CN105780985B

CN105780985B - Heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall

Info

Publication number: CN105780985B
Application number: CN201610123365.2A
Authority: CN
Inventors: 徐宝安
Original assignee: Zibo Huanneng Hikeen Environmental Protection Technology Service Co ltd
Current assignee: Zibo Huanneng Hikeen Environmental Protection Technology Service Co ltd
Priority date: 2016-03-06
Filing date: 2016-03-06
Publication date: 2020-05-19
Anticipated expiration: 2036-03-06
Also published as: CN105780985A; WO2017152696A1

Abstract

Because of the temperature difference between the indoor and outdoor environment and the requirement of fresh air rich in oxygen, forced ventilation must be carried out between the indoor and outdoor environment. The air which is not purified is processed with half the effort if the indoor purification treatment is carried out. Aiming at the defects of the prior art, the invention aims to provide a heat conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall which can not only effectively remove solid pollutants and gaseous pollutants in air, but also be used as a lighting sound insulation glass curtain wall. The multifunctional composite glass curtain wall with the heat conduction, convection and ventilation functions and the electrostatic induction dust collection function can efficiently exchange required fresh air rich in oxygen under the energy-saving state, can realize air purification, is low in cost, can collect light and insulate sound, and realizes high strength and multiple functions of the glass curtain wall.

Description

Heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall

Technical Field

The invention relates to a heat conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall, in particular to a high-efficiency energy-saving ventilation functional glass curtain wall and a plasma air purification device.

Background

Because of the temperature difference between the indoor and outdoor environment and the requirement of fresh air rich in oxygen, forced ventilation must be carried out between the indoor and outdoor environment. The air which is not purified is processed with half the effort if the indoor purification treatment is carried out. Therefore, the air treatment, which must be exchanged from the source, is reused with the highest efficiency, the most beneficial for health and the lowest cost, which is not the technology at present. If the facility is required to have the functions of air exchange, lighting, sound insulation, air purification and energy conservation, the product still falls into the blank.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a heat conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall which can not only effectively remove solid pollutants and gaseous pollutants in air, but also be used as a lighting sound insulation glass curtain wall.

The technical scheme adopted by the invention for solving the technical problems is as follows: a heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall comprises a window frame, a glass curtain wall and a ventilation opening. The glass curtain wall is a single-layer or composite solid single-layer or hollow indoor side glass, a composite heat conduction electrostatic induction sandwiched glass sandwiched with a conductive bonding film layer, at least a single-layer or composite solid single-layer or hollow outdoor side glass, the glass curtain wall is sealed and separated into two layers of ventilation duct interlayers which are arranged in parallel through sealing heads arranged at two ends at intervals, a through air window is arranged on the upper end and the lower end of the glass curtain wall, and three pieces of glass arranged in parallel at intervals are packaged into a whole through a window frame to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through air window, or is provided with a bidirectional air inlet and exhaust fan; the high-voltage positive electrode of the positive electricity high-voltage generator is electrically connected with a conductive bonding film layer clamped in the composite heat conduction electrostatic induction laminated glass; when outdoor air enters the outer air inlet heat exchange air duct through the outer upper air inlet window and enters a room from the inner lower air inlet window, dust in the outdoor air is induced by the composite heat-conduction electrostatic induction glass, and a negative electric layer is induced on the surface of the composite heat-conduction electrostatic induction glass of the outer air inlet heat exchange air duct through high-voltage positive electricity induction carried by the sandwiched and bonded conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust and is adsorbed by the surface of the composite heat-conduction electrostatic induction glass, and the outdoor air entering the room is purified; or water is sprayed on the surface of the composite heat conduction electrostatic induction glass of the outer air inlet heat exchange air duct to form a water film, a negative electricity layer is induced, so that dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust, and the dust is adsorbed by the surface water film of the composite heat conduction electrostatic induction glass, so that the air entering the room outdoors is purified; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device consisting of a driving wheel disc, a driven wheel disc and a scraper transmission chain cable, the chain cable of the wheel disc chain cable transmission device is symmetrically provided with the chain cable transmission devices connected with the wheel disc chain cables at two sides at equal intervals, and a pair of ventilation channel cleaning scrapers are respectively arranged in a sandwich layer of two layers of ventilation channels to form a ventilation channel cleaning assembly; the upper end head of the glass curtain wall is provided with a cleaning assembly comprising a tap water pipe, a valve, a cleaning water pipe and a cleaning water nozzle on the ventilation window; or a cleaning component comprising a tap water pipe, a water storage tank, a valve, a booster pump, a cleaning water pipe and a cleaning water nozzle; the cleaning water is directly discharged or is returned to the water storage tank for recycling after being treated; the upper end head of the glass curtain wall is provided with an upper air inlet and outlet air window ventilation module assembly which comprises an upper connecting air door, an inner side upper air inlet window, an upper air inlet duct, an inner side upper air outlet window and an upper air outlet duct; the lower end head of the glass curtain wall is provided with a lower air inlet and outlet window ventilation module component which comprises a lower communication air door, an inner side lower air inlet window, a lower air inlet duct, an inner side lower air outlet window and a lower air outlet duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device; when the surfaces of the two sides of the composite heat conduction electrostatic induction glass adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, cleaning a scraper blade through an air channel of the ash removal component, and repeatedly wiping water and removing ash from the glass on the two sides of the two air exchange air channels; the scraped grey water is collected in a cleaning sewage collecting and discharging device at the bottom of the composite glass curtain wall and is discharged.

In summer, the indoor temperature is low, so that the indoor cold air can naturally rise after being heated; the outdoor temperature is high, and the outdoor hot air can naturally sink after being cooled; in summer, the upper wind-shielding partition plate is switched to the outer side exhaust heat exchange air channel, the upper wind-shielding window on the inner side of the upper end and the upper wind-shielding window on the inner side are closed in a linkage manner, and the upper wind-shielding window on the outer side of the upper end and the upper wind-shielding window on the outer side are opened in a linkage manner; switching a lower wind shielding partition plate to an inner side exhaust heat exchange air channel, closing an outer side lower exhaust window and an outer side lower air inlet window of the lower end in a linkage manner, and opening an inner side lower exhaust window and an inner side lower air inlet window of the lower end in a linkage manner; the cold air in the room enters the inner side exhaust heat exchange air channel through the inner side lower exhaust window, and is heated through the composite heat conduction electrostatic induction glass, so that the temperature of the cold air in the room is raised, the cold air naturally rises and is exhausted through the outer side upper exhaust window; outdoor hot air enters the outer side exhaust heat exchange air channel through the outer side upper air inlet window, the temperature of the outdoor hot air is reduced through the composite heat conduction electrostatic induction glass, the outdoor hot air naturally sinks, and the outdoor hot air enters the room through the inner side lower air inlet window, so that indoor and outdoor natural ventilation is realized.

In winter, the indoor temperature is high, so that the indoor hot air can naturally sink after being cooled; the outdoor temperature is low, and the outdoor cold air can naturally rise after being heated; in winter, the upper wind-shielding partition plate is switched to the inner side exhaust heat exchange air channel, the upper wind-shielding window on the inner side of the upper end and the upper wind-shielding window on the inner side are opened in a linkage manner, and the upper wind-shielding window on the outer side of the upper end and the upper wind-shielding window on the outer side are closed in a linkage manner; the lower switching wind shielding partition plate is switched to the outer side exhaust heat exchange air channel, the lower outdoor side lower air inlet window and the outer side lower air outlet window of the lower end are opened in a linkage manner, and the lower inner side lower air outlet window and the lower inner side air inlet window of the lower end are closed in a linkage manner; the hot air in the room enters the air inlet and outlet heat exchange air duct through the upper exhaust window on the inner side, and is cooled through the composite heat conduction electrostatic induction glass, so that the temperature of the hot air in the room is reduced, naturally sinks and is exhausted through the lower exhaust window on the outer side; outdoor cold air enters the outer side air inlet and exhaust heat exchange air channel through the outer side lower air inlet window, the temperature of the outdoor cold air is raised through the composite heat conduction electrostatic induction glass, the temperature of the outdoor cold air is raised and naturally rises, and the outdoor cold air enters the room through the inner side upper air inlet window, so that indoor and outdoor natural ventilation is realized.

In spring and autumn, the indoor and outdoor temperature is measured through the temperature sensing device, the vertical switching wind shielding partition plate is automatically switched through the servo device, and automatic linkage switching and automatic ventilation of the air inlet and outlet doors are realized; or the air is forcibly ventilated by an air inlet and exhaust bidirectional fan arranged on the end head of the glass curtain wall or the lower end head penetrating through the ventilation window.

A heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall comprises a window frame, a glass curtain wall and a ventilation opening. The glass curtain wall is single-layer or hollow indoor side glass, composite heat conduction electrostatic induction sandwiched glass sandwiched with conductive bonding film layers, single-layer or hollow outdoor side glass, and is supported at intervals by end sockets arranged at two ends, and is packaged and separated into two layers of ventilation duct interlayers arranged in parallel, the upper end and the lower end of the glass curtain wall are provided with through air windows, and three pieces of glass arranged in parallel at intervals are packaged into a whole through a window frame to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through ventilation window, or is provided with a bidirectional air inlet and exhaust fan; the high-voltage positive electrode of the positive electricity high-voltage generator is electrically connected with a conductive bonding film layer clamped in the composite heat conduction electrostatic induction laminated glass; when outdoor air enters the outer air inlet heat exchange air duct through the outer upper air inlet window and enters a room from the inner lower air inlet window, dust in the outdoor air is induced by the composite heat-conduction electrostatic induction glass, and a negative electric layer is induced on the surface of the composite heat-conduction electrostatic induction glass of the outer air inlet heat exchange air duct through high-voltage positive electricity induction carried by the sandwiched and bonded conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust and is adsorbed by the surface of the composite heat-conduction electrostatic induction glass, and the outdoor air entering the room is purified; an upper air inlet window plasma purifier is arranged in an upper air inlet window on the inner side of an upper air inlet duct of the upper air inlet and outlet air inlet window air exchange module assembly; a lower air inlet window plasma purifier generating electrode is arranged in a lower air inlet window at the inner side of a lower air inlet duct of the lower air inlet and outlet air window ventilation module component; the voltage of the generating electrode of the plasma purifier is higher than that of the collector, so that the plasma purifier further purifies air on the collector and makes the supplemented air rich in negative ions; when the deposited dust reaches a set value, a collector and a generator of a plasma purifier generating electrode can be detached for cleaning and reduction; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device, chain cables of the wheel disc chain cable transmission device are symmetrically provided with the wheel disc chain cable transmission devices connected with the two sides at equal intervals, and a pair of air duct cleaning scrapers are respectively arranged in an interlayer of the two air ducts to form an ash cleaning assembly; the upper end head of the glass curtain wall is provided with a cleaning assembly comprising a tap water pipe, a valve, a cleaning water pipe and a cleaning water nozzle on the ventilation window; or a cleaning component comprising a tap water pipe, a water storage tank, a valve, a booster pump, a cleaning water pipe and a cleaning water nozzle; the cleaning water is directly discharged or is returned to the water storage tank for recycling after being treated; the upper end head of the glass curtain wall is provided with an upper air inlet and outlet air window ventilation module assembly which comprises an upper connecting air door, an inner side upper air inlet window, an upper air inlet duct, an inner side upper air outlet window and an upper air outlet duct; the lower end head of the glass curtain wall is provided with a lower air inlet and outlet window ventilation module assembly which comprises a lower communication air door, an inner lower air inlet window, a lower air inlet duct, a lower air outlet window and a lower air outlet duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device; when the surfaces of the two sides of the composite heat conduction electrostatic induction glass adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, cleaning a scraper blade through an air channel of the ash removal component, and repeatedly wiping water and removing ash from the glass on the two sides of the two air exchange air channels; the scraped grey water is collected in a cleaning sewage collecting and discharging device at the bottom of the composite glass curtain wall and is discharged.

