KR100492598B1 - Apparatus for preventing inlet of particles - Google Patents

Abstract

The present invention relates to a double insect repellent and dustproof device, the present invention is fixed to the housing of the air inlet and the air flow path in communication with the air inlet and the motor shaft of the motor mounted to the housing Blown fan coupled and rotated to receive the rotational force of the motor, is formed of a disk-shaped net and fixed to the motor shaft in multiple layers to cover the air inlet is rotated with the rotation of the blower fan and flows in with air It is configured to include a plurality of rotating insect screens to block the inflow of foreign matters, so that foreign matters such as raw materials or dusts are completely blocked from entering the air inside the blowing system or the system to which the blowing system is applied. Is prevented from entering and accumulating on internal parts It is possible to prevent the deterioration and damage caused by corrosion of parts, and to prevent foreign matters from accumulating in the insect screen, thereby minimizing the flow resistance, so as to facilitate the inflow of air and to suppress the generation of noise. .

Description

Dual insect repellent and dustproof device {APPARATUS FOR PREVENTING INLET OF PARTICLES}

The present invention relates to a double insect repellent and dustproof device, and more particularly to a double insect repellent and dustproof device to completely block the entry of foreign matter such as raw or dust and to minimize the occurrence of flow resistance of the air.

In general, a blowing system is a system that generates a flow of air by causing a pressure difference of a fluid, that is, air. The blowing system includes a housing equipped with a flow path of air, a drive motor mounted inside the housing to generate a rotational force, and a fan installed to be rotatable in the flow path of the housing to rotate by receiving the driving force of the drive motor. It is configured by.

In such a blowing system, power is first applied to the driving motor, and when the driving motor is operated, the fan is rotated by receiving the driving force of the driving motor. When the fan rotates, a pressure difference is generated by the rotation of the fan, and air flows along the flow path due to the pressure difference.

The flow path of the air is variously formed according to the type, that is, the type of the fan. When the fan is an axial fan, the air flow forms a linear flow that flows in from the rear and flows outward. In the case of a centrifugal fan or sirocco fan, the fan flows in the front and forms a curved flow flowing out to the side.

The ventilation system as described above is applied to various appliances such as computers or computers such as refrigerators, air conditioners (also called air conditioners), microwave ovens, electrodeless lighting equipments, and computers, and radiates and cools heat generated from the applied devices. To ventilate or ventilate the interior air.

On the other hand, when the blower system as described above is applied and applied to the equipment, raw or foreign substances such as anides, flies, and the like flow into the machine along with the flow of air through the air flow path of the blower system, causing component failure. Or degrade performance.

1 is a view illustrating a blower system in which one example of a dustproof and insect-proof structure of a conventional blower system is illustrated. As shown in FIG. 1, the blower system is first driven by a housing 10 having an air flow path F therein. The blower fan 30 is rotatably positioned on the air inlet 11 side where the motor 20 is mounted and external air flows into the air flow path F of the housing, and the blower fan 30 is the drive motor. It is connected to the motor shaft 21 of the (20).

And the insect screen 40 of a planar shape formed in a predetermined size is fixedly coupled to the housing 10 to cover the air inlet 11 of the housing. The insect screen 40 has a mesh portion 41 formed in the form of a mesh to have a size corresponding to the inner diameter of the air inlet 11 of the housing and a fixing portion 42 bent and formed at the edge of the mesh portion 41. Is provided, and the insect screen 40 is fastened by the fastening means to the fixing part 42 in a state in which the mesh portion 41 covers the air inlet 11 of the housing. ) Is fixedly coupled to the housing 10.

Reference numeral 12 is a support for supporting the drive motor.

In this structure, when the driving motor 20 is operated, the rotational force of the driving motor 20 is transmitted to the blowing fan 30 through the motor shaft 21 so that the blowing fan 30 rotates. As the blower fan 30 rotates, external air flows in through the air inlet 11 and flows along the air flow path F by the pressure difference generated. At this time, raw materials or large foreign substances that were introduced together with the outside air toward the air inlet 11 of the housing are blocked from being introduced into the housing 10 by being caught by the insect screen 40.

However, the insect-proof and dust-proof structure of the conventional blower system as described above, the raw or foreign matter sucked with the outside air in the process of the outside air is introduced by the pressure difference by the rotation of the blower fan 30 is the insect screen While being caught by the 40, the suction of the inside of the housing 10 is suppressed, but the raw or foreign matter accumulates in the insect screen 40, not only to reduce the air flow rate but also to increase the suction resistance of the air, and also to the small foreign matter. There was a disadvantage that they do not block the flow into the housing.

