KR20170035197A - Dust collector - Google Patents

Abstract

The present invention relates to a dust collecting apparatus, which comprises a first gear connected to one end of a shaft formed in a longitudinal direction and a first gear connected to the other end of the shaft in the form of a cam gear, A second gear that rotates in accordance with the rotation of the driving gear to drive the shaft, and a housing that is provided inside the shaft, the first gear, the second gear, and the driving gear to shield the shaft from the outside, The shaft is driven according to the rotation of the second gear when the dust-collecting object to be dust-removed is fixed to the shaft, and the dust-collecting object is shaken to remove dust adhering to the dust-collecting object. This makes it possible to efficiently remove dust adhering to a dust collecting object such as clothes for which dust is to be removed.

Description

DUST COLLECTOR

The present invention relates to a dust collecting apparatus.

If you do not remove the dirt or sand on your clothes when you go home, it can cause skin diseases or bronchial diseases, and it is necessary to remove these living dirts as the fine dusts or dusts become worse, The collecting paper is equivalent, and a technique for removing it is required.

In this case, Korean Patent No. 894313 discloses a dust collecting device for removing dust, comprising a hopper for storing dust, a bag filter for filtering dust, and a dust removing device for dust exhausting the dust adsorbed on the surface of the bag filter, After the dust contained in the air is filtered, the filtered air is discharged.

However, since such a dust collecting device is intended to purify the air by removing dust in the air, it is necessary to tap the clothes to remove the dust adhering to the clothes after going out. In this process, There is a limit in that the dust remains in the room even if the dust is removed from the clothes.

Therefore, there is a need for a dust collecting device capable of effectively removing dust adhering to clothes.

SUMMARY OF THE INVENTION [0006] The present invention provides a method for efficiently removing dust on clothes.

A dust collecting apparatus according to an embodiment of the present invention includes a first gear connected to one end of a shaft formed in a longitudinal direction and connected in a cam gear form and a second gear connected to another end of the shaft in a form of a cam gear, A second gear which is located at the first gear and rotates in accordance with the rotation of the driving gear to drive the shaft, and a housing which has the shaft, the first gear, the second gear, The shaft is driven in accordance with the rotation of the second gear when the dust-collecting object to be dust-removed is fixed to the shaft, and the dust-collecting object is shaken to remove the dust adhering to the dust-collecting object.

The motor may further include a motor for rotating the driving gear.

In one example, the rotation direction, the rotation period, and the rotation speed of the motor are changed to change the rotation direction, rotation period, or rotation speed of the drive gear.

The motor is a stepping motor.

And the shaft is fixed inside the housing.

The housing is formed in a hexahedron, and the skeleton forming the housing and the shaft are formed in a folding structure, thereby reducing the size of the housing when not in use.

And a blower formed at the bottom of the housing to discharge wind in the axial direction.

The blower is formed in a pipe shape, and a hole is formed in a surface of the pipe to discharge wind through the hole.

A blower driving unit for generating wind and transmitting the generated air to the blower; and a heat wire formed between the blower driving unit and the blower and generating heat, wherein when the wind generated by the blower driving unit is transmitted to the blower, And is discharged as a warm wind passing through the hot wire.

A second shaft formed in a direction parallel to a first axis that is the axis connected to the first gear, and a second shaft connected to the first shaft and the second shaft in a direction perpendicular to the first shaft and the second shaft And a plurality of connection portions for transmitting the driving of the first shaft to the second shaft, wherein the second shaft is driven as the first shaft is driven.

And a dust collecting and discharging opening formed in the housing for collecting the dust separated from the dust collecting object in the housing and discharging the dust to the outside of the housing.

An infrared sensor formed inside the housing for measuring a density of dust inside the housing, a humidity sensor for measuring humidity inside the housing, a sensor for detecting a density of dust inside the housing, A controller for comparing the humidity inside the housing measured by the humidity sensor with the preset reference value to determine whether the dust is inside the housing or whether the dust collecting object located inside the housing is to be dried; And a display unit for receiving the result of the determination of the amount of dust of the control unit or the result of the determination of whether to dry the object to be collected and outputting the result in the form of a character.

