WO2017152695A1 - Multi-effect plasma air purification bladeless electric fan - Google Patents

Abstract

A multi-effect plasma air purification bladeless electric fan, comprising a fan base (14), a casing (1), a fan motor (9), a blowing ring (3), a plasma high voltage generator (13), a plasma generation electrode (7) and a collecting electrode fan set. The plasma generation electrode is arranged within a fan guard air inlet, the collecting electrode fan set is mounted within the casing (1), a conductive active fan (6) is connected to the fan motor (9) to provide wind power, and a fan passively rotated by the wind power is a conductive passive fan (17). The bladeless electric fan purifies air and also has a fan function, discharges via multiple forced reactions, makes full use of plasma, and has a high purification efficiency.

Description

 Description: A multi-effect plasma air purification bladeless electric fan

 [0001] The present invention relates to a multi-effect plasma air purification bladeless electric fan, and more particularly to an efficient and safe air purifying electric fan, and to an air purifying device.

 Background technique

 [0002] At present, the indoor environment in which humans are constantly active is subject to various kinds of pollution, and they have affected all aspects of our lives. Some pollution can cause dizziness, nausea and other symptoms, which can seriously affect people's work efficiency. In particular, organic pollution, bacterial contamination and PM2.5 pollution have seriously impeded the improvement of people's quality of life. The existing electric fan only has a blowing function, so it is used only in the heat of day, and the utilization rate is not high, but it takes up space. The air purifier generally has the functions of removing smoke, removing odor, removing bacteria and negative ions, but has no blowing function. In polluted air, negative ions adsorb or agglomerate dust and bacteria and become heavy ions, which are harmful to the human body, and the air circulation efficiency is low, resulting in a large ozone concentration gradient and insufficient utilization. And the negative ion generator, or plasma generator, has a single use and takes up space.

 technical problem

 [0003] The existing electric fan only has a blowing function, and therefore, it is used only in the heat of day, and the utilization rate is not high, but it occupies space. The air purifier generally has the functions of removing smoke, removing odor, removing bacteria and negative ions, but has no blowing function.

 Problem solution

 Technical solution

 [0004] In view of the deficiencies of existing product technologies, the present invention aims to provide a multi-effect plasma air purification bladeless electric fan, which can not only efficiently remove air purification functions of solid pollutants and gaseous pollutants in the air, but also The air blow function of the electric fan can speed up the air circulation, and is an electric fan with high safety factor, high cost performance and air purifying function.

[0005] Another technical solution adopted by the present invention to solve the technical problem thereof is: a multi-effect plasma air purification bladeless electric fan, including a fan base, a casing, a fan motor, a blowing ring, a shaking head device, and a plasma Body high voltage generator, plasma generator, collector electrode fan set. The casing of the multi-effect plasma air purification bladeless fan is connected with the air blowing ring in the same body. The air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet. The connection between the root of the air ring and the casing is a fixed connection, or a pitch adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. The shell duct is blown upwards, and the casing duct is connected to the air blowing ring.

 [0006] The center of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group.

 [0007] The conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is disposed in front of the passive fan, and is arranged in series with the motor rotor shaft. Passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned at the shaft end of the main shaft. The plasma high voltage generator is a generator that is connected to a power source and can generate positive and negative high voltage power. At the inner air inlet of the air inlet side fan guard, a plasma generating pole electrically insulated from the fan guard, the motor, the fan, and the base is provided. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generating pole is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud or in a split combination.

[0008] The conductive active fan is an electrical conductor fan electrically connected to the rotor shaft of the motor. The conductive active fan and the positive electrode of the plasma high voltage electric generator are electrically connected by a brush. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage. Conductive master The moving fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic electric battery. The insulating substrate is made of a composite conductive film material. The passive fan is an electrostatic induction collecting electrode, the passive fan is made of a metal material, or the passive fan is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material film is coated on the substrate. The layer is made, or the passive fan is made of a composite conductive material.

 [0009] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan inlet hood, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air. Negative ions, and the various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone, is inhaled by a conductive active fan with a high-voltage positively charged plasma collecting electrode, air and a positively charged plasma collecting electrode conductive active fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter The adsorption of various pollutants with negative ions is trapped on the fins of the conductive active fan, and the air is purified first.

 [0010] After the air is pressurized by the conductive active fan with the high-voltage positively charged plasma collecting electrode, the air enters the passive fan, and a negatively charged surface is induced on the surface of the passive fan adjacent thereto, and the adsorption is positively charged. Various pollutants. On the back of the passive fan opposite to it, a positively charged surface is induced to further absorb negatively charged contaminants to achieve a second purification of the air, and the secondary purified air enters the interior of the blowing ring. The cavity, the air with negative ions senses the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air ring to achieve the third air. Secondary purification. The purified air flows along the flow guiding surface under the action of the flow guiding surface, and is throttled at a high speed through the throttle annular outlet.

 [0011] The utility model includes a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0012] Or the conductive active fan and the passive fan are respectively disposed at two ends of the fan motor, and the conductive active fan is disposed behind the passive fan, and is disposed in series with the rotor shaft of the motor. The passive fan shaft tube is electrically insulated on the rotor shaft of the motor, or the passive fan passes through the bearing, and is positioned at the shaft end of the motor shaft to passively rotate with the wind. The passive fan is a plasma collection that is electrically insulated from the fan inlet hood, plasma generator, base, motor, and earth. Electrode. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. The material is made of a composite conductive film material, and the passive fan is electrically connected to the positive electrode of the plasma high voltage electric generator. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage. The conductive active fan is an electrostatic induction collecting electrode electrically insulated from the fan inlet hood, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan is made of a metal material or conductive. The active fan is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or is electrically conductive. The active fan is made of a composite conductive film material on a plastic electrically insulating substrate.

 [0013] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan inlet hood, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air. Negative ions, and the various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone is adsorbed by a passive fan with a high-voltage positively charged plasma collecting electrode, air and a positively charged plasma collecting electrode passive fan, violent collision contact discharge, killing bacterial viruses, decomposing organic matter, and The adsorption of various contaminants with negative ions is trapped on the passive fan, and the air is purified first. After being cleaned by the passive fan of the positive electrode, the air enters the conductive active fan, induces a negatively charged surface on the conductive active fan, further adsorbs positively charged various pollutants, and electrostatically induces a positively charged electrostatic film on the back surface. Adsorb negatively charged contaminants to achieve a second purification of air. The secondary purified air enters the inner cavity of the blowing ring, and the air with negative ions induces the inner wall of the blowing ring into the surface of the positively charged film layer, further adsorbing various negatively charged contaminants, and is adsorbed on The third cleaning of the air is achieved on the inner wall of the air ring. The purified air flows along the flow guiding surface under the action of the flow guiding surface, and is throttled at a high speed through the throttle annular outlet.

 [0014] The utility model comprises a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0015] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group . The casing of the multi-effect plasma air purification bladeless fan is connected with the air blowing ring in the same body. The air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet. The connection between the root of the air ring and the casing is a fixed connection, or a pitch adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. The shell duct is blown upwards, and the casing duct is connected to the air blowing ring.

 [0016] The fan base of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group. The conductive active fan and the driven fan are arranged at the same end, and the conductive active fan is arranged in front of the passive fan, and is arranged in series with the motor rotor shaft. Passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned at the shaft end of the main shaft.

[0017] The plasma high voltage generator is a generator that is connected to a power source and is capable of generating positive and negative high voltage power. The air inlet of the air inlet side fan guard is provided with a plasma generator electrically insulated from the fan guard, the motor, the fan, and the base. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generator is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud, or a split combination.

[0018] The conductive active fan is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan is made of a metal material. Or the conductive active fan is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material film layer is coated on the substrate, or the conductive active fan is The composite conductive material is made of, or the conductive active fan is made of a composite conductive film material on a plastic electrically insulating substrate. The conductive active fan is disposed after the plasma generating electrode and before the plasma collecting electrode.

 [0019] The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generator, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. The material is made of a composite conductive film material. The passive fan is electrically connected to the positive electrode of the plasma high voltage generator. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0020] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. The air with a large amount of negative ions and ozone enters the conductive active fan, and on the surface of the conductive active fan adjacent to the plasma generating pole, a positively charged surface is induced to adsorb negatively charged various pollutants. On the other side of the conductive active fan, on the surface of the conductive active fan adjacent to the positively charged plasma collecting electrode passive fan, a negatively charged surface is induced to adsorb positively charged various pollutants to achieve primary air. Purification. After the air is cleaned by the conductive active fan induction collecting electrode, it enters the passive collector fan of the plasma collecting electrode with high voltage positive electricity, the air and the positively charged plasma collecting electrode passive fan, violently collide with the contact discharge, kill the bacterial virus, decompose the organic matter, The adsorption of various pollutants with negative ions is trapped on the passive fan to further purify the secondary air. The secondary purified air enters the inner cavity of the blowing ring, and the air with negative ions induces the inner wall of the blowing ring into the surface of the positively charged film layer, further adsorbing various negatively charged contaminants, and is adsorbed on On the inner wall of the air ring, the third purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

[0021] The passive fan is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The passive fan is made of a metal material, or the passive fan is electrically insulated on the surface of the metal material. Made of materials, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or passive fan made of composite conductive material, or passive fan for plastic electrically insulating substrate, composite conductive Made of film material. Passive fan and air inlet side fan guard are integrated, or separate combination Set. The conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan is electrically insulated from the rotor shaft of the motor. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. The electrically insulating substrate is made of a composite conductive film material. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0022] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone enters the passive fan and induces a positively charged surface on the surface of the passive fan adjacent to the plasma to absorb negatively charged contaminants. On the other side of the passive fan, on the surface of the passive fan adjacent to the positively charged plasma collecting electrode conductive active fan, a negatively charged surface is induced, and the positively charged various pollutants are adsorbed to achieve the primary of the air. Purification. After being cleaned by the passive fan induction collecting electrode, the air enters the plasma active electrode active positive fan with high voltage positive electricity, air and positively charged plasma collecting electrode conductive active fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter The adsorption of various pollutants with negative ions is trapped on the conductive active fan to further purify the secondary air. The secondary purified air enters the inner cavity of the blowing ring, and the air with negative ions induces the inner wall of the blowing ring into the surface of the positively charged film layer, further adsorbing various negatively charged contaminants, and is adsorbed on The third cleaning of the air is achieved on the inner wall of the air ring. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

 [0023] The utility model includes a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0024] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group . The casing of the multi-effect plasma air purification bladeless fan is connected with the air blowing ring in the same body. The air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet. The connection between the root of the air ring and the casing is a fixed connection, or a pitch adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. The shell duct is blown upwards, and the casing duct is connected to the air blowing ring.

 [0025] The fan base of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group. The conductive active fan and the driven fan are arranged at the same end, and the conductive active fan is arranged in front of the passive fan, and is arranged in series with the motor rotor shaft. Passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned at the shaft end of the main shaft.

[0026] A plasma high voltage generator is a generator that is connected to a power source and is capable of generating positive and negative high voltage power. The air inlet of the air inlet side fan guard is provided with a plasma generator electrically insulated from the fan guard, the motor, the fan, and the base. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generator is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud, or a split combination.

[0027] The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. The material is made of a composite conductive film material. Passive fan and plasma high voltage generation The positive pole of the device is electrically connected. The conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan is electrically insulated from the rotor shaft of the motor. The conductive active fan and the negative electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. The electrically insulating substrate is made of a composite conductive film material. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0028] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone is adsorbed by a passive fan with a high-voltage positively charged plasma collecting electrode, air and a positively charged plasma collecting electrode passive fan, violent collision contact discharge, killing bacterial viruses, decomposing organic matter, and The adsorption of various contaminants with negative ions is trapped on the passive fan, and the air is purified first.

 [0029] After the air is cleaned by the passive electrode of the positive electrode, the air enters the conductive active fan, and the air and the negatively charged plasma collecting electrode conduct the active fan, violently collide, kill the bacteria virus, decompose the organic matter, and each with positive ions The pollutants are adsorbed and trapped on the fins of the conductive active fan, and the air is further purified. The secondary purified air enters the internal cavity of the air ring, and the negative ion air induces the inner wall of the air ring to be positively charged. The surface of the layer further adsorbs various negatively charged contaminants and is adsorbed on the inner wall of the air blowing ring to achieve the third purification of the air. The purified air flows along the flow guiding surface under the action of the flow guiding surface, and is throttled at a high speed through the throttle annular outlet.

 [0030] The utility model comprises a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0031] The conductive active fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan of the electrical conductor, and the conductive active fan is electrically insulated from the rotor shaft of the motor. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material or a plastic material As a substrate, a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic electrically insulating substrate, and the composite conductive film material is made. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material is used as a substrate, a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material. The passive fan is electrically connected to the negative electrode of the plasma high voltage generator. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0032] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone, and a conductive active fan with a high-voltage positive collector, violent collision contact discharge, killing bacterial viruses, decomposing organic matter, and trapping various pollutants with negative ions on the conductive active fan , the air is purified first.

 [0033] After the air is cleaned by the positive electrode conductive active fan, the air flowing through the conductive active fan continues to travel, and the negatively charged plasma collecting electrode passive fan, contact discharge, further kills the bacterial virus, decomposes the organic matter, and takes The adsorption of various pollutants of positive ions is trapped on the passive fan. After the air is further purified by the negative electrode passive fan, the secondary purified air enters the internal cavity of the air ring, and the air with negative ions will blow the inner cavity of the ring. The wall is induced into a surface with a positively charged film layer, and further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air blowing ring to achieve the third purification of the air. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

 [0034] The utility model includes a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0035] A multi-effect plasma air purification bladeless electric fan includes a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, and a collecting electrode fan group. A multi-effect plasma air purifying bladeless fan is connected to the air ring in the same body, and the air ring is The closed-loop hollow ring has a air duct in the hollow ring, and a throttled annular air outlet is arranged on the inner side of the hollow ring. The connection between the root of the air ring and the casing is a fixed connection, or a pitch adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. The shell duct is blown upwards, and the casing duct is connected to the air blowing ring.

