KR20020071047A - device for removing static electricity of dust-envelope for cyclone dust collector - Google Patents

Abstract

PURPOSE: A static electricity removing apparatus of a dust collecting vessel is provided to enhance a static electricity removing property generating at the dust collecting vessel by grounding the dust collecting vessel using a grounding member and three phase power cord. CONSTITUTION: A static electricity removing apparatus comprises a dust collecting vessel(30) having an electrical conductivity and an electrical charging prevention property and a grounding member for connecting electrically the vessel and a circuit substrate(51). The grounding member is connected electrically between the vessel and the circuit substrate. The static electricity generated at the vessel is leaked into a ground terminal(61) of an outer power outlet(60) through a ground line(52a) of a three phase power cord(52) connected to the circuit substrate. The three phase power cord(52) is composed of a power line(52b) and a ground line(52a). The grounding member comprises a first ground terminal(21), a second ground terminal(22), and a contact member(23).

Description

Static eliminator for cyclone dust collector {device for removing static electricity of dust-envelope for cyclone dust collector}

The present invention relates to a cyclone dust collector, and more particularly, to a static electricity removing device of a cyclone dust collector for dust collection to remove the static electricity generated in the cyclone dust collector.

In general, the cyclone dust collector is a device using the cyclone principle to discharge the air out of the pollutants that rotate with the air by using centrifugal force, and to separate only the pollutants from the air, mainly in the home vacuum It is adopted by vacuum cleaner and is used.

1 is a schematic longitudinal sectional view showing an example in which a general cyclone dust collector is applied to a vacuum cleaner, and the structure and operation of the general cyclone dust collector will be described with reference to the drawings.

As illustrated in FIG. 1, a cylindrical cyclone body 11 and a motor (not shown) are provided with a partition 3 having a filter means (not shown) installed inside the main body 1 of the vacuum cleaner. Are respectively positioned, and the upper one side of the circumferential surface of the cyclone body 11 cyclone air and contaminants sucked into the body 1 through the connection hose 5 of the vacuum cleaner as the suction force is generated by the operation of the motor A suction flow path 12 is formed in the body 11 to suck in a tangential direction, and at the center of the upper surface of the cyclone body 11, contaminants are separated from the air and the contaminants sucked into the cyclone body 11 by centrifugal force. An air discharge passage 13 is formed to discharge the separated air upwards, and at the center of the lower surface of the cyclone body 11, contaminants separated by centrifugal force among air and contaminants sucked into the cyclone body 11 are downward. Discharged into A pollutant discharge passage 14 is formed to turn on, and the pollutant discharge passage 14 includes a dust collecting container for collecting pollutants discharged through the pollutant discharge passage 14 in a state located directly below the cyclone body 11. (15) is detachably combined.

Referring to the operation of the cyclone dust collector made of this configuration is as follows.

First, a motor operates to generate suction force inside the cyclone body 11, and by this suction force, contaminants are sucked into the cyclone body 11 through the suction passage 12 together with air.

At this time, the contaminated air sucked in the tangential direction with respect to the cyclone body 11 through the suction passage 12 generates a centrifugal force while turning (orbiting) the inner wall of the cyclone body 11.

Therefore, since the air having a relatively light weight receives less centrifugal force, the air gathers into the central portion of the cyclone body 11 to form a whirl, forming a flow (discharge airflow) in the direction of the air discharge flow path 13, while the air flows through the air discharge flow path. Ejected through 13.

On the other hand, contaminants that are heavier than air receive relatively more centrifugal force and flow along the inner wall surface of the cyclone body 11, and are eventually collected in the dust collector 15 installed on the pollutant discharge passage 14. If contaminants are collected in the analgesic 15 or more than a predetermined limit, the dust collecting container 15 is separated from the inside of the main body 1 to discard the contaminants, and then used again by being combined.

However, in general cyclone dust collector, when contaminants are sucked into the cyclone body by the operation of the cyclone dust collector, the contact between the pollutants by the high-speed rotary air flow such as the swirl flow and the discharge air that acts in the cyclone body. And friction causes static electricity to be generated in the dust collecting container.

For this reason, in the case of the cyclone dust collector installed at the work site, since the size of the cyclone dust collector is relatively large, strong static electricity is generated, and when the body part of the worker contacts the dust collector of the dust collector, the static electricity is discharged from the dust collector to the human body. Lightning phenomena occur, most of which are not strong enough to lead to lightning strikes, but they also act as a source of secondary disasters such as falling from heights due to shocks from lightning strikes, and work sites handling flammable materials. There is a risk of explosion or fire due to spark discharge by static electricity.