In summer, the indoor temperature is low, so that the indoor cold air can naturally rise after being heated; the outdoor temperature is high, and the outdoor hot air can naturally sink after being cooled; in summer, the upper wind-shielding partition plate is switched to the outer side exhaust heat exchange air channel, the upper wind-shielding window on the inner side of the upper end and the upper wind-shielding window on the inner side are closed in a linkage manner, and the upper wind-shielding window on the outer side of the upper end and the upper wind-shielding window on the outer side are opened in a linkage manner; the lower switching wind shielding partition plate is switched to the inner side exhaust heat exchange air channel, the lower exhaust window at the outer side of the lower end and the lower air inlet window at the outer side are closed in a linkage manner, and the lower exhaust window at the inner side of the lower end and the lower air inlet window at the inner side are opened in a linkage manner; the cold air in the room enters the inner side exhaust heat exchange air channel through the inner side lower exhaust window, and is heated through the composite heat conduction electrostatic induction glass, so that the temperature of the cold air in the room is raised, the cold air naturally rises and is exhausted through the outer side upper exhaust window; outdoor hot air enters the outer side exhaust heat exchange air channel through the outer side upper air inlet window, the temperature of the outdoor hot air is reduced through the composite heat conduction electrostatic induction glass, the outdoor hot air naturally sinks, and the outdoor hot air enters the room through the inner side lower air inlet window, so that indoor and outdoor natural ventilation is realized.

A heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall is characterized in that a plasma generating electrode, a plasma collector electrode electric conductor folded plate group and a plasma high-voltage generator are sequentially arranged in an upper air inlet window assembly and a lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module; or the plasma generating electrode, the plasma collecting electrode electric conductor folded plate group, the electric conductor fan and the plasma high-voltage generator are sequentially arranged in the upper air inlet window assembly and the lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module.

The plasma high-voltage generator is a generator capable of generating positive and negative high-voltage electricity and is arranged in the combined module shell; the plasma generating electrode is electrically insulated from the ground and is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the combined module shell are integrally arranged or are arranged in a split combined mode.

The plasma collector electric conductor folded plate group or the electric conductor fan is an electric conductor folded plate group or an electric conductor fan which is electrically insulated with the plasma generator, the combined module shell and the earth ground; the plasma collector electric conductor folded plate group or the electric conductor fan is electrically connected with the positive electrode of the plasma high-voltage generator through an electric brush; the absolute value of the voltage of the high-voltage negative electrode electrically connected with the plasma generator is higher than that of the high-voltage positive electrode electrically connected with the plasma collector electric conductor folded plate group or the electric conductor fan; the plasma collector electric conductor folded plate group or the electric conductor fan is made of metal materials, or the electric conductor fan is made of plastic materials serving as a base material, and a metal or carbon material film layer is coated on the base material, or the plasma collector electric conductor folded plate group or the electric conductor fan is made of composite conductive materials, or the plasma collector electric conductor folded plate group or the electric conductor fan is made of composite conductive film materials on a plastic electric insulation base material; an electric conductor electrostatic induction grid is arranged in the combined module shell at the air outlet side of the combined module shell; the electric conductor electrostatic induction grid and the air outlet side combined module shell are arranged in an electrically insulated integrated mode, or the electric conductor electrostatic induction grid and the air outlet side combined module shell are arranged in an electrically insulated split combined mode.

When the plasma air purification combined module is started, air firstly passes through the air inlet side of the combined module shell and then passes through the plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone passes through a high-voltage positively charged plasma collecting electrode fan, pollutants with negative charges in the air and a positively charged plasma collecting electrode electric conductor folded plate group or an electric conductor fan collide violently to contact and discharge, bacteria and viruses are killed, organic matters are decomposed, various pollutants with negative ions are adsorbed and retained on fins of the plasma collecting electrode fan, and the air is primarily purified; the airflow containing the charged pollutants flows forwards and passes through an electric conductor electrostatic induction grid in the combined module shell at the air outlet side of the combined module shell; the windward side induces a negative charge film layer to adsorb positive charges, and the leeward side induces a positive charge film layer to adsorb the negative charges to realize secondary purification of air and then discharge.

When the plasma air purification combined module reaches a certain ash deposition amount, the plasma generating electrode, the plasma collecting electrode fan and the combined module shell are cleaned and reduced.

A heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall is characterized in that a plasma generating electrode, a fan motor electrically insulated and connected with a plasma collector fan and a plasma high-voltage generator are sequentially arranged in an upper air inlet window assembly and a lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module.

The plasma high-voltage generator is connected with a power supply and can generate positive and negative high-voltage electricity; a plasma generating electrode electrically insulated from the combined module shell, the motor, the fan and the base is arranged at the air inlet at the inner side of the combined module shell at the air inlet side; the plasma generating electrode is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the air inlet side combined module casing are integrally arranged or are in split combination.

The fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage; the fan is made of metal materials, or plastic materials are used as base materials, metal or carbon material films are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials.

The conductive mesh grid is an electrostatic induction collecting electrode insulated from the shell of the combined module, the plasma generating electrode, the machine base, the motor and the ground, and is made of a metal material, or the conductive mesh grid is made of a metal material, the surface of which is wrapped with an electric insulating material, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the conductive mesh grid is made of a composite conductive material, or the conductive mesh grid is made of a plastic electric insulating base material and is made of a composite conductive film material; the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated integrated mode, or the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated split combined mode.

The plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is sucked by the plasma collecting electrode fan with high voltage and positive electricity, the air and the plasma collecting electrode fan with positive electricity are in violent collision contact with discharge, bacteria and viruses are killed, organic matters are decomposed, various pollutants with negative ions are adsorbed and trapped on fins of the fan, and the air is primarily purified.

After the air is pressurized by the plasma collecting electrode fan with high voltage and positive electricity, the air enters the conductive mesh grid, the surface with negative charges is induced on the conductive mesh grid, various pollutants with positive electricity are further adsorbed, and secondary purification of the air is realized.

Or the conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive film material on a plastic electrical insulation base material; the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with 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 that of the high-voltage positive electrode voltage.

The fan is an electrostatic induction collecting electrode insulated from the combined module casing, the plasma generating electrode, the machine base, the motor and the ground, the fan is an electric conductor fan, the fan is made of metal materials, or the fan is made of metal materials with surfaces coated with electric insulation materials, or plastic materials are used as base materials, metal or carbon material films are coated on the base materials, or the fan is made of composite conductive materials, or the fan is made of plastic electric insulation base materials and made of composite conductive film materials.

The plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is adsorbed by the high-voltage positively charged plasma collecting electrode conductive grid, the air and the positively charged plasma collecting electrode conductive grid are violently collided, contacted and discharged, bacteria and viruses are killed, organic matters are decomposed, various pollutants with the negative ions are adsorbed and trapped on the conductive grid, and the air is primarily purified; after being purified by the positive electrode conductive grid, the air enters the conductive fan, the surface with negative charges is induced on the conductive fan, various pollutants with positive charges are further adsorbed, and secondary purification of the air is realized.

Discharging through a grille air outlet; when the plasma air purification combined module reaches a certain ash deposition amount, the plasma generating electrode, the plasma collecting electrode fan and the combined module shell are cleaned and reduced.

A heat conduction convection ventilation static induction dust collection multifunctional composite glass curtain wall is characterized in that a plasma generating electrode, a plasma collecting electrode grid, a dust accumulation electric conductor fan and a plasma high-voltage generator are sequentially arranged in an upper air inlet window assembly and a lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module; the plasma high-voltage generator is a generator capable of generating positive and negative high-voltage electricity and is arranged in the combined module shell; the plasma generating electrode is electrically insulated from the ground and is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the combined module shell are integrally arranged or are arranged in a split combined mode.

The fan is an electrostatic induction collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity, the fan is an electric conductor fan, the fan is made of a metal material, or the fan is made of a metal material with an electric insulating material wrapped on the surface, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the fan is made of a composite conductive material, or the fan is made of a plastic electric insulating base material and is made of a composite conductive film material; the conductive fan is arranged behind the plasma generating electrode and in front of the plasma collecting electrode.

The conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive film material on a plastic electrical insulation base material; the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with 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 that of the high-voltage positive electrode voltage.

The plasma air purification combined module wind passes through the air inlet side of the combined module casing, and then passes through the plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled 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 fan, a positively charged surface is induced on the surface of the conductive fan adjacent to the plasma generating electrode, and various negatively charged pollutants are adsorbed; on the other side of the conductive fan, the surface of the conductive fan adjacent to the conductive grid of the plasma collecting electrode with positive electricity is induced with a negatively charged surface to adsorb various pollutants with positive electricity, thereby realizing the primary purification of air.

After the air is purified by the induction collecting electrode of the conductive fan, the air enters the plasma collecting electrode conductive grid with high voltage positive electricity, and the air and the plasma collecting electrode conductive grid with positive electricity collide violently to contact and discharge, so that bacteria and viruses are killed, organic matters are decomposed, various pollutants with negative ions are adsorbed and trapped on the conductive grid, and further secondary purification of the air is realized.