 [0036] The fan base of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group.

 [0037] The conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is disposed in front of the passive fan, and is arranged in series with the motor rotor shaft. Passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned at the shaft end of the main shaft. The plasma high voltage generator is a generator that is connected to a power source and can generate positive and negative high voltage power. At the inner air inlet of the air inlet side fan guard, a plasma generating pole electrically insulated from the fan guard, the motor, the fan, and the base is provided. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generating pole is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud or in a split combination.

[0038] The one side passive fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The passive fan on one side is made of a composite electric insulating film layer on one side of the metal material surface, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on one side of the substrate, or a passive fan on one side is used. The composite conductive material is made of a composite electrically insulating film layer on one side. One side passive fan is electrically insulated from the air inlet side fan guard, or one side passive fan and the air inlet side fan guard are electrically insulated and separated. Set. The passive fan on one side is combined with the plasma generating pole to form an electrically insulating film layer, and the one side passive fan is electrically connected to the negative electrode of the plasma high voltage electric generator, and is electrostatically induced on the adjacent side of the plasma generating electrode through the electrically insulating film layer. Positive electric film layer.

 [0039] The conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan and the rotor of the motor are rotated. Insulated connection. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. The electrically insulating substrate is made of a composite conductive film material. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0040] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone, a passive fan electrical insulating layer laminated on the side adjacent to the plasma generating pole, electrostatically induced positively charged film layer, passive electrode with collector side with high voltage and negative charge The conductive side absorbs positively charged contaminants, repels negatively charged contaminants, and the air is primarily cleaned.

 [0041] The air flowing through the passive fan and the positively charged plasma collecting electrode conducts an active fan, violently collides with the contact discharge, kills the bacterial virus, decomposes the organic matter, and traps the various pollutants with negative ions in the conductive active fan. Above, after the air is further purified by the positive electrode conductive active fan, the secondary purified air enters the inner cavity of the air blowing ring, and the negative ion air induces the inner wall of the air blowing ring to be a surface with a positively charged film layer. Further adsorbing various negatively charged contaminants and adsorbing them on the inner wall of the air blowing ring to achieve the third purification of the air. The purified air flows along the flow guiding surface under the action of the flow guiding surface, and is throttled at a high speed through the throttle annular outlet.

 [0042] The utility model comprises a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, etc., which are inserted and assembled, and are convenient for disassembly and assembly. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0043] The conductive active fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is a conductive active fan on one side, and a conductive active fan on one side The rotor shaft of the motor is electrically insulated. The one-side conductive active fan is made of a composite electric insulating film layer on one side of the metal material, or the conductive active fan is made of a composite electric insulating film layer on one side of the composite conductive material. The conductive active fan is adjacent to the plasma generating pole, and has an electric insulating film layer. The conductive active fan is electrically connected with the negative electrode of the plasma high voltage electric generator, and is electrically adjacent to the plasma by the electrically insulating film layer of the conductive active fan. On the side, static electricity induces a positive electrode layer.

 [0044] The conductive active fan and the negative electrode of the plasma high voltage electric generator are electrically connected to the conductive active fan through a brush.

 The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, plasma generator, base, motor, and earth. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. The material is made of a composite conductive film material. The passive fan is electrically insulated from the outlet side fan guard, or the passive fan and the outlet side fan guard are electrically insulated. The passive fan is electrically connected to the positive electrode of the plasma high voltage generator. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0045] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan shield, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone, an electrically insulating film layer compounded on the side adjacent to the plasma, electrostatically induced positively charged film layer, and a collector electrode with high voltage and negative charge conductive active fan side, the adsorption zone is positive Charge contaminants, repel negatively charged contaminants, and air is primary cleaned.

 [0046] The air flowing through the conductive active fan continues to travel, and the positively charged plasma collecting electrode passive fan violently collides with the contact discharge, further kills the bacterial virus, decomposes the organic matter, and adsorbs and traps various pollutants with negative ions. On the passive fan, after the air is further purified by the positive electrode passive fan, the secondary purified air enters the inner cavity of the air ring, and the negative ion air induces the inner wall of the air ring to be positively charged. The surface further adsorbs various negatively charged contaminants and is adsorbed on the inner wall of the air blowing ring to achieve the third purification of the air. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

[0047] Including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc., for the insertion and assembly, the assembly is convenient for disassembly and assembly. When the plasma air purification fanless electric fan reaches a certain amount of ash, the plasma is emitted. The raw electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

 [0048] A multi-effect plasma air purification bladeless electric fan includes a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, and a collecting electrode fan group. A multi-effect plasma air purifying fanless fan is connected to the air blowing ring in the same body. The air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet. The connection between the root of the air ring and the casing is a fixed connection, or a pitch-adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. The shell duct is blown upwards, and the casing duct is connected to the air blowing ring.

 [0049] The fan base of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group.

 [0050] The conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is disposed in front of the passive fan, and is arranged in series with the motor rotor shaft. Passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned at the shaft end of the main shaft. The plasma high voltage generator is a generator that is connected to a power source and can generate positive and negative high voltage power. At the inner air inlet of the air inlet side fan guard, a plasma generating pole electrically insulated from the fan guard, the motor, the fan, and the base is provided. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generating pole is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud or in a split combination.

[0051] The conductive active fan is statically insulated from the fan guard, the plasma generator, the base, the motor, and the ground. The electric induction collecting electrode is an electrically conductive active fan. The conductive active fan is made of a metal material, or the conductive active fan is made of an electrically insulating material on the surface of the metal material, or the plastic material is used as a substrate. The substrate is coated with a metal or carbon material film layer, or the conductive active fan is made of a composite conductive material, or the conductive active fan is made of a plastic conductive insulating material and a composite conductive film material. The conductive active fan is disposed after the plasma generating electrode and before the plasma collecting electrode.

 [0052] The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generator, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. The material is made of a composite conductive film material.

 [0053] The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is wrapped on the surface of the metal material. Made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or conductive grid made of composite conductive material, or conductive grid is plastic electrically insulating substrate The composite conductive film material is made of. The conductive grid is integrated with the outlet side fan shroud, or a split combination. The passive fan is electrically connected to the positive electrode of the plasma high voltage generator. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0054] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. The air with a large amount of negative ions and ozone enters the conductive active fan, and on the surface of the conductive active fan adjacent to the plasma generating pole, a positively charged surface is induced to adsorb negatively charged various pollutants. On the other side of the conductive active fan, on the surface of the conductive active fan adjacent to the positively charged plasma collecting electrode passive fan, a negatively charged surface is induced to adsorb positively charged various pollutants to achieve primary air. Purification.

[0055] After the air is purified by the conductive active fan induction collecting electrode, the passive fan is connected to the plasma collecting electrode with high voltage positive electricity, the air and the positively charged plasma collecting electrode passive fan, violent collision contact discharge, killing the bacterial virus, Decomposes organic matter, and traps various pollutants with negative ions on the passive fan. Air enters the conductive grid, and a negatively charged surface is induced on the adjacent positive collector-side conductive grid. Further adsorption is positively charged. Various contaminants, positively charged on the back side of the conductive grid The surface of the charge further adsorbs various negatively charged contaminants to achieve the third purification of the air. The air purified by the grid is collected three times to enter the inner cavity of the air ring, and the air with negative ions will be inside the air ring. The cavity wall is induced into a surface with a positively charged film layer, and further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air blowing ring to realize the fourth purification of the air. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

 [0056] The utility model includes a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

 [0057] or the passive fan is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground, the passive fan is made of a metal material, or the passive fan is electrically insulated on the surface of the metal material. Made of materials, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or passive fan made of composite conductive material, or passive fan for plastic electrically insulating substrate, composite conductive Made of film material. The passive fan is integrated with the inlet side fan guard or in a split combination.

 [0058] The conductive active fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan and the rotor of the motor are rotated. Insulated connection. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. The electrically insulating substrate is made of a composite conductive film material.

 [0059] The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is wrapped on the surface of the metal material. Made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or conductive grid made of composite conductive material, or conductive grid is plastic electrically insulating substrate The composite conductive film material is made of. The conductive grid is integrated with the outlet side fan shroud, or a split combination. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

[0060] When the conductive active fan is turned on, the conductive active fan starts to rotate, and the wind passes through the fan guard and then passes through the belt. The high-voltage negative plasma generator pole, the plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged. Air with a large amount of negative ions and ozone enters the passive fan and induces a positively charged surface on the surface of the passive fan adjacent to the plasma to absorb negatively charged contaminants. On the other side of the passive fan, on the surface of the passive fan adjacent to the positively charged plasma collecting electrode conductive active fan, a negatively charged surface is induced, and the positively charged various pollutants are adsorbed to achieve the primary of the air. Purification.

 [0061] After the air is cleaned by the passive fan induction collecting electrode, the conductive active fan is driven into the plasma collecting electrode with high voltage positive electricity, and the positive active fan of the air and the positively charged plasma collecting electrode violently collides with the contact discharge to kill the bacterial virus. Decomposes organic matter, and traps various pollutants with negative ions on the conductive active fan. Air enters the conductive grid, and a negatively charged surface is induced on the adjacent positive collector side conductive grid. Further adsorption zone Positively charged various pollutants induce a positively charged surface on the back side of the conductive grid, further adsorbing various negatively charged contaminants, achieving a third purification of the air, and collecting the electrodes three times through the grid. The air enters the inner cavity of the air ring, and the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed in the inner cavity of the air ring. On the wall, the fourth purification of the air is achieved. The purified air flows along the diversion surface under the action of the diversion surface, and is throttled at the high-speed exit through the throttling annular outlet.

[0062] The base, the casing, the fan motor, the collecting electrode fan, the air blowing ring, etc. are included for the insertion and assembly, and are convenient for disassembly and assembly. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0063] A multi-effect plasma air purification bladeless electric fan includes a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, and a collecting electrode fan group. The casing of the multi-effect plasma air purification bladeless fan is connected with the air blowing ring in the same body. The air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet. The connection between the root of the air ring and the casing is a fixed connection, or a pitch adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. Shell wind The road is blown upwards, and the casing air duct is connected to the air blowing ring.

 [0064] The fan base of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group.

 [0065] The conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is disposed in front of the passive fan, and is arranged in series with the motor rotor shaft. Passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned at the shaft end of the main shaft. The plasma high voltage generator is a generator that is connected to a power source and can generate positive and negative high voltage power. At the inner air inlet of the air inlet side fan guard, a plasma generating pole electrically insulated from the fan guard, the motor, the fan, and the base is provided. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generating pole is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud or in a split combination.

[0066] The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. The material is made of a composite conductive film material. The passive fan is electrically connected to the positive electrode of the plasma high voltage generator. The conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan is electrically insulated from the rotor shaft of the motor. The conductive active fan and the negative electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. Composite insulating film on electrically insulating substrate Made of materials.

 [0067] The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is wrapped on the surface of the metal material. Made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or conductive grid made of composite conductive material, or conductive grid is plastic electrically insulating substrate The composite conductive film material is made of. The conductive grid is integrated with the outlet side fan shroud, or a split combination. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0068] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone is adsorbed by a passive fan with a high-voltage positively charged plasma collecting electrode, air and a positively charged plasma collecting electrode passive fan, violent collision contact discharge, killing bacterial viruses, decomposing organic matter, and The adsorption of various contaminants with negative ions is trapped on the passive fan, and the air is purified first.

 [0069] After the air is cleaned by the passive electrode of the positive electrode, the air enters the conductive active fan, and the air and the negatively charged plasma collecting electrode conduct the active fan, violently collide, kill the bacteria virus, decompose the organic matter, and each with positive ions The pollutants are adsorbed and trapped on the fins of the conductive active fan, and the air enters the conductive grid, and a positively charged surface is induced on the adjacent negative collector-side conductive grid to further adsorb negatively charged various pollutants. A negatively charged surface is induced on the back surface of the grid to further adsorb positively charged various pollutants to achieve a third purification of the air. The air purified by the grid is collected three times through the grid to enter the internal cavity of the blowing ring. The air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air ring to achieve the fourth time of the air. Purification. The purified air flows along the flow guiding surface under the action of the flow guiding surface, and is throttled at a high speed through the throttle annular outlet.

 [0070] The utility model includes a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0071] or the conductive active fan is electrically insulated from the fan shroud, the plasma generator, the base, the motor, and the ground. Plasma collection electrode. The conductive active fan is an electrically conductive active fan of the electrical conductor, and the conductive active fan is electrically insulated from the rotor shaft of the motor. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. The electrically insulating substrate is made of a composite conductive film material. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush.

 [0072] The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generator, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material as a substrate, a metal or carbon material film layer coated on the substrate, or a passive fan made of a composite conductive material. The passive fan is electrically connected to the negative electrode of the plasma high voltage generator. The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is a metal insulating material coated on the surface of the metal material. Manufactured, or made of a plastic material as a substrate, coated with a metal or carbon material film on the substrate, or the conductive mesh is made of a composite conductive material, or the conductive mesh is a plastic electrically insulating substrate, composite Made of conductive film material. The conductive grid is integrated with the air outlet side fan guard, or a separate combination. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0073] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan shield, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone, and a conductive active fan with a high-voltage positive collector, violent collision contact discharge, killing bacterial viruses, decomposing organic matter, and trapping various pollutants with negative ions on the conductive active fan , the air is purified first.

