WO2017152696A1

WO2017152696A1 - Thermal conduction convection ventilation electrostatic induction dust suction multi-functional composite glass curtain wall

Info

Publication number: WO2017152696A1
Application number: PCT/CN2016/111989
Authority: WO
Inventors: 徐宝安
Original assignee: 淄博环能海臣环保技术服务有限公司; 徐宝安
Priority date: 2016-03-06
Filing date: 2016-12-25
Publication date: 2017-09-14
Also published as: CN105780985B; CN105780985A

Abstract

A thermal conduction convection ventilation electrostatic induction dust suction multi-functional composite glass curtain wall, comprising a window frame (32), a glass curtain wall, and a ventilation opening, the glass curtain wall comprising indoor side glass (10), a composite thermal conductive electrostatic induction glass (11) sandwiching a conductive adhesive film layer (25), and an outdoor side glass (26), a sandwich layer having a dual-layer ventilation duct separated in parallel being enveloped by means of separate supporting heads arranged at both ends, and the top and bottom ends of the glass curtain wall being provided with an air ventilation window. The present glass curtain wall has the functions of dust suction, air purification, and lighting and ventilation.

Description

Heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall

[0001] The present invention relates to a heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, and more particularly to a functional glass curtain wall that is highly efficient and energy-saving, and also relates to a plasma air purification device.

Background technique

[0002] Due to the temperature difference between indoors and outdoors, and the need for fresh oxygen-rich air, forced ventilation must be performed indoors and outdoors. The air that has not been purified, such as indoor purification, is half the effort. Therefore, the air that has to be exchanged from the source is used again, the efficiency is the highest, the most beneficial for health, and the lowest cost, but there is no such technology. If you want to make this facility have both ventilation function, lighting function, sound insulation function, air purification function, and energy saving function, this product is still blank.

technical problem

[0003] Due to the temperature difference between indoors and outdoors, and the need for fresh oxygen-rich air, forced ventilation must be performed indoors and outdoors. The air that has not been purified, such as indoor purification, is half the effort.

Problem solution

Technical solution

[0004] In view of the deficiencies of the prior art, the present invention aims to provide a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, which can not only effectively remove solid pollutants and gaseous pollutants in the air, but also can be used as lighting. Soundproof glass curtain wall.

[0005] The technical solution adopted by the present invention to solve the technical problem is: A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, including a window frame, a glass curtain wall, and a vent. A glass curtain wall of a heat-conducting convective-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, which is a single-layer or composite solid single-layer or hollow indoor side glass, and a composite heat-conductive electrostatic induction interlayer sandwiched with a conductive adhesive film layer Glass, at least single-layer or composite solid single-layer or hollow outdoor side glass, supported by the heads provided at both ends, and the package is arranged in parallel and arranged with two layers of ventilation duct interlayers, the upper and lower ends of the glass curtain wall, It has a through-window window and three parallel-spaced glass, which are packaged in one window to form a composite glass. Curtain wall. The end of the glass curtain wall, or the throughwind window provided on the lower end, or a two-way fan for intake and exhaust. The high voltage positive electrode of the positive electric high voltage generator is electrically connected to the conductive adhesive film layer sandwiched in the glass in the composite heat conduction electrostatic induction interlayer. When the outdoor air enters the outside air inlet and heat exchange air passage through the outer upper and inner lower air inlet windows, the dust in the outdoor air is combined with the heat conduction static induction glass, and the high voltage positive electric induction carried by the sandwiched conductive film is introduced on the outer side. On the surface of the composite heat conduction static induction glass of the wind heat exchange duct, a negative electric layer is induced, so that the dust in the air flowing through the outer air inlet heat exchange duct is induced into positively charged dust, and the surface of the composite heat conduction static induction glass is Adsorption makes the air that enters the room outdoors clean. On the left and right sides of the glass curtain wall, there is a roulette chain transmission consisting of a driving reel, a passive roulette, and a scraper drive chain. The chain of the roulette chain transmission is equidistantly symmetrically connected. The two-wheeled roulette chain transmission device is divided into a pair of air passage cleaning scrapers disposed in the two-layer air passage interlayer to form a ventilation passage cleaning assembly. The upper end of the glass curtain wall is connected to the wind window, and is provided with a cleaning component including a water pipe, a valve, a washing water pipe, and a washing water nozzle. Or cleaning components including water pipes, water storage tanks, valves, booster pumps, washing water pipes, and washing water nozzles. The upper end of the glass curtain wall is connected to the wind window, and is provided with an upper exhaust air window ventilation module assembly including an upper communication damper, an inner upper inlet window, an upper inlet air passage, an inner upper exhaust window, and an upper exhaust duct. The lower end of the glass curtain wall penetrates the wind window, and is provided with a lower exhaust air window ventilation module including a lower communication damper, an inner lower inlet window, a lower inlet air duct, an inner lower exhaust window, and a lower exhaust duct. Component. At the lower end of the composite glass curtain wall, there is a cleaning sewage discharge device. When the dust on both sides of the composite heat conduction static induction glass reaches the set amount, the cleaning component device is sprayed on the glass on both sides of the two ventilation air passages, and the cleaning blade is cleaned by the air passage of the cleaning assembly. The glass on both sides of the air duct is repeatedly scraped and ash removed. The scraped gray water is collected and discharged into the cleaning sewage discharge device at the bottom of the composite glass curtain wall.

In summer, the indoor temperature is low, so when the indoor cold air is heated, it will naturally rise. The outdoor temperature is high, and it will naturally sink when the outdoor hot air cools. In the summer, the upper windshield is switched to the outer exhaust heat exchange air passage, and the upper inner air inlet window and the inner upper air exhaust window are closed, and the upper outer wind inlet window and the outer upper air exhaust window are linked. The lower windshield is switched to the inner exhaust heat exchange duct, and the lower outer exhaust window and the outer lower air inlet window are closed, and the lower inner exhaust window and the inner lower air inlet window are linked. The indoor cold air passes through the inner lower exhaust window and enters the inner exhaust heat exchange air passage. Through the composite heat conduction static induction glass, the indoor discharge cold air is heated to raise the temperature, and the indoor discharge cold air temperature rises. High, naturally rising, discharged through the upper upper exhaust window. The outdoor hot air enters the outer exhaust heat exchange air passage through the outer upper air inlet window, and the composite heat conduction static induction glass cools the outdoor hot air to lower the temperature, and the outdoor hot air temperature decreases, naturally sinks, through The inner lower inlet wind window enters the room to realize natural ventilation indoors and outdoors.

[0007] In winter, the indoor temperature is high, and therefore, the indoor hot air naturally sinks when it is cooled. The outdoor temperature is low, and it will naturally rise when the outdoor cold air is heated. In the winter, the upper windshield is switched to the inner exhaust heat exchange duct, and the upper air inlet window and the inner upper air exhaust window of the upper end of the joint are connected, and the upper outer wind inlet window and the outer upper air exhaust window are closed. Switch the windshield to the outside exhaust heat exchange air duct, and link the lower side outdoor air inlet window and the outer lower air exhaust window to the lower end inner lower exhaust window and the inner lower air inlet window. The indoor hot air is passed through the inner exhaust window, enters the inner intake and exhaust heat exchange air passage, and the composite heat conduction static induction glass cools the indoor exhaust hot air, causes the temperature to drop, the indoor discharge hot air temperature decreases, and naturally sinks. , discharged through the outer lower exhaust window. The outdoor cold air enters the outer inlet and outlet heat exchange air passage through the outer side into the wind window. Through the composite heat conduction static induction glass, the outdoor enters the cold air to raise the temperature, and the temperature of the outdoor cold air rises. Naturally rises, enters the room through the inner upper air inlet window, and realizes natural ventilation indoors and outdoors.

[0008] In the spring and autumn, the indoor and outdoor temperature is measured by the temperature sensing device, and the upper and lower switching windshield are automatically switched by the servo device to realize automatic interlocking and automatic ventilation of the intake and exhaust dampers. Or through the end of the glass curtain wall, or the lower end through the wind window, the two-way fan with intake and exhaust is forced to ventilate.

[0009] A heat-conducting convective-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, wherein a glass generator electrode and a plasma collector electrical conductor folding plate set are arranged in the upper and lower inlet window components of the glass curtain wall. Or an electric conductor fan, a plasma high voltage generator constitutes a plasma air purification combination module.

[0010] The plasma high voltage generator is a generator capable of generating positive and negative high voltage electricity, and the plasma high voltage generator is disposed in the casing of the combined module. The plasma generating pole electrically insulated from the earth is composed of a metal needle array electrode, a wire mesh electrode, a wire, a zigzag type, a burr type or a fishbone type structure electrode. The plasma is generated and connected to the high voltage negative electrode. The plasma generating pole is integrally provided with the combined module housing, or in a separate combination.

[0011] The plasma collector pole electrical conductor flap set, or the electrical conductor fan, is an electrical conductor flap set or an electrical conductor fan electrically insulated from the plasma generating pole, the combined module housing, the ground. Plasma collector pole electrical conductor fold The plate set, or the electric conductor fan, is electrically connected to the positive electrode of the plasma high voltage generator by a brush. The high voltage negative electrode electrically connected to the plasma has an absolute value higher than the absolute value of the voltage of the high voltage positive electrode electrically connected to the plasma collector electrical conductor folded plate group or the electrical conductor fan. The plasma collecting pole electrical conductor folding plate set, or the electric conductor fan is made of a metal material, or a plastic material as a substrate, coated with a metal or carbon material film layer on the substrate, or plasma collector conductance The body folding plate group, or the electric conductor fan is made of a composite conductive material, or a plasma collecting pole electrical conductor folding plate group, or the electric conductor fan is a plastic electrically insulating substrate, and is made of a composite conductive film material. An electric induction static induction grid is arranged in the casing of the air outlet side combination module of the modular module casing. The electrical induction static induction grid is electrically insulated from the outlet side combination module housing, or the electrical conductor electrostatic induction grid and the outlet side combination module housing are electrically insulated and separated.

[0012] When the 等离子体等离子体 plasma air purification combination module hurricane first passes through the inlet side of the combined module casing, and then passes through a plasma generating pole with a high voltage negative charge, 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, passing through a plasma collection electrode fan with high voltage positive charge, negatively charged contaminants in the air, and positively charged plasma collector poles, or electrical conductor fans, violent Collision contact discharge, killing bacterial virus, decomposing organic matter, and trapping various pollutants with negative ions on the fins of the plasma collecting electrode fan, and the air is primary purified. The airflow containing the charged contaminants flows forward, passing through the electrostatic induction grid of the electrical conductor in the casing of the air outlet side combination module of the combined module casing. The windward surface induces a negatively charged film layer, which adsorbs a positive charge, and the leeward surface electrostatically induces a positively charged film layer, adsorbing a negative charge to achieve a second purification of the air and discharging it.

[0013] When the plasma air purification module reaches a certain amount of ash, the plasma generator, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[0014] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, the inner and lower inlet window components of the glass curtain wall are sequentially provided with a plasma generating pole and electrically insulated from the plasma collector active fan. Fan motor, plasma high voltage generator, composed of plasma air purification combination module

[0015] 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 inner air inlet of the air intake side combination module housing is electrically insulated from the combined module casing, the motor, the fan, and the base The plasma is generated. 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. The plasma generating pole is integrally arranged with the inlet side combined module casing, or is arranged in a split combination.

[0016] The fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground. The fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor. The fan and the positive electrode of the plasma high-voltage generator are electrically connected to the fan through a brush. 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 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 fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate. Made of a composite conductive film material.

[0017] The conductive grid is an electrostatic induction collecting electrode electrically insulated from the combined module casing, 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 electric insulating material, or is 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 insulating base. The material is made of a composite conductive film material. The conductive grid is electrically insulated from the casing of the air outlet side combination module, or the conductive grid and the air outlet side combination module are electrically insulated and separated.

[0018] The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 Various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone, sucked by a high-voltage positively charged plasma collecting electrode fan, air and a positively charged plasma collecting electrode fan, violent collision contact discharge, killing bacterial viruses, decomposing organic matter, and bringing The adsorption of various contaminants of negative ions is trapped on the fins of the fan, and the air is purified first.

[0019] After the air is pressurized by the active collector fan with the high-voltage positively charged plasma, the air enters the conductive grid, and a negatively charged surface is induced on the conductive grid to further adsorb positively charged various pollutants. , to achieve the second purification of air.

[0020] Or the conductive grid is a plasma collecting electrode electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The conductive grid 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 grid is made of a composite conductive material, or the conductive grid is plastic. The electrically insulating substrate is made of a composite conductive film material. Conductive grid and air inlet side combination The module housing is electrically insulated and integrated, or the conductive grid is combined with the air inlet side combination module housing. The conductive grid 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.