Or the conductive mesh grid is an electrostatic induction collecting electrode insulated from the shell of the combined module, the plasma generating electrode, the machine base, the motor and the ground, and is made of a metal material, or the conductive mesh grid is made of a metal material, the surface of which is wrapped with an electric insulating material, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the conductive mesh grid is made of a composite conductive material, or the conductive mesh grid is made of a plastic electric insulating base material and is made of a composite conductive film material; the conductive mesh grid and the air outlet side combined module casing are integrally arranged or are in split combination.

The fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage.

The plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone enters the conductive mesh grid, a positively charged surface is induced on the surface of the conductive mesh grid adjacent to the plasma generating electrode, and various negatively charged pollutants are adsorbed; on the other side of the conductive mesh grid, the surface of the conductive mesh grid adjacent to the conductive fan of the positively charged plasma collecting electrode induces the surface with negative charges to adsorb various positively charged pollutants, thereby realizing primary purification of air; after being purified by the conductive grid induction collecting electrode, the air enters the plasma collecting electrode conductive fan with high voltage positive electricity, and the air and the plasma collecting electrode conductive fan with positive electricity collide violently to contact and discharge, thereby killing bacteria and viruses, decomposing organic matters, adsorbing and intercepting various pollutants with negative ions on the conductive fan, and further realizing secondary purification of the air.

A heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall is characterized in that a plasma generating electrode, a plasma grid collecting electrode, a dust deposition electric conductor fan connected with a fan motor and a plasma high-voltage generator are sequentially arranged in an upper air inlet window assembly and a lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module.

The plasma high-voltage generator is connected with a power supply and can generate positive and negative high-voltage electricity; a plasma generating electrode electrically insulated from the combined module shell, the motor, the fan and the base is arranged at the air inlet at the inner side of the combined module shell at the air inlet side; the plasma generating electrode is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the air inlet side combined module shell are integrally arranged or are separately combined; the conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive film material on a plastic electrical insulation base material; the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with the positive electrode of the plasma high-voltage generator; the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the negative electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage.

The plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is adsorbed by the high-voltage positively charged plasma collecting electrode conductive grid, the air and the positively charged plasma collecting electrode conductive grid are violently collided, contacted and discharged, bacteria and viruses are killed, organic matters are decomposed, various pollutants with the negative ions are adsorbed and trapped on the conductive grid, and the air is primarily purified.

After the air is purified by the positive electrode conductive mesh grid, the air enters the conductive fan, the air is in violent collision contact with the negatively charged plasma collecting electrode fan, bacteria and viruses are killed, organic matters are decomposed, various pollutants with positive ions are adsorbed and trapped on fins of the fan, the air is further purified, and the purified air is discharged through the combined module shell.

Or the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the fan is an electric conductor fan and is in electric insulation connection with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the conductive fan is electrically connected with the positive electrode of the plasma high-voltage generator through the electric brush.

The conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive material; the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with the cathode 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 that of the high-voltage positive electrode voltage.

The plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is in violent collision contact with a collecting electrode conductive fan with high voltage and positive electricity to discharge, thereby killing bacteria and viruses, decomposing organic matters, adsorbing and intercepting various pollutants with negative ions on the conductive fan, and primarily purifying the air; after the air is purified by the positive electrode conductive fan, the air flowing through the conductive fan continuously moves, and is in contact with the negatively charged plasma collecting electrode conductive grid for discharging, so that bacteria and viruses are further killed, organic matters are decomposed, various pollutants with positive ions are adsorbed and trapped on the conductive grid, and the air is further purified by the negative electrode conductive grid and then is discharged through a grid air outlet of a shell of the combined module; when the plasma air purification combined module reaches a certain ash deposition amount, the plasma generating electrode, the plasma collecting electrode fan and the combined module shell are cleaned and reduced.

The conductive mesh grid on one side is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive grid at one side is made by compounding an electric insulation film layer on one side of the surface of a metal material, or is made by coating a metal or carbon material film layer on one side of a base material by taking a plastic material as the base material, or is made by compounding an electric insulation film layer on one side of the conductive grid at one side of the composite conductive material; the electric conduction net grid at one side and the shell of the air inlet side combined module are arranged integrally in an electric insulation mode, or the electric conduction net grid at one side and the shell of the air inlet side combined module are arranged in a split mode in an electric insulation mode; an electric insulation film layer is compounded on the adjacent side of the electric conduction grid at one side and the plasma generating electrode, the electric conduction grid at one side is electrically connected with the negative electrode of the plasma high-voltage generator, and a positive electrode film layer is induced on the adjacent side of the plasma generating electrode through the electric insulation film layer.

The fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage; the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large number of negative ions and ozone is adsorbed by the film layer with positive charges induced by static electricity, and the film layer with positive charges is adsorbed by the conductive side of the conductive mesh grid on the side of the collecting electrode with high-voltage negative charges, so that the pollutants with positive charges are adsorbed, the pollutants with negative charges are repelled, and the air is primarily purified.

The air flowing through the conductive grid and the positively charged plasma collecting electrode conductive fan collide violently to discharge, kill bacteria and viruses, decompose organic matters, adsorb and retain various pollutants with negative ions on the conductive fan, and the air is further purified by the positive electrode conductive fan and then is discharged through the combined module casing.

Or the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the fan is a one-side conductive fan, and the one-side conductive fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan at one side is made of a metal material and the surface of one side is compounded with an electric insulation film layer, or the fan is made of a composite conductive material and the surface of one side is compounded with an electric insulation film layer; the conductive fan is compounded with an electric insulation film layer at the adjacent side of the plasma generating electrode, the conductive fan is electrically connected with the cathode of the plasma high-voltage generator, and a positive electric film layer is induced by static electricity at the adjacent side of the plasma generating electrode through the electric insulation film layer of the conductive fan; the conductive fan and the negative electrode of the plasma high-voltage generator are electrically connected with the conductive fan through the electric brush.

The plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is adsorbed by an electric insulation film layer compounded with the adjacent side of a plasma generating electrode, a film layer with positive charges induced by static electricity is adsorbed, a collecting electrode with high-voltage negative charges is conducted to the fan side, pollutants with positive charges are adsorbed, pollutants with negative charges are repelled, and the air is primarily purified; the air flowing through the conductive fan continues to move forward, is in violent collision contact with the positively charged plasma collecting electrode conductive mesh grid for discharging, further kills bacteria and viruses, decomposes organic matters, adsorbs and traps various pollutants with negative ions on the conductive mesh grid, and is discharged through a grid air outlet of the shell of the combined module after being further purified by the positive electrode conductive mesh grid; when the plasma air purification combined module reaches a certain ash deposition amount, the plasma generating electrode, the plasma collecting electrode fan and the combined module shell are cleaned and reduced.

The invention has the beneficial effects that: the multifunctional composite glass curtain wall with the heat conduction, convection and ventilation functions and the electrostatic induction dust collection function can efficiently exchange required fresh air rich in oxygen under the energy-saving state, can realize air purification, is low in cost, can collect light and insulate sound, and realizes high strength and multiple functions of the glass curtain wall.

Drawings

Fig. 1 and 2 are schematic views showing a cross-sectional structure of a heat-conductive convection ventilation electrostatic induction dust-collection multifunctional composite glass curtain wall of the invention in the 1 st embodiment in summer and winter;

FIGS. 3 and 4 are schematic views showing the operation of the cross-sectional structure of the embodiment 2 in summer and winter, of a heat-conduction convection ventilation electrostatic induction dust-absorption multifunctional composite glass curtain wall of the present invention;

FIGS. 5 and 6 are schematic views showing the operation of the cross-sectional structure of the embodiment 3 in summer and winter according to the heat-conductive convection ventilation electrostatic induction dust-absorption multifunctional composite glass curtain wall of the present invention;

FIGS. 7 and 8 are schematic views showing the operation of the cross-sectional structure of the 4 th embodiment in summer and winter according to the heat-conductive convection ventilation electrostatic induction dust-absorption multifunctional composite glass curtain wall of the present invention;

FIGS. 9 and 10 are schematic views showing the operation of the cross-sectional structure of the 5 th embodiment in summer and winter, respectively, of a heat-conductive convection ventilation electrostatic induction dust-absorption multifunctional composite glass curtain wall of the present invention;

FIGS. 11 and 12 are schematic views showing the operation of the cross-sectional structure of the 6 th embodiment in summer and winter, respectively, of a heat-conductive convection ventilation electrostatic induction dust-collection multifunctional composite glass curtain wall of the present invention;

FIGS. 13 and 14 are schematic views showing the operation of the cross-sectional structure of the 7 th embodiment in summer and winter, respectively, of a heat-conductive convection ventilation electrostatic induction dust-collection multifunctional composite glass curtain wall of the present invention;

FIGS. 15 and 16 are schematic views showing the operation of the cross-sectional structure of the 8 th embodiment in summer and winter according to the multifunctional composite glass curtain wall with heat conduction, convection, ventilation, electrostatic induction and dust collection functions of the present invention;

FIGS. 17 and 18 are schematic views showing the operation of the cross-sectional structure of the 9 th embodiment of the heat-conductive convection ventilation electrostatic induction dust-absorption multifunctional composite glass curtain wall of the present invention in summer and winter;

FIGS. 19 and 20 are schematic views showing the operation of the heat-conductive convection ventilation electrostatic induction dust-collection multifunctional composite glass curtain wall of the 10 th embodiment in summer and winter;

fig. 21 and 22 are schematic views showing the operation of the cross-sectional structure of the 11 th embodiment in summer and winter, respectively, of a heat-conductive convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall of the present invention.

