KR102125140B1 - Fine dust collecting apparatus - Google Patents

Abstract

The present invention relates to a device for collecting fine dust. Fine dust collecting apparatus according to an embodiment of the present invention includes an electrode member provided as a conductive material; A collection member provided in a solid form having a set volume and provided with a material having a lower electrical conductivity than the electrode member; And a power supply unit electrically connected to the electrode member and the collecting member to form a voltage difference between the electrode member and the collecting member.

Description

Fine dust collecting apparatus

The present invention relates to a fine dust collecting device, and more particularly to a fine dust collecting device that can be effectively installed indoors or outdoors without spatial proposal.

Everyday life in a modern city is exposed to various pollutants, such as the fumes of automobiles and the dust of industrial waste and industrial waste. In addition, pollen flies into the air in the spring, and it is also a serious environmental problem, such as yellow dust, fine dust, etc., which harm humans from China, and cause various respiratory diseases.

In response to this, a dust removal device is used indoors, and a mask is worn when going out.

The present invention is to provide a fine dust collecting device capable of effectively collecting fine dust.

In addition, the present invention is to provide a fine dust collecting device that can be installed without distinction of indoor or outdoor.

In addition, the present invention is to provide a fine dust collecting device whose operating state is adjusted according to the state of the surrounding environment.

According to an aspect of the present invention, an electrode member provided with a conductive material; A collection member provided in a solid form having a set volume and provided with a material having a lower electrical conductivity than the electrode member; And a power supply unit electrically connected to the electrode member and the collecting member to cause a voltage difference between the electrode member and the collecting member to be provided.

Further, the collecting member may be provided as a living plant.

In addition, the collecting member may be provided as conifers.

In addition, the power supply unit is provided so as to be able to store a set amount of power, one side is electrically connected to the electrode member, the other side is a power storage unit electrically connected to the collecting member; And a booster positioned on a conductive line electrically connecting one side of the power storage unit and the electrode member, and capable of raising a voltage applied to the electrode member to a basic operating voltage or higher.

In addition, the basic operating voltage may be 3000V.

In addition, the power supply unit is provided to be capable of producing power through natural force, and may further include a power supply unit electrically connected to the power storage unit.

In addition, the fine dust collecting device, the sensor is provided to detect the state of the surrounding environment; And a controller that controls an operation state of the power supply unit according to information provided by the sensor.

In addition, the sensor includes a rain sensor that can detect whether rain or snow falls, and the controller receives a precipitation information indicating that rain or snow is coming from the rain sensor, and a voltage is applied to the electrode member. You can block that.

In addition, the sensor includes a rain sensor that can detect whether it is raining or snowing, and the controller has elapsed time after precipitation information indicating that rain or snow is coming from the rain sensor is last received. As the length increases, the voltage applied to the electrode member may increase.

In addition, the sensor includes a proximity sensor that detects an object around the electrode member, and the controller receives information indicating that an object is approaching within a limited distance from the electrode member, when the proximity sensor receives information. Voltage can be prevented from being applied.

According to an embodiment of the present invention, a fine dust collecting device capable of effectively collecting fine dust may be provided.

In addition, according to an embodiment of the present invention, a fine dust collecting device that can be installed without distinction of indoor or outdoor may be provided.

Further, according to an embodiment of the present invention, a fine dust collecting device in which the operating state is adjusted according to the state of the surrounding environment may be provided.

1 is a view showing a fine dust collecting device according to an embodiment of the present invention.
2 is a view showing a control relationship of the fine dust collecting device.
3 is a view showing a state in which the fine dust collecting device is installed for the experiment.
4 is a graph showing the experimental results of FIG. 3.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the following embodiments. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings has been exaggerated to emphasize a clearer explanation.

1 is a view showing a fine dust collecting device according to an embodiment of the present invention.

Referring to FIG. 1, the fine dust collecting device 1 may include an electrode member 10, a collecting member 20 and a power supply unit 30.

The electrode member 10 may be provided with a conductive material. For example, the electrode member 10 may be provided as a conductor such as metal. The electrode member 10 may be provided in a form in which one end is branched. The end of the electrode member 10 may be provided in the form of a rod having a set length. The end of the electrode member 10 may be provided so that its longitudinal direction faces the collecting member 20. The electrode member 10 may emit ions or electrons into the atmosphere. The ions or electrons emitted from the electrode member 10 may react with the fine dust in the atmosphere to charge the fine dust.

The collecting member 20 may be provided in a solid form having a set volume. The collecting member 20 may be made of a material having a lower electrical conductivity than the electrode member 10. For example, the collecting member 20 may be provided as a plant. The collecting member 20 may be a living plant planted in the ground. The collecting member 20 may be coniferous trees such as Yulma and pine. The collecting member 20 can be collected in a form of attaching dust charged by ions or electrons emitted by the electrode member 10 to the outer surface. When coniferous water is used as the collecting member 20, a sharp protrusion is provided on the outer surface of the collecting member 20, an electromagnetic field is effectively formed between the collecting member 20 and the electrode member 10, and fine dust is effectively charged. After being moved to the collecting member 20 can be collected.

