KR20140112341A - Ionizing net system for proofing vermin and dust - Google Patents

Abstract

Disclosed is an insect-proof and dust-proof ionizing screen system capable of preventing flowing in of insects and fine dust. The ionizing screen system includes first and second outlet ports punched in a frame, to which a screen is installed, toward the indoor to discharge positive and negative ionic wind from the inside of the frame; an ionizer for discharging the positive ionic wind from the second outlet port toward the outdoor via the screen to electrically charge outdoor alien substances to positive ions and for discharging the negative ionic wind from the first outlet port toward the indoor; and a power supplier installed on the frame to supply the power to the ionizer. Therefore, the present invention generates the ionic wind adjacent to the screen to prevent the insects and fine dust from flowing in, and supplies the negative ions to the indoor to improve the indoor living health. Also, the fine dust and the screen are electrically charged by the negative ions to prevent the inflow of the fine dust to the indoor by the repulsion with the screen. The negative ions flow indoors in a supersaturated state to expand the function of the screen system.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an ionizing screening system for insecticidal and dust-

The present invention relates to an insect control net, and more particularly, to an insect control net using an ion wind to charge fine dust and an insect net approaching an insect control net with the same polarity to induce mutual repulsive force, And an ionizing screening system for dustproofing.

In order to promote rapid urbanization and to maximize the space utilization rate in accordance with industrial development, high-rise buildings have become commonplace today, and accordingly, it is becoming a primary task of high-rise buildings to enable people to operate in a pleasant environment. Recently, a high-rise building, which is recently constructed, is constructed such that a steel frame structure made up of columns, beams and slabs is completed, and then an outer wall wall is fixed to the outside of a fixed frame attached to the outside of the steel frame structure, It is a common practice to complete construction.

In addition, the appearance of today's buildings is very important. As the buildings are made into a high-rise building and special windows are applied to reduce heat loss, most of the windows are fixed to the wall, It is common. Therefore, it is essential to install an air conditioning system for compulsory cooling and heating and ventilation, since natural ventilation is insufficient in most of office high-rise buildings.

However, the centralized air conditioning system is susceptible to contamination due to long-term use of the duct as the air flow path, and the cleaning thereof is also difficult. In addition, since the air pollution degree is increased by the sudden increase of the automobile and the spring sand dust, it is difficult to make the room air pleasant by the air conditioning system alone, so that the air purifier may be installed in the room separately. As a result, there is a disadvantage that it hinders efficient utilization of space.

In order to solve the above problems and to prevent the shading, it is possible to prevent the inflow of soot and worms of fine particles harmful to the human body by the electric field formed in the high-voltage layer in recent years, A negative ion is generated so that the negative ion can be prevented. That is, as shown in FIG. 1, a frame 11 of an insulating material is coupled to a window frame rail 10 of an external window such as a house or an apartment to be slidably moved. Shaped noise barrier 16 to prevent noise generated when air is introduced through a gap between the coupling groove 12 and the coupling groove 12 formed on the inner and outer sides of the frame 11, 13 of the inner and outer inserting nets 14, 15 of the conductor which are fixed and supported by the mesh, and one end of the inner and outer inserting nets 14, 15 are in contact with the outer inserting nets 15 and the other end is spaced apart from the inner inserting nets 14 And has a pointed discharge needle A interposed between the inner and outer inserting nets 14 and 15 to be discharged between the inner and outer inspecting nets 14 when the power is applied to form an electric field.

A pair of insecting nets of a conductor fixedly supported in an engaging groove formed so as to be spaced apart from the frame, one side of the insecting material contacting one of the insecting nets, And a discharge needle interposed between the pair of insecting nets so as to be spaced apart from the other insecting nets so that when an electric power is applied to the pair of insecting nets, an electric field of the high voltage layer formed between the discharge accepting portion and the insecting net And prevents an unauthorized person from intruding.

However, as described above, the conventional insect screening network system has a discharge needle in the insect screen itself, and a high voltage is supplied to the discharge needle.