[0021] The fan is an electrostatic induction collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, the earth, the fan is an electric conductor fan, the fan is made of a metal material, or the fan is a metal material surface Made of electrically insulating material, or made of plastic material as substrate, coated with metal or carbon material film on the substrate, or fan made of composite conductive material, or fan for plastic electrically insulating substrate, composite Made of conductive film material.

[0022] The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 Various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone is adsorbed by a high-voltage positively charged plasma collecting electrode conductive grid, air and a positively charged plasma collecting electrode conductive grid, violent collision contact discharge, killing bacterial virus, decomposing organic matter , and the adsorption of various pollutants with negative ions is trapped on the conductive grid, and the air is purified first. After being cleaned by the positive electrode conductive grid, the air enters the conductive fan, induces a negatively charged surface on the conductive fan, and further adsorbs positively charged various pollutants to achieve a second purification of the air.

[0023] discharged through the grille vent. When the plasma air purification module reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[0024] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, the inner and lower inlet window components of the glass curtain wall are sequentially provided with a plasma generating pole, a plasma collecting grid, and a passive dust collecting The electric conductor fan and the plasma high voltage generator constitute a plasma air purification combination module. The plasma high voltage generator is a generator capable of generating positive and negative high voltage electricity, and the plasma high voltage generator is disposed in the casing of the combined module. The plasma generating pole electrically insulated from the earth is a metal needle array electrode, a metal wire mesh electrode, a wire, a zigzag type, a thorn type or a fishbone type structure electrode. The plasma generating pole is connected to the high voltage negative electrode. The plasma generating pole is integrally provided with the combined module housing, or is provided in a separate combination.

[0025] The fan is electrostatically insulated from the combined module housing, the plasma generator, the base, the motor, and the ground. The electrode should be collected. The fan is an electric conductor fan. The fan is made of a metal material, or the fan is made of an electrically 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 is coated on the substrate. The film is made of, or the fan is made of a composite conductive material, or the fan is made of a plastic electrically insulating substrate and made of a composite conductive film material. The conductive fan is disposed after the plasma generating electrode and before the plasma collecting electrode.

[0026] The conductive grid is a plasma collecting electrode that is electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The conductive grid 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 grid is made of a composite conductive material, or the conductive grid is plastic. The electrically insulating substrate is made of a composite conductive film material. The conductive grid is electrically insulated from the wind-side combined module housing, or the conductive grid is combined with the air-side combination module housing. The conductive grid 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.

[0027] The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 Various pollutants in the air are also negatively charged.

[0028] The air with a large amount of negative ions and ozone enters the conductive fan, and on the surface of the conductive fan adjacent to the plasma generating pole, a positively charged surface is induced to adsorb various negatively charged contaminants. On the other side of the conductive fan, on the surface of the conductive fan adjacent to the positively-charged plasma collecting electrode conductive grid, a negatively charged surface is induced to adsorb positively charged various pollutants to achieve primary purification of the air. .

[0029] After the air is purified by the conductive fan induction collecting electrode, the plasma enters the conductive grid of the plasma collecting electrode with high voltage positive electricity, the air and the positively charged plasma collecting electrode conductive grid, violent collision contact discharge, killing the bacterial virus The organic matter is decomposed, and various pollutants with negative ions are adsorbed and trapped on the conductive grid to further purify the secondary air.

[0030] or the conductive grid is an electrostatic induction collecting electrode electrically insulated from the combined module casing, 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. The substrate is made of a composite conductive film material. The conductive grid is integrated with the casing of the air outlet side module, or Body combination settings.

[0031] The fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground. The fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor. The fan and the positive electrode of the plasma high-voltage generator are electrically connected to the fan through a brush. The 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 fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate. 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.

[0032] The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 Various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone enters the conductive grid, and on the surface of the conductive grid adjacent to the plasma generating pole, a positively charged surface is induced to adsorb various negatively charged contaminants. On the other side of the conductive grid, on the surface of the conductive grid adjacent to the positively charged plasma collecting electrode conductive fan, a negatively charged surface is induced to adsorb positively charged various pollutants to achieve air Primary purification. After the air is purified by the conductive grid-inductive collecting electrode, it enters the plasma collecting electrode conductive fan with high-voltage positive electricity, air and positively charged plasma collecting electrode conductive fan, violent collision contact discharge, killing bacterial virus, decomposing organic matter, The adsorption of various pollutants with negative ions is trapped on the conductive fan to further purify the secondary air.

[0033] discharged through the grille vent. When the plasma air purification module reaches a certain amount of ash, the plasma generating electrode, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[0034] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the inner upper and lower inlet window components of the glass curtain wall are sequentially provided with a plasma generating pole, a plasma grid collecting electrode, and a fan motor The connected active dust electric conductor fan and the plasma high voltage generator constitute a plasma air purification combination module.

[0035] 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. A plasma generator pole electrically insulated from the combined module casing, the motor, the fan, and the base is disposed at the inner air inlet of the air inlet side combination module casing. 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. Plasma generating pole, with high voltage negative electrode Connected. The plasma generating pole is integrally arranged with the inlet side combined module casing, or is arranged in a split combination. The conductive grid is a plasma collecting electrode electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The conductive grid 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 grid is made of a composite conductive material, or the conductive grid is plastic. The electrically insulating substrate is made of a composite conductive film material. The conductive grid is electrically insulated from the casing of the inlet side combination module, or the conductive grid is combined with the air-insulated combination module housing. The conductive grid is electrically connected to the positive electrode of the plasma high voltage generator. The fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground. The fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor. The fan and the negative pole of the plasma high-voltage generator are electrically connected to the fan through a brush. The 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 fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate. 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.

[0036] The plasma air purification combination module first passes through the air inlet side of the combined module casing, and then passes through a plasma generating pole with a high voltage negative electricity, the plasma generating pole discharges the air, ionizes the air, and fills the air with negative ions, and Various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone is adsorbed by a high-voltage positively charged plasma collecting electrode conductive grid, air and a positively charged plasma collecting electrode conductive grid, violent collision contact discharge, killing bacterial virus, decomposing organic matter , and the adsorption of various pollutants with negative ions is trapped on the conductive grid, and the air is purified first.

[0037] After the air is purified by the positive electrode conductive grid, the air enters the conductive fan, the air and the negatively charged plasma collecting electrode fan, violently collide, kill the bacterial virus, decompose the organic matter, and pollute the various ions with positive ions. The adsorption of the material is trapped on the fins of the fan, and the air is further purified, and the purified air is discharged through the combined module casing.

[0038] The fan is a plasma collecting electrode that is electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The fan is an electrical conductor fan, and the fan is electrically insulated from the rotor shaft of the motor. The fan and the positive electrode of the plasma high-voltage generator are electrically connected to the fan through a brush. The 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 fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate. Made of a composite conductive film material. Guide The electric fan and the positive electrode of the plasma high-voltage electric generator are electrically connected to the conductive fan through a brush.

[0039] The conductive grid is a plasma collecting electrode electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The conductive grid 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 conductive grid is made of a composite conductive material. The conductive grid is electrically insulated from the casing of the inlet side combination module, or the electrically conductive grid and the inlet side combination module housing are electrically insulated and separated. The conductive grid 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 piezoelectric generator is higher than the absolute value of the high voltage positive electrode voltage.

[0040] The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 Various pollutants in the air are also negatively charged. Air with a large amount of negative ions and ozone, and a collector fan with high-voltage positive electricity, violent collision contact discharge, killing bacteria and viruses, decomposing organic matter, and trapping various pollutants with negative ions on the conductive fan, air Get primary purification. After the air is purified by the positive electrode conductive fan, the air flowing through the conductive fan continues to travel, and the negatively charged plasma collecting electrode conductive grid, contact discharge, further killing the bacterial virus, decomposing the organic matter, and the positive ions The pollutants are adsorbed and trapped on the conductive grid, and after being further purified by the negative electrode conductive grid, the air is discharged through the combined module casing grille. When the plasma air purification module reaches a certain amount of ash, the plasma generator, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[0041] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, the inner and lower inlet window components of the glass curtain wall are sequentially provided with a plasma generating pole, a plasma grid collecting electrode, and a fan motor The connected active dust electric conductor fan and the plasma high voltage generator constitute a plasma air purification combination module.

[0042] 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 side of the air inlet side module housing is provided with a plasma generator pole electrically insulated from the combined module housing, motor, fan, and 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. The plasma generating pole is integrally arranged with the inlet side combined module casing, or is arranged in a split combination.

[0043] One side of the conductive grid is electrically insulated from the combined module housing, the plasma generator, the base, the motor, and the ground. Plasma collection electrode. One side of the conductive grid is made of a composite electrically 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 one side conductive mesh The grid is made of a composite electrically insulating film layer on one side of the composite conductive material. One side of the conductive grid is electrically insulated from the casing of the inlet side combination module, or one side of the conductive grid and the inlet side of the combination module are electrically insulated and separated. One side of the conductive grid and the plasma generating pole adjacent to the side of the electrically insulating film layer, one side of the conductive grid is electrically connected to the negative electrode of the plasma high voltage electric generator, through the electrically insulating film layer, on the adjacent side of the plasma generating pole Static electricity induces a positive electrode layer.

[0044] The fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground. The fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor. The fan and the positive electrode of the plasma high-voltage generator are electrically connected to the fan through a brush. The 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 fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate. 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. The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 in the air. Various pollutants are also negatively charged. The air with a large amount of negative ions and ozone is electrically insulated by a conductive grid layer on one side of the plasma adjacent to the side of the plasma, and is electrostatically induced by a positively charged film layer. The collector electrode with high voltage and negative charge is electrically conductive. The conductive side of the grid absorbs positively charged contaminants, repels negatively charged contaminants, and the air is primarily cleaned.

[0045] The air flowing through the conductive grid and the positively charged plasma collecting electrode conductive fan violently collide with the contact discharge, kill the bacterial virus, decompose the organic matter, and adsorb the various pollutants with negative ions on the conductive fan. After the air is further purified by the positive electrode conductive fan, it is discharged through the combined module housing

[0046] The fan is a plasma collecting electrode electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The fan is a conductive fan on one side, and one side of the conductive fan is electrically insulated from the rotor shaft of the motor. One side of the conductive fan is made of a composite electric insulating film layer on one side of the metal material, or the fan is made of a composite electric insulating film layer on one side of the composite conductive material. The conductive fan is adjacent to the plasma generating pole, and has an electric insulating film layer, and the conductive fan is electrically connected with the negative electrode of the plasma high-voltage electric generator, and the conductive wind is passed through The electrically insulating film layer of the fan electrostatically induces a positive electrode film layer on the side adjacent to the plasma generating pole. The conductive fan and the negative electrode of the plasma high-voltage generator are electrically connected to the conductive fan through a brush.

[0047] The conductive grid is a plasma collecting electrode electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground. The conductive grid 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 grid is made of a composite conductive material, or the conductive grid is plastic. The electrically insulating substrate is made of a composite conductive film material. The conductive grid is electrically insulated from the wind-side combined module housing, or the conductive grid is combined with the air-side combination module housing. The conductive grid 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.

[0048] The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 Various pollutants in the air are 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, conductive electrode side with high-voltage negative collector electrode, positively charged with adsorption Contaminants, repel negatively charged contaminants, and the air is primary cleaned. The air flowing through the conductive fan continues to travel, and the positively charged plasma collecting electrode conductive grid violently collides with the contact discharge, further kills the bacterial virus, decomposes the organic matter, and traps the various pollutants with negative ions in the conductive network. On the grid, after further purification by the positive electrode conductive grid, the air is discharged through the combined module casing grille. When the plasma air purification module reaches a certain amount of ash, the plasma generator, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[0049] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, an electrostatic induction grid of an electrical conductor of a combined module casing air outlet, forming an electrostatic induction grid dust collector, a membrane layer of an electrostatic induction grid dust collector The polarity is opposite to the polarity of the adjacent electrodes. The wind side of the fan, through the buckle and the inside of the glass curtain wall

The lower inlet window combination module housing is made of plastic. The plasma high voltage generator is provided with a metal shield and grounded. The plasma high voltage generator is mounted in the combined module housing. The fan includes an axial fan and a cross flow fan.

[0050] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the motor rotor shaft and the fan spindle connection end are provided with a permanent magnet toothed disk, or a ferromagnetic material toothed disk, 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. plate. The permanent magnet toothed disc of the motor rotor shaft and the fan spindle connecting end permanent magnet toothed disc are connected to the suction surface, and are provided with an electrically insulating material layer.