And the first gear is an elliptical shape.

According to another aspect of the present invention, there is provided a dust collecting apparatus including: a first gear connected to one end of a first shaft formed in a longitudinal direction and connected in a cam gear form; a second gear disposed adjacent to the first gear, A drive gear which rotates in one direction in accordance with the rotation of the motor to drive the first gear, a first sub axis formed below the first axis and fixedly connected to the center of the first gear, A first member connected to an end of a first shaft and restricting a driving range of the first shaft with respect to the first sub axis, a second shaft formed in a direction parallel to the first axis, A second auxiliary shaft formed at a lower portion of the second shaft and fixed to the housing, and a second auxiliary shaft formed at both ends of the second shaft and the auxiliary shaft, respectively, A second member and a third member formed on the second shaft and connecting the second shaft and the second sub-shaft to restrict the driving range of the second shaft with respect to the second sub-shaft, And a plurality of connection portions connecting the first shaft and the second shaft in a direction perpendicular to the first axis and transmitting the driving of the first axis to the second shaft, The first shaft is driven in accordance with the rotation of the driving gear, and the dust attached to the dust collecting object fixed to the connecting portion is removed.

And the first member, the second member, and the third member are bar-shaped.

And the thickness of the first member is equal to the thickness of the first gear.

And a fixed connection shaft that is a fixed shaft connecting the first sub axis and the second sub axis to form the fixed axes integrally.

According to this feature, the shaft of the dust collecting device is connected to the first gear and the second gear in a cam gear manner and driven, the air is blown out from the blower pipe, and dust from the dust- Can be efficiently removed.

1 is a perspective view showing a schematic structure of a dust collecting apparatus according to an embodiment of the present invention.
2 is a front view showing a structure of a shaft, a first gear, a second gear, and a driving gear in a dust collecting apparatus according to an embodiment of the present invention.
3 is a plan view showing a connection structure between the shaft and the first gear and the second gear in the dust collecting apparatus according to an embodiment of the present invention.
4A is a plan view showing a connection relationship between a first shaft and a second shaft, and a first gear and a second gear in a dust collecting apparatus according to another embodiment of the present invention.
FIG. 4B is a view illustrating a connection relationship between a first shaft and a fixed auxiliary shaft and a driving auxiliary shaft connected to the first shaft in the dust collecting apparatus according to another embodiment of the present invention. FIG.
Figure 4c is a top view of Figure 4b.
5 is a side view showing the internal structure of a dust collecting apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Hereinafter, the structure of a dust collecting apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1, a structure of a dust collecting apparatus according to an embodiment of the present invention will be described. A dust collecting apparatus 10 according to an embodiment of the present invention includes a rectangular parallelepiped And includes a housing 1 and includes a gear 110, a driving gear 140, a shaft 130, a striking part 190, a blower 161, and a blower driving part 150 in the housing 1.

Although the housing 1 is shown in the form of a hexahedron in the drawing, it may be a closed object having a dust collecting object, for example, a space for accommodating clothes, and the form thereof is not limited.

However, at this time, it is preferable that the housing 1 can efficiently store the dust collecting object and is formed in a hexahedral structure similar to a closet in appearance.

When the housing 1 is formed in a hexahedral structure, the corner portion of the housing 1 is formed of a skeleton having a rod or rod shape, and the surface portion surrounded by the corners is covered with a cloth.

At this time, since the skeleton portion forming the corner is formed by the folding structure that can be folded and folded, the size of the housing 1 can be reduced and storage can be facilitated.

In another example, the surface portion constituting the housing 1 may be formed of a flexible material that does not adhere to the dust.

The gear 110 includes a first gear 111 and a second gear 112 and is formed at both ends of the shaft 130, respectively.