Detailed Description

In the figure: 1 tap water pipe, 2 water storage tank, 3 booster pump, 4 cleaning water pipe, inner side upper air inlet window, 6 connecting air window, 7 upper air inlet window clapboard, 8 inner side upper air outlet window, 9 cleaning water nozzle, 10 indoor side glass, 11 composite heat conduction electrostatic induction glass, 12 scraper blade transmission chain cable, 13 lower air outlet window, 14 lower air outlet window clapboard, 15 inner side lower air inlet window, 16 ventilation channel cleaning scraper blade, 17 electrostatic high-voltage generator, 18 intelligent control power supply, 19 sewage discharge pipe, 20 connecting and supporting embedded frame, 21 hinge driving wheel disc, 22 fan, 23 outer discharge lower air outlet window, 24 outer inlet inner side lower air inlet window, 25 conductive adhesive film layer, 26 outdoor side glass, 27 outer inlet upper air inlet window, 28 switching wind shield clapboard, 29 outer discharge upper air outlet window clapboard, 30 upper air outlet window clapboard, 31 hinge driven wheel disc, 32 window frame, 33 ball float valve, 34 switching wind shield clapboard, 35 lower air outlet window clapboard, 36 plasma generator, 34 switching wind generator, 37 inner lower air inlet window change-over switch, 38 upper air inlet window plasma purifier, 39 generating electrode connecting lead, 40 lower air inlet window plasma purifier, 41 upper plasma generator change-over switch, 42 air inlet window positive plasma purifier, 43 lower air inlet window positive plasma purifier, 44 positive plasma high-voltage generator, 45 inner lower air inlet window change-over switch, 46 generating electrode connecting lead, 47 lower positive ion generator change-over switch, 48 lower collecting fan and 49 upper collecting fan.

The 1 st embodiment is shown in fig. 1 and 2: the utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath, includes window frame, glass curtain wall, vent, characterized by: the glass curtain wall is a single-layer or hollow indoor side glass (10), a composite heat conduction electrostatic induction laminated middle glass (11) and a single-layer or hollow outdoor side glass (26) which are laminated with a conductive bonding film layer (25), and are packaged and separated into two layers of ventilation channel interlayers which are arranged in parallel through seal head interval supports (20) arranged at two ends, wherein through air windows (6) are arranged on the upper end and the lower end of the glass curtain wall, and three pieces of glass arranged in parallel and at intervals are packaged into a whole through a window frame (32) to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through ventilation window (6), or is provided with a bidirectional air inlet and exhaust fan (22); the high-voltage positive electrode of the positive electricity high-voltage generator (17) is electrically connected with a conductive bonding film layer (25) clamped in the composite heat conduction electrostatic induction laminated glass (11); when outdoor air enters the outer air inlet heat exchange air channel through the upper air inlet window (15) and the inner lower air inlet window (15), dust in the outdoor air is induced by the composite heat conduction electrostatic induction glass (11), and a negative electric layer is induced on the surface of the composite heat conduction electrostatic induction glass (11) of the outer air inlet heat exchange air channel through high-voltage positive electricity induction carried by the sandwiched and stuck conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air channel is induced to be positively charged dust and is adsorbed by the surface of the composite heat conduction electrostatic induction glass (11), and the outdoor air entering the room is purified; or water is sprayed on the surface of the composite heat conduction electrostatic induction glass of the outer air inlet heat exchange air duct to form a water film, a negative electricity layer is induced, so that dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust, and the dust is adsorbed by the surface water film of the composite heat conduction electrostatic induction glass, so that the air entering the room outdoors is purified; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device consisting of a driving wheel disc (21), a driven wheel disc (31) and a scraper transmission chain cable (12), the chain cable (12) of the wheel disc chain cable transmission device is symmetrically provided with the wheel disc chain cable transmission devices connected with the two sides at equal intervals, and a pair of ventilation duct cleaning scrapers (16) are respectively arranged in the interlayer of the two layers of ventilation ducts to form a ventilation duct cleaning assembly; the upper end head of the glass curtain wall is provided with a cleaning component comprising a tap water pipe (1), a valve, a cleaning water pipe (4) and a cleaning water nozzle (9) on a ventilation window (6); or a cleaning component comprising a tap water pipe (1), a water storage tank (2), a valve, a booster pump (3), a cleaning water pipe (4) and a cleaning water nozzle (9); an upper air inlet and outlet air window ventilation module component which comprises an upper connecting air door (28), an inner side upper air inlet window (5), an upper air inlet duct, an inner side upper air outlet window (8) and an upper air outlet duct is arranged on the upper end head of the glass curtain wall through the ventilation window (6); the lower end head of the glass curtain wall penetrates through the ventilation window (6) and is provided with a lower air inlet and outlet air window ventilation module assembly comprising a lower connecting air door (34), an inner side lower air inlet window (15), a lower air inlet duct, an inner side lower air outlet window (13) and a lower air outlet duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device (19); when the surfaces of the two sides of the composite heat conduction electrostatic induction glass (11) adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, and repeatedly wiping water and removing dust to the glass on the two sides of the two air exchange air channels through an air channel cleaning scraper (16) of the dust removal component; the scraped grey water is collected in a cleaning sewage collecting and discharging device (19) at the bottom of the composite glass curtain wall and is discharged.

In summer, the indoor temperature is low, so that the indoor cold air can naturally rise after being heated; the outdoor temperature is high, and the outdoor hot air can naturally sink after being cooled; in summer, the upper wind shielding partition plate (28) is switched to the outer side exhaust heat exchange air channel, the upper wind inlet window (5) on the inner side of the upper end and the upper exhaust window (8) on the inner side are closed in a linkage manner, and the upper wind inlet window (27) on the outer side of the upper end and the upper exhaust window (29) on the outer side are opened in a linkage manner; switching a lower wind shielding partition plate (34) to an inner side exhaust heat exchange air channel, closing a lower outer side exhaust window (23) and an outer side lower air inlet window (24) at the lower end in a linkage manner, and opening an inner side lower exhaust window (13) and an inner side lower air inlet window (15) at the lower end in a linkage manner; cold air in a room enters an inner side exhaust heat exchange air channel through an inner side lower exhaust window (13), and is heated through the composite heat conduction electrostatic induction glass (11) to increase the temperature of the cold air, so that the temperature of the cold air in the room is increased, the cold air naturally rises and is exhausted through an outer side upper exhaust window (29); outdoor hot air enters the outer side exhaust heat exchange air channel through the outer side upper air inlet window (27), the temperature of the outdoor hot air is reduced through the composite heat conduction electrostatic induction glass (11), the outdoor hot air enters the room through the inner side lower air inlet window (15) and naturally sinks, and indoor and outdoor natural ventilation is achieved.

In winter, the indoor temperature is high, so that the indoor hot air can naturally sink after being cooled; the outdoor temperature is low, and the outdoor cold air can naturally rise after being heated; in winter, the upper wind-shielding partition plate (28) is switched to the inner side exhaust heat exchange air channel, the upper wind inlet window (5) on the inner side of the upper end and the upper wind outlet window (8) on the inner side are opened in a linkage manner, and the upper wind inlet window (27) on the outer side of the upper end and the upper wind outlet window (29) on the outer side are closed in a linkage manner; a lower switching wind shielding partition plate (34) is switched to the outer side exhaust heat exchange air channel, the lower outdoor side lower air inlet window (24) and the outer side lower air outlet window (23) of the lower end are opened in a linkage manner, and the lower inner side lower air outlet window (13) and the inner side lower air inlet window (15) of the lower end are closed in a linkage manner; the indoor hot air enters the inner side air inlet and outlet heat exchange air channel through the inner side upper exhaust window (8), and is cooled through the composite heat conduction electrostatic induction glass (11), so that the temperature of the indoor hot air is reduced, the indoor hot air is reduced in temperature, naturally sinks and is discharged through the outer side lower exhaust window (23); outdoor cold air enters the outer side exhaust heat exchange air channel through the outer side lower air inlet window (24), the temperature of the outdoor cold air is raised through the composite heat conduction electrostatic induction glass (11), the temperature of the outdoor cold air is raised, the outdoor cold air naturally rises and enters the room through the inner side upper air inlet window (5), and indoor and outdoor natural ventilation is achieved.

In spring and autumn, the indoor and outdoor temperature is measured through the temperature sensing device, the vertical switching wind shielding partition plate is automatically switched through the servo device, and automatic linkage switching and automatic ventilation of the air inlet and outlet doors are realized; or the air is forcibly ventilated through the end head on the glass curtain wall or the lower end head penetrating through the ventilation window (6) and the air inlet and outlet bidirectional fan (22) is arranged.

When outdoor air enters the outer side air inlet heat exchange air channel through the upper and inner side lower air inlet windows (15), dust in the outdoor air is induced by the composite heat conduction electrostatic induction glass (11), and is induced by high-voltage positive electricity carried by the clamped and adhered conductive film, and a negative electricity layer is induced on the surface of the composite heat conduction electrostatic induction glass (11) in the outer side air inlet heat exchange air channel, so that the dust in the air flowing through the outer side air inlet heat exchange air channel is induced to form dust with positive electricity, and is adsorbed by the surface of the composite heat conduction electrostatic induction glass (11), and the outdoor air entering the room is purified.

When the surfaces of the two sides of the composite heat conduction electrostatic induction glass (11) adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, and repeatedly wiping water and removing dust to the glass on the two sides of the two air exchange air channels through an air channel cleaning scraper (16) of the dust removal component; the scraped grey water is collected in a cleaning sewage collecting and discharging device (19) at the bottom of the composite glass curtain wall and is discharged.

