KR20200033093A - Dryer - Google Patents

Abstract

A dryer according to the present invention, comprises: a hollow casing with an opened front; a fan for introducing air into the casing and sending air; a heater for heating the introduced air; a discharge tube disposed downstream of the fan to be rotatably installed in the casing, and having an air inlet port at the rear and an air outlet port at the front; a motor having a rotating shaft; and a connector for rotating the discharge tube around a first axis of the rotation axis and rotatably connecting around a second axis forming a predetermined angle with the first axis, thereby providing a convenient mechanism that air for drying can be discharged while the discharge direction of air for drying is changed, since the discharge tube rotates about each of two axes.

Description

Dryer {Dryer}

The present invention relates to a dryer for drying a predetermined object by discharging heated air, and more specifically, is configured to include a hollow casing, a blower fan, a motor, and a heater to discharge heated drying air. It relates to a dryer for drying a predetermined object.

The dryer for drying the human body should not be damaged by the drying air when used, and the temperature of the drying air should be maintained to the extent that the user feels comfortable, whereas drying should be completed as quickly as possible. In addition, noise caused by air flow must be reduced and designed to allow the user to easily use the dryer.

Therefore, it is necessary to design the dryer in consideration of the overall size and shape of the dryer, the heating temperature of the drying air, the discharge amount and discharge speed, the size of the discharge port, as well as the constitution characteristics of the object to be dried. .

On the other hand, if the object to be dried is an infant or a companion animal, the infant or companion animal has difficulty in communication related to this even if it suffers considerable pain during drying, so drying that is most suitable for each constitutional characteristic can be carried out. It is preferable that the temperature and discharge speed of the drying air are automatically adjusted so that the drying process can be enjoyed while the infant or companion animal feels curious while the drying is performed.

In particular, infants need to be prevented from being discharged because heated skin is concentrated in one place because the skin is very soft.

KR 10-1490979B discloses a 'multi-function hair dryer' that expands the drying area by installing a rotary blade that can convert the flow of heated air into a vortex at the outlet of the dryer. However, the present invention has a problem in that the noise caused by the operation of the rotary blade is increased, and when necessary, the discharge air is concentrated to not only dry a predetermined area quickly, but also the drying air is diffused excessively and the drying performance is reduced. have.

US 2006 / 0254073A1 discloses a 'double fan hair dryer' that installs a plurality of fan blades to increase air intake and discharge performance while reducing noise and to control the amount of air for drying. It is not possible to provide a means to diffuse the discharged air or to change the discharge direction.

On the other hand, in order to increase the discharge area of the drying air discharged from the dryer, it is preferable to continuously change the air discharge direction of the discharge port, but the above-mentioned conventional inventions do not provide a mechanism for changing the direction of the discharge port.

When describing the technical problem to be solved by the present invention is as follows.

First, the present invention is to provide a dryer including an efficient mechanism in which a discharge port through which drying air is discharged can be rotated by a motor.

Second, the present invention is to provide a dryer that improves drying performance by diffusing a predetermined angle while drying air is diffused at a predetermined angle while the discharge direction of drying air is converted to a constant pattern by the above mechanism.

Third, the present invention is to provide a dryer that can easily convert the direction of the discharge port while the rotational force of the motor is accurately transmitted.

Fourth, the present invention is to provide a dryer that can be easily installed a mechanism for changing the direction of the discharge port.

Other, the problem to be solved by the present invention not mentioned above can be sufficiently derived from the description of the embodiments of the present invention.

In order to achieve the above object, the dryer according to the present invention,

It is installed so as to be rotatable in a hollow casing and has a discharge tube having an air outlet for discharging drying air, a motor for generating power to rotate the discharge tube, and a motor having a rotation axis, connected to the rotation axis, and the discharge tube It includes a connector connected to the discharge tube so that the discharge tube is rotated around a second axis forming a predetermined angle with the first axis of the rotation axis while being rotated in the rotational direction of the rotation axis.

A link block may be interposed between the connector and the rotation shaft, the rotation shaft and the connector may be orthogonally connected to each other, and at least one end of the connector may be connected to the discharge tube.

A through hole may be formed in the link block in a direction perpendicular to the center axis of the rotation axis, the connector may be fixedly penetrated into the through hole, and both ends of the connector may be connected to the discharge tube.

Both ends of the connector may be formed of circular rods, and may be rotatably inserted into a pair of recesses formed opposite to each other on the discharge tube based on the central axis of the connector.

A pair of holes facing each other may be formed on the wall of the discharge tube, and both ends of the connector may be rotatably inserted into the pair of holes based on the central axis of the connector.

A cylindrical inner sleeve may be disposed inside the casing, and the motor may be mounted on a motor mount fixed to the inner sleeve.