[0051] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the plasma collection electrode fan, the brush connected with the positive electrode of the plasma high voltage electric generator is made of graphite material, the brush passes the spring, or the electric The brush is provided with a ferromagnetic material, and is electrically connected to the fan main shaft by suction.

[0052] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, the combination module casing is provided with a ferromagnetic material, or a buckle made of a permanent magnet, a plasma generating pole, and an inlet air The ferromagnetic material corresponding to the buckle on the side combination module casing, or the buckle made of the permanent magnet, the plasma generating pole and the inlet side combined module casing, are combined by the female snap buckle.

[0053] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the electric fan is provided with a button or a remote controller including a total gate, a wind regulation, a fixed ion, and a negative ion generator. The remote control includes a mobile phone that is remotely controlled via a wireless network. The motor is wrapped in the casing of the combined module, the stator of the motor is fixed inside the casing of the combined module, and the stator core of the motor is grounded.

Advantageous effects of the invention

Beneficial effect

[0054] The heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall can not only efficiently exchange the required oxygen-rich fresh air under the energy-saving state, but also can realize air purification, low cost, light collection, sound insulation, and realization of glass. The curtain wall is high-strength and versatile.

Brief description of the drawing

DRAWINGS

1 and 2 are schematic diagrams showing a cross-sectional structure of a heat conduction convection ventilation static induction multi-function composite glass curtain wall according to the present invention;

3 and 4 are schematic views showing a heat conduction convection ventilation static induction multi-function composite composite glass curtain wall according to the present invention, and a cross-sectional structure of the second embodiment in summer and winter;

5 and FIG. 6 are schematic diagrams showing a heat conduction convection ventilation static induction multi-function composite composite glass curtain wall according to the present invention, and a cross-sectional structure of the third embodiment in summer and winter; FIG. 7 and FIG. 8 are schematic diagrams showing a heat conduction convection ventilation static induction multi-function composite composite glass curtain wall according to the present invention, and a cross-sectional structure of the fourth embodiment in summer and winter; FIG.

9 and 10 are schematic diagrams of a heat conduction convection ventilation static induction multi-function composite composite glass curtain wall according to the present invention, and a cross-sectional structure of the fifth embodiment in summer and winter;

11 and 12 are a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall according to the present invention,

Schematic diagram of the cross-sectional structure of six embodiments in summer and winter;

13 and 14 are a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall according to the present invention,

Schematic diagram of the cross-sectional structure of seven embodiments in summer and winter;

[0062] FIGS. 15, 16 are a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall according to the present invention,

Schematic diagram of the cross-sectional structure of eight embodiments in summer and winter;

17 and 18 are a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall according to the present invention,

Schematic diagram of the cross-sectional structure of nine embodiments in summer and winter;

19 and 20 are a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall according to the present invention,

Schematic diagram of the cross-sectional structure of 10 embodiments in summer and winter;

21 and 22 are a heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall according to the present invention,

Schematic diagram of the cross-sectional structure of 11 examples in summer and winter.

DETAILED DESCRIPTION

[0067] In the figure: 1 water pipe, 2 water storage tank, 3 booster pump, 4 washing water pipe, inner upper air inlet window, 6 contact wind window, 7 upper wind window partition, 8 inner upper exhaust window, 9 washing water Nozzle, 10 indoor side glass, 11 composite heat conduction static induction glass, 12 scraper drive chain, 13 lower exhaust window, 14 lower wind window partition, 15 inner lower inlet window, 16 air passage cleaning scraper, 17 electrostatic high voltage Electric generator, 18 intelligent control power supply, 19-row sewage pipe, 20 connection support frame, 21 hinge drive wheel, 22 fan, 23 outer exhaust window, 24 external inner lower inlet window, 25 conductive adhesive film Floor, 26 outdoor side glass, 27 external upper air inlet window, 28 switch windshield partition, 29 outer row upper exhaust window, 30 upper wind window partition, 31 hinge driven wheel, 32 window frame, 33 float valve, 34 Switching windshield, 35 lower windshield, 36 plasma generator, 37 inner lower windshield switch, 38 upper windshield plasma cleaner, 39 electrode connection wire, 40 downwind window plasma Purifier, 41 plasma generator switch, 42 inlet window The plasma cleaner 43 into the windshield at the male plasma purification, plasma 44 positive high-voltage generator 45 is switched into the inside of the windshield 幵, 46 electrode connection wire, 47 positive ion generator switch 、 off, 48 down collection fan, 49 on the collection fan

[0068] The first embodiment is illustrated in Figures 1 and 2:

[0069] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, comprising a window frame, a glass curtain wall and a vent, wherein the glass curtain wall is a single layer or a hollow indoor side glass (10), and is electrically conductive. The composite thermal conduction electrostatic induction interlayer of the adhesive film layer (25) is provided with a glass (11), a single layer or a hollow outdoor side glass (26), and is arranged in parallel by a head spacer (20) provided at both ends. There are two layers of ventilation duct interlayers, and the upper and lower ends of the glass curtain wall are provided with a through-window window (6), three parallel-arranged glass, which are integrally packaged by the window frame (32) to form a composite glass curtain wall; The end of the curtain wall, or the lower end is provided with a throughwind window (6), or a two-way fan (22) for inlet and exhaust; a high-voltage positive electrode of the positive high-voltage generator (17), and a composite heat-conductive electrostatic induction adhesive The conductive adhesive film layer (25) sandwiched between the glass (11) is electrically connected; when the outdoor air passes through the upper and lower inner wind inlet windows (15), the outer air inlet heat exchange air passage 吋, the dust in the outdoor air Composite heat conduction The electric induction glass (11), through the high-voltage positive electric induction of the sandwiched conductive film, induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass (11) of the outer air inlet and outlet air passage, so that the flow passes through the outer side The dust in the air entering the air heat exchange duct is induced into positively charged dust, which is adsorbed by the surface of the composite heat conducting static induction glass (11), so that the air entering the room outdoors can be purified; or the air inlet heat exchanger duct is externally The surface of the composite heat-conducting electrostatic induction glass sprays water to form a water film, which induces a negative electric layer, so that dust in the air flowing through the outer air-inlet heat exchange air passage is induced into positively-charged dust, and is composited by heat-conducting electrostatic induction glass. The surface water film is adsorbed to purify the air entering the room; the left and right sides of the glass curtain wall are provided with a wheel consisting of a driving wheel (21), a driven wheel (31), and a scraper drive chain (12). The chain cable transmission device, the chain cable (12) of the roulette chain transmission device, is equidistantly symmetrically arranged to connect the two-wheeled roulette chain transmission device, and is arranged on two layers A pair of air duct cleaning scrapers (16) in the air duct interlayer form a ventilation duct cleaning component; the upper end of the glass curtain wall penetrates the wind window (6), and is provided with a water pipe (1), a valve, a washing water pipe (4) ), the cleaning unit of the cleaning water nozzle (9); or the cleaning of the water pipe (1), the water storage tank (2), the valve, the booster pump (3), the washing water pipe (4), the washing water nozzle (9) The upper end of the glass curtain wall runs through the windshield (6) and is provided with an upper damper (28) , the inner upper air inlet window (5), the upper inlet air duct, the inner upper exhaust window (8), the upper exhaust air window ventilation module assembly of the upper exhaust air duct; the lower end of the glass curtain wall penetrates the wind window (6) Above, there is a lower exhaust ventilation window including a lower communication damper ( ₃ 4), an inner lower inlet window (15), a lower inlet air duct, an inner lower exhaust window (13), and a lower exhaust duct. The gas module assembly; the lower end of the composite glass curtain wall is provided with a cleaning sewage discharge device (19); when the dust on both sides of the composite heat conduction static induction glass (11) reaches a set amount, the cleaning component device is replaced by two The glass spray water on both sides of the air duct is cleaned by the air passage cleaning blade (16) of the cleaning assembly, and the glass on both sides of the two ventilation ducts is repeatedly scraped and ash removed; the scraped gray water is collected in the composite glass It is discharged from the cleaning sewage discharge device (19) at the bottom of the curtain wall.

[0070] In the summer, the indoor temperature is low, so when the indoor cold air is heated, it will naturally rise; the outdoor temperature is high, and the outdoor hot air will naturally sink after cooling; in the summer, the upper windshield (28), Switch to the outer exhaust heat exchange air duct, and close the upper inner air inlet window (5), the inner upper exhaust window (8), the upper outer side upper air inlet window (27), and the outer upper air exhaust window (29). ; The lower windshield (34) is switched to the inner exhaust heat exchange air duct, and the lower outer exhaust window (23) and the outer lower air inlet window (24) are closed, and the lower inner side is exhausted. Window (13), inner lower inlet window (15); make the indoor cold air through the inner lower exhaust window (13), enter the inner exhaust heat exchange air passage, through the composite heat conduction static induction glass (11), the indoor discharge cold The air is heated to raise the temperature, the indoor discharge cold air temperature rises, rises naturally, and is discharged through the outer upper exhaust window (29); the outdoor hot air passes through the outer upper inlet window (27) and enters the outer exhaust Hot air duct, The composite heat conduction static induction glass (11) cools the outdoor hot air to lower the temperature, and the outdoor hot air temperature decreases, naturally sinks, enters the room through the inner lower inlet window (15), and realizes indoor and outdoor natural ventilation. .

[0071] In winter, the indoor temperature is high, so when the indoor hot air is cooled, it will naturally sink; the outdoor temperature is low, and the outdoor cold air will naturally rise when heated; in the winter, the upper windshield (28), Switch to the inner exhaust heat exchange air duct, link the upper inner air inlet window (5) and the inner upper exhaust window (8), and close the upper outer side upper air inlet window (27) and the outer upper air exhaust window (29). ; switch the windshield (34), switch to the outer exhaust heat exchange duct, link the lower side of the lower side of the lower inlet window (24), the outer lower exhaust window (23), linkage close the lower inner side of the lower row Air window (13), inner lower air inlet window (15); make the indoor hot air through the inner upper exhaust window (8), enter the inner inlet and outlet heat exchange air passage, through the composite heat conduction static induction glass (11), Indoor discharge of hot air to cool down, causing its temperature to drop, indoor discharge of hot air temperature The degree is reduced, naturally sinking, and discharged through the outer lower exhaust window (23); the outdoor cold air passes through the outer lower inlet wind window (24), enters the outer inlet and outlet heat exchange air passage, and passes through the composite heat conduction static induction glass (11 ), the outdoor air enters the cold air to raise the temperature, and the temperature of the cold air entering the outdoor rises, naturally rises, enters the room through the inner upper air inlet window (5), and realizes natural ventilation indoors and outdoors.

[0072] In the spring and autumn, the indoor and outdoor temperature is measured by the temperature sensing device, and the upper and lower switching windshield is automatically switched by the servo device to realize automatic interlocking of the intake and exhaust damper, automatic air exchange; or through the glass. The end of the curtain wall, or the lower end of the windshield (6), is provided with a two-way fan (22) for forced air exchange.

[0073] When the outdoor air enters the outer air inlet heat exchange air passage through the upper and inner lower inlet wind windows (15), the dust in the outdoor air is combined with the heat conduction static induction glass (11), which is carried by the sandwiched conductive film. The high-voltage positive electric induction induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass (11) on the outer air-inlet heat exchange duct, so that the dust in the air flowing through the outer air-inlet heat exchange duct is induced to be positively charged. The electric dust is adsorbed by the surface of the composite heat-conducting electrostatic induction glass (11), so that the air entering the room outdoors can be purified.

[0074] When the dust on both sides of the composite heat conduction static induction glass (11) reaches a set amount, the cleaning assembly device is sprayed on the water on both sides of the two ventilation air passages, and is cleaned by the air passage of the cleaning assembly. The scraper (16) repeatedly wipes the ash from the glass on both sides of the two ventilation ducts; the scraped gray water is collected and discharged in the cleaning sewage discharge device (19) at the bottom of the composite glass curtain wall.