The 2 nd embodiment is shown in fig. 3 and 4:

the utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath, includes window frame, glass curtain wall, vent, characterized by: the glass curtain wall is a single-layer or hollow indoor side glass (10), a composite heat conduction electrostatic induction laminated middle glass (11) and a single-layer or hollow outdoor side glass (26) which are laminated with a conductive bonding film layer (25), and are packaged and separated into two layers of ventilation channel interlayers which are arranged in parallel through seal head interval supports (20) arranged at two ends, wherein through air windows (6) are arranged on the upper end and the lower end of the glass curtain wall, and three pieces of glass arranged in parallel and at intervals are packaged into a whole through a window frame (32) to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through ventilation window (6), or is provided with a bidirectional air inlet and exhaust fan (22); the high-voltage positive electrode of the positive electricity high-voltage generator (17) is electrically connected with a conductive bonding film layer (25) clamped in the composite heat conduction electrostatic induction laminated glass (11); when outdoor air enters the outer air inlet heat exchange air channel through the upper air inlet window (15) and the inner lower air inlet window (15), dust in the outdoor air is induced by the composite heat conduction electrostatic induction glass (11), and a negative electric layer is induced on the surface of the composite heat conduction electrostatic induction glass (11) of the outer air inlet heat exchange air channel through high-voltage positive electricity induction carried by the sandwiched and stuck conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air channel is induced to be positively charged dust and is adsorbed by the surface of the composite heat conduction electrostatic induction glass (11), and the outdoor air entering the room is purified; an upper air inlet window plasma purifier (38) is arranged in an upper air inlet window (5) on the inner side of an upper air inlet duct of the upper air inlet and outlet air inlet window ventilation module component; an upper air inlet window plasma purifier (38) is arranged in an upper air inlet window (5) on the inner side of an upper air inlet duct of the upper air inlet and outlet air inlet window ventilation module component; a lower air inlet window plasma purifier generating electrode (40) is arranged in a lower air inlet window (15) at the inner side of a lower air inlet duct of the lower air inlet and outlet air window ventilation module component; the voltage of the generating electrode (40) of the plasma purifier is higher than that of the collector, so that the plasma purifier further purifies air on the collector and makes the supplemented air rich in negative ions; when the deposited dust reaches a set value, a collector and a generator of a plasma purifier generator electrode (40) can be detached for cleaning and reduction; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device, chain cables of the wheel disc chain cable transmission device are symmetrically provided with the wheel disc chain cable transmission devices connected with the two sides at equal intervals, and a pair of air duct cleaning scrapers (16) are respectively arranged in an interlayer of the two air ducts to form an ash cleaning component; the upper end head of the glass curtain wall is provided with a cleaning component comprising a tap water pipe (1), a valve, a cleaning water pipe (4) and a cleaning water nozzle (9) on a ventilation window (6); or a cleaning component comprising a tap water pipe (1), a water storage tank (2), a valve, a booster pump (3), a cleaning water pipe (4) and a cleaning water nozzle (9); an upper air inlet and outlet air window ventilation module component which comprises an upper connecting air door (28), an inner side upper air inlet window (5), an upper air inlet duct, an inner side upper air outlet window (8) and an upper air outlet duct is arranged on the upper end head of the glass curtain wall through the ventilation window (6); the lower end head of the glass curtain wall penetrates through the ventilation window (6) and is provided with a lower air inlet and outlet window ventilation module component which comprises a lower connecting air door (34), an inner side lower air inlet window (15), a lower air inlet duct, a lower air outlet window (23) and a lower air outlet duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device (19); when the surfaces of the two sides of the composite heat conduction electrostatic induction glass (11) adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, and repeatedly wiping water and removing dust to the glass on the two sides of the two air exchange air channels through an air channel cleaning scraper (16) of the dust removal component; the scraped grey water is collected in a cleaning sewage collecting and discharging device (19) at the bottom of the composite glass curtain wall and is discharged.

In summer, the indoor temperature is low, so that the indoor cold air can naturally rise after being heated; the outdoor temperature is high, and the outdoor hot air can naturally sink after being cooled; in summer, the upper wind shielding partition plate (28) is switched to the outer side exhaust heat exchange air channel, the upper wind inlet window (5) on the inner side of the upper end and the upper exhaust window (8) on the inner side are closed in a linkage manner, and the upper wind inlet window (27) on the outer side of the upper end and the upper exhaust window (29) on the outer side are opened in a linkage manner; a lower switching wind shielding partition plate (34) is switched to an inner side exhaust heat exchange air channel, the lower end outer side lower exhaust window (23) and the outer side lower air inlet window (24) are closed in a linkage manner, and the lower end inner side lower exhaust window (13) and the inner side lower air inlet window (15) are opened in a linkage manner; cold air in a room enters an inner side exhaust heat exchange air channel through an inner side lower exhaust window (13), and is heated through the composite heat conduction electrostatic induction glass (11) to increase the temperature of the cold air, so that the temperature of the cold air in the room is increased, the cold air naturally rises and is exhausted through an outer side upper exhaust window (29); outdoor hot air enters the outer side exhaust heat exchange air channel through the outer side upper air inlet window (27), the temperature of the outdoor hot air is reduced through the composite heat conduction electrostatic induction glass (11), the outdoor hot air enters the room through the inner side lower air inlet window (15) and naturally sinks, and indoor and outdoor natural ventilation is achieved.

The 3 rd embodiment is shown in fig. 5 and 6:

the utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath, includes window frame, glass curtain wall, vent, characterized by: the glass curtain wall is a single-layer or hollow indoor side glass (10), a composite heat conduction electrostatic induction laminated middle glass (11) and a single-layer or hollow outdoor side glass (26) which are laminated with a conductive bonding film layer (25), and are packaged and separated into two layers of ventilation channel interlayers which are arranged in parallel through seal head interval supports (20) arranged at two ends, wherein through air windows (6) are arranged on the upper end and the lower end of the glass curtain wall, and three pieces of glass arranged in parallel and at intervals are packaged into a whole through a window frame (32) to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through ventilation window (6), or is provided with a bidirectional air inlet and exhaust fan (22); the high-voltage positive electrode of the positive electricity high-voltage generator (17) is electrically connected with a conductive bonding film layer (25) clamped in the composite heat conduction electrostatic induction laminated glass (11); when outdoor air enters the outer air inlet heat exchange air channel through the upper air inlet window (15) and the inner lower air inlet window (15), dust in the outdoor air is induced by the composite heat conduction electrostatic induction glass (11), and a negative electric layer is induced on the surface of the composite heat conduction electrostatic induction glass (11) of the outer air inlet heat exchange air channel through high-voltage positive electricity induction carried by the sandwiched and stuck conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air channel is induced to be positively charged dust and is adsorbed by the surface of the composite heat conduction electrostatic induction glass (11), and the outdoor air entering the room is purified; an upper air inlet window plasma purifier (38) is arranged in an upper air inlet window (5) on the inner side of an upper air inlet duct of the upper air inlet and outlet air inlet window ventilation module component; a lower air inlet window positive ion generator electrode (43) is arranged in a lower air inlet window (24) at the outer side of a lower air inlet duct of a lower air inlet and outlet air window ventilation module component connected with the lower air inlet and outlet air window ventilation module component; a lower air inlet window plasma purifier generating electrode (40) is arranged in a lower air inlet window (15) at the inner side of a lower air inlet duct of the lower air inlet and outlet air window ventilation module component; an upper air inlet window positive ion generator electrode (42) is arranged in an upper air inlet window (5) on the inner side of an upper air inlet air channel of an upper air inlet and outlet air window ventilation module component connected with the upper air inlet and outlet air window ventilation module component; the voltage of the generating electrode (40) of the plasma purifier is higher than that of the collector, so that the plasma purifier further purifies air on the collector and makes the supplemented air rich in negative ions; when the deposited dust reaches a set value, a collector and a generator of a plasma purifier generator electrode (40) can be detached for cleaning and reduction; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device, chain cables of the wheel disc chain cable transmission device are symmetrically provided with the wheel disc chain cable transmission devices connected with the two sides at equal intervals, and a pair of air duct cleaning scrapers (16) are respectively arranged in an interlayer of the two air ducts to form an ash cleaning component; the upper end head of the glass curtain wall is provided with a cleaning component comprising a tap water pipe (1), a valve, a cleaning water pipe (4) and a cleaning water nozzle (9) on a ventilation window (6); or a cleaning component comprising a tap water pipe (1), a water storage tank (2), a valve, a booster pump (3), a cleaning water pipe (4) and a cleaning water nozzle (9); an upper air inlet and outlet air window ventilation module component which comprises an upper connecting air door (28), an inner side upper air inlet window (5), an upper air inlet duct, an inner side upper air outlet window (8) and an upper air outlet duct is arranged on the upper end head of the glass curtain wall through the ventilation window (6); the lower end head of the glass curtain wall penetrates through the ventilation window (6) and is provided with a lower air inlet and outlet window ventilation module component which comprises a lower connecting air door (34), an inner side lower air inlet window (15), a lower air inlet duct, a lower air outlet window (23) and a lower air outlet duct; when the surfaces of the two sides of the composite heat conduction electrostatic induction glass (11) adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, and repeatedly wiping water and removing dust to the glass on the two sides of the two air exchange air channels through an air channel cleaning scraper (16) of the dust removal component; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device (19); the scraped grey water is collected in a cleaning sewage collecting and discharging device (19) at the bottom of the composite glass curtain wall and is discharged.

The plasma air purifier can further realize the purification of the air entering the room through exchange, and the air is rich in negative ions.

The 4 th embodiment is shown in fig. 7 and 8:

the utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath, includes window frame, glass curtain wall, vent, characterized by: the glass curtain wall is a single-layer or hollow indoor side glass (10), a composite heat conduction electrostatic induction laminated middle glass (11) and a single-layer or hollow outdoor side glass (26) which are laminated with a conductive bonding film layer (25), and are packaged and separated into two layers of ventilation channel interlayers which are arranged in parallel through seal head interval supports (20) arranged at two ends, wherein through air windows (6) are arranged on the upper end and the lower end of the glass curtain wall, and three pieces of glass arranged in parallel and at intervals are packaged into a whole through a window frame (32) to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through ventilation window (6), or is provided with a bidirectional air inlet and exhaust fan (22); the high-voltage positive electrode of the positive electricity high-voltage generator (17) is electrically connected with a conductive bonding film layer (25) clamped in the composite heat conduction electrostatic induction laminated glass (11); when outdoor air enters the outer air inlet heat exchange air channel through the upper air inlet window (15) and the inner lower air inlet window (15), dust in the outdoor air is induced by the composite heat conduction electrostatic induction glass (11), and a negative electric layer is induced on the surface of the composite heat conduction electrostatic induction glass (11) of the outer air inlet heat exchange air channel through high-voltage positive electricity induction carried by the sandwiched and stuck conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air channel is induced to be positively charged dust and is adsorbed by the surface of the composite heat conduction electrostatic induction glass (11), and the outdoor air entering the room is purified; an upper air inlet window plasma purifier generating electrode (38) and an upper air inlet window plasma purifier collecting fan (49) are arranged in an upper air inlet window (5) on the inner side of an upper air inlet duct of the upper air inlet and outlet air inlet window ventilation module assembly; a lower air inlet window plasma purifier generating electrode (40) and a lower air inlet window plasma purifier collecting fan (48) are arranged in a lower air inlet window (15) at the inner side of a lower air inlet channel of the lower air inlet and outlet air window ventilation module component; or an upper air inlet window plasma purifier generating electrode (38) and an upper air inlet window plasma purifier collecting fan (49) are arranged in the upper air inlet window (5) on the inner side of the upper air inlet channel of the upper air inlet and outlet air inlet window ventilation module component; a lower air inlet window positive ion generator electrode (43) is arranged in a lower air inlet window (24) at the outer side of a lower air inlet duct of a lower air inlet and outlet air window ventilation module component connected with the lower air inlet and outlet air window ventilation module component; a lower air inlet window plasma purifier generating electrode (40) and a lower air inlet window plasma purifier collecting fan (48) are arranged in a lower air inlet window (15) at the inner side of a lower air inlet channel of the lower air inlet and outlet air window ventilation module component; an upper air inlet window positive ion generator electrode (42) is arranged in an upper air inlet window (5) on the inner side of an upper air inlet air channel of an upper air inlet and outlet air window ventilation module component connected with the upper air inlet and outlet air window ventilation module component; the voltage of the generating electrode of the plasma purifier is higher than that of a collector fan (48) of the plasma purifier, so that the generating electrode of the plasma purifier further purifies air on the collector and makes the supplemented air rich in negative ions; when the deposited dust reaches a set value, a plasma purifier generating electrode, a plasma purifier collector fan (48) and a positive ion generator electrode (42) generating electrode can be detached for cleaning and reduction; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device, chain cables of the wheel disc chain cable transmission device are symmetrically provided with the wheel disc chain cable transmission devices connected with the two sides at equal intervals, and a pair of air duct cleaning scrapers (16) are respectively arranged in an interlayer of the two air ducts to form an ash cleaning component; the upper end head of the glass curtain wall is provided with a cleaning component comprising a tap water pipe (1), a valve, a cleaning water pipe (4) and a cleaning water nozzle (9) on a ventilation window (6); or a cleaning component comprising a tap water pipe (1), a water storage tank (2), a valve, a booster pump (3), a cleaning water pipe (4) and a cleaning water nozzle (9); an upper air inlet and outlet air window ventilation module component which comprises an upper connecting air door (28), an inner side upper air inlet window (5), an upper air inlet duct, an inner side upper air outlet window (8) and an upper air outlet duct is arranged on the upper end head of the glass curtain wall through the ventilation window (6); the lower end head of the glass curtain wall penetrates through the ventilation window (6) and is provided with a lower air inlet and outlet window ventilation module component which comprises a lower connecting air door (34), an inner side lower air inlet window (15), a lower air inlet duct, a lower air outlet window (23) and a lower air outlet duct; when the surfaces of the two sides of the composite heat conduction electrostatic induction glass (11) adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, and repeatedly wiping water and removing dust to the glass on the two sides of the two air exchange air channels through an air channel cleaning scraper (16) of the dust removal component; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device (19); the scraped grey water is collected in a cleaning sewage collecting and discharging device (19) at the bottom of the composite glass curtain wall and is discharged.

The 5 th embodiment is shown in fig. 9 and 10:

the utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath which characterized by: a plasma air purifier is arranged in the ventilation duct of the inner upper air inlet window (5) and the inner lower air inlet window (15); the finned electrodes close to the inner side upper air inlet window (5) and the inner side lower air inlet window (15) are collecting electrodes with positive electricity, and correspondingly comprise metal needle-shaped array electrodes, metal wire mesh-shaped electrodes, electrodes with linear, sawtooth, star-shaped, bur-shaped or fishbone-shaped structures, and generating electrodes with negative electricity; the absolute value of the voltage of the negatively charged generator is higher than the absolute value of the voltage of the positively charged collector; or the air channel of the outer upper air inlet window (27) and the outer lower air inlet window (24) is internally provided with a positively charged generating electrode which comprises a metal needle array electrode, a metal wire mesh electrode and a linear, sawtooth, star, bur or fishbone structure electrode; pollutants in the inlet air are positively charged, attracted by the negatively charged film layer of the composite heat conduction electrostatic induction glass (11), and are neutralized by discharge, and the absolute value of the voltage of the negatively charged generator is higher than that of the positively charged generator and is also higher than that of the voltage of the positively charged collector; the generated negative ions can effectively kill bacteria when carrying out positive and negative charge neutralization with positive ions, and huge energy release is generated at the moment of carrying out positive and negative charge neutralization with positive ions in the air, so that the structure of surrounding bacteria is changed or the energy is converted, the bacteria are killed, and the sterilization effect of the bacteria is realized; setting the absolute value of the voltage of the negative electrode generator to be higher than the absolute value of the voltage of the positive electrode collector, so that the quantity of negative ions generated by the negative electrode generator in the air is larger than that of positive ions in the air, and redundant negative ions still float in the air; the more the neutralization quantity of the negative ions and the positive ions is, the better the sterilization effect is.

The 6 th embodiment is shown in fig. 11 and 12:

a plasma air purifier of the heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall is different from other embodiments and has the characteristics of being capable of further purifying air entering a room in a exchanging mode and enabling the air to be rich in negative ions. Other features are similar to other embodiments and will not be described again.

The 7 th embodiment is shown in fig. 13 and 14:

a plasma air purifier of the heat-conduction convection ventilation electrostatic induction dust collection multifunctional composite glass curtain wall is different from other embodiments and has the characteristics of being capable of further purifying air entering a room in a exchanging mode and enabling the air to be rich in negative ions. Other features are similar to those of the other embodiments and will not be described again.

The 8 th embodiment is shown in fig. 15 and 16:

The 9 th embodiment is shown in fig. 17 and 18:

The 10 th embodiment is shown in fig. 19 and 20:

The 11 th embodiment is shown in fig. 21 and 22:

Claims

1. The utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath, includes window frame, glass curtain wall, vent, characterized by: the glass curtain wall is a single-layer or composite solid single-layer or hollow indoor side glass, a composite heat conduction electrostatic induction sandwiched glass sandwiched with a conductive bonding film layer, at least a single-layer or composite solid single-layer or hollow outdoor side glass, the glass curtain wall is sealed and separated into two layers of ventilation duct interlayers which are arranged in parallel through sealing heads arranged at two ends at intervals, a through air window is arranged on the upper end head and the lower end head of the glass curtain wall, and three pieces of glass arranged in parallel at intervals are packaged into a whole through a window frame to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through air window, or is provided with a bidirectional air inlet and exhaust fan; the high-voltage positive electrode of the positive electricity high-voltage generator is electrically connected with a conductive bonding film layer clamped in the composite heat conduction electrostatic induction laminated glass; when outdoor air enters the outer air inlet heat exchange air duct through the outer upper air inlet window and enters a room from the inner lower air inlet window, dust in the outdoor air is induced by the composite heat-conduction electrostatic induction glass, and a negative electric layer is induced on the surface of the composite heat-conduction electrostatic induction glass of the outer air inlet heat exchange air duct through high-voltage positive electricity induction carried by the sandwiched and bonded conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust and is adsorbed by the surface of the composite heat-conduction electrostatic induction glass, and the outdoor air entering the room is purified; or water is sprayed on the surface of the composite heat conduction electrostatic induction glass of the outer air inlet heat exchange air duct to form a water film, a negative electricity layer is induced, so that dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust, and the dust is adsorbed by the surface water film of the composite heat conduction electrostatic induction glass, so that the air entering the room outdoors is purified; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device consisting of a driving wheel disc, a driven wheel disc and a scraper transmission chain cable, the chain cable of the wheel disc chain cable transmission device is symmetrically provided with the chain cable transmission devices connected with the wheel disc chain cables at two sides at equal intervals, and a pair of ventilation channel cleaning scrapers are respectively arranged in a sandwich layer of two layers of ventilation channels to form a ventilation channel cleaning assembly; the upper end head of the glass curtain wall is provided with a cleaning assembly comprising a tap water pipe, a valve, a cleaning water pipe and a cleaning water nozzle on the ventilation window; or a cleaning component comprising a tap water pipe, a water storage tank, a valve, a booster pump, a cleaning water pipe and a cleaning water nozzle; the cleaning water is directly discharged or is returned to the water storage tank for recycling after being treated; the upper end head of the glass curtain wall is provided with an upper air inlet and outlet air window ventilation module assembly which comprises an upper connecting air door, an inner side upper air inlet window, an upper air inlet duct, an inner side upper air outlet window and an upper air outlet duct; the lower end head of the glass curtain wall is provided with a lower air inlet and outlet window ventilation module component which comprises a lower communication air door, an inner side lower air inlet window, a lower air inlet duct, an inner side lower air outlet window and a lower air outlet duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device; when the surfaces of the two sides of the composite heat conduction electrostatic induction glass adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, cleaning a scraper blade through an air channel of the ash removal component, and repeatedly wiping water and removing ash from the glass on the two sides of the two air exchange air channels; the scraped grey water is collected in a cleaning sewage collecting and discharging device at the bottom of the composite glass curtain wall and is discharged;

in summer, the indoor temperature is low, so that the indoor cold air can naturally rise after being heated; the outdoor temperature is high, and the outdoor hot air can naturally sink after being cooled; in summer, the upper wind-shielding partition plate is switched to the outer side exhaust heat exchange air channel, the upper wind-shielding window on the inner side of the upper end and the upper wind-shielding window on the inner side are closed in a linkage manner, and the upper wind-shielding window on the outer side of the upper end and the upper wind-shielding window on the outer side are opened in a linkage manner; switching a lower wind shielding partition plate to an inner side exhaust heat exchange air channel, closing an outer side lower exhaust window and an outer side lower air inlet window of the lower end in a linkage manner, and opening an inner side lower exhaust window and an inner side lower air inlet window of the lower end in a linkage manner; the cold air in the room enters the inner side exhaust heat exchange air channel through the inner side lower exhaust window, and is heated through the composite heat conduction electrostatic induction glass, so that the temperature of the cold air in the room is raised, the cold air naturally rises and is exhausted through the outer side upper exhaust window; the outdoor hot air enters the outer side exhaust heat exchange air channel through the outer side upper air inlet window, the outdoor hot air is cooled through the composite heat conduction electrostatic induction glass, so that the temperature of the outdoor hot air is reduced, the outdoor hot air is naturally sunk, and the outdoor hot air enters the room through the inner side lower air inlet window, so that the indoor and outdoor natural air exchange is realized;

in winter, the indoor temperature is high, so that the indoor hot air can naturally sink after being cooled; the outdoor temperature is low, and the outdoor cold air can naturally rise after being heated; in winter, the upper wind-shielding partition plate is switched to the inner side exhaust heat exchange air channel, the upper wind-shielding window on the inner side of the upper end and the upper wind-shielding window on the inner side are opened in a linkage manner, and the upper wind-shielding window on the outer side of the upper end and the upper wind-shielding window on the outer side are closed in a linkage manner; the lower switching wind shielding partition plate is switched to the outer side exhaust heat exchange air channel, the lower outdoor side lower air inlet window and the outer side lower air outlet window of the lower end are opened in a linkage manner, and the lower inner side lower air outlet window and the lower inner side air inlet window of the lower end are closed in a linkage manner; the hot air in the room enters the air inlet and outlet heat exchange air duct through the upper exhaust window on the inner side, and is cooled through the composite heat conduction electrostatic induction glass, so that the temperature of the hot air in the room is reduced, naturally sinks and is exhausted through the lower exhaust window on the outer side; the outdoor cold air enters the outer side air inlet and exhaust heat exchange air channel through the outer side lower air inlet window, the temperature of the outdoor cold air is raised through the composite heat conduction electrostatic induction glass, the temperature of the outdoor cold air is raised and naturally raised, and the outdoor cold air enters the room through the inner side upper air inlet window, so that the indoor and outdoor natural air exchange is realized;