In addition, in the case of a household vacuum cleaner employing a cyclone dust collector as shown in FIG. 1, in particular, in a dry state, the user may remove the dust collector handle 15a from the main body 1 to clean the dust collector handle 15a. If caught, the electric shock is accumulated due to the static electricity accumulated in the dust collecting container 15 and the handle 15a, and this phenomenon is repeated, causing the user to become uncomfortable or fearful due to static electricity.

Such static electricity may reduce the amount of static electricity generated in the dust collecting container 15 by forming the material of the dust collecting container 15 with a metal having excellent electrical conductivity, but when the dust collecting container 15 is formed of a metallic material I had the following problem.

First, when the dust collector 15 is formed of a metal material, there is a problem in that the production cost required for the manufacture of the dust collector is increased, and the manufacturing process and the processing work are relatively complicated, resulting in a decrease in productivity compared to the manufacture of the synthetic resin.

Second, in order for the user to easily measure the amount of contaminants collected in the dust collecting container and simplify the cleaning operation of the dust collecting container, it is desirable to form the dust collecting container as a light and transparent material, which cannot be satisfied in the case of metal materials. There was this.

Third, by installing the metal dust collector inside the main body, the static electricity is moved to the main body through the contact surface of the dust collector and the main body to reduce the amount of static electricity generated in the dust collector to some extent, but due to the installation structure of the dust collector and the main body, Since there is a limit in increasing the contact area, there is a problem that sufficient static electricity is not removed when a large amount of static electricity is generated.

The present invention has been made to solve the conventional problems as described above, by imparting antistatic properties to the dust collector of the transparent synthetic resin material and by performing grounding by the grounding means to the dust collector, the conventional synthetic resin material It is an object of the present invention to provide an electrostatic removal device for a cyclone dust collector for improving the removal performance of static electricity generated in the dust collector while maintaining the advantages such as transparency and low cost of the dust collector.

1 is a schematic longitudinal sectional view showing an example in which a general cyclone dust collector is applied to a vacuum cleaner;

Figure 2 is a schematic longitudinal cross-sectional view showing the installation structure of the dust collector and the static electricity removing device according to a preferred embodiment of the present invention,

3 is an enlarged view illustrating main parts of the dust collecting box and the static electricity removing device of FIG. 2;

Figure 4 is a longitudinal cross-sectional view and enlarged cross-sectional view showing the dust collector structure according to the present invention,

Figure 5 is a schematic diagram showing a static eliminator according to the present invention.

* Description of the symbols for the main parts of the drawings *

1 .... body, 4a, 4b .... fixed ribs,

15,30 .... dust collector, 21 .... ground terminal 1,

22 .. 2nd ground terminal, 22a .... elastic bending part,

23 ... contact member, 51 ... circuit board,

52 ... three-phase power cord, 52a ...

52b .... power wire, 61 .... ground terminal.

In order to achieve the above object, according to the present invention, the dust collector and the transparent power to identify the amount of contaminants collected therein, while having electrical conductivity to enable the movement of static electricity, and the power supply received from an external power outlet A three-phase power cord having a power supply line for transmitting a power supply to a power input unit of a circuit board provided in the main body and one end of which is connected to the ground terminal of the power outlet, and the other end of which is connected to the circuit board, and the static electricity generated in the dust collector. Cyclone, characterized in that the one end is electrically connected to the dust collector and the other end includes a grounding means electrically connected to the ground line of the three-phase power cord on the circuit board so as to leak to the ground end of the external power outlet It is to provide a static electricity removing device of the dust collector for the dust collector.

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

In the following description, for the main components of the present invention, reference is made to the conventional technology described above with reference to FIG. 1, and the detailed description thereof is omitted.

2 and 3 are schematic longitudinal sectional view and enlarged view of the main portion showing the installation structure of the dust collector and the static electricity removing device according to a preferred embodiment of the present invention, Figure 4 is a longitudinal sectional view showing a dust collector structure according to the present invention and It is enlarged section of main part.

As shown in the figure, the biggest feature of the present invention is provided with a dust collecting container 30 having electrical conductivity and antistatic property, and between the dust collecting container 30 and the circuit board 51 in the main body 1. Is provided with a grounding means for electrically connecting the dust collecting container 30 and the circuit board 51.