[0074] After the air is cleaned by the positive electrode conductive active fan, the air flowing through the conductive active fan continues to travel, and the negatively charged plasma collecting electrode passive fan, contact discharge, further kills the bacterial virus, decomposes the organic matter, and takes The adsorption of various pollutants of positive ions is trapped on the passive fan, and the air enters the conductive grid, and a positively charged surface is induced on the adjacent negative collector-side conductive grid to further adsorb negatively charged various pollutants. A negatively charged surface is induced on the back surface of the conductive grid to further adsorb positively charged various pollutants, thereby achieving a third purification of the air, and purifying the electrode three times through the grid. After the air enters the inner cavity of the air ring, the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the air ring. On the inner wall, the fourth purification of the air is achieved. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

 [0075] The utility model comprises a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

 [0076] A multi-effect plasma air purification bladeless electric fan includes a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, and a collecting electrode fan group. A multi-effect plasma air purifying fanless fan is connected to the air blowing ring in the same body. The air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet. The connection between the root of the air ring and the casing is a fixed connection, or a pitch-adjustable movable connection. The lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard. The collecting electrode fan group is connected to the fan motor main shaft and installed in the casing, the collecting electrode fan group is placed in the fan casing, the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the electric insulation is connected to collect the wind generated by the electrode fan, and the machine is passed through the machine. The shell duct is blown upwards, and the casing duct is connected to the air blowing ring.

 [0077] The fan base of the bottom of the casing and the casing of the casing are composed of two fans. The fan that is connected to the motor to provide wind power is a conductive active fan, and the fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground. The stator of the fan motor is connected to the casing, and the fan guard is mounted on the casing and the stator of the fan motor. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan. Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan The rotor main shaft of the motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group.

[0078] The conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is disposed in front of the passive fan, and is arranged in series with the rotor shaft of the motor. The passive fan shaft tube is electrically insulated on the rotor shaft of the motor or the passive fan shaft tube. The electric insulation is set on the main shaft of the conductive active fan, or the passive fan passes through the bearing and is positioned at the shaft end of the main shaft. The plasma high-voltage generator is a generator that is connected to a power source and can generate positive and negative high-voltage electricity. . A plasma generator pole electrically insulated from the fan guard, the motor, the fan, and the base is provided at the inner air inlet of the air inlet side fan guard. The plasma generation extremely includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a thorn type or a fish bone type structure electrode. The plasma generating pole is connected to the high voltage negative electrode of the plasma high voltage generator. The plasma generating pole is integrally provided with the inlet side fan shroud, or is provided in a separate combination.

 [0079] The one side passive fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The passive fan on one side is made of a composite electric insulating film layer on one side of the metal material surface, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on one side of the substrate, or a passive fan on one side is used. The composite conductive material is made of a composite electrically insulating film layer on one side. One side of the passive fan is electrically insulated from the inlet side fan guard, or one side of the passive fan and the inlet side fan guard are electrically insulated and separated. The passive fan on one side is combined with the plasma generating pole to form an electrically insulating film layer, and the one side passive fan is electrically connected to the negative electrode of the plasma high voltage electric generator, and is electrostatically induced on the adjacent side of the plasma generating electrode through the electrically insulating film layer. Positive electric film layer.

 [0080] The conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan and the rotor of the motor are rotated. Insulated connection. The conductive active fan and the positive electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush. The conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic material. The electrically insulating substrate is made of a composite conductive film material.

 [0081] The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is wrapped on the surface of the metal material. Made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or conductive grid made of composite conductive material, or conductive grid is plastic electrically insulating substrate The composite conductive film material is made of. The conductive grid is integrated with the outlet side fan shroud, or a split combination. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

[0082] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan shroud, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and makes the air It is filled with negative ions and makes various pollutants in the air negatively charged. Air with a large amount of negative ions and ozone, a passive fan electrical insulating layer laminated on the side adjacent to the plasma generating pole, electrostatically induced positively charged film layer, passive electrode with collector side with high voltage and negative charge The conductive side absorbs positively charged contaminants, repels negatively charged contaminants, and the air is primarily cleaned.

 [0083] The air flowing through the passive fan and the positively charged plasma collecting electrode conduct the active fan, violently collide with the contact discharge, kill the bacterial virus, decompose the organic matter, and trap the various pollutants with negative ions in the conductive active fan. Above, the air enters the conductive grid, and a negatively charged surface is induced on the adjacent positive collector side conductive grid to further adsorb positively charged various pollutants, and the positive band is induced on the back surface of the conductive grid The surface of the charge further adsorbs various negatively charged contaminants to achieve the third purification of the air. The air purified by the grid is collected three times to enter the inner cavity of the air ring, and the air with negative ions will be inside the air ring. The cavity wall is induced into a surface with a positively charged film layer, and further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air blowing ring to realize the fourth purification of the air. The purified air flows along the diversion surface under the action of the diversion surface, and is throttled at the high-speed exit through the throttling annular outlet.

[0084] The base, the casing, the fan motor, the collecting electrode fan, the air blowing ring, etc. are included for the insertion and assembly, and are convenient for disassembly and assembly. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

 [0085] Or the conductive active fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is a conductive active fan on one side, and the conductive active fan on one side is electrically insulated from the rotor shaft of the motor. The one side conductive active fan is made of a composite electric insulating film layer on one side of the metal material, or the conductive active fan is made of a composite electric insulating film layer on one side of the composite conductive material. The conductive active fan is adjacent to the plasma generating pole, and has an electric insulating film layer. The conductive active fan is electrically connected with the negative electrode of the plasma high voltage electric generator, and is electrically adjacent to the plasma by the electrically insulating film layer of the conductive active fan. On the side, static electricity induces a positive electrode layer. The conductive active fan and the negative electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through a brush.

[0086] The passive fan is a plasma collecting electrode that is electrically insulated from the fan shroud, the plasma generator, the base, the motor, and the ground. The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or a passive fan. It is made of a composite conductive film material on a plastic electrically insulating substrate. The passive fan is electrically insulated from the outlet side fan shroud, or the passive fan and the outlet side fan shroud are electrically insulated and separated. The passive fan is electrically connected to the positive electrode of the plasma high voltage generator.

 [0087] The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is wrapped on the surface of the metal material. Made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or conductive grid made of composite conductive material, or conductive grid is plastic electrically insulating substrate The composite conductive film material is made of. The conductive grid is integrated with the outlet side fan shroud, or a split combination. The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage.

 [0088] When the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions. And make various pollutants in the air also negatively charged. Air with a large amount of negative ions and ozone, an electrically insulating film layer compounded on the side adjacent to the plasma, electrostatically induced positively charged film layer, and a collector electrode with high voltage and negative charge conductive active fan side, the adsorption zone is positive Charge contaminants, repel negatively charged contaminants, and air is primary cleaned.

 [0089] The air flowing through the conductive active fan continues to travel, and the positively charged plasma collecting electrode passive fan violently collides with the contact discharge, further kills the bacterial virus, decomposes the organic matter, and adsorbs and traps various pollutants with negative ions. On the passive fan, air enters the conductive grid, and a negatively charged surface is induced on the adjacent positive collector side conductive grid to further adsorb positively charged various pollutants, which are induced on the back surface of the conductive grid. A positively charged surface is further adsorbed to absorb negatively charged various pollutants to achieve a third purification of the air. The air purified by the grid is collected three times and enters the inner cavity of the blowing ring, and the air with negative ions will be blown. The inner cavity wall of the ring is induced into a surface with a positively charged film layer, and further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air blowing ring to realize the fourth purification of the air. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet.

[0090] The utility model includes a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like, and is convenient for disassembly and assembly for inserting and fitting. When the plasma air purification fanless electric fan reaches a certain amount of ash, the plasma is emitted. The raw electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

 [0091] A multi-effect plasma air purification bladeless electric fan, the motor rotor shaft and the fan main shaft connecting the end, is provided with a permanent magnet toothed disc, or a ferromagnetic material made of a toothed disc, a fan The main shaft connecting end is a toothed disc corresponding to the permanent magnet toothed disc of the motor rotor shaft, the fan main shaft is connected with the end toothed disc, is a toothed disc made of ferromagnetic material, or is made of a permanent magnet material.楞盘. The permanent magnet toothed disc of the motor rotor shaft and the fan main shaft are connected to the permanent magnet toothed disc of the fan shaft, and are provided with an electrically insulating material layer.

 [0092] A multi-effect plasma air purification bladeless electric fan, the plasma collecting electrode fan, the brush connected to the positive electrode of the plasma high voltage electric generator is made of graphite material, the brush passes through the spring, or the inside of the brush It is provided with ferromagnetic material and is electrically connected to the fan main shaft by suction. The positive and negative ion generators are mounted in the base. The positive and negative ion generators are provided with a metal shield and grounded. The motor is wrapped in the fan shroud, and the fan side air inlet side fan shroud is fixed on the stator casing of the motor, and the outer edge of the fan side air outlet side fan shroud is passed through the outer edge of the fan air inlet side fan shroud Connected. The stator core of the motor is grounded.

 [0093] A multi-effect plasma air purification bladeless electric fan, the moving head device is driven by a fan motor, or driven by a separate moving head motor, and the fan is driven by a conventional shifting device and a clutch device to realize a fan moving head. The fan includes an axial fan, a cross flow fan, and a centrifugal fan. The fan is a plastic electrically insulating substrate, and the composite conductive film material thereon is an evaporated metal film or a composite carbon material film. The fan guard is made of plastic, made of metal, and the fan cover made of metal is grounded.

 [0094] the wind side fan shroud is provided with a ferromagnetic material, or a buckle made of a permanent magnet, and a plasma generating pole is provided with a ferromagnetic material corresponding to the buckle on the inlet side fan shroud, or A snap made of a permanent magnet, a plasma generating pole and an inlet side fan shroud are combined by a snap-in snap-in combination. The electric fan is provided with a button or a remote control including a general switch, a wind regulation, a wind direction, a fixed enthalpy, a negative ion generator. The remote control includes a mobile phone that is remotely controlled via a wireless network.

 Advantageous effects of the invention

 Beneficial effect

[0095] The multi-effect plasma air purification bladeless fan designed by the invention passes through multiple forced reaction discharges, and the plasma is fully used, so that few residual ozone radicals cause damage to the human body and have extremely high safety. Moreover, the air circulation speed is fast, the air purification efficiency is high, the function of the fan is provided, and the cost performance is high. Brief description of the drawing

 DRAWINGS

 1-1 is a schematic structural view of a first embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-2 is a schematic structural view of a second embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-3 are schematic structural views of a third embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-4 are schematic structural views of a fourth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-5 is a schematic structural view of a fifth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-6 are schematic structural views of a sixth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-7 is a schematic structural view of a seventh embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 1-8 is a schematic structural view of an eighth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 2-9 are schematic structural views of a ninth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 2-10 are schematic structural views of a tenth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 2-11 is a schematic view showing the structure of an eleventh embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

 2-12 are schematic structural views of a twelfth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention;

2-13 is a schematic structural view of a thirteenth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention; 2-14 are schematic views showing the structure of a fourteenth embodiment of a multi-effect plasma air purification bladeless electric fan according to the present invention.

 [0110] In the figure: 1 fan casing, 2 fan inlet hood, 3 blowing ring, 4 fan inlet hood, 5 throttle annular outlet, 6 conductive active fan, 7 plasma generator, 8 electrically insulated permanent magnet Gum plate connector, 9 fan motor, 10 brushes, 11 plasma generated extremely electrically insulated bracket, 12 fan shaft, 13 plasma high voltage generator, 14 fan base, 15 passive fan shaft, 16 passive fan electrically insulated shaft tube Connector, 17 conductive passive fan, 18 passive fan brush, 19 conductive grid.

 DETAILED DESCRIPTION

 [0112] The operation process of the first embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0113] When the conductive active fan 6 is activated, the conductive active fan 6 starts to rotate, and the wind passes through the fan. The windshield 4 enters the plasma generating electrically insulated support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; with a large amount of negative ions and The ozone air is sucked by the conductive active fan 6 with the high-voltage positively charged plasma collecting electrode. The conductive active fan 6 is violently collided with the air with a large amount of negative ions and ozone to discharge the plasma, kill the bacterial virus, decompose the organic matter, and carry the negative ions. The adsorption of various pollutants is trapped on the conductive active fan 6, and the air is subjected to primary purification; after the air is pressurized by the plasma active electrode 6 with high-voltage positively charged plasma, the air enters the passive fan 17 and is adjacent thereto. The surface of the passive fan 17 induces a negatively charged surface to further adsorb positively charged dirt. Dyeing; on the back of the passive fan 17 opposite to it, inducing a positively charged surface, further adsorbing negatively charged various pollutants, achieving a second purification of the air; secondary purified air, entering the blowing ring The inner cavity of 3, the air with negative ions induces the inner wall of the air ring 3 into the surface of the positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air ring 3. The third purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet 5; including the base, the casing, and the fan motor Collecting electrode fan, blowing ring, etc., for inserting and setting, easy to disassemble; when the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, and the collecting electrode The fan and the inner ring of the air ring are cleaned and restored.

[0114] The operation of the second embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0115] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 , entering the plasma The pole is electrically insulated, the plasma generator 7 discharges air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone is charged with high pressure. The positively charged plasma collecting electrode is inhaled by the conductive active fan 6, and the conductive active fan 6 is violently collided with the air with a large amount of negative ions and ozone to discharge, killing the bacterial virus, decomposing the organic matter, and adsorbing and trapping various pollutants with negative ions. On the conductive active fan 6, the air is purified first; after being cleaned by the positive electrode passive fan 17, the air enters the conductive active fan 6, and a negatively charged surface is induced on the conductive active fan 6, further adsorbing positively charged each Contaminant, static electricity on the back induces a positively charged electrostatic film layer, adsorbs negatively charged contaminants, and achieves a second purification of air; secondary purified air enters the internal cavity of the blow ring 3, air with negative ions Inducing the inner wall of the air ring 3 into a surface with a positively charged film layer, further adsorbing various negatively charged The dye is adsorbed on the inner wall of the air blowing ring 3 to realize the third purification of the air; the purified air flows along the flow guiding surface under the action of the guiding surface, and passes through the throttle annular air outlet 5 High-speed discharge of throttling; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification fan-free electric fan reaches a certain amount of ash Cleaning and reducing the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring.