The first gear 111 and the second gear 112 are formed as disk shapes 111a and 112a and have gear shapes protruding from teeth 111b and 112b along the outer periphery of the disk, And the second gear 112 are located adjacent to the driving gear 140. [

The first gear 111 and the second gear 112 of the second gear 112 are formed so as to be adjacent to the driving gear 140. Conversely, 111 may be located adjacent to the driving gear 140, but it is not limited thereto.

The gear 110 thus includes two gears 111 and 112 as a pair and includes an axis 130 between the two gears 110 and 111 and 112.

At this time, the shaft 130 connected to the pair of gears 110 (111, 112) is connected in the form of a cam gear as shown in Fig. More specifically, one end of the shaft 130 is connected to the first gear 111 and is fixed at a position close to the tooth 111b rather than the center of the disk 111a forming the first gear 111 .

The other end of the shaft 130 is connected to the second gear 112 and is fixed to a position near the tooth 112b rather than the central portion of the disk 112a forming the second gear 112. [ do.

As the shaft 130 is connected to the first gear 111 and the second gear 112 through the cam gear structure, the shaft 130 is driven according to the driving of the coupled gears 110 and 111 and 112, And transmits its own drive to the gears 110 (111, 112).

When the second gear 112 of the gears 110 111 and 112 is formed to be adjacent to the driving gear 140 as in the example shown in the drawings of the present specification, And the shaft 130 is driven in accordance with the rotation of the second gear 112.

The teeth 112b of the second gear 112 are meshed with the teeth 141 formed on the driving gear 140 so that the second gear 112 is driven in accordance with the rotation of the driving gear 140. [

The first gear 111 is rotationally driven by the driving of the shaft 130.

The shaft 130 is driven by the connection with the second gear 112 and is connected to the first gear 111 and the second gear 112 by a cam gear structure, Moving left and right.

In one example, the shaft 130 driven by the driving gear 140, which is rotationally driven in one direction, is driven to rotate in a circular shape, preferably in an elliptical shape. In another example, When the first and second gears 111 and 112 are formed to have different sizes, the shaft 130 may be driven in a different shape than the elliptical shape.

In addition, the shaft 130 can be driven in a different form than the elliptical driving type according to the driving form of the driving gear 140, and the driving gear 140 for driving the second gear 112 can be rotated The rotation direction of the second gear 112 and the rotation direction of the driving gear 140 are periodically changed in accordance with the rotation period of the driving gear 140. In this case, The shaft 130 is driven in the same manner as the period set in the driving gear 140. [

At this time, the driving of the driving gear 140, which affects the driving of the shaft 130, is determined according to the driving period, the driving direction and the driving speed of the motor 170 connected to the driving gear 140.

In one example, the motor 170 may be formed of a stepping motor.

In this way, the shaft 130 can be changed in its driving form according to the rotation of the driving gear 140 or the size of the first gear 111 and the second gear 112, The rotation direction and rotation period setting of the motor 170 connected to the drive gear 140 can be changed.

The driving gear 140 driven by the motor 170 and driving the second gear 112 is disposed in contact with the second gear 112 in a meshed manner and is rotated by the rotational force applied from the motor 170 Thereby rotating the second gear 112.

Such a shaft 130 is a structure for fixing the object to be collected, and may have at least one hanger 113 or tongs 114 as shown in Fig.

A structure in which both ends of the shaft 130 are connected to the circular plates 111a and 112b formed on the first gear 111 and the second gear 112 will be described in more detail with reference to the drawings of FIGS. One end 131a of the shaft 130 connected to the first gear 111 is coupled to the groove 111c formed in the first gear 111 and the other end 131b of the shaft 130 is coupled to the first gear 111, 2 gear 112. In this way,

Both end portions of the shaft 130 are not in the center of the disk forming the first gear 111 or the second gear 112 but are formed in a cam gear shape .