The object of the present invention devised in view of the above point is to provide a double insect repellent and dustproof device to completely block the entry of foreign substances such as raw or dust and to minimize the occurrence of flow resistance of the air have.

In order to achieve the object of the present invention as described above, a housing having an air inlet portion through which external air is introduced and an air passage communicating with the air inlet portion, and fixedly coupled to a motor shaft of a motor mounted to the housing, Blown fan that is rotated by the rotational force of the motor and is formed of a disk-shaped mesh and fixedly coupled to the motor shaft in multiple layers to cover the air inlet, the foreign material inflowed with air while rotating with the rotation of the blower fan It includes a plurality of rotating insect screen to block, the air inlet portion of the housing is inclined to be formed in an annular shape having a predetermined width in the through hole formed in communication with the air flow path on one side of the housing and the through hole border The first plane is formed to be bent and extended on the stepped surface and the inclined stepped surface In addition, there is provided a double insect repellent and dustproof device configured to be fixedly coupled to the motor shaft so that the edges of the plurality of rotating insect screen is located in the inclined stepped area. In order to achieve the object of the present invention as described above A housing having an air inlet part introduced therein and an air flow passage communicating with the air inlet part, a blower fan fixedly coupled to the motor shaft of the motor mounted on the housing, and receiving and rotating a rotational force of the motor, and having a disc shape. And a plurality of rotary screens that are formed of a net and fixedly coupled to the motor shaft in multiple layers to cover the air inlet, and block the inflow of foreign substances introduced with the air while rotating with the rotation of the blower fan. Inlet portion and the through hole formed in communication with the air flow path on one side of the housing; A second step surface formed in an annular shape having a predetermined width at the periphery of the through hole, and a vertical step surface formed in an annular shape having a predetermined width extending in a direction perpendicular to the second plane and the vertical step surface thereof Subsequently, a first plane is formed to be bent and extended in a vertical direction on the vertical step surface, wherein the insect screens are fixedly coupled to the motor shaft to be located in the vertical step surface area. An apparatus is provided.

In addition, a housing including an air inlet portion through which external air is introduced and an air flow passage communicating with the air inlet portion, a blower fan installed in the housing, a motor for rotating the blower fan, and a rotating shaft having a predetermined length A plurality of insect screens formed of a mesh of the shape is fixedly coupled in a multi-layer is installed on the air inlet side and rotates by the flow of air generated by the pressure difference caused by the rotation of the blower fan while passing the air and separating foreign matters Dual insect screen and dustproof apparatus comprising a multi-screen screen assembly for introducing only air to the air inlet, and a bearing coupled between the multi-screen screen assembly and the air inlet of the housing to enable the multi-screen screen assembly rotatable Is provided.

Hereinafter, the double insect repellent and dustproof device of the present invention will be described according to the embodiment shown in the accompanying drawings.

2 and 3 illustrate a blower system equipped with an embodiment of the double insect repellent and dustproof apparatus of the present invention. Referring to this, first, the blower system includes an air inlet A through which external air is introduced and its A motor 20 for generating a rotational force is mounted in the housing 10 having the air flow path F communicating with the air inlet A.

The air inlet part A of the housing has an annular shape having a through hole 13 formed at one side of the housing 10 in communication with the air flow path F and having a predetermined width at the edge of the through hole 13. An inclined stepped surface 14 is formed to be inclined, and the first plane 15 is bent and extended to have a predetermined area after the inclined stepped surface 14. The inclined stepped surface 14 is formed in an intaglio shape with respect to the first plane 15.

The blower fan 50 is fixedly coupled to the motor shaft 22 of the motor 20, and the blower fan 50 is installed in the air flow path F so as to be positioned at the through hole 13 side of the air inlet. do.

The blower fan 50 may be a sirocco fan, an axial fan, or the like, but an axial fan is preferably used.

In addition, a plurality of rotation screens 60 formed in a disk-shaped net on the motor shaft 22 are fixedly coupled at a predetermined interval.

The rotating screen 60 is provided between the disk mesh portion 61 and the disk mesh portion 61 formed of a disk-shaped mesh having a predetermined outer diameter fixed portion 62 is fixed to the motor shaft 22 ) The rotation screen 60 is coupled to the motor shaft 22 by the fixing portion 62 is fixedly coupled to the motor shaft 22 and the rotation screen 60 is fixed to a plurality of fixed intervals at regular intervals. .