That is, there is a problem that the electric shock of the user is very serious because the first high voltage is exposed. Secondly, there is a problem that the appearance of the appearance of the discharge needle is extremely reduced due to the installation structure. Thirdly, even if it is not an electric shock, there is a problem that it acts as a risk factor in the life of the child or the elderly people, resulting in deterioration of the quality of the product. As the fourth most important problem, in the prior art, anion is generated to prevent fine dust, that is, dust, dust, etc., from flowing into the room through the screening shield, but this is caused by the corona discharge, It is the experts' opinion that blocking the inflow of fine dusts is very inefficient. Furthermore, as in the prior art, there is a problem that discharge wind is not generated in the space between the intervals of the discharge needles, so that the inflow of fine dust can not be structurally implemented.

Korean Patent No. 10-0400988, Application No. 10-2000-0043818, entitled " Korean Registered Utility Model No. 20-0316927, Application No. 20-2003-0009233, entitled 'Window with self-powered source and air cleaning function'

SUMMARY OF THE INVENTION The present invention has been made in order to solve such a problem, and it is an object of the present invention to provide an air conditioner which can prevent the inflow of insects and fine dust by generating an ion wind close to an insect control net, And to provide an ionizing screening system for insecticide and dustproof.

It is another object of the present invention to provide a system and a method for charging an anion into a room by charging an anion with a fine dust and an insect screen to induce the fine dust to be prevented from entering the room by the repulsive force of the insect screen when the fine dust is introduced, And to provide an Ionizing insect screening system for insecticide and dustproof which can extend functionality.

It is another object of the present invention to provide an air conditioner capable of opening windows even when yellow dust is generated due to the prevention of harmful fine dust such as yellow dust entering the room, In order to provide an Ionizing insect screening system.

According to an aspect of the present invention, there is provided an Ionizing insect screening system for insecticide and dust prevention in an IONIZING insect screening system, wherein a '+' A second discharging hole and a first discharging hole for discharging the ion wind respectively are perforated on the indoor side with respect to the insecting net; + 'Ion wind is discharged through the second discharge hole to the outdoor side through the insect control net to charge the foreign matter of the insect-control net and outdoor by' + 'ions, And a power supply unit for supplying power to the ionizer is installed in the frame.

The ionizer according to a preferred embodiment of the present invention may further include a high voltage generating circuit for converting the power output from the power supply device into a set high voltage; And a discharge pin array in which discharge fins are uniformly arranged to perform a corona discharge using a high voltage output from the high voltage generating circuit.

Also according to the present invention, a wireless power supply is embedded within a wall housing said frame; The power supply is characterized in that power is derived from the wireless power supply.

Further, the power supply device according to the present invention may include: a wireless power circuit installed in the frame to correspond to a transmission coil for power transmission constituting the wireless power supply device and receiving wireless power; And a direct current switching circuit for converting the power derived from the radio power circuit into direct current power of a rated signal.

The direct current switching circuit according to the present invention is for supplying a direct current signal of a pulse type and is characterized in that a pulse signal having a set frequency is provided by the ionizer.

Further, the insect-control net according to the preferred embodiment of the present invention is any one of a fixed insect nets, a roll insect nets and a door-type insect nets, and is made of a metal mesh to perform insect and crime prevention functions, And performs an insect-proofing function.

As described above, the ionizing insect screening system for insecticide and dustproofing proposed in the present invention can prevent insects and fine dust from entering by generating an ionic wind in close proximity to an insect control net, And the like. In addition, in the present invention, the anion is charged by the fine dust and the screen net to induce the fine dust to flow into the room due to the repulsive force with the screen inspecting net when the fine dust is introduced, and the supersaturated negative ions are introduced into the room, It is possible to extend the function.

1 is a view for explaining a window system having a conventional negative ion generating function.
2 is a perspective view of an ionizing screening network system according to the present invention.
3 is a view for explaining the main functions of the ionizing screening network system according to the present invention.
4 is a view for explaining an installation configuration of a discharge pin array according to the present invention.
5 is an exploded perspective view of an ionizing screening network system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the insect-control net presented in the present invention may be a net-like net realized with a metal material or a net-like net implemented with a non-metallic material. That is, a roll type insect screen including a fixed insect screen can be used. This is because the object to which the ions are charged can be a metal or a polymer material, and the function of the present invention can be applied regardless of the material of the screening net.