4A, a dust collecting apparatus 10 according to another embodiment of the present invention includes a dust collecting apparatus 10 having a pair of gears 110, 111 and 112, And a shaft may be further included in addition to the shaft 130 of the rotor 130.

More specifically, the axis included in one axis 130 is a second axis 230 formed parallel to the first axis 130, which is one axis, and the second axis 230 is parallel to the first axis 130 and the second axis 230 And a plurality of connection portions 250 that are formed along the vertical direction and connect the first shaft 130 and the second shaft 230 to each other.

Since the second shaft 230 is connected to the first shaft 130 by the plurality of connecting portions 250, the driving of the first shaft 130 is received through the plurality of connecting portions 250, And is driven in the same manner as the single shaft 130.

Since the dust collecting apparatus 10 according to the present invention includes the plurality of shafts 130 and 230, the dust collecting apparatus can be fixed to the connecting portion 250 connecting the two shafts 130 and 230, respectively , More dust collecting objects can be fixed than when the dust collecting object is fixed using a single shaft (130). For example, by forming the fixing portion in the structure of the plurality of connecting portions 250 connecting the first shaft 130 and the second shaft 230, the number of objects to be fixed can be increased.

At this time, rather than fixing the dust collecting object to the first shaft 130 and the second shaft 230 by using the fixing part, the fixing part is formed at the connecting part 250 to fix the dust collecting object, There is an effect that fixation is possible.

In one example, the first shaft 130 or the second shaft 230 formed of a single shaft 130 or a plurality of shafts may have a structure in which their lengths can be reduced or increased, respectively, The size of the dust collecting device 10 can be reduced by folding the shafts 130 and 230 when the size of the housing 1 is reduced.

4b, the dust collecting apparatus 10 forms a gear only on one portion of the first shaft 130, and the first shaft 130 and the second shaft 230 have gears And may be formed in a shape including a sub axis connected to each other.

In one example, the auxiliary shaft includes a first auxiliary shaft 130b formed at a lower portion of the first shaft 130a and a second auxiliary shaft 230b formed at a lower portion of the second shaft 230a, The first auxiliary shaft 130a and the first auxiliary shaft 130b form a pair and the second shaft 230a and the second auxiliary shaft 230b form a pair.

At this time, one end of the first shaft 130a is fixedly connected to the second gear 112 in the form of a cam gear as already described in Fig. 2, and the other end of the first shaft 130a is connected to the first member 135, As shown in FIG.

At this time, the first member 135 may be formed into a rod shape, and the other end of the first member 135 not connected to the first shaft 130a may be formed as a pair with the first shaft 130a And is fixedly connected to one end of the first sub-shaft 130b which is the sub-axis.

Thus, as the first member 135 is connected to the first shaft 130a and the first sub-shaft 130b, the first member 135 moves according to the movement of the first shaft 130a. However, at this time, as both ends of the first member 135 are connected to the respective ends of the first shaft 130a and the first sub-shaft 130b, the first member 135 is driven by the first shaft 130a The first auxiliary shaft 130b moves within a radius based on the first auxiliary shaft 130b.

That is, even if the first shaft 130a moves due to the rotation of the second gear 112, the range of movement of the first shaft 130a by the first member 135 is limited, (135).

The first auxiliary shaft 130b formed at the lower portion of the first shaft 130a is fixedly connected to the center portion of the second gear 112 and is fixed to the inside of the housing 1 constituting the dust collecting apparatus 10. [ As shown in FIG.

At this time, the side of the second gear 112, which is connected to the second gear 112 by the cam gear structure, and the side of the first auxiliary shaft 130b is connected to the center portion of the second gear 112 The side surfaces of the second gear 112 connected to the second gear 112 are on different sides. The first gear 135 and the second gear 112 are spaced apart from each other with respect to the second gear 112. The first gear 135 and the second gear 112 are spaced apart from each other, It is preferable that the first shaft 130a and the first sub-shaft 130b are positioned between the first shaft 130a and the first sub-shaft 130b.