And a three-phase power cord 52 having a ground wire 52a groundable at the ground end 61 of the power outlet as a power cord for supplying power from the external power outlet 60 (see FIG. 5) to the main body 1 side. By employing the ground wire 52a is connected to the ground means on the circuit board 51, the static electricity generated in the dust collecting container 30 can be leaked to the ground terminal 61 of the external power outlet 60. It would be.

This will be described in more detail as follows.

First, in order to impart electrical conductivity and antistatic property to a dust collector, which is a unique insulator of a conventional synthetic resin material, can be achieved by adding a conductive material inside a material forming the dust collector, which will be described with reference to FIG. 4. Same as

The dust collecting container 30 is formed of a synthetic resin material having transparency, such as ABS resin 30b, and carbon black 30a, which is one of materials having antistatic properties for imparting antistatic property to the dust collecting container 30. The fine powder is mixed at a weight ratio of 100: 0.1 to 0.3% to form a mixture in which the ABS resin 30b and the carbon black 30a are mixed, and the mixture is injection molded into a predetermined shape by using a molding equipment such as a press injection machine. Is produced.

In this case, as the synthetic resin material forming the dust collecting container 30, any one or a combination of not only the ABS resin 30b but also a synthetic resin material having transparency such as acrylic and PVC can be used, and the insulator As a material capable of imparting antistatic properties to a synthetic resin material, any one or a combination of materials such as metal powder such as copper or silver, metal fiber, surfactant, etc. as well as carbon black 30a may be processed into a fine powder form. Can be used.

In addition, by appropriately adjusting the mixing ratio of the synthetic resin material and the antistatic material according to the characteristics of each mixed material, it is possible to appropriately control the transparency, processability, electrical conductivity and the like of the dust collecting container 30.

On the other hand, according to the above, since the inside of the dust collecting container 30 made of a transparent ABS resin (30b) material is a structure containing a carbon black (30a) of a predetermined amount or less having a fine size, the conventional synthetic resin Like the dust collecting container 15 (see FIG. 1) made of only a material, the amount of contaminants collected inside the dust collecting container 30 may be transparent enough to identify the user.

In addition, the surface electrical resistance of the dust collecting container 30 is 10 ⁶ to 10 ⁸ kW by adding carbon black 30a to the conventional synthetic resin dust collecting container having a surface electrical resistance of 10 ¹⁰ Ω / m ² or more. / m ² can be maintained, and when the surface electrical resistance of the dust collecting container 30 is maintained in a state of 10 ⁶ to 10 ⁸ kW / m ² , static electricity is generated in the dust collecting container 30, The static electricity accumulated in the dust collecting container 30 can be moved or discharged by contact with the main body 1 provided with the dust collecting container 30 or by grounding by a separate grounding means.

In addition, as a method for imparting electrical conductivity and antistatic property to a dust collector made of a conventional synthetic resin material, which is an insulator, non-conductive synthetic resin material having transparency similar to the conventional dust collector 15 shown in FIG. In addition, a conductive coating film may be formed on the surface of the dust collecting container by preparing a dust collecting container having a predetermined shape and then applying and drying an antistatic liquid containing a material having antistatic performance on the inner and outer circumferential surfaces thereof.

On the other hand, by installing the grounding means and the three-phase power cord according to the present invention to the above-mentioned dust collector 30 to be electrically connected to the bar can further increase the performance of removing static electricity, the grounding means and three-phase power cord according to the present invention Referring to the installation structure of Figure 3 and 5 as follows.

The grounding means is electrically connected between the dust collecting container 30 and the circuit board 51, so that the static electricity generated in the dust collecting box 30 is connected to the circuit board 51, and the ground wire 52a of the three-phase power cord 52 is connected. Through) will leak to the ground terminal 61 of the external power outlet 60 to be electrically neutralized.

In addition, the three-phase power cord 52 is a power line for transferring the power applied from the power terminal 62 of the external power outlet 60 to a power input unit (not shown) on the circuit board 51 installed in the main body 1. 52b and the three-phase power cord 52 are inserted into the power outlet 60 so that one end thereof can be connected to the ground terminal 61 of the power outlet 60 and the other end thereof to the circuit board 51. Consisting of a ground wire 52a.

