual application effect of the overall equipment.

Working principle: When the device is used, the water source to be purified is pumped into the water tank 2 through the water pump 5. As the water storage volume in the water tank 2 gradually increases, the pressure on one side of the water pressure plate 142 gradually increases. When the pressure on the water pressure plate 142 is greater than the elastic force of the pressure spring 143, the water pressure plate 142 moves to one side, and synchronously drives the side frame 146 and the ionization cleaning component 15 to move sideways. At this time, the ionization roller 152 rolls on the secondary filter 17. When the water pressure plate 142 moves to the limit position, the drain valve 141 is controlled to open, and the water flow on one side is discharged into the clean water tank 3. At this time, the water will be filtered through the primary filter 18, and after entering the clean water tank 3, it can pass through the secondary filter 17. Perform secondary precision filtration, at this time, turn on the plasma water purification module to purify the water body, as the water flow discharged through the side of the drain valve 141 increases, the pressure on one side of the water pressure plate 142 gradually decreases, and the water pressure plate 142 will slowly reset under the action of the pressure spring 143, and the ionization cleaning component 15 will also reset accordingly, at this time the ionization roller 152 rolls twice on the secondary filter 17, when the ionization roller 152 rolls, the ionization roller 152 can effectively roll and ionize the secondary filter 17 through the ionization head 151, so that some reverse osmosis ionized bacteria or heavy metals and organic matter in the water purification process of the equipment are subjected to secondary ionization treatment, so that the above-mentioned reverse osmosis substances are effectively shed on the secondary filter 17; When the ionization roller 152 rolls on the secondary filter 17, the stirring blade 156 will also rotate synchronously, stirring the water well, increasing the water flow rate and the water purification rate. At the same time, every time the stirring blade 156 rotates one circle, the single telescopic inner plate 155 will touch the flexible elastic plate 16 once under the action of the built-in spring 153, causing the flexible elastic plate 16 to vibrate elastically, thereby cooperating with the treatment effect of the ionization cleaning component 15 on the secondary filter 17, and assisting the stable shedding of the secondary ionized attachments. When the equipment is used, the photovoltaic component 1 can collect solar energy and convert it into electrical energy for use by the equipment. At the same time, some sunlight can be irradiated to the solar energy through the light-transmitting groove 8 set on the photovoltaic component 1. On the heat collecting accessory 10, multiple solar heat pipes 101 can quickly collect heat and conduct it into the water body to heat and sterilize the water body. At the same time, the focusing component 9 can reflect some scattered sunlight back to the solar heat collecting accessory 10, thereby improving the heat collecting effect and rate of the solar heat collecting accessory 10. At the same time, during the movement of the ionization cleaning component 15, the touch plate 145 thereon can reciprocate to touch the mounting base 104 of the solar heat collecting accessory 10, thereby driving the mounting base 104 to reciprocate and deflect. During the deflection process, the first mounting shaft 1062 and the inclined blades 1063 can self-rotate under the action of the water body, thereby further increasing the water flow rate. After the treatment is completed, the water can be discharged through the outlet 4.

The above are only preferred specific implementation modes of the present invention, but the protection scope of the present invention is not limited thereto. Any technician familiar with the technical field can make equivalent replacements or changes according to the technical solutions and inventive concepts of the present invention within the technical scope disclosed by the present invention, which should be covered by the protection scope of the present invention.

Claims (10)

1. Energy-saving plasma purifier based on solar drive, including water purification case (3), its characterized in that: the solar water purification device comprises a water purification tank (3), and is characterized in that a bearing seat is fixedly arranged on the outer wall of one side of the water purification tank (3), a water storage tank (2) is fixedly arranged on the bearing seat, a mounting bracket (6) is fixedly arranged on the outer wall of one side of the water storage tank (2), a water suction pump (5) is fixedly arranged on the mounting bracket (6), one end of a water guide pipe arranged on the water suction pump (5) is fixedly connected with a water inlet arranged on the side wall of the water storage tank (2), a photovoltaic assembly (1) is arranged on the top surface of the water purification tank (3) through a hinge, a water outlet (4) is arranged on the outer wall of one side of the water purification tank (3), a plasma water purification module is arranged in the water purification tank (3), and a water purification tank cover (11) and a water storage tank cover (13) are respectively arranged on the top surfaces of the water purification tank (3) and the water storage tank (2);

The utility model discloses a water purification tank, including water purification tank cover (11), water purification tank (3) and storage water tank (2) are provided with water channel, be provided with one-level filter screen (18) in the water channel, fixed mounting has the guide rail on the bottom surface inner wall of storage water tank (2), slidable mounting has water pressure to bear subassembly (14) on the guide rail, one end that water pressure born subassembly (14) is provided with ionization clearance subassembly (15), and water pressure bears the pressure of subassembly (14) and is used for the pressure-bearing of water, and ionization clearance subassembly (15) are used for reverse osmosis microorganism and bacterial clearance, be provided with flexible elastic plate (16) on the internal surface of water purification tank (3), be provided with second grade filter screen (17) in the cell body that the inboard of flexible elastic plate (16) was seted up.