And it is preferable that the spacers 70 for maintaining the distance between the rotating insect screen 60 and the rotating insect screen 60 and the rotating insect screen 60 is coupled to each other and the spacer 70 is formed in a ring shape. Meanwhile, the rotation screens 60 may be fixedly coupled to the spacer 70, and the spacer 70 may be fixedly coupled to the motor shaft 22.

Preferably, the size of the rotating screens 60 is the same, and the edges of the rotating screens 60 are preferably coupled to the motor shaft 22 so that the edges of the rotating screens 60 are located in the inclined step surface area 14 of the air inlet. .

Reference numeral 80 is a safety net.

As a variation of the rotating screens, as shown in FIG. 4, the size of the rotating screens 60 is different, and the outer diameter of the disk of the rotating screen 60 is located closest to the through hole 13. Is the smallest and the largest outer diameter of the disk of the rotating insect screen 60 located farthest from the through hole 13 is formed.

As another modification of the screens, as shown in FIG. 5, the rotating screen 60 ′ which is located farthest from the through hole 13 of the plurality of rotating screens 60 has an edge thereof, that is, a disc mesh portion. An extension mesh portion 63 is formed to be bent at a predetermined area to the edge of the 61 to surround the edge of the rotation screen 60 positioned on the side thereof.

As another modified example of the rotating screens, as shown in FIG. 6, the plurality of rotating screens 60 are formed to have different sizes, and the edge of the rotating screen 60 is located farthest from the through hole 13. Is coupled to the motor shaft 22 so that it is located in the area of the first plane 15 outside the area of the inclined stepped surface 14 of the air inlet.

In addition, as a modification of the air inlet portion A of the housing, as shown in FIG. 7, a through hole 13 is formed at one side of the housing 10 so as to communicate with the air flow path F. A second plane 16 is formed in an annular shape having a predetermined width at the edge of the through hole 13 and is perpendicular to the second plane 16 in an annular shape having a predetermined width following the second plane 16. The vertical stepped surface 17 extending in the direction is formed, and the vertical stepped surface 17 is formed, followed by the first plane 15 bent and extended in the vertical direction on the vertical stepped surface 17.

The first plane 15 and the second plane 16 are formed in a plane having a predetermined area and are parallel to each other. The vertical step surface 17 is formed in an annular shape having a predetermined width and an inner diameter and is positioned in a direction perpendicular to the first and second planes 15 and 16.

In addition, the plurality of rotating screens 60 are preferably formed to have the same size, and the spacers 70 which maintain a distance between the rotating screens 60 are coupled to each other. It is preferably fixedly coupled to the motor shaft 22 to be located in the area of the vehicle surface 17.

Meanwhile, as a modified example of the rotating insect screens located on the vertical step surface 17 of the housing, as shown in FIG. 8, the rotating insect screens farthest from the through-hole 13 among the rotating insect screens 60 ( 60 ') is formed larger than the size of the other rotating screens (60). The rotating screen 60 'which is located farthest from the through hole 13 is bent at a certain area to the edge thereof, that is, the edge of the disk mashing part 61, and the edge of the rotating screen 60 located at its side. An extension mesh portion 63 is provided to wrap. The rotating insect screen 60 ′ provided with the extension mesh portion 63 is located outside the vertical step surface 17 and positioned outside the vertical step surface 17, that is, in the area of the first plane 15. It may be fixedly coupled to the motor shaft 22.

In another embodiment of the present invention, as illustrated in FIG. 9, a housing having an air inlet A through which external air is introduced and an air flow path F communicating with the air inlet A may be provided. The blower fan 50 and the motor 20 which rotates the blower fan 50 are installed in 10. And a plurality of insect screens (100, 110) formed in a disk-shaped net on the rotary shaft 90 having a predetermined length is fixedly coupled in a multi-layer of the air generated by the pressure difference caused by the rotation of the blower fan (50) Rotating by the flow, the air passing through, and separates the foreign matter to the air inlet (A) is a multiple screen assembly (R) is installed on the air inlet side (A). A bearing 120 is rotatably coupled between the multiple screen assembly R and the air inlet A of the housing to allow the multiple screen assembly R to rotate.

The multi-screen screen assembly (R) is formed of a rotating shaft 90 and a disk-shaped net having a predetermined length is fixed to a plurality of fixed screens at a predetermined interval to the rotating shaft 90 and the screen screen The spacer 70 and each of the insect screens 110 and 110 that are located between the (100) and 110 and maintain the gap between the insect screens 100 and 110 are formed in a disk-shaped net. Is provided in the middle of the disc mashing portion 111 and the disc mashing portion 111 is fixed to the rotating shaft 90, 112 and a plurality of blades formed in the radial direction in the disc mashing portion 111 It consists of a portion (113). And the other insect screen 100 is composed of a disc mesh portion 101 formed of a disk-shaped net and the disc mesh portion 101 of the fixed portion 102 is fixed to the rotating shaft 90.