2. The utility model provides a multi-functional compound glass curtain wall of heat-conduction convection current electrostatic induction dust absorption of taking a breath, includes window frame, glass curtain wall, vent, characterized by: the glass curtain wall is a single-layer or hollow indoor glass, a composite heat conduction electrostatic induction sandwiched glass sandwiched with a conductive bonding film layer, a single-layer or hollow outdoor glass, and is supported at intervals by end sockets arranged at two ends, and is packaged and separated into two layers of ventilation duct interlayers arranged in parallel, a through air window is arranged on the upper end and the lower end of the glass curtain wall, and three pieces of glass arranged in parallel at intervals are packaged into a whole through a window frame to form the composite glass curtain wall; the end of the glass curtain wall, or the lower end is provided with a through ventilation window, or is provided with a bidirectional air inlet and exhaust fan; the high-voltage positive electrode of the positive electricity high-voltage generator is electrically connected with a conductive bonding film layer clamped in the composite heat conduction electrostatic induction laminated glass; when outdoor air enters the outer air inlet heat exchange air duct through the outer upper air inlet window and enters a room from the inner lower air inlet window, dust in the outdoor air is induced by the composite heat-conduction electrostatic induction glass, and a negative electric layer is induced on the surface of the composite heat-conduction electrostatic induction glass of the outer air inlet heat exchange air duct through high-voltage positive electricity induction carried by the sandwiched and bonded conductive film, so that the dust in the air flowing through the outer air inlet heat exchange air duct is induced into positively charged dust and is adsorbed by the surface of the composite heat-conduction electrostatic induction glass, and the outdoor air entering the room is purified; an upper air inlet window plasma purifier is arranged in an upper air inlet window on the inner side of an upper air inlet duct of the upper air inlet and outlet air inlet window air exchange module assembly; a lower air inlet window plasma purifier generating electrode is arranged in a lower air inlet window at the inner side of a lower air inlet duct of the lower air inlet and outlet air window ventilation module component; the voltage of the generating electrode of the plasma purifier is higher than that of the collector, so that the plasma purifier further purifies air on the collector and makes the supplemented air rich in negative ions; when the deposited dust reaches a set value, a collector and a generator of a plasma purifier generating electrode can be detached for cleaning and reduction; the left side and the right side of the glass curtain wall are provided with a wheel disc chain cable transmission device, chain cables of the wheel disc chain cable transmission device are symmetrically provided with the wheel disc chain cable transmission devices connected with the two sides at equal intervals, and a pair of air duct cleaning scrapers are respectively arranged in an interlayer of the two air ducts to form an ash cleaning assembly; the upper end head of the glass curtain wall is provided with a cleaning assembly comprising a tap water pipe, a valve, a cleaning water pipe and a cleaning water nozzle on the ventilation window; or a cleaning component comprising a tap water pipe, a water storage tank, a valve, a booster pump, a cleaning water pipe and a cleaning water nozzle; the cleaning water is directly discharged or is returned to the water storage tank for recycling after being treated; the upper end head of the glass curtain wall is provided with an upper air inlet and outlet air window ventilation module assembly which comprises an upper connecting air door, an inner side upper air inlet window, an upper air inlet duct, an inner side upper air outlet window and an upper air outlet duct; the lower end head of the glass curtain wall is provided with a lower air inlet and outlet window ventilation module assembly which comprises a lower communication air door, an inner lower air inlet window, a lower air inlet duct, a lower air outlet window and a lower air outlet duct; the lower end of the composite glass curtain wall is provided with a cleaning sewage collecting and discharging device; when the surfaces of the two sides of the composite heat conduction electrostatic induction glass adsorb dust to reach a set amount, starting a cleaning component device, spraying water to the glass on the two sides of the two air exchange air channels, cleaning a scraper blade through an air channel of the ash removal component, and repeatedly wiping water and removing ash from the glass on the two sides of the two air exchange air channels; the scraped grey water is collected in a cleaning sewage collecting and discharging device at the bottom of the composite glass curtain wall and is discharged;

in summer, the indoor temperature is low, so that the indoor cold air can naturally rise after being heated; the outdoor temperature is high, and the outdoor hot air can naturally sink after being cooled; in summer, the upper wind-shielding partition plate is switched to the outer side exhaust heat exchange air channel, the upper wind-shielding window on the inner side of the upper end and the upper wind-shielding window on the inner side are closed in a linkage manner, and the upper wind-shielding window on the outer side of the upper end and the upper wind-shielding window on the outer side are opened in a linkage manner; the lower switching wind shielding partition plate is switched to the inner side exhaust heat exchange air channel, the lower exhaust window at the outer side of the lower end and the lower air inlet window at the outer side are closed in a linkage manner, and the lower exhaust window at the inner side of the lower end and the lower air inlet window at the inner side are opened in a linkage manner; the cold air in the room enters the inner side exhaust heat exchange air channel through the inner side lower exhaust window, and is heated through the composite heat conduction electrostatic induction glass, so that the temperature of the cold air in the room is raised, the cold air naturally rises and is exhausted through the outer side upper exhaust window; the outdoor hot air enters the outer side exhaust heat exchange air channel through the outer side upper air inlet window, the outdoor hot air is cooled through the composite heat conduction electrostatic induction glass, so that the temperature of the outdoor hot air is reduced, the outdoor hot air is naturally sunk, and the outdoor hot air enters the room through the inner side lower air inlet window, so that the indoor and outdoor natural air exchange is realized;

3. The multifunctional composite glass curtain wall with heat conduction, convection, ventilation, electrostatic induction and dust collection functions as claimed in claim 1 or 2, wherein: the plasma air purification combined module is formed by sequentially arranging a plasma generating electrode, a plasma collecting electrode electric conductor folded plate group and a plasma high-voltage generator in the upper air inlet window assembly and the lower air inlet window assembly on the inner side of the glass curtain wall; or the plasma generating electrode, the plasma collecting electrode electric conductor folded plate group, the electric conductor fan and the plasma high-voltage generator are sequentially arranged in the upper air inlet window assembly and the lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module;

the plasma high-voltage generator is a generator capable of generating positive and negative high-voltage electricity and is arranged in the combined module shell; the plasma generating electrode is electrically insulated from the ground and is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the combined module shell are integrally arranged or are separately combined;

the plasma collector electric conductor folded plate group or the electric conductor fan is an electric conductor folded plate group or an electric conductor fan which is electrically insulated with the plasma generator, the combined module shell and the earth ground; the plasma collector electric conductor folded plate group or the electric conductor fan is electrically connected with the positive electrode of the plasma high-voltage generator through an electric brush; the absolute value of the voltage of the high-voltage negative electrode electrically connected with the plasma generator is higher than that of the high-voltage positive electrode electrically connected with the plasma collector electric conductor folded plate group or the electric conductor fan; the plasma collector electric conductor folded plate group or the electric conductor fan is made of metal materials, or the electric conductor fan is made of plastic materials serving as a base material, and a metal or carbon material film layer is coated on the base material, or the plasma collector electric conductor folded plate group or the electric conductor fan is made of composite conductive materials, or the plasma collector electric conductor folded plate group or the electric conductor fan is made of composite conductive film materials on a plastic electric insulation base material; an electric conductor electrostatic induction grid is arranged in the combined module shell at the air outlet side of the combined module shell; the electric conductor electrostatic induction grid and the air outlet side combined module shell are arranged in an electrically insulated and integrated mode, or the electric conductor electrostatic induction grid and the air outlet side combined module shell are arranged in an electrically insulated and split mode;

when the plasma air purification combined module is started, air firstly passes through the air inlet side of the combined module shell and then passes through the plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone passes through a high-voltage positively charged plasma collecting electrode fan, pollutants with negative charges in the air and a positively charged plasma collecting electrode electric conductor folded plate group or an electric conductor fan collide violently to contact and discharge, bacteria and viruses are killed, organic matters are decomposed, various pollutants with negative ions are adsorbed and retained on fins of the plasma collecting electrode fan, and the air is primarily purified; the airflow containing the charged pollutants flows forwards and passes through an electric conductor electrostatic induction grid in the combined module shell at the air outlet side of the combined module shell; a negative charge film layer is induced on the windward side to adsorb positive charges, a positive charge film layer is induced on the leeward side by static electricity, and the negative charges are adsorbed to realize secondary purification of air and then discharged;