The power supply unit 30 forms a voltage difference between the electrode member 10 and the collecting member 20. The power supply unit 30 may be connected such that a positive pole is applied to the electrode member 10 and a negative pole is applied to the collection member 20. One side of the power supply unit 30 may be electrically connected to the electrode member 10, and the other side of the power supply unit 30 may be electrically connected to the collection member 20. One side of the power supply unit 30 may be connected to the electrode member 10 through a conducting wire. The other side of the power supply unit 30 may be connected to the collecting member 20 by a conducting wire. In addition, the other side of the power supply unit 30 is connected to the ground, the collecting member 20 may be electrically connected to the other side of the power supply unit 30 through the ground.

The power supply unit 30 may include a power storage unit 31, a booster unit 32, and a power supply unit 33.

The power storage unit 31 is provided to store a set amount of power. For example, the power storage unit 31 may be provided as a battery having a set capacity. One side of the power storage unit 31 may be electrically connected to the electrode member 10, and the other side of the power storage unit 31 may be electrically connected to the collection member 20.

The booster 32 may be located on a conductor that electrically connects one side of the power supply unit 30 to the electrode member 10. The booster 32 may increase the voltage applied to the electrode member 10. The voltage applied to the electrode member 10 by the booster 32 may be equal to or greater than the basic operating voltage. The basic operating voltage can be 3000V. The booster 32 may be provided to adjust the degree of voltage increase. For example, the booster 32 may be provided as a high voltage generator that increases the voltage applied from the power supply unit 30 side and then supplies it to the electrode member 10.

The power supply unit 33 may be electrically connected to the power storage unit 31 to supply power to the power storage unit 31. For example, the power supply unit 33 may be provided as a solar power generator, a wind power generator, or the like, to generate power through natural power, and then supply the power to the power storage unit 31.

2 is a view showing a control relationship of the fine dust collecting device.

Referring to FIG. 2, the controller 40 may control the operation state of the power supply unit 30. The controller 40 may reflect information provided by the sensor 50 to control the operation state of the power supply unit 30.

The sensor 50 may be provided to detect the state of the surrounding environment in which the fine dust collecting device 1 is located. The sensor 50 may include a rain drop detection sensor 51 and a proximity sensor 52.

The raindrop detection sensor 51 is provided to detect whether rain or snow falls in the space where the fine dust collecting device 1 is located. The rain detection sensor 51 is electrically connected to the controller 40 in a wired or wireless manner, and may provide the sensed information to the controller 40. The rain drop sensing sensor 51 may be positioned adjacent to the electrode member 10. For example, the raindrop sensor 51 may be located on one side of the power supply unit 30 connected to the electrode member 10. In addition, the rain sensor 50 may be located on the collecting member 20 or may be located on the ground adjacent to the electrode member 10.

The proximity sensor 52 is provided to detect whether there is an object around the electrode member 10 or whether there is an object moving around the electrode member 10. The proximity sensor 52 may be electrically connected to the controller 40 in a wired or wireless manner, to provide the sensed information to the controller 40. The proximity sensor 52 may be positioned adjacent to the electrode member 10. For example, the proximity sensor 52 may be located on one side of the power supply unit 30 connected to the electrode member 10. Further, the proximity sensor 52 may be located on the collecting member 20 or may be located on the ground adjacent to the electrode member 10.

The controller 40 may control the power supply unit 30 such that a voltage applied to the electrode member 10 varies according to information provided by the rain sensor 510.

When the controller 40 receives information (hereinafter, precipitation information) indicating that rain or snow is coming into the space in which the fine dust collecting device 1 is installed, voltage is applied to the electrode member 10. The power storage unit 31 may be controlled so that it is blocked.

The controller 40 may cause the voltage applied to the electrode member 10 to vary according to the elapsed time after precipitation information is finally received. For example, the controller 40 may control the booster 32 such that a basic operating voltage is applied to the electrode member 10 immediately after the reception of the precipitation information is finished. Thereafter, after the precipitation information is finally received, as the elapsed time increases, the booster 32 may be controlled such that the voltage applied to the electrode member 10 increases. For example, whenever the set time has elapsed since the precipitation information was last received, for example, every 10 days, the voltage applied to the electrode member 10 is increased by a set value, for example, 100V. I can do it. The increase in voltage applied to the electrode member 10 may be made until the voltage reaches the limit voltage. The limit voltage may be a limit value of a voltage increase that the booster 32 can perform, or may be a value arbitrarily set by the controller 40. Accordingly, it is possible to prevent the fine dust collected in the collecting member 20 from being separated from the collecting member 20.

The controller 40 may control the power supply unit 30 such that a voltage applied to the electrode member 10 varies according to information provided by the proximity sensor 52.

When the controller 40 determines that an object approaches within a predetermined distance from the electrode member 10 through the information provided by the proximity sensor 52, power is stored to block the application of voltage to the electrode member 10. The part 31 can be controlled. Then, the controller 40 may control the power storage unit 31 so that a voltage is applied to the electrode member 10 when there is no object approaching within a limit distance.