[0075] The second embodiment is shown in FIGS. 3 and 4:

[0076] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, comprising a window frame, a glass curtain wall and a vent, wherein the glass curtain wall is a single layer or a hollow indoor side glass (10), and is electrically conductive. The composite thermal conduction electrostatic induction interlayer of the adhesive film layer (25) is provided with a glass (11), a single layer or a hollow outdoor side glass (26), and is arranged in parallel by a head spacer (20) provided at both ends. There are two layers of ventilation duct interlayers, and the upper and lower ends of the glass curtain wall are provided with a through-window window (6), three parallel-arranged glass, which are integrally packaged by the window frame (32) to form a composite glass curtain wall; The end of the curtain wall, or the lower end is provided with a throughwind window (6), or a two-way fan (22) for inlet and exhaust; a high-voltage positive electrode of the positive high-voltage generator (17), and a composite heat-conductive electrostatic induction adhesive The conductive adhesive film layer (25) sandwiched between the glass (11) is electrically connected; when the outdoor air passes through the upper and lower inner wind inlet windows (15), it enters the outside. The air inlet heat exchange duct 吋, the dust in the outdoor air is combined with the heat conduction static induction glass (11), the high-voltage positive electric induction by the sandwiched conductive film, and the composite heat conduction static induction glass in the outer air inlet heat exchange duct ( On the surface of 11), a negative electric layer is induced, so that dust in the air flowing through the outer air inlet and outlet air passage is induced into positively charged dust, which is adsorbed by the surface of the composite heat conduction static induction glass (11).

, the air entering the indoor outdoor room is purified; in the air inlet window (5) on the inner side of the upper air inlet duct of the upper exhaust air window ventilation module assembly, an upper inlet window plasma purifier (38) is provided; In the inner upper air inlet window (5) of the upper air inlet duct of the exhaust window ventilating module assembly, an upper inlet window plasma purifier (38) is provided; and the lower inlet air ventilating module assembly is placed under the air inlet module In the inner lower air inlet window (15) of the air duct, there is a lower inlet window plasma purifier generating electrode (40); the plasma purifier generating electrode (40) has a generating pole voltage higher than the collector voltage, so that It further purifies the air on the collector and enriches the supplemental air with negative ions; when the dust reaches the set value, the collector and the generator of the plasma purifier generating electrode (40) can be removed for cleaning and reduction; On the left and right sides of the curtain wall, there is a roulette chain transmission device, and the chain of the roulette chain transmission device is equidistantly symmetrically arranged with the two-wheeled roulette chain transmission device, which is arranged in the two-layer ventilation passage interlayer a pair of air duct cleaning blades (16) forming a cleaning component; the upper end of the glass curtain wall is connected to the wind window (6), and is provided with a water pipe (1), a valve, a cleaning water pipe (4), a washing water nozzle (9) cleaning assembly; or cleaning unit including water pipe (1), water storage tank (2), valve, booster pump (3), washing water pipe (4), washing water nozzle (9); glass curtain wall The upper end passes through the wind window (6) and is provided with an upper row including an upper communication damper (28), an inner upper inlet window (5), an upper inlet air duct, an inner upper exhaust window (8), and an upper exhaust duct. The air curtain window ventilation module assembly; the lower end of the glass curtain wall passes through the wind window (6), and includes a lower contact damper (34), an inner lower inlet window (15), a lower inlet air duct, and a lower exhaust window. (23), the lower exhaust air window ventilation module assembly of the lower exhaust air duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage discharge device (19); when both sides of the composite heat conduction static induction glass (11) After the adsorption dust reaches the set amount, the cleaning component is installed. Set, spray water on the glass on both sides of the two ventilation ducts, clean the scraper (16) through the air passage of the cleaning assembly, and repeatedly wipe the water on both sides of the two ventilation ducts; , collected in the cleaning sewage discharge device (19) at the bottom of the composite glass curtain wall.

In summer, the indoor temperature is low, so when the indoor cold air is heated, it will rise naturally; the outdoor temperature is high, and it will naturally sink when the outdoor hot air cools; in summer, the upper windshield (28) switches to the outer row. The gas heat exchange air passage, linkage closes the upper inner side upper air inlet window (5), the inner upper exhaust window (8), the upper side of the upper side upper inlet wind window (27), the outer upper upper air window (29); the lower switching block The air partition (34) is switched to the inner exhaust heat exchange duct, and the lower outer lower exhaust window (23) and the outer lower inlet window (24) are closed, and the lower inner lower exhaust window (13) is linked. The inner side enters the wind window (15); the indoor cold air passes through the inner lower exhaust window (13), enters the inner exhaust heat exchange air passage, and heats the indoor discharge cold air through the composite heat conduction static induction glass (11), so that The temperature rises, the indoor discharge cold air temperature rises, rises naturally, and is discharged through the outer upper exhaust window (29); the outdoor hot air enters the outer exhaust heat exchange duct through the outer upper inlet window (27). Through the composite heat conduction static induction glass (11), the outdoor hot air is cooled down, the temperature is lowered, the outdoor hot air temperature is lowered, and the temperature is naturally lowered. The inner lower air inlet window (15) enters the room to realize natural ventilation indoors and outdoors. .

[0078] In winter, the indoor temperature is high, so when the indoor hot air is cooled, it will naturally sink; the outdoor temperature is low, and the outdoor cold air will naturally rise when heated; in winter, the upper windshield (28), Switch to the inner exhaust heat exchange air duct, link the upper inner air inlet window (5) and the inner upper exhaust window (8), and close the upper outer side upper air inlet window (27) and the outer upper air exhaust window (29). ; switch the windshield (34), switch to the outer exhaust heat exchange duct, link the lower side of the lower side of the lower inlet window (24), the outer lower exhaust window (23), linkage close the lower inner side of the lower row Air window (13), inner lower air inlet window (15); make the indoor hot air through the inner upper exhaust window (8), enter the inner inlet and outlet heat exchange air passage, through the composite heat conduction static induction glass (11), The indoor exhaust hot air is cooled, the temperature is lowered, the indoor exhaust hot air temperature is lowered, and the natural sinking is discharged through the outer lower exhaust window (23); the outdoor cold air passes through the outer lower inlet window (24) and enters the outer side. Intake and exhaust heat exchange Through the composite heat conduction static induction glass (11), the outdoor air enters the cold air to raise the temperature, and the temperature rises. The outdoor cold air temperature rises and rises naturally, and enters the room through the inner upper inlet window (5) to realize the indoor and outdoor nature. Ventilation.

[0079] In the spring and autumn, the indoor and outdoor temperature is measured by the temperature sensing device, and the upper and lower switching windshield is automatically switched by the servo device to realize automatic interlocking of the intake and exhaust damper, automatic air exchange; or through the glass. The end of the curtain wall, or the lower end of the windshield (6), is provided with a two-way fan (22) for forced air exchange.

[0080] When the outdoor air enters the outer air inlet heat exchange duct through the upper and inner lower air inlet windows (15), the dust in the outdoor air is combined with the heat conduction static induction glass (11), which is carried by the sandwiched conductive film. High pressure Positive electric induction, on the surface of the composite heat conduction static induction glass (11) of the outer air inlet heat exchange duct, a negative electric layer is induced, so that the dust in the air flowing through the outer air inlet heat exchange duct is induced to be positively charged. The dust is adsorbed by the surface of the composite heat-conducting electrostatic induction glass (11), so that the air entering the room outdoors can be purified.

[0081] When the dust on both sides of the composite heat conduction static induction glass (11) reaches a set amount, the cleaning assembly device is sprayed on the water on both sides of the two ventilation air passages, and is cleaned by the air passage of the cleaning assembly. The scraper (16) repeatedly wipes the ash from the glass on both sides of the two ventilation ducts; the scraped gray water is collected and discharged in the cleaning sewage discharge device (19) at the bottom of the composite glass curtain wall.

[0082] The third embodiment is shown in FIGS. 5 and 6:

[0083] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, comprising a window frame, a glass curtain wall and a vent, wherein the glass curtain wall is a single layer or a hollow indoor side glass (10), and is electrically conductive. The composite thermal conduction electrostatic induction interlayer of the adhesive film layer (25) is provided with a glass (11), a single layer or a hollow outdoor side glass (26), and is arranged in parallel by a head spacer (20) provided at both ends. There are two layers of ventilation duct interlayers, and the upper and lower ends of the glass curtain wall are provided with a through-window window (6), three parallel-arranged glass, which are integrally packaged by the window frame (32) to form a composite glass curtain wall; The end of the curtain wall, or the lower end is provided with a throughwind window (6), or a two-way fan (22) for inlet and exhaust; a high-voltage positive electrode of the positive high-voltage generator (17), and a composite heat-conductive electrostatic induction adhesive The conductive adhesive film layer (25) sandwiched between the glass (11) is electrically connected; when the outdoor air passes through the upper and lower inner wind inlet windows (15), the outer air inlet heat exchange air passage 吋, the dust in the outdoor air Composite heat conduction The electric induction glass (11), through the high-voltage positive electric induction of the sandwiched conductive film, induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass (11) of the outer air inlet and outlet air passage, so that the flow passes through the outer side The dust in the air entering the air heat exchange duct is induced into positively charged dust, which is adsorbed by the surface of the composite heat conducting static induction glass (11), so that the air entering the indoor room is purified; the air inlet module in the upper exhaust window The upper inlet air window (5) of the upper inlet air duct of the assembly is provided with an upper inlet window plasma purifier (38); the lower inlet air duct of the ventilation module of the lower intake and exhaust window connected thereto Inside the lower inlet plenum (24), there is a downwind window positive ion generator electrode (43); under the lower inlet air duct of the lower exhaust louver module assembly, the lower inlet window (15) Inside, there is a lower inlet window plasma purifier generating electrode (40); in the inner upper inlet window (5) of the upper inlet air duct of the upper exhaust ventilation window ventilation module assembly connected thereto , an upper inlet window positive ion generator electrode (42) is provided; the plasma purifier generating electrode (40) has a generator voltage higher than the collector voltage, so that the air is further purified on the collector and the air is replenished Rich in negative ions; When the ash reaches the set value 吋, the collector and the generator of the plasma purifier generating electrode (40) can be removed for cleaning and reduction; the left and right sides of the glass curtain wall are provided with a roulette chain transmission The chain of the roulette chain transmission device is equidistantly symmetrically provided with a pair of roulette chain transmission devices connected to each other, and a pair of air passage cleaning scrapers (16) disposed in the interlayer of the two-layer ventilation duct to form a cleaning The upper end of the glass curtain wall runs through the windshield (6) and is provided with a water pipe (1), a valve, and a cleaning water pipe.

(4), cleaning unit for cleaning water nozzle (9); or water pipe (1), water storage tank (2), valve, booster pump (3), cleaning water pipe (4), cleaning water nozzle (9) The cleaning assembly; the upper end of the glass curtain wall extends through the wind window (6), and includes an upper contact damper (28), an inner upper inlet window (5), an upper inlet air duct, an inner upper exhaust window (8), and upper The upper exhaust ventilation window ventilation module assembly of the exhaust air duct; the lower end of the glass curtain wall passes through the wind window (6), and includes a lower contact damper (34), an inner lower inlet window (15), and a lower inlet air Air duct, lower exhaust window (23), lower exhaust air window ventilation module assembly of the lower exhaust air duct; when the dust on both sides of the composite heat conduction static induction glass (11) reaches a set amount, Cleaning the component device, spraying water on the glass on both sides of the two ventilation air passages, cleaning the scraping plate (16) through the air passage of the cleaning assembly, and repeatedly scraping and removing the glass on both sides of the two ventilation air passages; the composite glass curtain wall At the lower end, there is a cleaning sewage discharge device (19); The water is collected and discharged from the cleaning sewage discharge unit (19) at the bottom of the composite glass curtain wall.

In summer, the indoor temperature is low, so when the indoor cold air is heated, it will rise naturally; the outdoor temperature is high, and it will naturally sink when the outdoor hot air cools; in summer, the upper windshield (28) switches to the outer row. The gas heat exchange air passage, linkage closes the upper inner side upper air inlet window (5), the inner upper exhaust window (8), the upper side of the upper side upper inlet wind window (27), the outer upper upper air window (29); the lower switching block The air baffle (34) is switched to the inner exhaust heat exchange air duct, and the lower outer lower exhaust window (23) and the outer lower air inlet window (24) are closed, and the lower inner lower exhaust window (13) is linked. The inner side enters the wind window (15); the indoor cold air passes through the inner lower exhaust window (13), enters the inner exhaust heat exchange air passage, and heats the indoor discharge cold air through the composite heat conduction static induction glass (11), so that The temperature rises, the indoor discharge cold air temperature rises, rises naturally, and is discharged through the outer upper exhaust window (29); the outdoor hot air enters the outer exhaust heat exchange duct through the outer upper inlet window (27). Static heat conduction through composite heat conduction Should be glass (11), right Outdoors enters the hot air to cool down, so that the temperature is lowered, the outdoor hot air temperature is lowered, and it naturally sinks. It enters the room through the inner lower inlet window (15) to realize natural ventilation indoors and outdoors.