Further, the screen inspecting net referred to in the present invention may include an insect screening net applied to a door including a domestic indoor screen netting, and may be applied to a home, office or industrial use.

Meanwhile, the power supply method applied in the present invention can be solar power generation and solar power generation, but in the present embodiment, a wireless power scheme can be introduced. The wireless power scheme includes a receiving coil for receiving radio power into the inside of a window where an insect screen is installed and a converter for converting the power derived from the receiving coil to a rated DC power source. In addition, a controller for supplying a frequency to the transmission coil and the transmission coil is mounted inside the installation wall of the window corresponding to the reception coil. The controller is powered by a commercial power supply (AC) installed on the inner wall.

The application of such a wireless power system is intended to highlight the simplicity of the window system and to enhance the safety of the user. Therefore, the ionizing screening system proposed in the present invention will not power the user by the user, and there is no switch for operating the system. The absence of the switch means that the window with the insect screen has a sliding door, a hinged door or a roll structure, so that automatic switching can be performed when it is desired to insect or dustproof.

2 is a perspective view showing an example of an IONIZING screening network system according to the present invention. In the present embodiment, a door provided with an insect-proof net is provided, but it may be applied to a roll-type insect-control net as described above.

As shown in the figure, the ionizing screening system 200 includes a locking handle 220 mounted on one end of a frame 210 constituting a window, an insecting net 230 installed on an inner side of the frame 210, The frame 210 is provided with an ionizer for discharging ion wind so as to be directed outward from the insect control net 230, and a power supply for supplying power to the ionizer 230 is provided.

The screen inspecting net 230 may be formed of a metal mesh to perform a crime prevention function in addition to the insect proof function, or may be formed in a net shape of a polymer material to perform the insect exclusive function. The ionizer (not shown) discharges the ion wind through the insecting net 230 made of a metal or a polymer to charge the insect net. Also, the ion wind which is discharged to the outside through the screen net charges the fine dust introduced from the outside, and induces repulsive force due to the same polarity between the screen net and the fine dust.

That is, the ion wind is discharged from the room to the outside, thereby preventing the fine dust from approaching by the repulsive force, and suppressing the proximity of the fine dust by the physical discharge pressure of the ion wind. The ion wind is a flow of ionized gas generated from the ionizer, and since the charging distance is usually over 1M, it will be very suitable for application to home windows.

Also, in the present invention, electric power is supplied to the ionizing screening system 200 using wireless power. When the frame 210 is completely closed by using a non-contact switch such as a magnetic switch, a hall sensor and a lead sensor I will be able to make the ionizer work.

It will be appreciated that if desired, the locking handle 220 may be interlocked with the switching element to allow the ionizer to operate in the locked state. The locking handle 220 may be used as a power supply switch of the ionizing screening system using the locking handle 220 as a means for fastening and locking the frame 210 to the window.

3 is a circuit diagram for explaining main functions of the ionizing screening network system according to the present invention.

First, the above-described ionizer and power supply are provided on a PCB (PCB) 330, which receives wireless power at a location corresponding to a transmit coil for power transmission installed proximate to the frame 210 And a DC switching circuit 323 for converting the power derived from the radio power circuit 321 into DC power of a rated signal.

Here, the DC switching circuit 323 is for supplying a DC signal of a pulse type, and provides the frequency of the pulse signal to the ionizer. The charging distance varies depending on the frequency of the pulse signal, and a distance of about 0.5M to 3M is ensured. Therefore, the frequency of the pulse signal may be changed according to the size of the frame 210. The large charging distance means that the discharge amount and the wind velocity of the ion wind are large, and this ion wind ionizes the foreign matter together with the screen guard 230.

That is, when the foreign matter such as fine dust is ionized and the insect control net 230 is ionized with the same polarity, when the foreign object is close to the insect control net 230, a repulsive force is generated and the foreign object is close to the insect control net 230 I can not. In addition, since the ion wind separates the foreign object itself from the screen 230, foreign matter can not enter the room.