4. The multifunctional composite glass curtain wall with heat conduction, convection, ventilation, electrostatic induction and dust collection functions as claimed in claim 1 or 2, wherein: the plasma generating electrode, the fan motor electrically insulated and connected with the plasma collecting electrode fan and the plasma high-voltage generator are sequentially arranged in the upper air inlet window assembly and the lower air inlet window assembly on the inner side of the glass curtain wall to form a plasma air purification combined module;

the plasma high-voltage generator is connected with a power supply and can generate positive and negative high-voltage electricity; a plasma generating electrode electrically insulated from the combined module shell, the motor, the fan and the base is arranged at the air inlet at the inner side of the combined module shell at the air inlet side; the plasma generating electrode is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the air inlet side combined module shell are integrally arranged or are separately combined;

the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials;

the conductive mesh grid is an electrostatic induction collecting electrode insulated from the shell of the combined module, the plasma generating electrode, the machine base, the motor and the ground, and is made of a metal material, or the conductive mesh grid is made of a metal material, the surface of which is wrapped with an electric insulating material, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the conductive mesh grid is made of a composite conductive material, or the conductive mesh grid is made of a plastic electric insulating base material and is made of a composite conductive film material; the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated and separated mode;

the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is sucked by the plasma collecting electrode fan with high voltage and positive electricity, the air and the plasma collecting electrode fan with positive electricity violently collide, contact and discharge to kill bacteria and viruses, decompose organic matters, adsorb and intercept various pollutants with negative ions on fins of the fan, and primarily purify the air;

after the air is pressurized by the plasma collecting electrode fan with high voltage and positive electricity, the air enters the conductive mesh grid, the surface with negative charges is induced on the conductive mesh grid, and various pollutants with positive electricity are further adsorbed, so that the secondary purification of the air is realized;

or the conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive film material on a plastic electrical insulation base material; the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with 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 that of the high-voltage positive electrode voltage;

the fan is an electrostatic induction collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity, the fan is an electric conductor fan, the fan is made of a metal material, or the fan is made of a metal material with an electric insulating material wrapped on the surface, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the fan is made of a composite conductive material, or the fan is made of a plastic electric insulating base material and is made of a composite conductive film material;

the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is adsorbed by the high-voltage positively charged plasma collecting electrode conductive grid, the air and the positively charged plasma collecting electrode conductive grid are violently collided, contacted and discharged, bacteria and viruses are killed, organic matters are decomposed, various pollutants with the negative ions are adsorbed and trapped on the conductive grid, and the air is primarily purified; after being purified by the positive electrode conductive grid, air enters the conductive fan, the surface with negative charges is induced on the conductive fan, and various pollutants with positive charges are further adsorbed, so that secondary purification of the air is realized;

5. The multifunctional composite glass curtain wall with heat conduction, convection, ventilation, electrostatic induction and dust collection functions as claimed in claim 1 or 2, wherein: the upper and lower air inlet window components on the inner side of the glass curtain wall are sequentially provided with a plasma generating electrode, a plasma collecting electrode grid, a dust-accumulated electric conductor fan and a plasma high-voltage generator to form a plasma air purification combined module; the plasma high-voltage generator is a generator capable of generating positive and negative high-voltage electricity and is arranged in the combined module shell; the plasma generating electrode is electrically insulated from the ground and is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the combined module shell are integrally arranged or are separately combined;

the fan is an electrostatic induction collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity, the fan is an electric conductor fan, the fan is made of a metal material, or the fan is made of a metal material with an electric insulating material wrapped on the surface, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the fan is made of a composite conductive material, or the fan is made of a plastic electric insulating base material and is made of a composite conductive film material; the conductive fan is arranged behind the plasma generating electrode and in front of the plasma collecting electrode;

the conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive film material on a plastic electrical insulation base material; the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air outlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with 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 that of the high-voltage positive electrode voltage;

the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity;

air with a large amount of negative ions and ozone enters the conductive fan, a positively charged surface is induced on the surface of the conductive fan adjacent to the plasma generating electrode, and various negatively charged pollutants are adsorbed; on the other side of the conductive fan, the surface of the conductive fan adjacent to the conductive grid of the plasma collecting electrode with positive electricity is induced with a negatively charged surface to adsorb various pollutants with positive electricity, so as to realize primary purification of air;

after air is purified by the induction collecting electrode of the conductive fan, the air enters the plasma collecting electrode conductive grid with high voltage positive electricity, and the air and the plasma collecting electrode conductive grid with positive electricity collide violently to contact and discharge, so that bacteria and viruses are killed, organic matters are decomposed, various pollutants with negative ions are adsorbed and trapped on the conductive grid, and further secondary purification of the air is realized;

or the conductive mesh grid is an electrostatic induction collecting electrode insulated from the shell of the combined module, the plasma generating electrode, the machine base, the motor and the ground, and is made of a metal material, or the conductive mesh grid is made of a metal material, the surface of which is wrapped with an electric insulating material, or a plastic material is used as a base material, and a metal or carbon material film layer is coated on the base material, or the conductive mesh grid is made of a composite conductive material, or the conductive mesh grid is made of a plastic electric insulating base material and is made of a composite conductive film material; the conductive mesh grid and the air outlet side combined module shell are integrally arranged or are in split combination;

the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage;

the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone enters the conductive mesh grid, a positively charged surface is induced on the surface of the conductive mesh grid adjacent to the plasma generating electrode, and various negatively charged pollutants are adsorbed; on the other side of the conductive mesh grid, the surface of the conductive mesh grid adjacent to the conductive fan of the positively charged plasma collecting electrode induces the surface with negative charges to adsorb various positively charged pollutants, thereby realizing primary purification of air; after being purified by the conductive grid induction collecting electrode, the air enters the plasma collecting electrode conductive fan with high voltage positive electricity, and the air and the plasma collecting electrode conductive fan with positive electricity collide violently to contact and discharge, so that bacteria and viruses are killed, organic matters are decomposed, various pollutants with negative ions are adsorbed and trapped on the conductive fan, and the secondary purification of the air is further realized;

6. The multifunctional composite glass curtain wall with heat conduction, convection, ventilation, electrostatic induction and dust collection functions as claimed in claim 1 or 2, wherein: the upper and lower air inlet window components on the inner side of the glass curtain wall are sequentially provided with a plasma generating electrode, a plasma grid collecting electrode, a dust-depositing electric conductor fan connected with a fan motor, and a plasma high-voltage generator to form a plasma air purification combined module;

the plasma high-voltage generator is connected with a power supply and can generate positive and negative high-voltage electricity; a plasma generating electrode electrically insulated from the combined module shell, the motor, the fan and the base is arranged at the air inlet at the inner side of the combined module shell at the air inlet side; the plasma generating electrode is a metal needle array electrode or a metal wire mesh electrode or a linear or sawtooth or bur or fishbone structure electrode; the plasma generating electrode is connected with the high-voltage negative electrode; the plasma generating electrode and the air inlet side combined module shell are integrally arranged or are separately combined; the conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive film material on a plastic electrical insulation base material; the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with the positive electrode of the plasma high-voltage generator; the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the negative electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage;

the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is adsorbed by the high-voltage positively charged plasma collecting electrode conductive grid, the air and the positively charged plasma collecting electrode conductive grid are violently collided, contacted and discharged, bacteria and viruses are killed, organic matters are decomposed, various pollutants with the negative ions are adsorbed and trapped on the conductive grid, and the air is primarily purified;

after being purified by the positive electrode conductive grid, air enters the conductive fan, and is in violent collision contact with the negatively charged plasma collecting electrode fan to kill bacteria and viruses, decompose organic matters, adsorb and trap various pollutants with positive ions on fins of the fan, further purify the air, and discharge the purified air through the combined module shell;

or the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the fan is an electric conductor fan and is in electric insulation connection with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the conductive fan is electrically connected with the positive electrode of the plasma high-voltage generator through the electric brush;

the conductive mesh grid is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive mesh grid is made of a metal material, or is made by taking a plastic material as a base material and coating a metal or carbon material film layer on the base material, or is made of a composite conductive material; the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and integrated mode, or the conductive mesh grid and the air inlet side combined module shell are arranged in an electrically insulated and separated mode; the conductive mesh grid is electrically connected with the cathode 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 that of the high-voltage positive electrode voltage;

7. The multifunctional composite glass curtain wall with heat conduction, convection, ventilation, electrostatic induction and dust collection functions as claimed in claim 1 or 2, wherein: the upper and lower air inlet window components on the inner side of the glass curtain wall are sequentially provided with a plasma generating electrode, a plasma grid collecting electrode, a dust-depositing electric conductor fan connected with a fan motor, and a plasma high-voltage generator to form a plasma air purification combined module;

the conductive mesh grid on one side is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the conductive grid at one side is made by compounding an electric insulation film layer on one side of the surface of a metal material, or is made by coating a metal or carbon material film layer on one side of a base material by taking a plastic material as the base material, or is made by compounding an electric insulation film layer on one side of the conductive grid at one side of the composite conductive material; the electric conduction net grid at one side and the shell of the air inlet side combined module are arranged integrally in an electric insulation mode, or the electric conduction net grid at one side and the shell of the air inlet side combined module are arranged in a split mode in an electric insulation mode; an electric insulation film layer is compounded on the adjacent side of the conductive grid on one side and the plasma generating electrode, the conductive grid on one side is electrically connected with the negative electrode of the plasma high-voltage generator, and a positive electrode film layer is electrostatically induced on the adjacent side of the plasma generating electrode through the electric insulation film layer;

the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the base, the motor and the ground electricity, the fan is an electric conductor fan, and the fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan and the positive electrode of the plasma high-voltage generator are electrically connected with the fan through an electric brush; the fan is made of metal materials, or plastic materials are used as base materials, and metal or carbon material film layers are coated on the base materials, or the fan is made of composite conductive film materials on plastic electrical insulation base materials; the absolute value of the high-voltage negative electrode voltage of the plasma high-voltage generator is higher than that of the high-voltage positive electrode voltage; the plasma air purification combined module air firstly passes through the air inlet side of the combined module shell and then passes through a plasma generating electrode with high-voltage negative electricity, the plasma generating electrode discharges electricity to the air, the air is ionized, the air is filled with negative ions, and various pollutants in the air are also charged with negative electricity; air with a large amount of negative ions and ozone is adsorbed by the film layer with positive charges induced by static electricity and the conductive side of the conductive mesh grid on the side of the collecting electrode with high-voltage negative electricity, so that pollutants with positive charges are adsorbed and the pollutants with negative charges are repelled, and the air is primarily purified;

the air flowing through the conductive grid and the positively charged plasma collecting electrode conductive fan collide violently to discharge, kill bacteria and viruses, decompose organic matters, adsorb and trap various pollutants with negative ions on the conductive fan, and the air is further purified by the positive electrode conductive fan and then is discharged through the combined module shell;

or the fan is a plasma collecting electrode insulated from the combined module shell, the plasma generating electrode, the machine base, the motor and the ground electricity; the fan is a one-side conductive fan, and the one-side conductive fan is electrically insulated and connected with a rotor rotating shaft of the motor; the fan at one side is made of a metal material and the surface of one side is compounded with an electric insulation film layer, or the fan is made of a composite conductive material and the surface of one side is compounded with an electric insulation film layer; the conductive fan is compounded with an electric insulation film layer at the adjacent side of the plasma generating electrode, the conductive fan is electrically connected with the cathode of the plasma high-voltage generator, and a positive electric film layer is induced by static electricity at the adjacent side of the plasma generating electrode through the electric insulation film layer of the conductive fan; the conductive fan is electrically connected with the negative electrode of the plasma high-voltage generator through the electric brush;