[0116] The operation process of the third embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0117] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone , is adsorbed by the high-voltage positive plasma collecting electrode conductive grid 15 , air and positively charged plasma collecting electrode conductive grid 15 , violent collision contact discharge, killing bacterial virus, decomposing organic matter, and carrying negative ions The adsorption of various pollutants is trapped on the conductive grid 15, and the air is purified first; after the air is purified by the positive electrode conductive grid 15, the conductive active fan 6 is introduced, and a negatively charged surface is induced on the conductive active fan 6. Further adsorbing various pollutants to achieve a second purification of the air. The air after secondary purification enters the inner cavity of the air ring 3, and the air with negative ions induces the inner wall of the air ring 3 into a surface with a positively charged film layer, further adsorbing various negative pollutants, and is Adsorbed on the inner wall of the air ring 3 to achieve the third purification of the air; the purified air flows along the flow guiding surface under the action of the diversion surface, and flows through the throttle annular outlet 5, high-speed throttle Discharge; including base, casing, fan Motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when plasma air purifying fan-free electric fan reaches a certain amount of ash, plasma generating electrode, plasma collecting electrode, collecting The electrode fan and the inner ring of the air ring are cleaned and restored.

[0118] The operation process of the fourth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0119] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone , entering the passive fan 17, on the surface of the passive fan 17 adjacent to the plasma generating pole, inducing a positively charged surface, adsorbing negatively charged various pollutants; on the other side of the passive fan 17, with positive The electric plasma collecting electrode electrically drives the active fan 6 on the surface of the passive fan 17 to induce a negatively charged surface, adsorbing positively charged various pollutants, and achieving primary air purification; air is collected by the passive fan 17 After the electrode is cleaned, enter the plasma-active electrode active active fan 6 with high-voltage positive charge, air and positively charged plasma collection The electrode conductive active fan 6 violently collides with the contact discharge, kills the bacterial virus, decomposes the organic matter, and traps the various pollutants with negative ions on the conductive active fan 6, further realizing the secondary purification of the air; The air enters the inner cavity of the air ring 3, and the air with negative ions induces the inner wall of the air ring 3 into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the air blowing ring 3 On the inner cavity wall, the third purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet 5; The casing, the fan motor, the collecting electrode fan, the blowing ring, etc., are inserted and assembled, easy to disassemble; when the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, plasma The collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

[0120] The operation process of the fifth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0121] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone Passed by a passive collector fan 17 with a high-voltage positively charged plasma collecting electrode, air and a positively charged plasma collecting electrode passive fan 17, violently colliding with contact discharge, killing bacterial viruses, decomposing organic matter, and banding The adsorption of various pollutants of negative ions is trapped on the passive fan 17, and the air is purified first; after the air is purified by the positive electrode passive fan 17, the air enters the conductive active fan 6, the air and the negatively charged plasma collecting electrode conductive active fan 6, Violent contact, killing bacterial viruses, decomposing organic matter, and trapping various pollutants with positive ions on the fins of the conductive active fan 6, the air is further purified, and the purified air is discharged through the throttle annular outlet 5. The air after secondary purification enters the inner cavity of the air ring 3, and the air with negative ions induces the inner wall of the air ring 3 into a surface with a positively charged film layer, further adsorbing various negative pollutants, and is Adsorbed on the inner wall of the air ring 3 to achieve the third purification of the air; the purified air flows along the flow guiding surface under the action of the diversion surface, and flows through the throttle annular outlet 5, and the throttle is high. Discharge; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification fan-free electric fan reaches a certain amount of ash, the plasma The electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

[0122] The operation process of the sixth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0123] When the conductive active fan is activated, the conductive active fan 6 starts to rotate, and the wind passes through the fan protection first. The cover 4 is then passed through a plasma generating pole 7 with a high voltage negative charge. The plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; with a large amount of negative ions And the ozone air, and the collector electrode with the high-voltage positive electricity, the conductive active fan 6, violent collision contact discharge, killing the bacterial virus, decomposing the organic matter, and adsorbing the various pollutants with negative ions on the conductive active fan 6, air The primary purification is obtained; after the air is cleaned by the positive electrode conductive active fan 6, the air flowing through the conductive active fan 6 continues to travel, and the negatively charged plasma collecting electrode passive fan 17, contacts the discharge, further kills the bacterial virus, decomposes the organic matter , and the adsorption of various pollutants with positive ions is trapped on the passive fan 17, and the air is negatively charged. After the passive fan 17 is further purified, the secondary purified air enters the inner cavity of the air blowing ring 3, and the negative ion air induces the inner wall of the air blowing ring 3 into the surface of the positively charged film layer, further adsorbing the negatively charged layer. Various contaminants are adsorbed on the inner wall of the air ring 3 to achieve a third purification of the air; the purified air flows along the flow guiding surface under the action of the diversion surface, through the throttling ring Air outlet 5, throttling high-speed discharge; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when plasma air purification leafless electric fan reaches a certain product Ash volume, plasma generating electrode, plasma collecting electrode Collect the electrode fan and the inner ring of the blow ring for cleaning and reduction.

[0124] The operation process of the seventh embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0125] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone An electrically insulating film layer of the passive fan 17 combined with the side adjacent to the plasma generating pole, adsorbed by the electrostatically induced positively charged film layer, and the conductive side of the passive fan with the high-voltage negative collecting electrode side, the adsorption band Positively charged contaminants, repel negatively charged contaminants, air is primary cleaned; air flowing through passive fan 17 and positively charged plasma collecting electrode conductive active fan 6, violent collision contact discharge, killing bacterial virus , decomposes organic matter, and traps various pollutants with negative ions on the conductive active fan 6, and the air passes through the positive electrode The air purified by the conductive active fan 6 enters the inner cavity of the air blowing ring 3, and the air with negative ions induces the inner wall of the air blowing ring 3 into a surface with a positively charged film layer, further adsorbing various negatively charged pollutions. The object is adsorbed on the inner wall of the air blowing ring 3 to realize the third purification of the air; the purified air flows along the flow guiding surface under the action of the guiding surface, and passes through the throttle annular air outlet 5 High-speed discharge of throttling; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification fan-free electric fan reaches a certain amount of ash Cleaning and reducing the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring.

[0126] The operation process of the eighth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0127] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone , an electrically insulating film layer composited with the plasma-proximal side, electrostatically induced positively charged film layer, with a high-voltage negative collector electrode conductive active fan 6 side, adsorbing positively charged contaminants, repulsion band Negatively charged contaminants, the air is primary cleaned; the air flowing through the conductive active fan 6 continues to travel, and the positively charged plasma collecting electrode passive fan 17 violently collides with the discharge, further killing the bacterial virus, decomposing the organic matter, and The adsorption of various pollutants with negative ions is trapped on the passive fan 17, and the air is purified by the passive fan 17 through the positive electrode. Air, into the blower ring interior cavity 3, negatively The ionic air induces the inner wall of the air ring 3 into the surface of the positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air ring 3 to achieve the third time of the air. Purification; the purified air flows along the diversion surface under the action of the diversion surface, and is throttled at a high speed through the throttling annular outlet 5; including the base, the casing, the fan motor, the collecting electrode fan, and the blowing ring Etc., for the insertion and assembly, easy to disassemble; when the plasma air purification fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the blowing ring inner cavity are performed. Clean and restore.

[0128] The operation process of the ninth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0129] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone , entering the conductive active fan 6, on the surface of the conductive active fan 6 adjacent to the plasma generating pole, inducing a positively charged surface, adsorbing negatively charged various pollutants; on the other side of the conductive active fan 6, Positively charged plasma collecting electrode on the surface of the conductive active fan 6 adjacent to the passive fan 17, induces a negatively charged surface, adsorbs positively charged various pollutants, and achieves primary purification of air; air passes through the conductive active fan 6 After the induction collecting electrode is purified, it enters the plasma collecting electrode passive fan 17 with high voltage positive electricity, air and positively charged plasma collecting electrode The moving fan 17, violently collides with the contact discharge, kills the bacterial virus, decomposes the organic matter, and traps the various pollutants with negative ions on the passive fan 17, and the air enters the conductive grid 19, and conducts electricity on the adjacent positive collector side. A negatively charged surface is induced on the grid 19 to further adsorb positively charged contaminants, and a positively charged surface is induced on the back surface of the conductive grid 19 to further adsorb negatively charged contaminants. The third purification of the air, the air purified by the grid collecting electrode 19 three times, enters the inner cavity of the blowing ring 3, and the air with negative ions induces the inner wall of the blowing ring 3 into the surface of the positively charged film layer. Further adsorbing various negatively charged contaminants and adsorbing them on the inner wall of the air blowing ring 3 to achieve the fourth purification of the air; the purified air is redirected along the guiding surface under the action of the guiding surface Through the throttling annular air outlet 5, the throttling is discharged at a high speed; including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc., for the insertion and assembly, and the assembly is convenient for disassembly and assembly. When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored. [0130] The operation process of the tenth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0131] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone When the conductive active fan 6 is turned on, the conductive active fan 6 starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, and the plasma generating pole 7 discharges the air, ionizes the air, and fills the air. Negative ions, and make various pollutants in the air also negatively charged; air with a large amount of negative ions and ozone enters the passive fan 17, and induces a positive charge on the surface of the passive fan 17 adjacent to the plasma generating pole a surface that adsorbs negatively charged contaminants; on the other side of the passive fan 17, with a positively charged plasma collecting electrode that conducts active wind 6 on the surface of the adjacent passive fan 17, induces a negatively charged surface, adsorbs positively charged various pollutants, and achieves primary purification of air; air passes through the passive fan 17 to inductively collect the electrode and purify, and enters with high voltage positive The plasma collecting electrode conducts the active fan 6, the air and the positively charged plasma collecting electrode, the conductive active fan 6, violently collides with the contact discharge, kills the bacterial virus, decomposes the organic matter, and traps the adsorption of various pollutants with negative ions. On the conductive active fan 6, air enters the conductive grid 19, and a negatively charged surface is induced on the adjacent positive collector-side conductive grid 19 to further adsorb positively charged various pollutants in the conductive grid 19 On the back side, a positively charged surface is induced to further adsorb negatively charged various pollutants to achieve a third purification of the air, and the purified air is discharged through the throttle annular outlet 5; when the multi-effect plasma air is purified without leaves The electric fan reaches a certain amount of ash, the plasma generating pole, the plasma collecting electrode passive fan 17, and the conductive active fan 6 Conductive mesh grid 19, the fan shroud 4, the ring 3 for cleaning hair reduction.

[0132] The operation process of the eleventh embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0133] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone Passed by the passive collector fan 17 with high-voltage positively charged plasma collecting electrode, air and positively charged plasma collecting electrode passive fan 17, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and carrying various negative ions The adsorption of pollutants is trapped on the passive fan 17, and the air is purified first; after the air is purified by the positive electrode passive fan 17, the conductive active fan 6, the air and the negatively charged plasma Collecting electrode conductive active fan 6, violent collision contact, killing bacterial virus, decomposing organic matter, and trapping various pollutants with positive ions on the fins of conductive active fan 6, and air enters conductive grid 19, adjacent A positively charged surface is induced on the negative side collector grid 19 to further adsorb negatively charged contaminants, and a negatively charged surface is induced on the back surface of the conductive grid 19 to further adsorb positively charged surfaces. A contaminant, the third purification of the air is achieved, and the air purified by the grid 19 is collected three times to enter the inner cavity of the air ring 3, and the air with negative ions induces the inner wall of the air ring 3 to be positively charged. The surface of the membrane layer further adsorbs various negatively charged contaminants and is adsorbed on the inner wall of the air blowing ring 3 to achieve the fourth purification of the air; the purified air is guided by the diversion surface, along the guide The flow surface changes direction, and is throttled at a high speed through a throttled annular air outlet 5; including a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, etc., for inserting, The kit is snapped and easy to disassemble; when the plasma air purifying fanless fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[0134] The operation process of the twelfth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0135] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone , with the high-voltage positive collector electrode conductive active fan 6, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and adsorbing various pollutants with negative ions on the conductive active fan 6, the air is primary purified; After the air is purified by the positive electrode conductive active fan 6, the air flowing through the conductive active fan 6 continues to travel, and the negatively charged plasma collecting electrode passive fan 17, contacts and discharges, further kills the bacterial virus, decomposes the organic matter, and takes the band The adsorption of various contaminants of positive ions is trapped on the passive fan 17, and the air enters the conductive grid 19 in the phase. A positively charged surface is induced on the negative side collector grid 19 to further adsorb negatively charged contaminants, and a negatively charged surface is induced on the back surface of the conductive grid 19 to further adsorb positively charged surfaces. A contaminant, the third purification of the air is achieved, and the air purified by the grid 19 is collected three times to enter the inner cavity of the air ring 3, and the air with negative ions induces the inner wall of the air ring 3 to be positively charged. The surface of the membrane layer further adsorbs various negatively charged contaminants and is adsorbed on the inner wall of the air blowing ring 3 to achieve the fourth purification of the air; the purified air is guided by the diversion surface, along the guide The flow surface changes direction, and the throttling air outlet 5 is throttled at a high speed. Package Including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc., for the insertion and assembly, easy to disassemble; when the plasma air purification fanless electric fan reaches a certain amount of ash, the plasma generating electrode The plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