The controller 40 boosts the voltage applied to the electrode member 10 according to the distance between the object moving around the electrode member 10 and the electrode member 10 through information provided by the proximity sensor 52. The part 32 can be controlled. For example, in a state in which the distance between the object moving around the electrode member 10 and the electrode member 10 is greater than the limit distance, the voltage applied to the electrode member 10 increases as the distance increases, for example, the limit. The booster 32 may be controlled in a form in which the voltage applied to the electrode member 10 increases in response to a distance exceeding a limit distance, or a form in which 100 V is increased every 1 m from the distance. Such an increase in voltage may be achieved until the distance between the object moving around the electrode member 10 and the electrode member 10 becomes a safe distance. When the safety distance, the voltage applied to the electrode member 10 may be a limit voltage.

3 is a view showing a state in which the fine dust collecting device is installed for the experiment.

Referring to FIG. 3, a fine dust collecting device 1 was installed inside the experiment space 2 partitioned from the outside with a set volume for the experiment. Then, the fine dust generator 3 and the filter unit 4 were connected to one side of the experimental space 2 so that the set amount of fine dust and filtered air were supplied to the experimental space 2. Then, by connecting the fine dust measuring instrument 5 in the area opposite to the area where the fine dust flows, the amount of fine dust contained in the air passing through the fine dust collecting device 1 was measured. In the experiment, a case in which wood was used as the collecting member 20 was used. Then, the case where the collecting member 20 was omitted was set as a control.

4 is a graph showing the experimental results of FIG. 3.

Referring to FIG. 4, when the voltage applied to the electrode member 10 becomes 3000 V or more, the effect of removing fine dust by the fine dust collecting device 1 begins to occur significantly. And, it was confirmed that as the voltage applied to the electrode member 10 increased, the efficiency of removing fine dust increased. In addition, even when the electrode member 10 was not present, a fine dust removal effect was generated in a similar form, but it was confirmed that the removal efficiency was lower than when the electrode member 10 was used.

According to the fine dust collecting device 1 according to an embodiment of the present invention, the fine dust collecting device 1 may be configured through a plant located in a living space such as street trees.

In addition, the fine dust collecting device 1 according to an embodiment of the present invention is configured to include a collecting member 20 having a set volume, and installed indoors or outdoors without classification, to effectively collect fine dust. .

In addition, in the fine dust collecting apparatus 1 according to an embodiment of the present invention, the voltage applied to the electrode member 10 is adjusted according to the state of the surrounding environment, so that safety can be ensured while effectively collecting fine dust.

The above detailed description is to illustrate the present invention. In addition, the above-described content is to describe and describe preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications and environments. That is, it is possible to change or modify the scope of the concept of the invention disclosed herein, the scope equivalent to the disclosed contents, and/or the scope of the art or knowledge in the art. The embodiments described describe the best state for implementing the technical spirit of the present invention, and various changes required in specific application fields and uses of the present invention are possible. Therefore, the detailed description of the above invention is not intended to limit the present invention to the disclosed embodiments. In addition, the appended claims should be construed to include other embodiments.

10: electrode member 20: collecting member
30: power supply 31: power storage
32: booster 33: power supply
40: controller 50: sensor

Claims (10)

An electrode member made of a conductive material;
A collection member provided in a solid form having a set volume, provided with a protrusion on an outer surface, and made of a material having a lower electrical conductivity than the electrode member; And
It is electrically connected to the electrode member and the collecting member, and includes a power source for forming a voltage difference between the electrode member and the collecting member,
The power supply unit is provided so as to be able to store a set amount of power, one side is electrically connected to the electrode member, the other side is a power storage unit electrically connected to the collection member, and one side of the power storage unit and the electrode member Located on a conducting wire to be electrically connected, a booster capable of raising a voltage applied to the electrode member to a basic operating voltage of 3000 V or more, and a power supply capable of producing power through natural force, and electrically provided to the power storage unit Consists of a connected power supply,
Fine dust is charged by the electrode member,
A fine dust collecting device in which the charged fine dust is collected by an electromagnetic field formed between the protrusion of the collecting member and the electrode member. According to claim 1,
The collecting member is a fine dust collecting device provided as a living plant. According to claim 1,
The collecting member is a fine dust collecting device provided as conifers. delete delete delete According to claim 1,
The fine dust collecting device,
A sensor provided to detect the state of the surrounding environment; And
Further comprising a controller for controlling the operating state of the power supply unit according to the information provided by the sensor fine dust collecting device. The method of claim 7,
The sensor includes a rain detection sensor capable of detecting whether rain or snow falls,
When the precipitation information indicating that rain or snow is coming from the controller is received from the rain sensor, the controller is configured to block the application of voltage to the electrode member. The method of claim 7,
The sensor includes a rain detection sensor capable of detecting whether rain or snow falls,
The controller is a fine dust collecting device that causes the voltage applied to the electrode member to increase as elapsed time increases after precipitation information indicating that rain or snow is coming is finally received from the rain sensor. The method of claim 7,
The sensor includes a proximity sensor that detects an object around the electrode member,
The controller, when the information indicating that the object is approaching within a limit distance from the electrode member is received from the proximity sensor, the fine dust collecting device for blocking the voltage applied to the electrode member.

Images