Also, a plurality of connection portions 250 are formed between the first shaft 130a and the second shaft 230a horizontally formed as described above with reference to FIG. 4A.

At this time, although not shown in FIG. 4B, the hanger 113 or the clamp 114 may be formed at the connection part 250 as described above with reference to FIG.

When the first shaft 130a is moved by the second gear 112 so that the first shaft 130a and the second shaft 230a are connected to each other, The movement of the first shaft 230a is transmitted to the second shaft 230a through the connection part 250 so that the second shaft 230a moves according to the movement of the first shaft 130a.

The second shaft 230a is connected to the second sub-shaft 230b by the second member 235a and the third member 235b. The second member 235a and the third member 235b are connected to the second sub- The second member 235a and the third member 235b are fixedly connected to the ends of the second shaft 230a or the second auxiliary shaft 230b at the ends thereof, And connects the shaft 230a and the second auxiliary shaft 230b.

In one example, the second member 235a and the third member 235b may also be formed in the shape of a bar, as described with reference to the first member 135, but the first to third members 135, 235a, 235b may be formed in other shapes as long as they are configured to connect the respective axes.

The second auxiliary shaft 230b formed below the second shaft 230a is also fixed in the same manner as the first auxiliary shaft 130b and is connected to the housing of the dust collecting apparatus 10 1). In another example, as shown in FIG. 4C, a fixed connection shaft 330 connecting the first sub-shaft 130b and the second sub-shaft 230b may be further provided, The auxiliary shaft 130b, the fixed connection shaft 330, and the second auxiliary shaft 230b may have a fixed structure in an integrated structure.

Since the second sub-shaft 230b has a fixed structure, the movement range of the second sub-shaft 230a, which receives the movement of the first sub-shaft 130a, is shifted with respect to the second sub-shaft 230b And the moving radius thereof is determined by the lengths of the second member 235a and the third member 235b.

4B and 4C, the dust collecting apparatus 10 according to an embodiment of the present invention includes a first sub-shaft 130b and a second sub-shaft 230b or a fixed connection shaft 330 The first shaft 130a and the second shaft 230a are connected to the fixed shaft via the first through third members 135, 235a and 235b. The first shaft 130a and the second shaft 230a move within the range with the lengths of the first through third members 135, 235a, and 235b being the radius, even if the first shaft 130a moves, The clothes or the like located at the connection part 250 formed between the shaft 130a and the second shaft 230a move randomly according to the movement of the shafts and the dust on the clothes is shaken.

In one example, the second gear 112 may be an elliptical gear.

1 and 5, the dust collecting apparatus 10 includes a dust collecting and discharging port 120 on one side of the housing 1, and dust (dust) And discharges it to the outside.

The dust collecting and discharging port 120 includes a portion for discharging collected dust that is formed in a shape opened on the side surface of the housing 1 and a portion for collecting dust generated inside the housing 1, In one example, the dust collecting portion is formed in a trumpet shape to collect dust and discharge the dust.

At this time, the maximum diameter of the trumpet shape of the dust collecting part 121 of the dust collecting and discharging port 120 is formed to be larger than the diameter of the opened shape which is the part for discharging the dust, so that the dust generated inside the housing 1 is efficiently collected, 1) Discharge to the outside.

In one example, the dust collecting apparatus 10 can efficiently and efficiently collect dust discharged to the outside of the housing 1 through the dust discharging portion of the opened shape by forming a vacuum cleaner on the outside of the housing 1 on which the dust collecting and discharging opening 120 is formed .

The dust collecting apparatus 10 according to an embodiment of the present invention includes a blower 161 at a lower portion thereof and the blower 161 is disposed inside the housing 1 and preferably toward the dust collecting object 300 And has a pipe shape having a hole 161a formed therein.

The blower 161 discharges the wind received from the blower driving unit 150 through the hole 161a to efficiently remove dust from the dust collecting object 300. The blower driving unit 150 is a fan , And a motor.