 [0136] The operation process of the thirteenth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0137] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone An electrically insulating film layer of the passive fan 17 combined with the side adjacent to the plasma generating pole, adsorbed by the electrostatically induced positively charged film layer, and the conductive side of the passive fan 17 with the high-voltage negative collecting electrode side, adsorbed Positively charged contaminants, repel negatively charged contaminants, air is primary cleaned; air flowing through passive fan 17 and positively charged plasma collecting electrode conductive active fan 6, violent collision contact discharge, killing bacterial virus , decomposes organic matter, and traps various pollutants with negative ions on the conductive active fan 6, and the air enters the conductive mesh The gate 19 induces a negatively charged surface on the adjacent positive collector side conductive grid 19 to further adsorb positively charged contaminants and induce a positively charged surface on the back surface of the conductive grid 19 Further adsorbing various pollutants with negative electricity to achieve the third purification of air, collecting the air purified by the grid 19 three times, entering the inner cavity of the air blowing ring 3, and the air with negative ions will be inside the air blowing ring 3. The cavity wall is induced into a surface with a positively charged film layer, and further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air blowing ring 3 to realize the fourth purification of the air. The purified air flows along the flow guiding surface under the action of the deflector surface, and is throttled at a high velocity through the throttle annular outlet 5 . Including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc., for the insertion and assembly, the card is easy to disassemble; when the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode The plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

[0138] The operation process of the fourteenth embodiment of the multi-effect plasma air purification bladeless electric fan of the present invention is as follows: [0139] When the fan is turned on, the conductive active fan 6 starts to rotate, and the wind passes through the fan inlet hood 4 Entering the plasma to generate the electrically insulating support 11, the plasma generating pole 7 discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone , an electrically insulating film layer composited with the plasma-proximal side, electrostatically induced positively charged film layer, with a high-voltage negative collector electrode conductive active fan 6 side, adsorbing positively charged contaminants, repulsion band Negatively charged contaminants, the air is primary cleaned; the air flowing through the conductive active fan 6 continues to travel, and the positively charged plasma collecting electrode passive fan 17 violently collides with the discharge, further killing the bacterial virus, decomposing the organic matter, and The adsorption of various contaminants with negative ions is trapped on the passive fan 17, and the air enters the conductive grid 19, and a negatively charged surface is induced on the adjacent positive collector-side conductive grid 19 to further adsorb positively charged Various contaminants induce a positively charged surface on the back surface of the conductive grid 19, further adsorbing various negatively charged contaminants, achieving a third purification of the air, and collecting the air three times through the grid collecting electrode 19 , entering the inner cavity of the air ring 3, the air with negative ions induces the inner wall of the air ring 3 into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the air ring 3 On the inner cavity wall, the fourth purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is discharged through the throttling Port 5, throttling high-speed discharge; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification leafless electric fan reaches a certain amount of dust吋, cleaning and reducing the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring.

Claims

Claim

[Claim 1] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group The utility model is characterized in that: the casing is connected with the air blowing ring in the same body, the air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet; the connection between the root of the air blowing ring and the casing is Fixed connection, or adjustable pitch connection; the lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard; the collecting electrode fan group is connected with the main shaft of the fan motor and installed inside the casing, The collecting electrode fan group is placed in the fan casing, and the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the wind generated by the collecting electrode fan is electrically insulated, and is blown upward through the casing air passage, and the casing air duct is connected with the air blowing ring; The fan base of the bottom of the casing and the casing of the casing is composed of two fans, and the motor is connected to the motor to provide a wind-driven active fan. The passively rotating fan is a passive fan, and the two fans are coaxially arranged; the two fans are electrically insulated, and the two fans are electrically insulated from the fan guard, the base, the motor, and the ground; the stator of the fan motor is connected to the casing, The fan shroud is mounted on the casing and the stator of the fan motor, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilating fan; or the stator of the fan motor is connected to the casing, and the fan shroud is mounted on the casing of the fan motor And the stator, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, the casing and the stator of the fan motor are connected with the base, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group; The conductive active fan and the passive fan are arranged at the same end. The conductive active fan is arranged in front of the passive fan and is arranged in series with the rotor shaft of the motor. The passive fan shaft tube is electrically insulated on the rotor shaft of the motor, or the passive fan shaft tube is electrically insulated. On the main shaft of the conductive active fan, or the passive fan passes through the bearing and is positioned on the main shaft The plasma high-voltage generator is a generator that is connected to the power source and can generate positive and negative high-voltage power; the air inlet of the air inlet side fan shroud is provided with a fan guard, a motor, a fan, and a machine base. Insulated plasma generating pole; plasma generation includes metal needle array electrode, wire mesh electrode, wire, serrated, thorn or fishbone structure electrode; plasma generating pole, and plasma high voltage The high voltage negative electrode of the generator is connected; the plasma generating pole is integrated with the inlet side fan guard The conductive active fan is an electric conductor fan electrically connected to the rotor shaft of the motor; the positive electrode of the conductive active fan and the positive electrode of the plasma high voltage generator are electrically connected by a brush; the plasma of the plasma high voltage generator The absolute value of the high voltage negative electrode voltage of the high piezoelectric generator is higher than the absolute value of the high voltage positive electrode voltage; the conductive active fan is made of a metal material, or the plastic material is used as a substrate, and the metal is coated on the substrate or The carbon material film layer is made, or the conductive active fan is made of a composite conductive material, or the conductive active fan is made of a plastic conductive insulating material, and the composite conductive film material is made; the passive fan is an electrostatic induction collecting electrode, and the passive fan is made of a metal material. The passive fan is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material layer is coated on the substrate, or the passive fan is made of a composite conductive material. When the conductive active fan is turned on, the conductive active fan starts to rotate, and the wind passes through the fan inlet hood, and then A plasma generating pole with a high voltage negative charge, the plasma generating pole discharges air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone is carried The high-voltage positive plasma collection electrode is electrically driven by the active fan, the air and the positively charged plasma collecting electrode are electrically conductive and active, violently colliding with the contact discharge, killing the bacterial virus, decomposing the organic matter, and adsorbing various pollutants with negative ions. Entrapped on the fins of the conductive active fan, the air is purified first; after the air is pressurized by the conductive active fan with the high-voltage positively charged plasma collecting electrode, the air enters the passive fan and is induced on the surface of the passive fan adjacent to it. The negatively charged surface further adsorbs positively charged contaminants; on the back side of the passive fan, induces a positively charged surface, further adsorbs negatively charged contaminants, and achieves airborne Secondary purification, secondary purified air, entering the internal cavity of the air ring The air with negative ions induces the inner wall of the air ring to the surface with the positively charged film layer, further adsorbs the negatively charged various pollutants, and is adsorbed on the inner wall of the air ring to achieve the third purification of the air. The purified air flows along the diversion surface under the action of the diversion surface, and is throttled at a high speed through a throttled annular air outlet; including a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, and the like. For the insertion and assembly, it is easy to disassemble; when the plasma air purification fanless electric fan reaches a certain amount of ash, the plasma generating electrode and the plasma collecting electrode Collecting the electrode fan and the inner cavity of the blowing ring for cleaning and restoring; or the conductive active fan and the passive fan are respectively disposed at two ends of the fan motor, and the conductive active fan is disposed behind the passive fan and arranged in series with the rotor shaft of the motor; the passive fan shaft tube, the electric The insulation is set on the rotor shaft of the motor, or the passive fan passes through the bearing, and is positioned at the shaft end of the motor shaft to passively rotate with the wind; the passive fan is plasma insulated from the fan inlet hood, plasma generator, base, motor, earth. Body collecting electrode; the passive fan is made of a metal material, or a plastic material is used as a substrate, a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is The plastic electrically insulating substrate is made of a composite conductive film material, and the passive fan is electrically connected with the positive electrode of the plasma high voltage electric generator; the absolute value of the high voltage negative electrode voltage of the plasma high voltage electric generator is higher than the absolute value of the high voltage positive electrode voltage Value; conductive active fan is with fan inlet hood, plasma generator, base, electric The electrostatic induction collecting electrode of the earth electrical insulation, the conductive active fan is an electrically conductive active fan of the electric conductor, the conductive active fan is made of a metal material, or the conductive active fan is made of an electrically insulating material coated on the surface of the metal material, or the plastic material is used as The substrate is made of a metal or carbon material film layer on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made; The conductive active fan starts, the conductive active fan starts to rotate, the wind first passes through the fan inlet hood, and then passes through the plasma generating pole with high voltage and negative electricity, the plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and makes the air The various pollutants in the charge are also negatively charged; the air with a large amount of negative ions and ozone is adsorbed by a passive fan with a high-voltage positively charged plasma collecting electrode, the air and the positively charged plasma collecting electrode passive fan, violent collision contact Discharge, kill bacterial viruses, break down organic matter, and carry negative ions The adsorption of pollutants is trapped on the passive fan, and the air is cleaned by the primary; after the air is cleaned by the passive fan of the positive electrode, the air enters the conductive active fan, and the negatively charged surface is induced on the conductive active fan, and the positively charged surfaces are further adsorbed. Contaminant, static electricity on the back induces a positively charged electrostatic film layer, adsorbs negatively charged contaminants, and achieves a second purification of air; secondary purified air enters the internal cavity of the blow ring, and air with negative ions will The inner wall of the air ring is induced into a surface with a positively charged film layer, further adsorbing various negatively charged contaminants, and is adsorbed to the air On the inner wall of the ring, the third purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet; The casing, the fan motor, the collecting electrode fan, the blowing ring, etc., are inserted and assembled, easy to disassemble; when the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, plasma The collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

[Claim 2] A multi-effect plasma air purification bladeless electric fan, including a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group The utility model is characterized in that: the casing is connected with the air blowing ring in the same body, the air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet; the connection between the root of the air blowing ring and the casing is Fixed connection, or adjustable pitch connection; the lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard; the collecting electrode fan group is connected with the main shaft of the fan motor and installed inside the casing, The collecting electrode fan group is placed in the fan casing, and the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the wind generated by the collecting electrode fan is electrically insulated, and is blown upward through the casing air passage, and the casing air duct is connected with the air blowing ring; The fan base of the bottom of the casing and the casing of the casing is composed of two fans, and the motor is connected to the motor to provide a wind-driven active fan. The passively rotating fan is a passive fan, and the two fans are coaxially arranged; the two fans are electrically insulated, and the two fans are electrically insulated from the fan guard, the base, the motor, and the ground; the stator of the fan motor is connected to the casing, The fan shroud is mounted on the casing and the stator of the fan motor, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilating fan; or the stator of the fan motor is connected to the casing, and the fan shroud is mounted on the casing of the fan motor And the stator, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, the casing and the stator of the fan motor are connected with the base, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group; The conductive active fan and the passive fan are arranged at the same end. The conductive active fan is arranged in front of the passive fan and is arranged in series with the rotor shaft of the motor. The passive fan shaft tube is electrically insulated on the rotor shaft of the motor, or the passive fan shaft tube is electrically insulated. On the main shaft of the conductive active fan, or the passive fan passes through the bearing and is positioned on the main shaft End; the plasma generator is a high voltage power supply a generator capable of generating positive and negative high voltage power; a plasma generator electrode electrically insulated from the fan guard, the motor, the fan, and the base at the inner air inlet of the air inlet side fan guard; Including metal needle array electrode, wire mesh electrode, wire, zigzag, thorn or fishbone structure electrode; plasma generator, connected to high voltage negative electrode of plasma high voltage generator; plasma generation The pole is integrated with the air inlet side fan guard, or the split combination is set; the conductive active fan is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, the earth, and the conductive active fan is an electrical conductor Conductive active fan, the conductive active fan is made of a metal material, or the conductive active fan is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material layer is coated on the substrate. The conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic electrically insulating substrate, The conductive active fan is disposed after the plasma generating electrode and before the plasma collecting electrode; the passive fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground; The passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is a plastic electric insulating base. On the material, the composite conductive film material is made; the passive fan is electrically connected with the positive electrode of the plasma high voltage electric generator; the absolute value of the high voltage negative electrode voltage of the plasma high voltage electric generator is higher than the absolute value of the high voltage positive electrode voltage; The conductive active fan starts, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and makes the air Various pollutants are also negatively charged; air with a large amount of negative ions and ozone, enter An active fan, on the surface of the conductive active fan adjacent to the plasma generating pole, induces a positively charged surface to adsorb negatively charged contaminants; on the other side of the conductive active fan, with a positively charged plasma The body collects the electrode on the surface of the conductive active fan adjacent to the passive fan, induces a negatively charged surface, adsorbs positively charged various pollutants, and achieves primary purification of the air; the air is purified by the conductive active fan induction collecting electrode, and then enters Passive fan with high-voltage positive plasma collection electrode, passive fan with air and positively charged plasma collecting electrode, violent collision Contact with discharge, killing bacteria and viruses, decomposing organic matter, and trapping various pollutants with negative ions on the passive fan to further purify the secondary air; the air after secondary purification enters the internal cavity of the air ring. The air with negative ions induces the inner wall of the air ring to the surface with the positively charged film layer, further adsorbs the negatively charged various pollutants, and is adsorbed on the inner wall of the air ring to achieve the third purification of the air. The purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through a throttled annular air outlet; or the passive fan is connected to the fan guard, the plasma generating pole, the base, Electrostatic induction collecting electrode for electric motor and earth insulation, passive fan is made of metal material, or passive fan is made of electric insulating material on the surface of metal material, or plastic material is used as substrate, metal is coated on substrate or Made of a carbon material film layer, or a passive fan made of a composite conductive material, or a passive fan is a plastic electrically insulating substrate, a composite conductive film material The passive fan is integrated with the inlet side fan shroud or is arranged in a separate body; the conductive active fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground, and is electrically conductive. The active fan is an electrically conductive active fan of the electric conductor, and the conductive active fan is electrically insulated from the rotor shaft of the motor; the conductive active fan and the positive electrode of the plasma high voltage electric generator are electrically connected with the conductive active fan through a brush; the conductive active fan is made of a metal material. Manufactured, or made of a plastic material as a substrate, coated with a metal or carbon material film on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is a plastic electrically insulating substrate, composite The conductive film material is made; the absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, and the wind passes through the fan guard first. The hood is passed through a plasma generating pole with a high voltage negative charge, and the plasma generating pole is placed on the air. Ionizing air, filling the air with negative ions, and causing various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone enters the passive fan, on the surface of the passive fan adjacent to the plasma. Inducing a positively charged surface to adsorb negatively charged contaminants; on the other side of the passive fan, a negatively charged surface is induced on the surface of the passive fan adjacent to the positively charged plasma collecting electrode conductive active fan Surface, adsorbing positively charged various pollutants, achieving primary purification of air; air is cleaned by passive fan induction collecting electrode, enters the belt High-voltage positively charged plasma collecting electrode conductive active fan, air and positively charged plasma collecting electrode conductive active fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and adsorbing and trapping various pollutants with negative ions On the conductive active fan, the secondary purification of the air is further realized; the air after the secondary purification enters the inner cavity of the air blowing ring, and the air with negative ions induces the inner wall of the air blowing ring to be the surface with the positively charged film layer. Further adsorbing various negatively charged contaminants and adsorbing them on the inner wall of the air blowing ring to achieve the third purification of the air; the purified air flows along the diversion surface under the action of the diversion surface, Through the throttle annular outlet, the throttle is discharged at high speed; including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc., for the insertion and assembly, easy to disassemble; when the plasma air purifies the leafless electric fan A certain amount of ash is reached, for the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the blowing ring cavity Carry out cleaning and restoration.