On the other hand, the ionizer includes a high voltage generating circuit 327 for converting the power output from the DC switching circuit 323 to a set high voltage, and a high voltage generating circuit 327 for performing corona discharge using the high voltage output from the high voltage generating circuit 327 And a discharge pin array 310 in which discharge fins are uniformly arranged.

In the present invention, it is preferable that the insect net 230 and the ion polarity for ionizing the foreign matter have a polarity of '+'. In this case, when a high voltage is formed using a pulse-type DC signal, As the '+' ion is generated in the discharge pin and the '-' ion is generated in the other discharge pin, the installation direction of the discharge pin generating the '+' ion is directed outdoors from the room, It is preferable that the installation direction of the discharge fin in which '-' ions are generated is directed toward the room.

That is, the discharge pin array 310 is arranged so that a '+' ion wind blown out from the discharge pin array 310 is directed to an outdoor side from an indoor side of an insect control network 230, 210 are provided with discharging holes for discharging ion wind. The '-' ion wind sets the direction of the discharge hole so as to flow into the room.

To this end, as shown in FIG. 4, a second discharge hole 403 having a second guide 411 for discharging '+' ions to the outside, a second discharge hole 403 for discharging '-' A first discharge hole 401 provided with a guide 413 is formed on the inner surface of the frame 210 so as to face the discharge pin 311 and the first discharge hole 401 is formed on the insect- And the second discharge hole 403 are provided on the indoor side.

The first discharging hole 401 and the second discharging hole 403 are installed in the room with respect to the insecting net 230 and the positive ions are discharged from the insecting net 230 by the second guide 411. [ And is discharged outdoors from the inside. In addition to the insect screen 230, foreign substances introduced from the outside are charged with '+' ions. Accordingly, the insect-control net 230 and foreign matters such as fine dust are charged with the same polarity so that mutual repulsive force is generated. Meanwhile, the '-' ions are discharged to the room by the first guide 413, so that negative ions are supplied to the room.

Here, the discharge pin arrays 310 for discharging the ion wind may be installed in the longitudinal direction or the transverse direction of the frame 210, and may be installed so as to face each other in the transverse direction or the longitudinal direction as necessary.

The switching circuit 325 has a switching circuit 325 for switching control of the operation of the high voltage generating circuit 327. The switching circuit 325 switches in conjunction with the locking operation of the locking handle 220 or uses a separate switching device such as a physical switch . Of course, it is possible to automate not to perform a separate switching operation by the user. When the frame 210 of the insecting net 210 is installed at a predetermined position using the hall sensor, that is, when the insect screen having the door structure is closed, .

The switching circuit 325 may not be provided as necessary and power may be supplied when the wireless power circuit 321 operates so that the switching circuit may not be used.

5 is an exploded perspective view of an ionizing screening network system according to the present invention.

As shown in the figure, a PCB 330 for receiving radio power and converting a high voltage into a high voltage and supplying a high voltage to the discharge pin array 310 is mounted inside the frame 210, and the discharge of the discharge pin array 311 The pin 311 is installed horizontally to the insecting net 230 and positioned on the inside of the insecting net 230 with respect to the insecting net 230.

Accordingly, the PCB 330 is supplied with wireless power at a position where the screen frame 210 is set, that is, when the screen structure having the door structure is closed or when the roll screening screen is blocked. The wireless power includes a wireless power circuit 321 for receiving wireless power on the PCB 330 and a wireless power circuit 322 for powering the wireless power circuit 321 within the wall corresponding to the wireless power circuit 321, An apparatus for wireless power transmission is provided.

When the frame 210 is closed, the wireless power circuit 321 faces the wireless power transmission device from which the wireless power circuit 321 generates inductive power. The induced power is converted into a direct current voltage through the direct current switching circuit 323 and generates and outputs a pulse signal.