[0085] In winter, the indoor temperature is high, so when the indoor hot air is cooled, it will naturally sink; the outdoor temperature is low, and the outdoor cold air will naturally rise when heated; in the winter, the upper windshield (28), Switch to the inner exhaust heat exchange air duct, link the upper inner air inlet window (5) and the inner upper exhaust window (8), and close the upper outer side upper air inlet window (27) and the outer upper air exhaust window (29). ; switch the windshield (34), switch to the outer exhaust heat exchange duct, link the lower side of the lower side of the lower inlet window (24), the outer lower exhaust window (23), linkage close the lower inner side of the lower row Air window (13), inner lower air inlet window (15); make the indoor hot air through the inner upper exhaust window (8), enter the inner inlet and outlet heat exchange air passage, through the composite heat conduction static induction glass (11), The indoor exhaust hot air is cooled, the temperature is lowered, the indoor exhaust hot air temperature is lowered, and the natural sinking is discharged through the outer lower exhaust window (23); the outdoor cold air passes through the outer lower inlet window (24) and enters the outer side. Intake and exhaust heat exchange Through the composite heat conduction static induction glass (11), the outdoor air enters the cold air to raise the temperature, and the temperature rises. The outdoor cold air temperature rises and rises naturally, and enters the room through the inner upper inlet window (5) to realize the indoor and outdoor nature. Ventilation.

[0086] In the spring and autumn, through the temperature sensing device to measure the indoor and outdoor temperature, the upper and lower switching windshield is automatically switched by the servo device, and the automatic linkage switching between the intake and exhaust dampers is realized, and the air is automatically exchanged; or through the glass. The end of the curtain wall, or the lower end of the windshield (6), is provided with a two-way fan (22) for forced air exchange.

[0087] When the outdoor air enters the outer air inlet heat exchange duct through the upper and inner lower air inlet windows (15), the dust in the outdoor air is combined with the heat conduction static induction glass (11), which is carried by the sandwiched conductive film. The high-voltage positive electric induction induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass (11) on the outer air-inlet heat exchange duct, so that the dust in the air flowing through the outer air-inlet heat exchange duct is induced to be positively charged. The electric dust is adsorbed by the surface of the composite heat-conducting electrostatic induction glass (11), so that the air entering the room outdoors can be purified.

[0088] When the dust on both sides of the composite heat-conductive electrostatic induction glass (11) reaches a set amount, the cleaning assembly device is sprayed on the water on both sides of the two ventilation air passages, and is cleaned by the air passage of the cleaning assembly. The scraper (16) repeatedly wipes the ash from the glass on both sides of the two ventilation ducts; the scraped gray water is collected and discharged in the cleaning sewage discharge device (19) at the bottom of the composite glass curtain wall. [0089] The plasma air purifier can further achieve the purification of the exchange into the indoor air, and enrich the air with negative ions.

[0090] The fourth embodiment is shown in FIGS. 7 and 8:

[0091] A heat conduction convection ventilation static induction vacuum multifunctional composite glass curtain wall, comprising a window frame, a glass curtain wall and a vent, wherein the glass curtain wall is a single layer or a hollow indoor side glass (10), and is electrically conductive. The composite thermal conduction electrostatic induction interlayer of the adhesive film layer (25) is provided with a glass (11), a single layer or a hollow outdoor side glass (26), and is arranged in parallel by a head spacer (20) provided at both ends. There are two layers of ventilation duct interlayers, and the upper and lower ends of the glass curtain wall are provided with a through-window window (6), three parallel-arranged glass, which are integrally packaged by the window frame (32) to form a composite glass curtain wall; The end of the curtain wall, or the lower end is provided with a throughwind window (6), or a two-way fan (22) for inlet and exhaust; a high-voltage positive electrode of the positive high-voltage generator (17), and a composite heat-conductive electrostatic induction adhesive The conductive adhesive film layer (25) sandwiched between the glass (11) is electrically connected; when the outdoor air passes through the upper and lower inner wind inlet windows (15), the outer air inlet heat exchange air passage 吋, the dust in the outdoor air Composite heat conduction The electric induction glass (11), through the high-voltage positive electric induction of the sandwiched conductive film, induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass (11) of the outer air inlet and outlet air passage, so that the flow passes through the outer side The dust in the air entering the air heat exchange duct is induced into positively charged dust, which is adsorbed by the surface of the composite heat conducting static induction glass (11), so that the air entering the indoor room is purified; the air inlet module in the upper exhaust window In the inner air inlet window (5) of the upper inlet air duct of the assembly, an upper inlet window plasma purifier generating electrode (38) and an upper inlet window plasma purifier collecting fan (49) are provided; In the inner lower inlet window (15) of the lower air inlet duct of the ventilation module assembly, a lower inlet window plasma purifier generating electrode (40) and a lower inlet window plasma purifier collecting fan (48) are provided. Or in the air inlet window (5) on the inner side of the upper air inlet duct of the upper exhaust air ventilating module assembly, with an upper inlet window plasma purifier generating electrode (38) and an upper inlet window plasma purifier a fan (49); a lower inlet plenum generator electrode (24) is provided in the lower inlet window (24) of the lower inlet duct of the lower intake and exhaust window ventilating module assembly connected thereto ( 43) ; In the inner lower inlet window (15) of the lower inlet air duct of the lower exhaust air ventilating module assembly, a lower inlet window plasma purifier generating electrode (40) and a lower inlet window are provided. The plasma purifier collects the fan (48); in the inner air inlet window (5) of the upper inlet air duct of the upper exhaust air window ventilation module assembly connected thereto, the upper inlet window positive ion generator electrode is provided ( 42); isometric The generating voltage of the electrode of the daughter purifier is higher than the voltage of the collector fan (48) of the plasma purifier, so that the air is further purified on the collector, and the supplemental air is enriched with negative ions; when the dust reaches the setting Value 吋, the plasma purifier generating electrode, the plasma purifier collector fan (48), the positive ion generator electrode (42) generating electrode are cleaned and restored; the left and right sides of the glass curtain wall are provided with a roulette chain The cable transmission device, the chain of the roulette chain transmission device, is equidistantly symmetrically provided with a pair of air passage cleaning scrapers (16) connected to the two side air passage interlayers. Forming a cleaning component; the upper end of the glass curtain wall is connected to the wind window (6), and is provided with a cleaning component including a water pipe (1), a valve, a cleaning water pipe (4), a washing water nozzle (9), or a water pipe ( 1), the water storage tank (2), the valve, the booster pump (3), the cleaning water pipe (4), the cleaning water nozzle (9) cleaning assembly; the upper end of the glass curtain wall is connected to the wind window (6), Including Contact the damper (28), the inner upper inlet window (5), the upper inlet duct, the inner upper exhaust window (8), the upper exhaust duct ventilation module of the upper exhaust duct; the lower end of the glass curtain wall On the windshield (6), there is a lower contact damper

(34), inner lower inlet windshield (15), lower inlet air duct, lower exhaust window (23), lower exhaust air window ventilation module assembly of lower exhaust air duct; when composite heat conduction static induction glass ( 11) After the dust on both sides of the surface reaches the set amount, start the cleaning assembly device, spray the glass on both sides of the two ventilation ducts, and clean the scraper (16) through the air passage of the cleaning assembly. The glass on both sides of the air duct is repeatedly scraped and ash removed; the lower end of the composite glass curtain wall is provided with a cleaning sewage discharge device (19); the scraped gray water is collected in the cleaning sewage discharge device at the bottom of the composite glass curtain wall (19) ) is discharged.

In summer, the indoor temperature is low, so when the indoor cold air is heated, it will rise naturally; the outdoor temperature is high, and it will naturally sink when the outdoor hot air cools; in summer, the upper windshield (28) switches to the outer row. The gas heat exchange air passage, linkage closes the upper inner side upper air inlet window (5), the inner upper exhaust window (8), the upper side of the upper side upper inlet wind window (27), the outer upper upper air window (29); the lower switching block The air partition (34) is switched to the inner exhaust heat exchange duct, and the lower outer lower exhaust window (23) and the outer lower inlet window (24) are closed, and the lower inner lower exhaust window (13) is linked. The inner side enters the wind window (15); the indoor cold air passes through the inner lower exhaust window (13), enters the inner exhaust heat exchange air passage, and heats the indoor discharge cold air through the composite heat conduction static induction glass (11), so that The temperature rises, the indoor discharge cold air temperature rises, rises naturally, and is discharged through the outer upper exhaust window (29); the outdoor hot air passes through the outer upper inlet window

(27), enter the outer exhaust heat exchange air duct, through the composite heat conduction static induction glass (11), the chamber The outside enters the hot air to cool down, so that the temperature is lowered, the outdoor entering hot air temperature is lowered, and naturally sinks, and enters the room through the inner lower inlet window (15) to realize natural ventilation indoors and outdoors.

[0093] In winter, the indoor temperature is high, so when the indoor hot air is cooled, it will naturally sink; the outdoor temperature is low, and the outdoor cold air will naturally rise when heated; in the winter, the upper windshield (28), Switch to the inner exhaust heat exchange air duct, link the upper inner air inlet window (5) and the inner upper exhaust window (8), and close the upper outer side upper air inlet window (27) and the outer upper air exhaust window (29). ; switch the windshield (34), switch to the outer exhaust heat exchange duct, link the lower side of the lower side of the lower inlet window (24), the outer lower exhaust window (23), linkage close the lower inner side of the lower row Air window (13), inner lower air inlet window (15); make the indoor hot air through the inner upper exhaust window (8), enter the inner inlet and outlet heat exchange air passage, through the composite heat conduction static induction glass (11), The indoor exhaust hot air is cooled, the temperature is lowered, the indoor exhaust hot air temperature is lowered, and the natural sinking is discharged through the outer lower exhaust window (23); the outdoor cold air passes through the outer lower inlet window (24) and enters the outer side. Intake and exhaust heat exchange Through the composite heat conduction static induction glass (11), the outdoor air enters the cold air to raise the temperature, and the temperature rises. The outdoor cold air temperature rises and rises naturally, and enters the room through the inner upper inlet window (5) to realize the indoor and outdoor nature. Ventilation.

[0094] In the spring and autumn, the indoor and outdoor temperature is measured by the temperature sensing device, and the upper and lower switching windshield is automatically switched by the servo device to realize automatic interlocking of the intake and exhaust damper, automatic air exchange; or through the glass. The end of the curtain wall, or the lower end of the windshield (6), is provided with a two-way fan (22) for forced air exchange.

[0095] When the outdoor air enters the outer air inlet heat exchange duct through the upper and inner lower air inlet windows (15), the dust in the outdoor air is combined with the heat conduction static induction glass (11), which is carried by the sandwiched conductive film. The high-voltage positive electric induction induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass (11) on the outer air-inlet heat exchange duct, so that the dust in the air flowing through the outer air-inlet heat exchange duct is induced to be positively charged. The electric dust is adsorbed by the surface of the composite heat-conducting electrostatic induction glass (11), so that the air entering the room outdoors can be purified.

[0096] When the dust on both sides of the composite heat conduction static induction glass (11) reaches a set amount, the cleaning assembly device is sprayed on the water on both sides of the two ventilation air passages, and is cleaned by the air passage of the cleaning assembly. The scraper (16) repeatedly wipes the ash from the glass on both sides of the two ventilation ducts; the scraped gray water is collected and discharged in the cleaning sewage discharge device (19) at the bottom of the composite glass curtain wall. [0097] The plasma air purifier can further achieve the purification of the exchange into the indoor air, and enrich the air with negative ions.

[0098] The fifth embodiment is shown in FIGS. 9 and 10:

[0099] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, characterized in that: a plasma air body purification is arranged in an air passage of an inner upper inlet window (5) and an inner lower inlet window (15) a finned electrode near the inner upper inlet window (5) and the inner lower inlet window (15), which is a positively charged collector, and corresponding to the metal needle array electrode, the wire mesh electrode The electrode of the linear, zigzag, star, spur or fishbone structure electrode is a negatively charged generator; the absolute value of the negative voltage with negative charge is higher than the absolute value of the positive collector voltage; Or in the air channel of the outer upper inlet window (27) and the outer lower inlet window (24), including metal needle array electrode, wire mesh electrode, wire, serrated, star, thorn type Or a positively charged electrode of a fishbone structure electrode; a positive charge of the pollutant in the incoming air, attracted by a composite heat conduction static induction glass (11) with a negatively charged film layer, discharge neutralization, absolute with a negative voltage The value is higher than the absolute value of the positive polarity generator voltage and higher than the absolute value of the positively charged collector voltage; the negative pole with high voltage negative charge, the negative ion generated, and the positive and negative charge neutralization with positive ions It can effectively kill bacteria, and the negative ions and positive ions generated by the positive and negative charges in the air will produce a huge energy release, which will lead to the change of surrounding bacteria structure or energy conversion, and then the bacteria will die. The role of sterilization; set the absolute value of the negative voltage with negative charge, higher than the absolute value of the positive collector voltage, so that the negative ion generated by the negative electrode generated in the air is greater than the amount of positive ions in the air Therefore, the excess negative ions still float in the air; the more the negative ions and positive ions are neutralized, the better the sterilization effect.