[Claim 3] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group The utility model is characterized in that: the casing is connected with the air blowing ring in the same body, the air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet; the connection between the root of the air blowing ring and the casing is Fixed connection, or adjustable pitch connection; the lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard; the collecting electrode fan group is connected with the main shaft of the fan motor and installed inside the casing, The collecting electrode fan group is placed in the fan casing, and the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the wind generated by the collecting electrode fan is electrically insulated, and is blown upward through the casing air passage, and the casing air duct is connected with the air blowing ring; The fan base of the bottom of the casing and the casing of the casing is composed of two fans, and the motor is connected to the motor to provide a wind-driven active fan. The passively rotating fan is a passive fan, and the two fans are coaxially arranged; the two fans are electrically insulated, and the two fans are electrically insulated from the fan guard, the base, the motor, and the ground; the stator of the fan motor is connected to the casing, The fan shroud is mounted on the casing and the stator of the fan motor, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilating fan; or the stator of the fan motor is connected to the casing, and the fan shroud is mounted on the casing of the fan motor And the stator, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base, the fan motor The rotor main shaft is connected with the conductive active fan and the passive fan to form a double-fan electric fan group; the conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is disposed in front of the passive fan, and is arranged in series with the motor rotor shaft; the passive fan shaft tube, The electric insulation is set on the rotor shaft of the motor, or the passive fan shaft tube, the electric insulation is set on the main shaft of the conductive active fan, or the passive fan is positioned on the shaft end of the main shaft through the bearing; the plasma high voltage electric generator is connected with the power source. a generator capable of generating positive and negative high voltage power; a plasma generator electrode electrically insulated from the fan guard, the motor, the fan, and the base at the inner air inlet of the air inlet side fan guard; the plasma generation includes metal Needle array electrode, wire mesh electrode, wire, serrated, spur or fishbone structure electrode; plasma generator, connected to the high voltage negative electrode of the plasma high voltage generator; plasma generating pole Inlet side fan guard integrated, or split combination setting; passive fan with fan guard, plasma a plasma collecting electrode that is electrically insulated from the body, the base, the motor, and the earth; the passive fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, Or the passive fan is made of a composite conductive material, or the passive fan is made of a composite electrically conductive film material on the plastic electrically insulating substrate; the passive fan is electrically connected with the positive electrode of the plasma high voltage electric generator; the conductive active fan is a fan shield, Plasma generating pole, base, motor, earth electrically insulated plasma collecting electrode, conductive active fan is electrically conductive active fan, conductive active fan is electrically insulated from motor rotor shaft; conductive active fan and plasma high voltage generating The negative pole of the device is electrically connected to the conductive active fan through a brush; the conductive active fan is made of a metal material or a plastic material as a substrate, coated with a metal or carbon material layer on the substrate, or a conductive active fan Made of composite conductive material, or conductive active fan is made of plastic electrically insulating substrate, composite conductive thin Made of membrane material; the absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, and the wind passes through the fan guard first. Then, through the plasma generating pole with high-voltage negative electricity, the plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone Passive fan adsorption with high-voltage positively charged plasma collecting electrode, air and positively charged plasma collecting electrode passive fan, violent Collision contact discharge, killing bacteria and viruses, decomposing organic matter, and trapping various pollutants with negative ions on the passive fan, the air is purified first; after the air is cleaned by the positive electrode passive fan, it enters the conductive active fan, air and Negatively charged plasma collecting electrode conductive active fan, violent collision contact, killing bacterial virus, decomposing organic matter, and trapping various pollutants with positive ions on the fins of the conductive active fan, the air is further purified, twice The purified air enters the inner cavity of the air ring, and the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the air ring. On the inner cavity wall, the third purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet; including the base and the machine Shell, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to dismantle When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored; or the conductive active fan is a fan shield , plasma generating pole, base, motor, earth electrically insulated plasma collecting electrode; conductive active fan is electrically conductive active fan, conductive active fan is electrically insulated from motor rotor shaft; conductive active fan and plasma high voltage The positive pole of the generator is electrically connected to the conductive active fan through a brush; the conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material layer is coated on the substrate, or the conductive active The fan is made of a composite conductive material, or the conductive active fan is made of a composite conductive film material on a plastic electrically insulating substrate; the conductive active fan and the positive electrode of the plasma high-voltage electric generator are electrically connected with the conductive active fan through a brush; Fan for fan guard, plasma generator, base, motor A plasma-collecting electrode electrically insulated by earth; a passive fan is made of a metal material, or a plastic material is used as a substrate, a metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material. The passive fan is electrically connected to the negative electrode of the plasma high-voltage generator; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than the absolute value of the high-voltage positive electrode voltage; when the conductive active fan is activated, the conductive active fan is Starting to rotate, the wind passes through the fan guard and then passes through the plasma generating pole with high voltage and negative electricity. The plasma generating pole discharges the air, ionizing the air. , the air is filled with negative ions, and the various pollutants in the air are also negatively charged; the air with a large amount of negative ions and ozone, and the conductive active fan with the high-voltage positively charged collector electrode, violent collision contact discharge, killing the bacterial virus Decomposes organic matter, and traps various pollutants with negative ions on the conductive active fan, and the air is purified first; after the air is cleaned by the positive electrode conductive active fan, the air flowing through the conductive active fan continues to travel, and is negatively charged. The plasma collecting electrode passive fan, contact discharge, further kills the bacterial virus, decomposes the organic matter, and traps the various pollutants with positive ions on the passive fan, and the air is further purified by the negative electrode passive fan. The purified air enters the inner cavity of the air ring, and the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the air ring. On the inner wall of the chamber, the third purification of the air is achieved; the purified air is Under the action of the flow surface, it flows along the flow guiding surface, and is throttled at a high speed through a throttled annular air outlet; including a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, etc., for inserting and setting cards Fitted, easy to disassemble; When the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

[Claim 4] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, and a collecting electrode fan group The utility model is characterized in that: the casing is connected with the air blowing ring in the same body, the air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet; the connection between the root of the air blowing ring and the casing is Fixed connection, or adjustable pitch connection; the lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard; the collecting electrode fan group is connected with the main shaft of the fan motor and installed inside the casing, The collecting electrode fan group is placed in the fan casing, and the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the wind generated by the collecting electrode fan is electrically insulated, and is blown upward through the casing air passage, and the casing air duct is connected with the air blowing ring; The fan base of the bottom of the casing and the casing of the casing is composed of two fans, and the motor is connected to the motor to provide a wind-driven active fan. The fan is driven to rotate the fan passive, two fans are arranged coaxially; electrical insulation between the two fans, two fans are fan The shield, the base, the motor, and the earth are electrically insulated; the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan Or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a double-fan electric fan group; the conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is arranged in front of the passive fan, and is arranged in series with the motor rotor shaft; the passive fan shaft The tube, the electrical insulation is set on the rotor shaft of the motor, or the passive fan shaft tube, the electric insulation is set on the main shaft of the conductive active fan, or the passive fan passes through the bearing and is positioned at the shaft end of the main shaft; the plasma high voltage electric generator is the power supply Connection, a generator capable of generating positive and negative high voltage; inside the inlet side fan guard At the side air inlet, there is a plasma generating pole electrically insulated from the fan guard, the motor, the fan and the base; the plasma generation includes a metal needle array electrode, a wire mesh electrode, a wire shape, a zigzag type, and a awning a thorn-shaped or fish-bone structure electrode; a plasma generating pole connected to a high-voltage negative electrode of a plasma high-voltage generator; a plasma generating pole integrated with a wind-side fan guard, or a split combination; The fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground; the one side passive fan is made of a composite electric insulating film layer on one side of the metal material surface, or the plastic material is used as The substrate is made of a metal or carbon material film layer on one side of the substrate, or one side of the passive fan is made of a composite electric insulating film layer on one side of the composite conductive material; one side passive fan and the inlet side fan guard The cover is electrically insulated and integrated, or one side of the passive fan and the inlet side fan guard are electrically insulated and separated; the one side passive fan and the plasma generator are adjacent to each other. The electric insulating film layer is combined, and the passive fan on one side is electrically connected with the negative electrode of the plasma high-voltage electric generator, and the positive electric film layer is electrostatically induced on the adjacent side of the plasma generating electrode through the electrically insulating film layer; the conductive active fan is protected by the fan The cover, the plasma generating pole, the base, the motor, the electrically insulated plasma collecting electrode, the conductive active fan is an electrically conductive active fan, and the conductive active fan is electrically insulated from the rotor shaft of the motor; the conductive active fan and the plasma high voltage The positive pole of the electric generator is electrically connected to the conductive active fan through a brush; the conductive active fan is made of a metal material, or The plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or the conductive active fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made of The absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, and the wind passes through the fan guard and then passes through the belt. High-voltage negative plasma generating pole, plasma generating pole discharges air, ionizes air, fills air with negative ions, and causes various pollutants in air to also be negatively charged; air with a large amount of negative ions and ozone, and plasma A passive fan electrical insulating film layer on one side of the body adjacent to the side, a positively charged film layer adsorbed by the static electricity, and a conductive side of the passive fan on the side of the collecting electrode with high voltage and negative electricity, adsorbing the positively charged pollutant Repel negatively charged contaminants, air is primary cleaned; air flowing through passive fans and positively charged plasma Collecting electrode conductive active fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and adsorbing various pollutants with negative ions on the conductive active fan, after the air is further purified by the positive electrode conductive active fan, twice The purified air enters the inner cavity of the air ring, and the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the air ring. On the inner cavity wall, the third purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet; including the base and the machine Shell, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification leafless electric fan reaches a certain amount of ash, plasma generation electrode, plasma collection The electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored; or the conductive active fan is connected with the fan guard, etc. The plasma generating electrode of the ion generating pole, the base, the motor and the ground is electrically insulated; the conductive active fan is a one side conductive active fan, and one side of the conductive active fan is electrically insulated from the rotor shaft of the motor; the one side conductive active fan is metal The surface of the material is made of a composite electrically insulating film layer, or the conductive active fan is made of a composite electrically insulating film layer on one side of the composite conductive material; the conductive active fan is adjacent to the plasma generating pole, and has an electrically insulating film layer. The conductive active fan is electrically connected to the negative electrode of the plasma high-voltage generator, and is electrically distributed through the electrically insulating film of the conductive active fan. On the adjacent side of the cathode, the positive electrode layer is electrostatically induced; the conductive active fan and the negative electrode of the plasma high-voltage generator are electrically connected to the conductive active fan through the brush; the passive fan is the fan shield, the plasma generator, and the base , motor, earth-electrically insulated plasma collecting electrode; passive fan is made of metal material, or plastic material is used as substrate, coated with metal or carbon material film on substrate, or passive fan is composite conductive The material is made of, or the passive fan is made of a composite electrically conductive film material on the plastic electrically insulating substrate; the passive fan is electrically connected with the positive electrode of the plasma high voltage electric generator; the absolute value of the high voltage negative electrode voltage of the plasma high voltage electric generator, Above the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, and the plasma generating pole discharges the air. Ionizing air, filling the air with negative ions and causing various pollutants in the air to be negatively charged; The air of negative ions and ozone is electrically insulated by a layer of electrically insulating film laminated on the side adjacent to the plasma, and is electrostatically induced by a positively charged film layer. The collector electrode with a high voltage and negative charge is electrically conductive on the active fan side, and the positive charge is adsorbed. Repels negatively charged contaminants, air is primary cleaned; air flowing through the conductive active fan continues to travel, and positively charged plasma collecting electrode passive fan, violent collision contact discharge, further killing bacterial virus, decomposing organic matter , and the adsorption of various pollutants with negative ions is trapped on the passive fan. After the air is further purified by the positive electrode passive fan, the secondary purified air enters the internal cavity of the blowing ring, and the air with negative ions will blow the ring. The inner cavity wall is induced into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air blowing ring to achieve a third purification of the air; the purified air is diverted Under the action of the surface, it flows along the flow guiding surface, and through the throttling annular air outlet, the throttling is discharged at a high speed. Including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc., for the insertion and assembly, the card is easy to disassemble; when the plasma air purifying fanless electric fan reaches a certain amount of ash, the plasma generating electrode The plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