The pulse signal is a pulse-type DC signal having a set frequency and is provided to the high voltage generating circuit 327, and the high voltage generating circuit 327 outputs a high voltage corresponding to the frequency. A high voltage is supplied to the discharge pin array 310 and a pair of discharge pins 311 constituting the discharge pin array 310 generate and discharge '+' and '-' ions. Here, the polarity of the ions is set according to the output polarity of the high voltage generating circuit 327. When the '+' polarity of the high voltage generating circuit 327 is connected after the longitudinal discharge pins of the discharge pin array 310 are connected to each other '+' Ions are emitted to the corresponding vertical axis discharge pins. In addition, when the '-' polarity of the high voltage generation circuit 327 is connected after the other longitudinal discharge fins are mutually connected, '-' ions are emitted to the corresponding vertical axis discharge fins.

In this manner, '+' ions are emitted to one of the discharge fins of the pair of discharge fins and '-' ions are emitted to the other discharge fins. The release of each ion passes through the first discharge hole 401 and the second discharge hole 403 in an ion wind direction. The first discharge hole 401 is punctured to discharge '-' ions and is supplied to the room through a first guide 413. In addition, '+' ions are discharged from the second discharge hole 403 and are supplied to the outside through the second guide 411.

Since the first discharging hole 401 and the second discharging hole 403 are provided on the indoor side with respect to the insecting net 230, the '+' ions supplied from the second discharging hole 403 are supplied to the insecting net 230 ) To the outside.

As the '+' ion charges the foreign material with the '+' polarity together with the insecticide 230, the foreign substances approaching the insecticide network 230 form mutual repulsive force with the same polarity as the insecticide network 230. Accordingly, the foreign object can not approach the screen 230, and the foreign substance is blocked by the ion wind which is discharged outdoors. In addition, the '-' ions are supplied to the inside of the room to provide comfortable air in the room.

200: Ionizing Screening System 210: Frame
220: Locking handle 230: Screening net
300: ionizer 310: discharge pin array
311: Discharge pin 321: Wireless power circuit
323: DC switching circuit 325: switching circuit
327: High voltage generating circuit 401: First discharge hole
403: Second discharge hole 411: Second guide
413: First guide

Claims (7)

In an IONIZING screening system,
A second discharge hole and a first discharge hole for discharging the '+' ion wind and the '-' ion wind from the inside of the frame in which the insect-control net is installed are pierced on the indoor side with respect to the insecting net;
+ 'Ion wind is discharged through the second discharge hole to the outdoor side through the insect control net to charge the foreign matter of the insect-control net and outdoor by' + 'ions, An ionizer for discharging air and a power supply for supplying power to the ionizer are installed in the frame. ≪ RTI ID = 0.0 > 14. < / RTI > The method according to claim 1,
The ionizer comprising: a high voltage generating circuit for converting power output from the power supply device to a set high voltage; And
And a discharge pin array in which discharge fins are uniformly arranged so as to perform a corona discharge using a high voltage output from the high voltage generating circuit. The method according to claim 1,
A wireless power supply is embedded within the wall housing the frame;
Wherein the power supply is powered from the wireless power supply. ≪ RTI ID = 0.0 >< / RTI > The method of claim 3,
The power supply device includes a wireless power circuit installed inside the frame to correspond to a transmission coil for power transmission constituting the wireless power supply device and receiving wireless power; And
And a DC switching circuit for converting the power derived from the radio power circuit into DC power of a rated signal. 5. The method of claim 4,
Wherein the DC switching circuit is for supplying a DC signal of a pulse type and provides a pulse signal having a set frequency to the ionizer. The method according to claim 1,
Wherein the insect control network is one of a fixed insect screening network, a roll type insect screening network, and a door type insecting network, and is formed of a metal mesh to perform insect and crime prevention functions, or is made of a polymer material to perform insect control functions And ionizing screening system for dust protection. The method according to claim 6,
Wherein the insect control network is a roll type insect screen or door type insect control network, further comprising a switching circuit for recognizing the open / closed state of the insect control network;
Wherein the switching circuit is a switch of any one of a physical switch, a magnetic switch, a hall sensor, and a lead sensor is applied to the ionizing screening system.

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