The air inlet part A of the housing has an annular shape having a through hole 13 formed at one side of the housing 10 in communication with the air flow path F and having a predetermined width at the edge of the through hole 13. The second plane 16 is formed and a vertical step surface 17 extending in a direction perpendicular to the second plane 16 in an annular shape having a predetermined width following the second plane 16 is formed, the vertical Following the stepped surface 17, a first plane 15 bent and extended in the vertical direction is formed on the vertical stepped surface 17.

The bearing 120 is fixedly coupled to be positioned in the second plane 16, and the multi-screen assembly R has its rotation axis 90 at the center of the through hole 13 and its screen ( 100) 110 are installed on the air inlet A side to cover the through hole 13, wherein any one of a plurality of insect screens constituting the multiple insect screen assembly R is the bearing. It is fixed to the (120) side is installed on the air inlet (A) side.

Reference numeral 80 is a safety net.

Hereinafter, the operational effects of the double insect repellent and dustproof device of the present invention will be described.

First, in one embodiment of the present invention, when power is applied to the motor 20 and the motor 20 is driven, the driving force of the motor 20 is transmitted to the blowing fan 50 so that the blowing fan ( In addition to the rotation of 50, the rotating screens 60 and 60 'fixedly coupled to the blowing fan 50 rotate.

Due to the pressure difference generated by the rotation of the blower fan 50, outside air is introduced through the air inlet through-hole 13 and the rotary screens 60 and 60 ′ of the housing to blow the blower fan 50. It passes through the air flow path (F) to the inside.

At the same time, as the rotary screens 60 and 60 'rotate, the rotary screen 60 is composed of a plurality of foreign substances such as raw or dust introduced into the air inlet through-hole 13 by the flow of air. It hits the 60 'and bounces outwards to block the inflow into the air flow path F, which prevents the inflow of foreign substances into the air flow path F of the housing and only the outside air flows into the flow path. .

In this structure, a plurality of rotary screens 60 and 60 'configured to be multiple to the air inlet A through which the outside air is introduced are rotated by the rotational force of the motor 20, thereby allowing the flow of air and Foreign matter that was introduced together is blocked by multiple rotating insect screen 60 (60 ') to completely block the inflow of foreign matter. In addition, since a plurality of rotation screens 60 and 60 'rotate to block the inflow of foreign substances, the inflow of foreign substances is effectively blocked even at a low speed rotation.

In addition, since the foreign matter is thrown out by rotating the multiple rotating insect screen 60 (60 ') to prevent the foreign matter is accumulated in the rotating insect screen 60 (60') to minimize the generation of air flow resistance.

In another embodiment of the present invention, the blower fan 50 is rotated by the operation of the motor 20 and the external air is blown out by the pressure difference generated by the rotation of the blower fan 50. Passing through the assembly (R) is introduced into the air flow path (F) through the air inlet (A) of the housing.

At the same time, the multiple insect screen assembly R is rotated by the flow generated by the pressure difference caused by the rotation of the blower fan 50, and mixed with the air according to the rotation of the multiple insect screen assembly R to mix the air in the housing. Foreign matter that is to be introduced into the inlet (A) hits the multi-screen screen assembly (R) to be bounced out to prevent the foreign matter from entering the interior of the housing 10 with the flow of air.

This structure also includes a multi-screen screen assembly (R) having a plurality of screens (100, 110) in the air inlet (A) through which the outside air is introduced into the air generated by the rotation of the blower fan (50). The foreign matter that is rotated by the flow flows with the flow of air is blocked by the multiple insect screens 100 and 110 to completely block the inflow of foreign matter. In addition, since the plurality of insect screens 100 and 110 rotate to block the inflow of foreign substances, it effectively blocks the inflow of foreign substances even at low speed rotation.

In addition, since the foreign matter is bounced off by rotating the multiple insect screen (100, 110) to prevent the foreign matter is accumulated in the insect screen (100, 110) to minimize the occurrence of flow resistance of the air.

As described above, the double insect repellent and dustproof device according to the present invention completely blocks the inflow of foreign substances such as raw materials or dust in the process of introducing air into the air blowing system or the system to which the air blowing system is applied. Not only does foreign matter flow into the interior and not accumulate on the internal parts, it not only prevents the performance degradation of the parts but also prevents damage caused by corrosion of the parts, thereby improving reliability, and minimizing the generation of air flow resistance. Not only does the inflow smooth, but it also suppresses the generation of noise.