In addition, the grounding means may include a first ground terminal 21 having a conductive material, one end of which is electrically connected to the ground line 52a of the three-phase power cord 52 on the circuit board 51, and one end of the grounding means. The second ground terminal 22 of conductive material having an elastic fixing portion 22b which is in contact with the ground terminal 21 and the other end is elastically fixed to the fixing ribs 4a and 4b provided inside the main body 1. ), And when the dust collecting container 30 is located inside the main body 1, the dust collecting container 30 and the second ground terminal 22 are simultaneously contacted with the second ground terminal 22 and the first ground. It consists of a contact member 23 made of a conductive material for bringing the terminals 21 into contact with each other.

Referring to the static elimination action by the electrostatic eliminating device according to the present invention having such a configuration as follows.

When the dust collecting container 30 is inserted and seated in the dust collecting container 30 (see FIG. 3), the surface of the dust collecting container 30 and one surface of the contact member 23 come into contact with the contact member 23. ) Is horizontally moved toward the first ground terminal 21 by a predetermined distance so that the second ground terminal 22 and the first ground terminal 21 are in contact with each other to be electrically connected.

As such, when the cyclone dust collector is operated in the state in which the dust collecting container 30 is installed in the main body 1, a high-speed rotary air flow acting in the cyclone body 11 while the contaminants are sucked into the cyclone body 11. Due to the contact between the contaminants and friction by the static electricity is generated in the dust collecting container (30).

In this case, the static electricity accumulated on the bottom surface of the dust collecting container 30 is moved toward the main body 1 by keeping the bottom surface of the dust collecting container 30 in contact with the main body 1, and the main body 1 The static electricity moved to the side is electrically neutralized on the main body 1, whereby the static electricity on the bottom surface of the dust collecting container 30 is instantaneously removed.

At the same time, the static electricity generated on the side surface and the handle 31 of the dust collecting container 30 is the contact member 23, the second ground terminal 22, the first electrically connected to the side of the dust collecting container 30 Instantly moved to the circuit board 51 side through the ground terminal 21, the static electricity moved from the dust collecting container 30 to the circuit board 51 along the ground line 52a of the three-phase power cord 52 Moving to the ground terminal 61 of the outlet 60 is electrically neutralized and extinguished.

That is, a part of the static electricity generated in the dust collecting container 30 due to the operation of the cyclone dust collecting device is moved to the main body 1 side by the contact surface with the main body 1, and the grounding wire of the grounding means and the three-phase power cord 52 ( 52a) is moved to the ground terminal 61 of the power outlet 60 to be electrically neutralized, and during this process, the dust collector 30 has a low charge that does not generate an electric shock to the human body by static electricity. The voltage state is maintained.

On the other hand, the embodiments of the present invention as described above are not limited to this configuration is configured to help the understanding of the present invention, various modifications are possible within the scope without departing from the spirit of the present invention.

As described in detail above, according to the present invention, by providing an antistatic property to the dust collector made of a transparent synthetic resin material, which is an insulator, it is possible to maintain the advantages such as transparency and low cost of the dust collector made of a conventional synthetic resin material. By having a close electrical conductivity it is possible to maintain a state that is easy to move and release the static electricity to the other object.

In addition, by performing grounding by the grounding means and the three-phase power cord to the dust collector, there is an effect that can further improve the performance of removing static electricity generated in the dust collector.

Claims (2)

A dust collecting passage having transparency to identify the amount of contaminants collected therein as well as having electrical conductivity to allow the movement of static electricity, A three-phase power cord having a power line for transmitting power applied from an external power outlet to a power input portion of a circuit board provided in the main body, and one end of which is connected to a ground terminal of the power outlet, and the other end of which is a ground wire connected to the circuit board; One end portion is electrically connected to the dust collector and the other end is electrically connected to the ground wire of the three-phase power cord on a circuit board so as to leak the static electricity generated in the dust collector to the ground end of the external power outlet, Electrostatic removal device of the cyclone dust collector for the cyclone dust collector characterized in that it has been. The method of claim 1, The grounding means may include a first grounding terminal of a conductive material, one end of which is electrically connected to the ground line of the three-phase power cord on the circuit board; A second ground terminal of a conductive material having an elastic fixing part, one end of which is in contact with the first ground terminal and the other end of which is elastically fixed to a fixing rib provided inside the body; Cyclone dust collection, characterized in that composed of a contact member made of a conductive material that is in contact with the dust collecting container and the second ground terminal at the same time when the dust collecting container is located inside the main body and the second ground terminal and the first ground terminal in contact with each other Static eliminator of dust collector for device.