2. The solar-driven energy-saving plasma water purification device according to claim 1, wherein the water pressure bearing assembly (14) comprises a water pressure bearing plate (142), the water pressure bearing plate (142) is slidably mounted on the guide rail, a pressure spring (143), a mounting side plate (144) and a drain valve (141) are fixedly mounted on one side outer wall of the water pressure bearing plate (142), the pressure spring (143), the mounting side plate (144) and the drain valve (141) are arranged from top to bottom, and one end of the pressure spring (143) is fixedly connected with one side inner wall of the water storage tank (2).

3. The solar-driven energy-saving plasma water purification device according to claim 2, wherein one end of the installation side plate (144) penetrates through the water through tank and the primary filter screen (18) to extend into the water purification tank (3), one end of the installation side plate (144) is fixedly provided with an installation side frame (146), and a touch plate (145) is fixedly arranged on the top surface of the installation side frame (146).

4. A solar-driven energy-saving plasma water purification device according to claim 3, characterized in that the ionization cleaning assembly (15) comprises a second mounting shaft (157), the second mounting shaft (157) is rotatably mounted in a rotating hole arranged in the mounting side frame (146), an ionization roller (152) and a stirring blade (156) are fixedly mounted at the outer part of the second mounting shaft (157), and a plurality of ionization heads (151) are arranged on the outer surface of the ionization roller (152).

5. The solar-driven energy-saving plasma water purification device according to claim 4, wherein the stirring blades (156) are positioned on two sides of the ionization roller (152), an inner hollow groove is formed in the stirring blades (156), an inner spring (153) is fixedly arranged in the inner hollow groove, and a telescopic inner plate (155) is fixedly arranged at one end of the inner spring (153).

6. The solar-driven energy-saving plasma water purification device according to claim 5, wherein a contact pressure head (154) is fixedly arranged at one end of the telescopic inner plate (155), the outer surface of the telescopic inner plate (155) is in sliding connection with the inner surface of the stirring blade (156), and the ionization roller (152) is in rolling connection with the outer surface of the secondary filter screen (17).

7. The solar-driven energy-saving plasma water purification device according to claim 6, wherein a telescopic bracket (7) is arranged at the bottom of the photovoltaic module (1), a solar heat collection fitting (10) is arranged in the built-in groove (12), the solar heat collection fitting (10) is used for stable heat collection of solar energy, the solar heat collection fitting (10) comprises a solar heat collection box (102), and the solar heat collection box (102) is fixedly arranged in the built-in groove (12).

8. The solar-driven energy-saving plasma water purification device according to claim 7, wherein a plurality of solar heat pipes (101) are fixedly installed in the solar heat collection box (102), two installation bottom plates (103) are fixedly installed on the bottom surface of the solar heat collection box (102), an installation underframe (104) is rotatably installed between the two installation bottom plates (103) through a rotating shaft, a bottom groove (105) is formed in the inner side of the installation underframe (104), and a swinging water stirring assembly (106) is rotatably installed on the inner wall of the bottom groove (105).

9. The solar-driven energy-saving plasma water purification device according to claim 8, wherein the swinging water stirring assembly (106) comprises a first mounting shaft (1062), the first mounting shaft (1062) is rotatably mounted on the inner wall of the bottom groove (105) through a mounting sleeve (1061) arranged at one end of the first mounting shaft (1062), and a plurality of inclined blades (1063) are fixedly mounted on the outer portion of the first mounting shaft (1062).

10. The solar-driven energy-saving plasma water purification device according to claim 9, wherein a light transmission groove (8) is formed in the photovoltaic module (1), two light gathering components (9) are fixedly installed on the inner wall of the light transmission groove (8), the light gathering components (9) are used for quickly gathering sunlight on a solar heat collection fitting (10), the light gathering components (9) comprise a mounting plate (91), the mounting plate (91) is fixedly installed on the inner wall of the light transmission groove (8), and an inclined plane condensing lens (92) is fixedly installed on the outer wall of one side of the mounting plate (91).