[Claim 5] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group The features are: The casing is connected to the air ring, and the air ring is closed. The ring hollow ring has a air duct in the hollow ring, and a throttled annular air outlet is arranged on the inner side of the hollow ring; the connection between the root of the air blowing ring and the casing is fixedly connected, or the pitch adjustable movable connection; the lower part of the casing is provided The air inlet of the fan guard is disposed in the air inlet of the fan guard; the collecting electrode fan group is connected to the main shaft of the fan motor and installed inside the casing, and the collecting electrode fan group is disposed in the fan casing, and collecting the electrode fan group main shaft Coaxially arranged with the fan motor, electrically insulated to collect the wind generated by the electrode fan, blown upward through the air duct of the casing, and the air duct of the casing is connected with the air blowing ring; the fan center of the bottom of the casing and the casing of the casing is composed of two fans Connected to the motor to provide wind power is a conductive active fan, the fan that is passively rotated by the wind is a passive fan, two fans are coaxially arranged; two fans are electrically insulated, and both fans are connected with a fan guard, a base, and a motor Electrical insulation of the earth; the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and stator of the fan motor, and the rotor of the fan motor is The shaft is connected with the conductive active fan and the passive fan to form a ventilation fan; or the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, and the rotor main shaft of the fan motor is connected with the fan and the variable wind direction device, the fan The casing and the stator of the motor are connected to the base, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group; the conductive active fan and the passive fan are arranged at the same end, and the conductive active fan is arranged before the passive fan , set in series with the rotor shaft of the motor; passive fan shaft tube, electrically insulated on the rotor shaft of the motor, or passive fan shaft tube, electrically insulated on the main shaft of the conductive active fan, or passive fan through the bearing, positioned on the shaft of the spindle The plasma high-voltage generator is a generator that is connected to the power source and can generate positive and negative high-voltage power; the air inlet of the air inlet side fan shroud is provided with a fan guard, a motor, a fan, and a machine base. Insulated plasma generator pole; plasma generation extremely includes metal needle array electrode, metal a mesh electrode, a wire-shaped, serrated, spur-type or fishbone structure electrode; a plasma generating pole connected to a high-voltage negative electrode of a plasma high-voltage generator; a plasma generating pole integrated with a wind-side fan shield Setting, or split combination setting; The conductive active fan is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive active fan is an electrically conductive active fan, and the conductive active fan is included. Made of a metal material, or an electrically conductive active fan made of an electrically insulating material coated on the surface of a metal material, or a plastic material as a substrate The substrate is coated with a metal or carbon material film layer, or the conductive active fan is made of a composite conductive material, or the conductive active fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made; After the plasma generating pole, before the plasma collecting electrode; the passive fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground; the passive fan is made of a metal material, or The plastic material is used as a substrate, and the metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material, or the passive fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made; The conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is a metal insulating material coated on the surface of the metal material. Manufactured, or made of a plastic material as a substrate, coated with a metal or carbon material film on the substrate, or a conductive mesh Made of composite conductive material, or the conductive grid is made of plastic electrically insulating substrate, made of composite conductive film material; conductive grid is integrated with the fan-side fan shroud, or is set separately; passive fan and plasma are high The positive pole of the piezoelectric generator is electrically connected; the absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, and the wind passes first The fan shroud passes through a plasma generating pole with a high-voltage negative charge, the plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; with a large amount of negative ions and The ozone air enters the conductive active fan, and on the surface of the conductive active fan adjacent to the plasma generating pole, induces a positively charged surface to adsorb negatively charged various pollutants; on the other side of the conductive active fan, Positively charged plasma collecting electrode on the surface of the conductive active fan adjacent to the passive fan, inducing a negatively charged Surface, adsorbing positively charged various pollutants to achieve primary purification of air; air is cleaned by conductive active fan induction collecting electrode, enters plasma collecting electrode passive fan with high voltage positive electricity, air and positively charged plasma Collecting electrode passive fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and trapping various pollutants with negative ions on the passive fan, air entering the conductive grid, adjacent to the positive collector collector side conductive network A negatively charged surface is induced on the gate to further adsorb positively charged contaminants, which are sensed on the back side of the conductive grid A positively charged surface should be taken to further adsorb negatively charged contaminants to achieve a third purification of the air. The air purified by the grid is collected three times through the grid, entering the internal cavity of the blowing ring, and the air with negative ions will The inner wall of the air ring is induced into a surface with a positively charged film layer, further adsorbing various negatively charged contaminants, and is adsorbed on the inner wall of the air ring to realize the fourth purification of the air; the purified air is Under the action of the deflector surface, it flows along the flow guiding surface, and is throttled at a high speed through a throttled annular air outlet; including a base, a casing, a fan motor, a collecting electrode fan, a blowing ring, etc., for inserting and setting Engagement, easy to disassemble; When the plasma air purification fanless electric fan reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored; or the passive fan is Electrostatic induction collecting electrode insulated from fan guard, plasma generator, base, motor, earth, passive fan including metal The material is made of, or the passive fan is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, the metal or carbon material film layer is coated on the substrate, or the passive fan is made of a composite conductive material. The passive fan or the passive fan is made of a composite conductive film material on the plastic electrically insulating substrate; the passive fan and the inlet side fan shroud are integrally provided, or are arranged in a split body; the conductive active fan is formed with the fan shroud and the plasma The plasma collecting electrode of the pole, the base, the motor and the earth is electrically insulated, the conductive active fan is an electrically conductive active fan of the electric conductor, the conductive active fan is electrically insulated from the rotor shaft of the motor; the conductive active fan and the positive electrode of the plasma high voltage electric generator, Electrically connected to the conductive active fan by a brush; the conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is a composite conductive Made of materials, or conductive active fan is made of plastic electrically insulating substrate, made of composite conductive film material; The grid is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground. The conductive grid is made of a metal material, or the conductive grid is made of a metal insulating material coated with an electrically insulating material. Forming, or using a plastic material as a substrate, coating a metal or carbon material film on the substrate, or the conductive mesh is made of a composite conductive material, or the conductive mesh is a plastic electrically insulating substrate, and the composite conductive Made of a film material; the conductive grid is integrated with the wind side fan shroud, or a separate combination; the absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is high The absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through the plasma generating pole with high voltage and negative electricity, and the plasma generating pole discharges to the air, ionizing Air, which fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone enters the passive fan and is induced on the surface of the passive fan adjacent to the plasma. a positively charged surface that absorbs negatively charged contaminants; on the other side of the passive fan, a negatively charged surface is induced on the surface of the passive fan adjacent to the positively charged plasma collecting electrode conductive active fan Adsorbing positively charged various pollutants to achieve primary purification of air; air is purified by passive fan induction collecting electrode, enters plasma-collecting electrode with high-voltage positive electricity, conductive active fan, air and positively charged plasma collection Electrode conductive active fan, violent collision contact discharge, killing bacterial virus, decomposing organic And adsorbing various pollutants with negative ions on the conductive active fan, the air enters the conductive grid, and induces a negatively charged surface on the adjacent positive collector-side conductive grid, further adsorbing positively charged Various contaminants induce a positively charged surface on the back side of the conductive grid, further adsorbing various negatively charged contaminants, achieving a third purification of the air, collecting the three purified air through the grid, and entering The inner cavity of the air ring, the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed on the inner wall of the air ring. The fourth purification of the air is realized; the purified air flows along the flow guiding surface under the action of the diversion surface, and is throttled at a high speed through the throttle annular outlet; including the base, the casing, the fan motor, and the collection Electrode fan, air ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification fan-free electric fan reaches a certain amount of ash, the plasma The electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring are cleaned and restored.

[Claim 6] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group The utility model is characterized in that: the casing is connected with the air blowing ring in the same body, the air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet; the connection between the root of the air blowing ring and the casing is Fixed connection, or adjustable pitch connection; The lower part of the shell is provided with a fan guard air inlet, and the plasma generating pole is arranged in the air inlet of the fan guard; the collecting electrode fan group is connected with the main shaft of the fan motor and installed inside the casing, and the collecting electrode fan group is placed in the fan casing, and collecting The electrode fan set main shaft is coaxially arranged with the fan motor, electrically insulated to collect the wind generated by the electrode fan, blown upward through the casing air duct, and the casing air duct is connected with the air blowing ring; the bottom of the casing bottom and the outer casing shaft seat fan group are The two fans are composed of a fan that is connected to the motor to provide wind power. The fan that is passively rotated by the wind is a passive fan, and the two fans are coaxially arranged. The two fans are electrically insulated, and both fans are connected to the fan guard. The stator, the motor and the earth are electrically insulated; the stator of the fan motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan; or a fan The stator of the motor is connected to the casing, the fan guard is mounted on the casing and the stator of the fan motor, and the fan motor is turned The main shaft is connected with the fan and the variable wind direction device, and the casing and the stator of the fan motor are connected with the base. The rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group; the conductive active fan and the passive fan are at the same end. Arrangement, the conductive active fan is arranged in front of the passive fan, and is arranged in series with the rotor shaft of the motor; the passive fan shaft tube is electrically insulated on the rotor shaft of the motor, or the passive fan shaft tube, and the electrical insulation is set on the main shaft of the conductive active fan, or The passive fan passes through the bearing and is positioned at the shaft end of the main shaft; the plasma high-voltage generator is connected to the power source to generate a positive and negative high-voltage generator; the air inlet side of the inlet side fan shroud is provided with a fan a plasma generating electrode electrically insulated from the shield, the motor, the fan, and the base; the plasma generation includes a metal needle array electrode, a wire mesh electrode, a wire, a sawtooth type, a thorn type or a fish bone type structure electrode; a plasma generating pole connected to a high voltage negative electrode of a plasma high voltage generator; a plasma generating pole The air inlet side fan guard is integrally provided, or the split combination is provided; the passive fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground; the passive fan is made of a metal material Or using a plastic material as a substrate, coated with a metal or carbon material film on the substrate, or a passive fan made of a composite conductive material, or a passive fan made of a plastic electrically insulating substrate, made of a composite conductive film material. The passive fan is electrically connected to the positive electrode of the plasma high-voltage generator; the conductive active fan is provided with the fan guard, the plasma generator, the base, the motor, The electrically conductive plasma collecting electrode, the conductive active fan is an electrically conductive active fan, the conductive active fan is electrically insulated from the rotor shaft of the motor; the conductive active fan and the plasma high voltage generator negative pole, through the brush and the conductive active fan Electrical connection; the conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material, or is electrically conductive. The fan is made of a composite conductive film material on a plastic electrically insulating substrate; the conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground, and the conductive mesh is made of a metal material. The conductive grid or the conductive grid is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material film layer is coated on the substrate, or the conductive grid is a composite conductive material. Made of, or conductive grid is made of plastic electrically insulating substrate, made of composite conductive film material; conductive grid The outlet side fan guard is integrally provided, or the split combination is set; the absolute value of the high voltage negative electrode voltage of the plasma high voltage generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan When the wind begins to rotate, the wind passes through the fan guard and then passes through the plasma generating pole with high voltage and negative electricity. The plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negative. Charge; air with a large amount of negative ions and ozone, passively fan-assisted by a plasma collector electrode with high-voltage positive charge, air and positively charged plasma collection electrode passive fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter , and the adsorption of various pollutants with negative ions is trapped on the passive fan, and the air is purified first; after the air is cleaned by the passive electrode of the positive electrode, the air enters the conductive active fan, and the air and the negatively charged plasma collecting electrode conduct the active fan. Violent contact, killing bacterial viruses, decomposing organic matter The adsorption of various pollutants with positive ions is trapped on the fins of the conductive active fan, and the air enters the conductive grid, and a positively charged surface is induced on the adjacent negative collector-side conductive grid, further adsorbing negatively charged Various contaminants induce a negatively charged surface on the back side of the conductive grid, further adsorbing positively charged various pollutants, achieving a third purification of the air, and collecting the three purified air through the grid. Entering the inner cavity of the air ring, the air with negative ions induces the inner wall of the air ring into a surface with a positively charged film layer, further adsorbing various negatively charged Contaminants, which are adsorbed on the inner wall of the air ring to achieve the fourth purification of the air; the purified air flows along the flow guiding surface under the action of the diversion surface, and passes through the throttling annular air outlet. High-speed discharge of throttling; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when the plasma air purification fan-free electric fan reaches a certain amount of ash, Cleaning and restoring the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring; or the conductive active fan is plasma collecting electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground The conductive active fan is an electrically conductive active fan of the electric conductor, and the conductive active fan is electrically insulated from the rotor shaft of the motor; the conductive active fan and the positive electrode of the plasma high voltage electric generator are electrically connected with the conductive active fan through a brush; the conductive active fan is Manufactured from a metal material, or a plastic material as a substrate, coated with metal or carbon on the substrate The film is made of, or the conductive active fan is made of a composite conductive material, or the conductive active fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made; the conductive active fan and the plasma high voltage electric generator positive electrode pass the brush Electrically connected to the conductive active fan; the passive fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground; the passive fan is made of a metal material or a plastic material as a substrate , the substrate is coated with a metal or carbon material film layer, or the passive fan is made of a composite conductive material; the passive fan is electrically connected with the negative electrode of the plasma high voltage electric generator; the conductive mesh is connected with the fan shield and the plasma An electrostatic induction collecting electrode having a pole, a base, a motor, and an earth electrically insulated, the conductive grid is made of a metal material, or the conductive grid is made of a metal insulating material coated with an electrically insulating material, or a plastic material is used as a substrate. The substrate is coated with a metal or carbon material film layer, or the conductive mesh grid is made of a composite conductive material, or is electrically conductive. The grid is made of a plastic electrically insulating substrate, and is made of a composite conductive film material; the conductive grid is integrally provided with the wind side fan shroud, or is arranged in a separate body; the absolute value of the high voltage negative electrode voltage of the plasma high voltage electric generator, Above the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through a plasma generating pole with a high voltage negative voltage, and the plasma generating pole discharges the air. Ionizing air, filling the air with negative ions, and causing various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone, with high voltage Positively charged collector electrode conductive active fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and trapping various pollutants with negative ions on the conductive active fan, the air is primary purified; air is conducting through the positive electrode After the active fan is cleaned, the air flowing through the conductive active fan continues to travel, and the negatively charged plasma collecting electrode passive fan, contact discharge, further kills the bacterial virus, decomposes the organic matter, and adsorbs and traps various pollutants with positive ions. On the passive fan, air enters the conductive grid, and a positively charged surface is induced on the adjacent negative collector-side conductive grid to further adsorb negatively charged contaminants, and the strip is induced on the back surface of the conductive grid. The negatively charged surface further adsorbs the positively charged various pollutants to achieve the third purification of the air. The air purified by the grid is collected three times through the grid, enters the internal cavity of the blowing ring, and the air with negative ions will blow the ring. The inner wall of the chamber is induced into a surface with a positively charged film layer, and further adsorbed negatively. Various pollutants are adsorbed on the inner wall of the air ring to realize the fourth purification of the air; the purified air flows along the flow guiding surface under the action of the guiding surface, and is discharged through the throttle Air outlet, throttling high-speed discharge; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when plasma air purification leafless electric fan reaches a certain amount of ash吋, cleaning and reducing the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the inner ring of the blowing ring.