[0100] The plasma air purifier can further purify the exchange into the indoor air and enrich the air with negative ions.

[0101] The sixth embodiment is shown in FIGS. 11 and 12:

[0102] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the plasma air purifier is different from other embodiments, has its own characteristics, can further realize the exchange into the indoor air purification, and make the air rich Contains negative ions. Other features are similar to other embodiments and will not be described again.

[0103] The seventh embodiment is shown in FIGS. 13 and 14:

[0104] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, plasma air purification thereof Different from other embodiments, the device has its own characteristics, which can further realize the purification of the exchange into the indoor air, and enrich the air with negative ions. Other features are similar to the other embodiments described above and will not be described again.

[0105] The eighth embodiment is shown in FIGS. 15 and 16:

[0106] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the plasma air purifier is different from other embodiments, has its own characteristics, can further realize the exchange into the indoor air purification, and make the air rich Contains negative ions. Other features are similar to the other embodiments described above and will not be described again.

[0107] The ninth embodiment is as shown in FIGS. 17 and 18:

[0108] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the plasma air purifier is different from other embodiments, has its own characteristics, can further realize the exchange into the indoor air purification, and make the air rich Contains negative ions. Other features are similar to the other embodiments described above and will not be described again.

[0109] The tenth embodiment is as shown in FIGS. 19 and 20:

[0110] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the plasma air purifier is different from other embodiments, has its own characteristics, can further realize the exchange into the indoor air purification, and make the air rich Contains negative ions. Other features are similar to the other embodiments described above and will not be described again.

[0111] The eleventh embodiment is shown in FIGS. 21 and 22:

[0112] A heat conduction convection ventilation static induction vacuum multi-functional composite glass curtain wall, the plasma air purifier is different from other embodiments, has its own characteristics, can further realize the exchange into the indoor air purification, and make the air rich Contains negative ions. Other features are similar to the other embodiments described above and will not be described again.

Claims

Claim

[Claim 1] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, including a window frame, a glass curtain wall, and a vent, wherein the glass curtain wall is at least a single layer or a composite solid single layer or a hollow interior. Side glass, composite heat-conducting electrostatic induction laminated glass with conductive adhesive film layer, at least single layer or composite solid single layer or hollow outdoor side glass, supported by the gaps provided at both ends, and the package is parallelized The arrangement is provided with two layers of ventilation duct interlayers, and the upper and lower ends of the glass curtain wall are provided with through-window windows, three parallel-arranged glass, which are integrated into the window frame to form a composite glass curtain wall; the end of the glass curtain wall, or The through-window window provided on the lower end is provided with a two-way fan for inlet and exhaust; the high-voltage positive electrode of the positive electric high-voltage generator, and the conductive adhesive film layer sandwiched between the composite heat-conductive electrostatic induction laminated glass Connection; When the outdoor air passes through the outer upper and lower inner wind inlet windows and enters the outer air inlet heat exchange air passage, the dust in the outdoor air is combined with heat transfer. The electrostatic induction glass, through the high-voltage positive electric induction of the sandwiched conductive film, induces a negative electric layer on the surface of the composite heat-conducting electrostatic induction glass of the outer air inlet heat exchange duct, so that the air flow through the outer air inlet and outlet heat exchange duct The dust in the air is induced into positively charged dust, which is adsorbed by the surface of the composite heat-conducting electrostatic induction glass, so that the air entering the room outdoors can be purified; or the water is sprayed on the surface of the composite heat-conducting electrostatic induction glass of the outer air inlet heat exchange duct Forming a water film, inducing a negative electric layer, so that dust in the air flowing through the outer air inlet heat exchange air passage is induced into positively charged dust, and is adsorbed by the surface water film of the composite heat conduction static induction glass, so that the outdoor enters the room. The air is purified; the left and right sides of the glass curtain wall are provided with a roulette chain transmission consisting of a drive roulette, a passive roulette, and a scraper drive chain, on the chain of the roulette chain transmission, isometric Symmetrically arranged with a pair of roulette chain transmissions on both sides, a pair of ventilation ducts in two layers of ventilation ducts , forming a ventilation channel cleaning component; the upper end of the glass curtain wall is connected to the wind window, and is provided with a cleaning component including a water pipe, a valve, a cleaning water pipe, a washing water nozzle; or a water pipe, a water storage tank, a valve, a booster pump, The cleaning component of the cleaning water pipe and the cleaning water nozzle; the cleaning water is directly discharged, or sent back to the water storage tank for recycling; the upper end of the glass curtain wall is connected to the wind window, and includes an upper contact damper, an inner upper inlet window, and an upper inlet air. Wind tunnel, inner exhaust window, upper exhaust duct Exhaust air window ventilation module assembly; the lower end of the glass curtain wall penetrates the wind window, and includes a lower contact damper, an inner lower inlet window, a lower inlet air duct, an inner lower exhaust window, and a lower exhaust duct. The lower exhaust air window ventilation module assembly; the lower end of the composite glass curtain wall is provided with a cleaning sewage discharge device; when the dust on both sides of the composite heat conduction electrostatic induction glass reaches a set amount, the cleaning component device is turned on, The glass spray water on both sides of the ventilation air duct cleans the scraper through the air passage of the cleaning assembly, and repeatedly wipes the glass on both sides of the two ventilation air ducts; the scraped gray water is collected at the bottom of the composite glass curtain wall In the summer, the indoor temperature is low. Therefore, when the indoor cold air is heated, it will rise naturally; the outdoor temperature is high, and the outdoor hot air will naturally sink after cooling; in summer, the wind will be blocked. The partition plate is switched to the outer exhaust heat exchange air passage, and the upper inner air inlet window and the inner upper air exhaust window are closed, and the upper outer wind inlet window and the outer upper air exhaust window are connected; The air baffle is switched to the inner exhaust heat exchange air duct, and the lower outer exhaust window and the outer lower air inlet window are closed, and the lower inner exhaust window and the inner lower air inlet window are connected to each other; The inner lower exhaust window enters the inner exhaust heat exchange air passage, and through the composite heat conduction static induction glass, the indoor discharge cold air is heated to raise the temperature, the indoor discharge cold air temperature rises, naturally rises, and the outer air discharge The window is exhausted; the outdoor hot air enters the outer exhaust heat exchange air passage through the outer upper air inlet window, and the composite heat conduction static induction glass cools the outdoor hot air to lower the temperature, and the outdoor hot air temperature decreases, naturally Shen, enters the room through the inner lower air inlet window, and realizes natural ventilation indoors and outdoors.

In winter, the indoor temperature is high. Therefore, when the indoor hot air is cooled, it will naturally sink. The outdoor temperature is low. When the outdoor cold air is heated, it will rise naturally. In winter, the upper windshield is switched to the inner exhaust. The hot air duct is connected with the upper air inlet window and the inner upper exhaust window of the upper end of the linkage, and the upper outer wind inlet window and the outer upper air exhaust window are closedly connected; the windshield is switched downward, and the outer exhaust heat exchange air passage is switched. Linking the lower side of the lower side of the lower side of the wind inlet window, the outer side of the lower exhaust window, linkage to close the lower inner side of the lower exhaust window, the inner lower inlet window; so that the indoor hot air through the inner exhaust window, into the inside intake and exhaust The hot air duct, through the composite heat conduction static induction glass, cools the indoor discharge hot air, causes its temperature to drop, the indoor discharge hot air temperature decreases, naturally sinks, and is discharged through the outer lower exhaust window; the outdoor cold air passes through the outside Entering the wind window, entering the outside air inlet and outlet heat exchange air passage, through the composite heat conduction static induction glass, the outdoor cold air is heated, the temperature is raised, the outdoor cold air temperature rises, naturally rises, and the air enters through the inner side. The window enters the room to realize natural air exchange indoors and outdoors. In the spring and autumn, the indoor and outdoor temperature is measured by the temperature sensing device, and the upper and lower switching windshield is automatically switched by the servo device to realize the automatic linkage switching between the intake and exhaust dampers. Automatic air exchange; or through the end of the glass curtain wall, or the lower end through the wind window, the two-way fan with intake and exhaust is forced to ventilate.

[Claim 2] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall, including a window frame, a glass curtain wall, and a vent, wherein the glass curtain wall is a single-layer or hollow indoor side glass with a conductive adhesive The composite heat conduction electrostatic induction interlayer of the film layer is provided with a glass, a single layer or a hollow outdoor side glass, which is supported by the heads provided at both ends, and the package is arranged in parallel and arranged with two layers of air passage interlayers, and the glass curtain wall is up and down. On the end, there is a through-window window, three parallel-arranged glass, which are packaged into one body through a window frame to form a composite glass curtain wall; the end of the glass curtain wall or the lower end is provided with a through-window window, or is provided with Exhaust bidirectional fan; the high voltage positive electrode of the positive electric high voltage generator is electrically connected with the conductive adhesive film layer sandwiched in the laminated glass of the composite heat conduction electrostatic induction interlayer; when the outdoor air passes through the upper and lower inner wind inlet windows to enter the outer side In the air inlet and outlet heat exchanger, the dust in the outdoor air is combined with the heat-conducting electrostatic induction glass, and the high-voltage positive electricity is carried by the bonded conductive film. The negative electric layer is induced on the surface of the composite heat conduction static induction glass on the outer air inlet and outlet air passage, so that the dust in the air flowing through the outer air inlet and outlet air passage is induced into positively charged dust and is compounded. The surface of the heat-conducting electrostatic induction glass is adsorbed, so that the air entering the indoor environment is purified; in the air inlet window on the inner side of the upper air inlet duct of the upper exhaust air window ventilation module assembly, an upper inlet window plasma purifier is provided; In the inner air inlet window of the upper air inlet duct of the exhaust air window ventilation module assembly, an upper inlet window plasma purifier is provided; and the inner side of the lower air inlet duct of the lower exhaust air window ventilation module assembly is lowered In the wind window, there is a lower inlet window plasma purifier generating electrode; the plasma purifier generates an electrode whose pole voltage is higher than the collector voltage, so that it further purifies the air on the collector and enriches the enriched air Containing negative ions; When the ash reaches the set value 可, the collector of the plasma purifier can be removed. The pole and the generating pole are cleaned and restored; the left and right sides of the glass curtain wall are provided with a roulette chain transmission device, and the chain of the roulette chain transmission device is equidistantly symmetrically arranged to connect the roulette chain transmission devices on both sides. a pair of air passage cleaning scrapers disposed in the two-layer air passage interlayer to form a cleaning assembly; the upper end of the glass curtain wall is connected to the wind window, and is provided with a cleaning assembly including a water pipe, a valve, a washing water pipe, and a washing water nozzle; Or a cleaning component including a water pipe, a water storage tank, a valve, a booster pump, a washing water pipe, and a washing water nozzle; the washing water is directly discharged, or is sent back to the water storage tank for recycling; the upper end of the glass curtain wall is penetrated through the wind window , an upper exhaust air window ventilation module assembly including an upper communication damper, an inner upper inlet window, an upper inlet air duct, an inner upper exhaust window, and an upper exhaust duct; the lower end of the glass curtain wall penetrates the wind window, The utility model comprises a lower exhaust air window ventilation module assembly comprising a lower contact damper, an inner lower inlet window, a lower inlet air duct, a lower exhaust window and a lower exhaust duct; the composite glass At the lower end of the wall, there is a cleaning sewage discharge device; when the dust on both sides of the composite heat conduction static induction glass reaches the set amount, the cleaning component device is sprayed on the glass on both sides of the two ventilation air passages, and the water is cleaned. The air duct cleaning scraper of the ash component repeatedly scrapes the water and removes the ash on both sides of the two ventilation air ducts; the scraped gray water is collected and discharged in the cleaning sewage discharge device at the bottom of the composite glass curtain wall.