At this time, a heat ray 160 is further formed between the blower driving unit 150 and the blower 161. When the wind generated by the blower driving unit 150 is transmitted to the blower 161, It can be formed by wind.

Therefore, from the configuration including the heat line 160, the effect of drying the dust-collecting object 300 in addition to the dust removal of the dust-collecting object 300 by the warm wind discharged from the hole 161a of the blower 161 have.

In one example, a plurality of blowers 161 formed on the inner bottom of the housing 1 may be formed in parallel to the direction of the shaft 130.

The dust collecting apparatus 10 of the present invention is provided with an infrared sensor on the inner wall of the housing 1 and preferably on the inner wall of the housing 1 to measure the dust density inside the housing 1, Outputs high or low dust.

At this time, the dust collecting apparatus 10 includes a control unit and receives the dust density inside the housing 1 measured by the infrared sensor. When the dust density inside the housing 1 is higher than the set reference value, the dust collecting apparatus 10 outputs a large amount of dust to the display unit And controls the display unit to output a small amount of dust to the display unit when the dust density inside the housing 1 is smaller than the set reference value.

The control unit may control the display unit to output a phrase " dust amount normal " or the like to the display unit by comparing the dust density inside the housing 1 with the set reference value.

In one example, the display unit is formed on the outer wall surface of the housing 1 to output the degree of dust inside the housing 1.

The dust collecting apparatus 10 further includes a humidity measuring sensor for measuring the humidity inside the housing 1, and can measure the humidity inside the housing 1 and transmit the measured humidity to the controller.

At this time, the control unit receives the humidity measurement value from the humidity measurement sensor, compares the humidity measurement value with the preset reference value, and controls the display unit to output to the display unit that the drying of the dust collection object 300 is completed when the humidity measurement value is less than the set reference value.

At this time, the controller may control the display unit to convert the humidity measurement value received from the humidity measurement sensor into a percentage value and output the converted value to the display unit.

As described above, the dust collecting apparatus 10 includes an infrared sensor and a humidity measuring sensor inside the housing 1, receives the measured dust density measured by the infrared sensor and the measured humidity value measured by the humidity measuring sensor, And a display unit provided outside the housing 1 to easily remove the dust on the dust collecting object 300 or dry the dust collecting object 300 using the dust collecting apparatus 10 Can be monitored.

1 to 5, a dust collecting apparatus 10 according to an embodiment of the present invention includes a housing 1, a dust collecting object 300, The shaft 130 is driven from the driving of the motor 170 so that the dust on the dust collecting object 300 can be easily removed by the shaking of the shaft 130. [

At this time, since the striking part 190 strikes the dust-collecting object 300 from the driving of the striking and fixing part 191, dust adhering to the dust-collecting object 300 is removed from the dust-collecting object 300 by inertia.

Dust removed on the dust-collecting object 300 can be removed more efficiently by the wind blown out from the hole 161a of the blower 161 and the dust removed can be removed from the housing 1 through the dust- The dust can be efficiently removed by placing the dust-collecting object 300 to be dust-removed inside the housing 1. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

1: Housing 10: Dust collector
110: Gear 120: Dust collector and outlet
130: shaft 140: drive gear
150: blower driving unit 160:
161: blower 161a: hole
170: motor 180: filter

Claims (17)