[Claim 7] A multi-effect plasma air purification bladeless electric fan, comprising a fan base, a casing, a fan motor, a blowing ring, a shaking head device, a plasma high voltage electric generator, a plasma generating pole, a collecting electrode fan group The utility model is characterized in that: the casing is connected with the air blowing ring in the same body, the air blowing ring is a closed loop hollow ring, the hollow ring is a air duct, and the inner side of the hollow ring is provided with a throttle annular air outlet; the connection between the root of the air blowing ring and the casing is Fixed connection, or adjustable pitch connection; the lower part of the casing is provided with a fan guard air inlet, and the plasma generating pole is disposed in the air inlet of the fan guard; the collecting electrode fan group is connected with the main shaft of the fan motor and installed inside the casing, The collecting electrode fan group is placed in the fan casing, and the collecting electrode fan group main shaft is coaxially arranged with the fan motor, and the wind generated by the collecting electrode fan is electrically insulated, and is blown upward through the casing air passage, and the casing air duct is connected with the air blowing ring; The fan base of the bottom of the casing and the casing of the casing is composed of two fans, and the motor is connected to the motor to provide a wind-driven active fan. Passive passive rotating fan Fan, two fans are coaxially arranged; two fans are electrically insulated, and both fans are electrically insulated from the fan guard, the base, the motor, and the ground; the stator of the fan motor is connected to the casing, and the fan guard is mounted on the fan. On the casing and stator of the motor, the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a ventilation fan; or the stator of the fan motor is connected with the casing, and the fan guard is mounted on the casing and the stator of the fan motor, the fan motor The rotor main shaft is connected with the fan and the variable wind direction device, the casing and the stator of the fan motor are connected with the base, and the rotor main shaft of the fan motor is connected with the conductive active fan and the passive fan to form a double fan electric fan group; the conductive active fan and the passive fan At the same end, the conductive active fan is placed in front of the passive fan and arranged in series with the motor rotor shaft; the passive fan shaft tube is electrically insulated on the motor rotor shaft, or the passive fan shaft tube, and the electrical insulation is set on the main shaft of the conductive active fan. , or passive fan through the bearing, positioned at the shaft end of the spindle; plasma high voltage electric production The device is connected to the power source and can generate a positive and negative high voltage generator; the inner air inlet of the air inlet side fan shroud is provided with a plasma generating pole electrically insulated from the fan guard, the motor, the fan and the base; The plasma generation includes a metal needle array electrode, a wire mesh electrode, a wire, a zigzag, a thorn or a fishbone structure electrode; a plasma generating pole connected to a high voltage negative electrode of a plasma high voltage generator The plasma generating pole is integrally provided with the inlet side fan shroud, or is arranged in a split body; the one side passive fan is a plasma collecting electrode electrically insulated from the fan shroud, the plasma generating pole, the base, the motor, and the ground; The passive fan on one side is made of a composite electric insulating film layer on one side of the metal material surface, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on one side of the substrate, or a passive fan on one side is used. A composite electrically insulating film layer is formed on one side of the composite conductive material; one side passive fan is electrically insulated from the inlet side fan guard, or one side passive fan and the inlet side wind The protective cover is electrically insulated and separated; the passive fan on one side is combined with the plasma generating pole to form an electrically insulating film layer, and the passive fan on one side is electrically connected to the negative electrode of the plasma high voltage generator, through the electrically insulating film layer, The positive electrode layer is electrostatically induced on the adjacent side of the plasma; the conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground, and the conductive active fan is electrically conductive and active. The fan, the conductive active fan is electrically insulated from the rotor shaft of the motor; the conductive active fan and the positive electrode of the plasma high voltage generator are powered The brush is electrically connected to the conductive active fan; the conductive active fan is made of a metal material, or a plastic material is used as a substrate, and a metal or carbon material film layer is coated on the substrate, or the conductive active fan is made of a composite conductive material. The conductive active fan is made of a composite conductive film material on a plastic electrically insulating substrate; the conductive grid is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground, and the conductive net The grid is made of a metal material, or the conductive grid is made of a metal insulating material coated on the surface of the metal material, or the plastic material is used as a substrate, and the metal or carbon material film layer is coated on the substrate, or the conductive mesh The grid is made of a composite conductive material, or the conductive grid is made of a plastic electrically insulating substrate, and is made of a composite conductive film material; the conductive grid is integrally provided with the fan side shield, or a split combination; plasma high voltage The absolute value of the high voltage negative electrode voltage of the generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is activated, the conductive active fan is When it starts to rotate, the wind passes through the fan guard and then passes through the plasma generating pole with high voltage and negative electricity. The plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged. Air with a large amount of negative ions and ozone, a passive fan electrical insulating layer laminated on the side adjacent to the plasma generating side, electrostatically induced positively charged film layer, passive side with high voltage negative collector electrode The conductive side of the fan, adsorbs positively charged contaminants, repels negatively charged contaminants, and the air is primary cleaned; air flowing through the passive fan and positively charged plasma collecting electrode conductive active fan, violent collision contact discharge Killing bacterial viruses, decomposing organic matter, and trapping various pollutants with negative ions on the conductive active fan, the air enters the conductive grid, and induces a negative charge on the adjacent positive collector-side conductive grid. a surface that further adsorbs positively charged contaminants and induces a positive charge on the back side of the conductive grid Surface, further adsorbing negatively charged various pollutants, achieving the third purification of air, collecting the air purified by the grid three times, entering the internal cavity of the blowing ring, and the air with negative ions will blow the inner wall of the ring Inductively forming a surface with a positively charged film layer, further adsorbing various negatively charged contaminants, and adsorbing on the inner wall of the air blowing ring to achieve the fourth purification of the air; the purified air is under the action of the diversion surface , flowing along the diversion surface, through the throttle annular outlet, throttling and high-speed discharge; including the base, the casing, the fan motor, the collecting electrode fan, the blowing ring, etc. For inserting and fitting, easy to disassemble; when the plasma air purifying fanless electric fan reaches a certain amount of ash, cleaning the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the blowing ring cavity The conductive active fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground; the conductive active fan is a side conductive active fan, and one side of the conductive active fan and the motor rotor The rotating shaft is electrically insulated; the one side conductive active fan is made of a composite electric insulating film layer on one side of the metal material, or the conductive active fan is made of a composite electric insulating film layer on one side of the composite conductive material; the conductive active fan and the plasma occur On the extremely adjacent side, the electric insulating film layer is composited, and the conductive active fan is electrically connected with the negative electrode of the plasma high-voltage electric generator, and the positive insulating film is electrostatically induced on the adjacent side of the plasma generating pole through the electrically insulating film layer of the conductive active fan. Layer; conductive active fan and plasma high voltage generator negative, through brush and conductive main The movable fan is electrically connected; the passive fan is a plasma collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground; the passive fan is made of a metal material or a plastic material as a substrate, The substrate is coated with a metal or carbon material film layer, or the passive fan is made of a composite conductive material, or the passive fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made; the passive fan and the plasma high voltage electricity are generated. The positive electrode is electrically connected; the conductive mesh is an electrostatic induction collecting electrode electrically insulated from the fan guard, the plasma generating pole, the base, the motor, and the ground, the conductive mesh is made of a metal material, or the conductive mesh is a metal material surface It is made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or the conductive grid is made of composite conductive material, or the conductive grid is plastic electrically insulated. On the substrate, made of a composite conductive film material; the conductive grid is integrated with the wind side fan shroud, or a split combination; plasma The absolute value of the high voltage negative electrode voltage of the piezoelectric generator is higher than the absolute value of the high voltage positive electrode voltage; when the conductive active fan is turned on, the conductive active fan starts to rotate, the wind first passes through the fan guard, and then passes through the high voltage negative voltage The plasma is generated, the plasma generating pole discharges the air, ionizes the air, fills the air with negative ions, and causes various pollutants in the air to also be negatively charged; air with a large amount of negative ions and ozone is generated with the plasma Adjacent side composite electrically insulating film layer, electrostatically induced positively charged film layer adsorption, high voltage negatively charged collector electrode conductive active fan Side, adsorbing positively charged contaminants, repelling negatively charged contaminants, air is primary cleaned; air flowing through the conductive active fan continues to travel, and positively charged plasma collecting electrode passive fan, violent collision contact discharge, Further killing the bacterial virus, decomposing the organic matter, and trapping the various pollutants with negative ions on the passive fan, the air enters the conductive grid, and induces a negatively charged surface on the adjacent positive collector-side conductive grid. Further adsorbing positively charged various pollutants, inducing a positively charged surface on the back surface of the conductive grid, further adsorbing various negatively charged contaminants, achieving a third purification of the air, collecting electrodes through the grid The air purified three times enters the inner cavity of the air ring, and the air with negative ions senses the inner wall of the air ring into a surface with a positively charged film layer, further adsorbs various negatively charged contaminants, and is adsorbed in the air. On the inner wall of the ring, the fourth purification of the air is achieved; the purified air is changed along the diversion surface under the action of the diversion surface To flow, through the throttle annular outlet, throttling and high-speed discharge; including base, casing, fan motor, collecting electrode fan, blowing ring, etc., for plug-in, set-fit, easy to disassemble; when plasma air purification The leaf electric fan reaches a certain amount of ash, and the plasma generating electrode, the plasma collecting electrode, the collecting electrode fan, and the air ring of the blowing ring are cleaned and restored.

 [Claim 8] A multi-effect plasma air purification bladeless electric fan according to claim 1, 2, 3, 4, 5, 6 or 7, characterized in that: the motor rotor shaft and the fan spindle are connected to the end , for the permanent magnet toothed disc, or the ferromagnetic material of the toothed disc, the fan main shaft connecting end, the toothed disc corresponding to the permanent magnet toothed disc of the motor rotor shaft, the fan main shaft connecting end a gingival disc, a gingival disc made of ferromagnetic material, or a gingival disc made of a permanent magnet material; a permanent magnet toothed disc of the rotor shaft of the motor and a permanent magnet toothed disc of the fan spindle connecting end On the joint surface, a layer of electrically insulating material is provided.

[Claim 9] A multi-effect plasma air purification bladeless electric fan according to claim 1, 2, 3, 4, 5, 6 or 7, characterized in that: the plasma collecting electrode fan, and the plasma are high The brush connected to the positive electrode of the piezoelectric generator is made of graphite material, the brush is passed through a spring, or a ferromagnetic material is arranged in the brush, and is electrically connected to the fan main shaft by suction; the positive and negative ion generator is installed in the base The positive and negative ion generator is provided with a metal shield and grounded; the motor is wrapped in the fan guard, and the fan side of the fan is fixed to the stator casing of the motor, the fan The outer edge of the air outlet side fan shroud is connected to the outer edge of the fan inlet side fan shroud by the buckle; the stator core of the motor is grounded.

[Claim 10] A multi-effect plasma air purification bladeless electric fan according to claim 1, 2, 3, 4, 5, 6 or 7, characterized in that: the moving head device is driven by a fan motor, or The fan motor is driven by a separate moving motor, and the fan is driven by a conventional shifting device and a clutch device; the fan includes an axial fan, a cross-flow fan, and a centrifugal fan; the fan is a plastic electrically insulating substrate, and the composite conductive film thereon The material is an evaporated metal film or a composite carbon material film; the fan shroud is made of plastic, made of metal, and the metal shield is grounded; the wind side fan shroud is provided with ferromagnetic material. Or a buckle made of a permanent magnet, on the plasma generating pole, a ferromagnetic material corresponding to the buckle on the inlet side fan guard, or a buckle made of a permanent magnet, a plasma generating pole and an inlet side Fan guard, through the daughter-card snap-in split combination; the fan is equipped with a button or remote control including total shut-off, wind regulation, wind direction, fixed, negative ion generator The remote control includes a mobile phone that is remotely controlled via a wireless network.