In summer, the indoor temperature is low. Therefore, when the indoor cold air is heated, it will naturally rise. When the outdoor temperature is high, it will naturally sink when the outdoor hot air cools. In summer, the upper windshield is switched to the outer exhaust heat exchange. The air duct, linkage closes the upper inner air inlet window and the inner upper exhaust window, and links the upper outer side upper air inlet window and the outer upper air exhaust window; the lower windshield is switched to switch to the inner exhaust heat exchange air passage, linkage Close the lower outer exhaust window and the outer lower air inlet window, and connect the lower inner exhaust window and the inner lower air inlet window; make the indoor cold air pass through the inner lower exhaust window and enter the inner exhaust heat exchange air passage. Through the composite heat conduction static induction glass, the indoor discharge cold air is heated, the temperature is raised, the indoor discharge cold air temperature rises, naturally rises, and is discharged through the outer upper exhaust window; the outdoor hot air passes through the outer upper inlet window, enters The outer exhaust heat exchange air passage, through the composite heat conduction static induction glass, cools the outdoor hot air, lowers its temperature, and enters the hot air temperature outside. Reduce, naturally sink, through the inlet into the room inside the windshield, to achieve natural ventilation of indoor and outdoor. In winter, the indoor temperature is high. Therefore, when the indoor hot air is cooled, it will naturally sink. The outdoor temperature is low. When the outdoor cold air is heated, it will rise naturally. In winter, the upper windshield is switched to the inner exhaust. The hot air duct is connected with the upper air inlet window and the inner upper exhaust window of the upper end of the linkage, and the upper outer wind inlet window and the outer upper air exhaust window are closedly connected; the windshield is switched downward, and the outer exhaust heat exchange air passage is switched. Linking the lower side of the lower side of the lower side of the wind inlet window, the outer side of the lower exhaust window, linkage to close the lower inner side of the lower exhaust window, the inner lower inlet window; so that the indoor hot air through the inner exhaust window, into the inside intake and exhaust The hot air duct, through the composite heat conduction static induction glass, cools the indoor discharge hot air, causes its temperature to drop, the indoor discharge hot air temperature decreases, naturally sinks, and is discharged through the outer lower exhaust window; the outdoor cold air passes through the outside The wind window enters the outer inlet and outlet heat exchange air passage, and through the composite heat conduction static induction glass, the outdoor enters the cold air to raise the temperature, and the temperature rises, and the outdoor enters Cold temperature, naturally rises, enters the room through the windshield inner progress, to achieve natural ventilation of indoor and outdoor. In the spring and autumn, through the temperature sensing device to measure the indoor and outdoor temperature, through the servo device, the upper and lower switching windshield is automatically switched to realize the automatic linkage switching between the intake and exhaust dampers, automatic ventilation; or through the glass curtain wall end , or the lower end is connected to the wind window, and the two-way fan with intake and exhaust is forced to ventilate.

When the outdoor air enters the outer air inlet and heat exchange air passage through the upper and inner lower air inlet windows, the dust in the outdoor air is combined with the heat conduction static induction glass, and the high pressure positive electric induction carried by the sandwiched conductive film is introduced into the air on the outer side. On the surface of the composite heat conduction static induction glass of the heat exchange air passage, a negative electricity layer is induced, so that the dust in the air flowing through the outer air inlet heat exchange air passage is induced into positively charged dust, and is adsorbed by the surface of the composite heat conduction static induction glass. , the air that enters the room outdoors is purified.

When the dust on both sides of the composite heat conduction static induction glass reaches the set amount, the cleaning component device is sprayed on the glass on both sides of the two ventilation air passages, and the cleaning blade is cleaned by the air passage of the cleaning assembly. The glass on both sides of the air duct is repeatedly scraped and ash removed; the scraped gray water is collected and discharged in the cleaning sewage discharge device at the bottom of the composite glass curtain wall.

[Claim 3] A heat-conducting convection-type static induction multi-function composite composite glass curtain wall according to claim 1 or 2, wherein: the inner side of the glass curtain wall is in the upper and lower inlet window components, and Providing a plasma generating pole, a plasma collecting pole electrical conductor folding plate set, or an electric conductor fan, and a plasma high voltage generator to form a plasma air purifying combination module;

The plasma high voltage generator is a generator capable of generating positive and negative high voltage electricity, and the plasma high voltage generator is disposed in the casing of the combined module; the plasma generating pole electrically insulated from the earth is a metal needle array electrode, metal a wire mesh electrode, a wire-shaped, zigzag-shaped, spur-type or fishbone structure electrode; a plasma generating pole connected to the high-voltage negative electrode; a plasma generating pole integrally provided with the combined module casing, or a split combination;

a plasma collector pole electrical conductor flap set, or an electrical conductor fan, is an electrical conductor flap group or an electrical conductor fan electrically insulated from the plasma generating pole, the combined module housing, the ground; the plasma collecting pole electrical conductor folding plate set , or an electric conductor fan, electrically connected to the positive electrode of the plasma high voltage generator, through a brush; a high voltage negative electrode electrically connected to the plasma, the absolute value of the voltage is higher than the plasma collector electrode assembly , or the high-voltage positive electrode electrically connected to the electric conductor fan, the absolute value of the voltage; the plasma collecting pole electrical conductor folding plate set, or the electric conductor fan is made of a metal material, or a plastic material as a substrate, in the substrate The upper layer is coated with a metal or carbon material film layer, or the plasma collector pole electrical conductor flap group, or the electric conductor fan is made of a composite conductive material, or the plasma collector pole electrical conductor flap group, or the electric conductor fan is The plastic electrically insulating substrate is made of a composite conductive film material; the electrical component is electrostatically disposed in the casing of the air outlet side combination module of the modular module casing Shall grid; electrostatic induction electrical conductor grid and the air outlet side of the assembly module housing electrically insulated integrally provided, electrostatic induction, or electrical conductor grid and the air outlet side of the module housing electrically insulating composition separately provided in combination;

When the 等离子体等离子体 plasma air purification combination module hurricane first passes through the inlet side of the combined module casing, 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 Makes various pollutants in the air also negatively charged; air with a large amount of negative ions and ozone, plasma collector electrode fan with high voltage positive charge, negatively charged contaminants in the air, and positively charged plasma collection A pole set of electric conductors, or an electric conductor fan, violently collides with contact discharges, kills bacterial viruses, decomposes organic matter, and traps various contaminants with negative ions on the fins of the plasma collecting electrode fan, and the air is primary purified. The airflow containing charged contaminants flows forward, The electric conductor electrostatic induction grid in the casing of the air outlet side combination module of the combined module casing; the negative surface induces a negative charge film layer, adsorbs a positive charge, the leeward surface electrostatically induces a positive charge film layer, and adsorbs a negative charge to realize air After the secondary purification and discharge; when the plasma air purification module reaches a certain amount of ash, the plasma generator, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[Claim 4] A heat-conducting convection-ventilated electrostatic induction multi-functional composite glass curtain wall according to claim 1 or 2, wherein: the inside and the bottom inlet window assembly of the glass curtain wall are sequentially provided with plasma a body generator, a fan motor electrically insulated from the plasma collector active fan, a plasma high voltage generator, and a plasma air purification combination module; the plasma high voltage generator is connected to the power source to generate positive and negative high voltage power The generator is provided with a plasma generator pole electrically insulated from the combined module casing, the motor, the fan, and the base; the plasma generation includes a metal needle array electrode, a metal wire mesh electrode, a wire-shaped, zigzag-shaped, spur-type or fishbone structure electrode; a plasma generating pole connected to the high-voltage negative electrode; the plasma generating pole and the inlet side combined module casing are integrally provided, or divided Body combination setting;

The fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, the earth, the fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor; the fan and the plasma high voltage electric generation The positive pole of the device is electrically connected to the fan through a brush; 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 fan is made of a metal material, or the plastic material is used as a base The material is coated on the substrate with a metal or carbon material film layer, or the fan is made of a composite conductive material, or the 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 combined module casing, 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 electrically insulated on the surface of the metal material. Made of materials, or made of a plastic material as a substrate, coated with a metal or carbon material film on the substrate, or the conductive grid is made of a composite conductive material, or the conductive mesh is a plastic electrically insulating substrate, Made of composite conductive film material; conductive The grid and the outlet side combination module housing are electrically insulated and integrated, or the conductive grid and the outlet side combination module housing are electrically insulated and separated;

The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 in the air. Various contaminants are also negatively charged; air with a large amount of negative ions and ozone is drawn by a plasma collecting electrode fan with a high voltage positive charge, air and a positively charged plasma collecting electrode fan, violent collision contact discharge, kill Bacterial virus, decomposes organic matter, and traps various pollutants with negative ions on the fins of the fan, and the air is purified first;

After the air is pressurized by the active collector fan with the high-voltage positively charged plasma, the air enters the conductive grid, induces a negatively charged surface on the conductive grid, and further adsorbs positively charged various pollutants to achieve air. Second purification;

Or the conductive grid is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the conductive mesh is made of a metal material, or the plastic material is used as a base material, The material is coated with a metal or carbon material film layer, or the conductive grid is made of a composite conductive material, or the conductive grid is made of a plastic electrically insulating substrate, and the composite conductive film material is made; the conductive grid and the inlet side The modular module housing is electrically insulated and integrated, or the conductive grid and the inlet side combination module housing are electrically insulated and separated; the conductive grid is electrically connected to the positive electrode of the plasma high voltage generator; the high voltage of the plasma high voltage generator The absolute value of the negative electrode voltage is higher than the absolute value of the high voltage positive electrode voltage;

The fan is an electrostatic induction collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, the earth, the fan is an electric conductor fan, the fan is made of a metal material, or the fan is electrically insulated on the surface of the metal material. Made of materials, or made of plastic material as a substrate, coated with a metal or carbon material film on the substrate, or the fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate, the composite conductive film material The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 causes the air to be filled with negative ions, and Various pollutants in the air are also negatively charged; A large amount of negative ions and ozone air are adsorbed by the high-voltage positively charged plasma collecting electrode conductive grid, air and positively charged plasma collecting electrode conductive grid, violent collision contact discharge, killing bacterial virus, decomposing organic matter, and The adsorption of various contaminants with negative ions is trapped on the conductive grid, and the air is purified first; after the air is purified by the positive electrode conductive grid, the air enters the conductive fan, and a negatively charged surface is induced on the conductive fan to further adsorb Positively charged various pollutants to achieve a second purification of air;

Discharged through the grille exhaust vent; when the plasma air purification module reaches a certain amount of ash, the plasma generator, the plasma collecting electrode fan, the combined module casing, and the air filter are cleaned and restored.

[Claim 5] A heat-conducting convection-ventilated electrostatic induction dust-absorbing multifunctional composite glass curtain wall according to claim 1 or 2, wherein: the inside and the bottom wind inlet window assembly of the glass curtain wall are sequentially provided with plasma a plasma generating grid, a plasma collecting grid fan, a passive dust collecting electric conductor fan, a plasma high voltage generator, and a plasma air purifying combination module; a plasma high voltage generator, a generator capable of generating positive and negative high voltage electricity, plasma The body high voltage generator is disposed in the casing of the combined module; the plasma generating pole electrically insulated from the earth includes a metal needle array electrode, a wire mesh electrode, a wire shape, a zigzag type, a thorn type or a fish bone type structure An electrode; a plasma generating pole connected to the high voltage negative electrode; the plasma generating pole being integrally provided with the combined module casing, or a split combination;

The fan is an electrostatic induction collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, the earth, the fan is an electric conductor fan, the fan is made of a metal material, or the fan is electrically insulated on the surface of the metal material. Made of materials, or made of plastic material as a substrate, coated with a metal or carbon material film on the substrate, or the fan is made of a composite conductive material, or the fan is a plastic electrically insulating substrate, the composite conductive film material Prepared; a conductive fan is disposed after the plasma generating electrode, before the plasma collecting electrode;

The conductive grid is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the conductive mesh is made of a metal material, or the plastic material is used as a substrate, in the substrate The upper conductive metal or carbon material film layer is formed, or the conductive mesh grid is made of a composite conductive material, or the conductive mesh grid is a plastic electrically insulating substrate, and the composite conductive film is The material is made of electrically conductive grid and the air outlet side combination module housing is electrically insulated, or the conductive grid and the air outlet side combination module housing are electrically insulated and separated; the conductive grid and the plasma high voltage electric generator positive pole Electrical connection; 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 plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 in the air. Various pollutants are also negatively charged; air with a large amount of negative ions and ozone enters the conductive fan, and on the surface of the conductive fan adjacent to the plasma generating pole, a positively charged surface is induced, and various negatively charged ones are adsorbed. Contaminant; on the other side of the conductive fan, on the surface of the conductive fan adjacent to the positively charged plasma collecting electrode conductive grid, a negatively charged surface is induced to adsorb positively charged various pollutants to achieve air Primary purification