A first gear connected to one end of the shaft formed in the longitudinal direction in the form of a cam gear,
A second gear which is connected to the other end of the shaft in the form of a cam gear and which is located adjacent to the drive gear and meshing with the teeth so as to drive the shaft by rotating in accordance with the rotation of the drive gear,
A housing having the shaft, the first gear, the second gear, and the drive gear provided therein for shielding the shaft,
Wherein when the dust-collecting object to be dust-removed is fixed to the shaft, the shaft is driven in accordance with rotation of the second gear to shake the dust-collecting object to remove the dust adhering to the dust-collecting object Device. The method according to claim 1,
And a motor for rotating the driving gear. 3. The method of claim 2,
Wherein the rotation direction, the rotation period, and the rotation speed of the motor are changed to change the rotation direction, rotation period, or rotation speed of the drive gear. 3. The method of claim 2,
Wherein the motor is a stepping motor. The method according to claim 1,
And the shaft is fixed inside the housing. The method according to claim 1,
The housing is formed in a hexahedron,
Wherein the skeleton forming the housing and the shaft are formed in a folding structure to reduce the size of the housing when not in use. The method according to claim 1,
Further comprising a blower formed at the bottom of the housing for discharging the air in the axial direction. 8. The method of claim 7,
Wherein the blower is formed in a pipe shape, and holes are formed in a surface of the pipe to discharge wind through the holes. 8. The method of claim 7,
A blower driver for generating wind and delivering it to the blower, and
And a heat-generating member formed between the blower driving unit and the blower,
Further comprising:
Wherein when the wind generated by the blower driving unit is transmitted to the blower, the wind passes through the hot line and is discharged as warm wind. The method according to claim 1,
A second shaft formed in a direction parallel to the first shaft which is the shaft connected to the first gear, and
And a plurality of connection portions for connecting the first shaft and the second shaft in a direction perpendicular to the first axis and the second shaft and transmitting the driving of the first shaft to the second shaft,
Wherein the second shaft is driven as the first shaft is driven. The method according to claim 1,
Further comprising a dust collecting and discharging opening formed in the housing for collecting the dust separated from the dust collecting object in the housing and discharging the dust to the outside of the housing. The method according to claim 1,
An infrared sensor formed inside the housing for measuring a density of dust in the housing,
A humidity sensor formed inside the housing for measuring the humidity inside the housing,
The dust density inside the housing measured by the infrared sensor and the humidity inside the housing measured by the humidity measuring sensor are received and compared with a set reference value to determine the amount of dust in the housing or the amount of dust in the housing, A control unit for judging whether or not it is dry, and
A display unit attached to an outer surface of the housing and receiving the result of the determination of the amount of dust of the control unit or the result of the determination of whether or not the object to be collected is dried,
Wherein the dust collecting device further comprises: The method according to claim 1,
Wherein the first gear is an elliptical shape. A first gear connected to one end of the first shaft formed in the longitudinal direction in the form of a cam gear,
A drive gear which is positioned adjacent to the first gear so as to engage with the gear and which is connected to the motor and rotates in one direction in accordance with the rotation of the motor to drive the first gear,
A first auxiliary shaft formed at a lower portion of the first shaft and fixedly connected to the center of the first gear,
A first member connected to the first shaft and the end of the first shaft to limit a driving range of the first shaft with respect to the first sub axis,
A second axis formed in a direction parallel to the first axis,
A housing having therein the first shaft, the first gear, and the drive gear and shielding the first shaft, the first gear,
A second auxiliary shaft formed at a lower portion of the second shaft and fixed to the housing,
A second member formed at each of both ends of the second shaft and the auxiliary shaft and connecting the second shaft and the second auxiliary shaft to restrict the driving range of the second shaft with respect to the second auxiliary shaft, Absence, and
And a plurality of connection portions for connecting the first shaft and the second shaft in a direction perpendicular to the first axis and the second shaft and transmitting the driving of the first shaft to the second shaft,
Wherein when the dust collecting object is fixed to the connecting portion, the first shaft is driven according to the rotation of the driving gear to remove the dust adhering to the dust collecting object fixed to the connecting portion. 15. The method of claim 14,
Wherein the first member, the second member, and the third member are rod-shaped. 15. The method of claim 14,
Wherein the thickness of the first member is equal to the thickness of the first gear. 15. The method of claim 14,
Further comprising a fixed connection shaft which is a fixed shaft connecting the first sub-shaft and the second sub-shaft, so that the fixed shafts are integrally formed.

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