1 is a cross-sectional view of a blowing system provided with a conventional foreign matter inflow prevention structure,

2, 3 is a side cross-sectional view and a front view of the blowing system equipped with a double insect repellent and dustproof device of the present invention,

4, 5, and 6 are cross-sectional views showing another modified example of the rotating insect screen constituting the double insect repellent and dustproof device of the present invention;

7, 8 is a side cross-sectional view showing a modified example of the air inlet and the rotating insect screen constituting the double insect repellent and dustproof device of the present invention, respectively;

Figure 9 is a side cross-sectional view showing another embodiment of a double insect repellent and dustproof device of the present invention.

(Explanation of symbols for the main parts of the drawing)

10; Housing 13; Through hole

14; Inclined stepped surface 15; First plane

16; Second plane 17; Vertical step surface

20; Motor 22; Motor shaft

50; Blower fan 60,60 '; Spinning screen

63; Extended mesh portion 70; Spacer

90; Axis of rotation 100,110; Screens in Multiple Screen Assemblies

111; Disc mashing part 112; Fixture

113; Blade section 120; bearing

A; Air inlet F; Air euro

R; Multiple screen assembly

Claims (8)

delete A housing having an air inlet portion through which external air is introduced and an air flow passage communicating with the air inlet portion, a blower fan fixedly coupled to a motor shaft of a motor mounted on the housing, and rotating to receive the rotational force of the motor; It is formed of a disk-shaped net and fixedly coupled to the motor shaft in multiple layers to cover the air inlet comprises a plurality of rotary screens to block the inflow of foreign matter introduced with the air while rotating with the rotation of the blowing fan, The air inlet of the housing is formed on one side of the housing in contact with the air flow path and the inclined stepped surface is formed to be inclined in an annular shape having a predetermined width on the edge of the through hole and the bent extension surface is formed A first plane is provided and the edges of the plurality of rotating screens are inclined. Dual insect repellent and dustproof device configured to be fixedly coupled to the motor shaft to be located in the stepped area. A housing having an air inlet portion through which external air is introduced and an air flow passage communicating with the air inlet portion, a blower fan fixedly coupled to a motor shaft of a motor mounted on the housing, and rotating to receive the rotational force of the motor; It is formed of a disk-shaped net and fixedly coupled to the motor shaft in multiple layers to cover the air inlet comprises a plurality of rotary screens to block the inflow of foreign matter introduced with the air while rotating with the rotation of the blowing fan, An air inlet of the housing has a through hole formed in communication with the air passage on one side of the housing and an annular shape having a predetermined width following the second plane and an annular shape having a predetermined width at the edge of the through hole. The number of vertical stepped surfaces extending in a direction perpendicular to the second plane in the shape and the vertical stepped surfaces And a first plane which is bent and extended in a vertical direction on a straight step surface, wherein the insect screens are fixedly coupled to the motor shaft to be located in the vertical step surface area. The screen according to claim 2 or 3, wherein the screen that is located farthest from the through hole among the plurality of screens has an extension mesh portion that is bent to extend at an edge thereof to surround the edge of the screen that is located on the side thereof. Dual insect repellent and dustproof device. 4. The double insect repellent and dustproof device according to claim 2 or 3, wherein the screens are formed in different sizes. 4. The double insect repellent and dustproof device according to claim 2 or 3, wherein a spacer is arranged between the insect screen and the insect screen to maintain a distance between the insect screens. A disk having a housing having an air inlet portion through which external air is introduced and an air flow passage communicating with the air inlet portion, a blower fan installed in the housing, a motor for rotating the blower fan, and a rotating shaft having a predetermined length. A plurality of insect screens formed of a net are fixedly coupled in a multi-layer and installed at the air inlet side, and rotated by the flow of air generated by the pressure difference caused by the rotation of the blower fan while passing air and separating foreign matters. And a bearing which is coupled between the multiple insect screen assembly and the air inlet of the housing to allow the multiple insect screen assembly to be rotatable. The screen of claim 7, wherein the multi-screen screen assembly is formed between a rotating shaft having a predetermined length and a disk-shaped mesh and fixedly coupled to a plurality of fixed screens at predetermined intervals on the rotating shaft, and the distance between the screens. At least one of the spacer and the insect screen retaining the mesh is provided in the disk mesh portion formed of a disk-shaped mesh and the disk mesh portion of the fixing portion fixed to the rotating shaft and the disk mesh portion in the radial direction Double insect repellent and dustproof device, characterized in that consisting of a plurality of blades formed.