After being cleaned by the conductive fan induction collecting electrode, the air enters the plasma collecting electrode conductive grid with high voltage positive electricity, the air and the positively charged plasma collecting electrode conductive grid, violent collision contact discharge, killing bacterial virus, decomposing organic matter , and adsorbing various pollutants with negative ions on the conductive grid to further purify the air; or the conductive grid is electrically insulated from the combined module casing, the plasma generator, the base, the motor, and the earth. The electrostatic induction collecting electrode, the conductive 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 is coated on the substrate. The layer is made of, or the conductive grid is made of a composite conductive material, or the conductive grid is made of a plastic electrically insulating substrate, and the composite conductive film material is made; the conductive grid is integrated with the wind-side combination module casing, or Body combination setting; the fan is electrically insulated from the combined module housing, plasma generator, base, motor, earth The ion collecting electrode, the fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor; the fan and the positive electrode of the plasma high voltage generator are electrically connected to the fan through a brush; the fan is made of a metal material, or the plastic is The material is used as a substrate, coated with a metal or carbon material film layer on the substrate, or the fan is made of a composite conductive material, or the fan is made of a plastic electrically insulating substrate, and the composite conductive film material is made; plasma high voltage electricity Generator high voltage The absolute value of the negative electrode voltage is higher than the absolute value of the high voltage positive electrode voltage; the plasma air purification combination module first passes through the inlet side of the combined module casing, and then passes through a plasma generating pole with a high voltage negative voltage, the plasma generating pole Discharge air, ionize air, fill air with negative ions, and make various pollutants in the air negatively charged; air with a large amount of negative ions and ozone enters the conductive grid, and conducts electricity adjacent to the plasma. On the surface of the grid, a positively charged surface is induced to adsorb negatively charged contaminants; on the other side of the conductive grid, on the surface of the conductive grid adjacent to the positively charged plasma collecting electrode conductive fan Inducing a negatively charged surface, adsorbing positively charged various pollutants, and achieving primary purification of air; air is purified by a conductive grid-inductive collecting electrode, and then enters a plasma collecting electrode with a high-voltage positive electric conducting fan, air And a positively charged plasma collecting electrode conductive fan, violent collision contact discharge, killing bacterial virus, decomposition The organic matter, and the adsorption of various pollutants with negative ions are trapped on the conductive fan to further achieve secondary purification of the air;

[Claim 6] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall according to claim 1 or 2, wherein: the inside and the bottom wind inlet window assembly of the glass curtain wall are sequentially provided with plasma a body generating pole, a plasma grid collecting electrode, an active dust collecting electric conductor fan connected to the fan motor, and a plasma high voltage generator forming a plasma air purifying combination module;

The plasma high-voltage generator is a generator that is connected to the power source and can generate positive and negative high-voltage electricity; the inner air inlet of the air inlet side combination module casing is provided with the combined module casing, the motor, the fan, and the machine base. Insulated plasma generator pole; plasma generation includes metal needle array electrode, wire mesh electrode, wire, zigzag, thorn or fishbone structure electrode; plasma generator, connected to high voltage negative electrode The plasma generating pole is integrally arranged with the inlet side combined module casing, or is arranged in a separate body; the conductive grid is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground. The conductive grid 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 grid is made of a composite conductive material, or the conductive grid is The plastic electrically insulating substrate is made of a composite conductive film material; the conductive grid is electrically insulated from the casing of the inlet side combination module, or the conductive grid is combined with the inlet side of the inlet side module; The grid is electrically connected to the positive electrode of the plasma high voltage generator

The fan is a plasma collecting electrode electrically insulated from the combined module housing, the plasma generating pole, the base, the motor, and the ground, the fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor; the fan and the plasma high voltage electric The negative pole of the generator is electrically connected to the fan through a brush; the 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 fan is made of a composite conductive material. The anode or the fan is made of a composite conductive film material on a plastic electrically insulating substrate; 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 plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 in the air. Various pollutants are also negatively charged; air with a large amount of negative ions and ozone is adsorbed by a high-voltage positively charged plasma collecting electrode conductive grid, air and a positively charged plasma collecting electrode conductive grid, violent collision contact Discharge, kill bacterial virus, decompose organic matter, and trap various pollutants with negative ions on the conductive grid, and the air is primary purified;

After being cleaned by the positive electrode conductive grid, the air enters the conductive fan, and the air and the negatively charged plasma collecting electrode fan collide with each other, killing the bacterial virus, decomposing the organic matter, and adsorbing and trapping various pollutants with positive ions. On the fins of the fan, the air is further purified, and the purified air is discharged through the combined module casing;

Or the fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor; the fan and the plasma high voltage electric The positive pole of the generator is electrically connected to the fan through a brush; the 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 fan is made of a composite conductive material. Into, or fan for plastic The electro-conductive insulating substrate is made of a composite conductive film material; the conductive fan and the positive electrode of the plasma high-voltage electric generator are electrically connected to the conductive fan through the brush;

The conductive grid is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the conductive mesh is made of a metal material, or the plastic material is used as a substrate, in the substrate The upper layer is coated with a metal or carbon material layer, or the conductive grid is made of a composite conductive material; the conductive grid is electrically insulated from the inlet side combination module casing, or the conductive grid and the inlet side combined modular machine The shell is electrically insulated and separated; the conductive grid 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; The purifying combination module first passes through the inlet side of the combined module casing, 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 causes various pollutions in the air. The object is also negatively charged; the air with a large amount of negative ions and ozone, and the collector electrode with a high voltage positive charge, the violent fan Collision contact discharge, killing bacteria and viruses, decomposing organic matter, and trapping various pollutants with negative ions on the conductive fan, the air is purified first; after the air is purified by the positive electrode conductive fan, the air flowing through the conductive fan continues Traveling, and negatively charged plasma collecting electrode conductive grid, contact discharge, further killing bacterial virus, decomposing organic matter, and trapping various pollutants with positive ions on the conductive grid, air is conducting through the negative electrode After the grid is further purified, it is discharged through the combined module casing grille vent; when the plasma air purifying module reaches a certain amount of ash, the plasma generating pole, the plasma collecting electrode fan, the combined module casing, and the air The filter is cleaned and restored.

[Claim 7] A heat-conducting convection-ventilated electrostatic induction dust-absorbing multifunctional composite glass curtain wall according to claim 1 or 2, wherein: the inside and the bottom inlet window assembly of the glass curtain wall are sequentially provided with plasma a body generating pole, a plasma grid collecting electrode, an active dust collecting electric conductor fan connected to the fan motor, and a plasma high voltage generator forming a plasma air purifying combination module;

A plasma high-voltage generator is a generator that is connected to a power source and can generate positive and negative high-voltage electricity; The inner air inlet of the wind side combination module casing is provided with a plasma generating pole electrically insulated from the combined module casing, the motor, the fan and the base; the plasma generation includes a metal needle array electrode, a wire mesh electrode a wire-shaped, zigzag-shaped, thorn-shaped or fishbone structure electrode; a plasma generating pole connected to the high-voltage negative electrode; a plasma generating pole and an inlet-side combined module casing being integrally provided, or a split combination;

The one side conductive grid is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the one side conductive grid is made of a composite electric insulating film layer on the side of the metal material surface Or using a plastic material as a substrate, coating a metal or carbon material film layer on one side of the substrate, or one side conductive grid is a composite electrically insulating film layer on one side of the composite conductive material; The grid and the inlet side combination module housing are electrically insulated, or one side of the conductive grid and the inlet side combined module housing are electrically insulated and separated; the one side conductive grid is combined with the plasma generating pole adjacent side The electric insulating film layer is electrically connected to 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 fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, the earth, the fan is an electric conductor fan, and the fan is electrically insulated from the rotor shaft of the motor; the fan and the plasma high voltage electric generation The positive pole of the device is electrically connected to the fan through a brush; the 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 fan is made of a composite conductive material. , or the fan is made of a composite electrically conductive film material on a plastic electrically insulating substrate; 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 plasma air purification combination module wind First, through the inlet side of the combined module casing, and 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 negative. Electric charge; air with a large amount of negative ions and ozone, electrically conductive on the side of the side adjacent to the plasma generating pole The gate insulating film layer, the electrostatically induced positively charged film layer adsorbs, the conductive side of the conductive grid on the side of the collector electrode with high voltage and negative charge, adsorbs positively charged contaminants, repels negatively charged contaminants, and air Get primary purification; The air flowing through the conductive grid and the positively charged plasma collecting electrode conductive fan violently collide with the contact discharge, kill the bacterial virus, decompose the organic matter, and trap the various pollutants with negative ions on the conductive fan, the air is After further purification by the positive electrode conductive fan, it is discharged through the combined module casing;

Or the fan is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the fan is a conductive fan on one side, and one side of the conductive fan is electrically insulated from the rotor shaft of the motor; The conductive fan is made of a composite electric insulating film layer on one side of the metal material, or the fan is made of a composite electric insulating film layer on one side of the composite conductive material; the conductive fan is adjacent to the plasma generating pole, and the electric insulating film layer is composited The conductive fan is electrically connected to the negative electrode of the plasma high-voltage electric generator, and the positive insulating film layer is electrostatically induced on the adjacent side of the plasma generating pole through the electrically insulating film layer of the conductive fan; the conductive fan and the plasma high-voltage electric generator negative electrode, Electrically connected to the conductive fan by a brush;

The conductive grid is a plasma collecting electrode electrically insulated from the combined module casing, the plasma generating pole, the base, the motor, and the ground; the conductive mesh is made of a metal material, or the plastic material is used as a substrate, in the substrate The coating is made of a metal or carbon material film layer, or the conductive grid is made of a composite conductive material, or the conductive grid is made of a plastic electrically insulating substrate, and the composite conductive film material is made; the conductive grid is combined with the wind side The module housing is electrically insulated and integrated, or the conductive grid is electrically insulated and separated from the outlet side combination module housing; the conductive grid is electrically connected to the positive electrode of the plasma high voltage generator; the high voltage negative of the plasma high voltage generator The absolute value of the electrode voltage is higher than the absolute value of the high voltage positive electrode voltage;

The plasma air purification combination module first passes through the air inlet side of the combined module casing, 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 in the air. Various pollutants are 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, with high voltage and negative electricity collection The conductive fan side of the electrode adsorbs positively charged contaminants, repels negatively charged contaminants, and the air is primary cleaned; the air flowing through the conductive fan continues to travel, and the positively charged plasma collecting electrode conductive grid violently collides Contact discharge, further killing the bacterial virus, decomposing The organic matter, and the adsorption of various pollutants with negative ions are trapped on the conductive grid, and the air is further exhausted through the positive electrode conductive grid, and then discharged through the combined module casing grille exhaust port; when the plasma air purification combination The module reaches a certain amount of ash, and cleans and restores the plasma generating pole, the plasma collecting electrode fan, the combined module casing, and the air filter.

[Claim 8] A heat-conducting convection-ventilated electrostatic induction vacuum multi-functional composite glass curtain wall according to claim 1 or 2, wherein: an electrostatic induction grid of an electrical conductor of an air outlet of the combined module casing forms an electrostatic induction grid In the dust collector, the polarity of the film layer of the electrostatic induction grid dust collector is opposite to the polarity of the adjacent electrode; the air outlet side of the fan, through the buckle and the inner side of the glass curtain wall, the upper and lower inlet window combination module housing comprises plastic The plasma high-voltage generator is provided with a metal shield and grounded; the plasma high-voltage generator is installed in the casing of the combined module; the fan includes an axial fan, a cross-flow fan; and the motor rotor shaft and the fan spindle are connected at the end Some permanent magnet toothed discs, or toothed discs made of ferromagnetic material, the fan shaft connecting end is a toothed disc corresponding to the permanent magnet toothed disc of the motor rotor shaft, and the fan shaft is connected with the end toothed disc , a gingival disc made of ferromagnetic material, or a guillotine disc made of permanent magnet material; a permanent magnet toothed disc and a fan main for the rotor shaft of the motor The shaft is connected to the end of the permanent magnet toothed disc. The connecting surface is provided with an electrically insulating material layer.

[Claim 9] A heat-conducting convection-ventilated electrostatic induction multi-functional composite glass curtain wall according to claim 1 or 2, wherein: the plasma collecting electrode fan is connected to the positive electrode of the plasma high-voltage electric generator. The brush 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 combo module casing is provided with ferromagnetic material or permanent magnet. a buckle, a plasma generating pole, a ferromagnetic material corresponding to a buckle on the casing of the inlet side combination module, or a buckle made of a permanent magnet, a plasma generating pole and a casing module of the inlet side, The split combination is pulled by the daughter card snap.

[Claim 10] A heat-conducting convection-ventilated electrostatic induction multi-functional composite glass curtain wall according to claim 1 or 2, wherein: the electric fan is provided with a total shut-off, a wind regulation, a fixed enthalpy, and an anion generation Keys or remote control; the remote control includes a mobile phone remotely controlled via a wireless network; the motor is wrapped in a combined module housing, and the stator of the motor is fixed to the combined module housing The stator core of the motor is grounded.