The motor mount may include a motor mounting portion to which at least a front end portion of the motor is inserted and fastened, and a plate-shaped bracket portion fixed to the inner sleeve.

The air outlet of the discharge tube may have a smaller cross-sectional area than the air inlet, and the air outlet may have a rectangular shape.

In the above, the rectangle may include a track type, an oval, and the like having different sizes of orthogonal widths.

A projection is formed in the radially outward direction on the discharge tube, and a cylindrical guider with a groove for guiding the protrusion to be moved when the discharge tube is rotated can be disposed inside the casing, and the groove is A closed curve can be formed so that the projections continue to rotate along the groove.

The protrusion may include a pair of protrusions spaced 180 ° apart in the rotational direction of the discharge tube, and the groove may be formed in a forward or reverse wave shape protruding in the longitudinal direction of the discharge tube, and the phase angle is 180 °. The waveforms at the spaced apart portions may be opposite or opposite waveforms, and the waveforms may be sinusoidal.

In the above, the virtual line connecting the pair of protrusions may be orthogonal to the virtual line connecting the pair of recesses or the pair of holes.

The solving means of the problems not mentioned above can be sufficiently derived from the description of the embodiments of the present invention.

According to the dryer of the present invention, there are one or more of the following effects.

First, in the dryer according to the present invention, the discharge tube for discharging the drying air to the outside is rotated in the rotational direction of the rotational axis of the motor, so that it can be rotated around an axis forming a predetermined angle with the rotational axis of the motor. Since the discharge tube is connected to the connector, a mechanism in which the direction can be changed while the discharge tube is rotated can be implemented.

Second, in the present invention, a link block having a through hole is fixed to one end of the rotating shaft, and the connector penetrates the through hole so as to be orthogonal to the rotating shaft, so that the discharge tube is centered on the axis of the connector at both ends of the connector. By being connected to be rotatable, an efficient mechanism for biaxial rotation of the discharge tube can be realized.

Third, according to the present invention, a motor generating power for rotating the discharge tube is partially inserted into and fastened to the motor mounting portion of the motor mount, and the bracket portion is formed to extend outside the motor mounting portion, so that the bracket portion is located inside the casing. Since it is fixed to the inner sleeve disposed, the motor can be easily fixed to a predetermined position inside the casing.

Fourth, the dryer according to the present invention is rotated while the pair of protrusions formed on the discharge tube are guided along the groove of the closed curve formed of a waveguide formed on the guider when the discharge tube is rotated, and both ends of the connector connected orthogonally to the rotation axis of the motor are discharged. Since it is inserted into a pair of grooves or a pair of holes formed in the tube and combined with the discharge tube, the discharge tube is rotated in the rotational direction of the rotating shaft, and at the same time, it is rotated at a predetermined angle around the axis of the connector to discharge. The air outlet of the tube is continuously moved from one side to the other side, and again from the other side. Therefore, since the discharge direction of the drying air discharged from the air outlet is continuously changed, the drying air discharged toward the drying site is greatly diffused, so that the drying area of a large area can be effectively dried.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will become apparent to those skilled in the art from the description of the claims.

1 is a perspective view of a dryer according to an embodiment of the present invention,
Figure 2 is a longitudinal sectional view of the dryer shown in Figure 1,
3A to 3D are exploded perspective views of the dryer shown in FIG. 1,
Figure 4 is a perspective view of a part of the casing in the perspective view of Figure 1,
Figure 5 is a cut-away perspective view showing the internal configuration of the dryer according to an embodiment of the present invention,
Figure 6 is an exploded perspective view of the discharge tube and the motor included in the embodiment of the present invention,
Figure 7 is an exploded perspective view of the motor portion shown in Figure 6,
8 is a cross-sectional view of the motor portion shown in FIG. 7,
9 is a developed view of the inner surface of the cylindrical guider included in the embodiment of the present invention,
10 is a view showing a rotation step of the discharge tube included in the embodiment of the present invention,
11 is an exploded perspective view of a discharge tube and a motor according to another embodiment of the present invention,
12 is a cross-sectional view of the discharge tube shown in FIG. 11,
13 is a perspective view of a dryer according to an embodiment of the present invention installed on a cradle.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to completely inform the person having the scope of the invention, and the present invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

Hereinafter, a dryer according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to FIGS. 1, 2 and 3A, a dryer according to an embodiment of the present invention includes a hollow casing 10, a fan 20 for introducing and sending outside air into the casing 10, and a fan ( 20) is installed downstream (heat) includes a heater (H) for heating the air.

The discharge tube 30 is made rotatable downstream of the heater H, and the discharge tube 30 is formed with an air inlet 33 through which heated air is introduced into the rear part, and externally drying air in the front part. An air discharge port 34 for discharging to is formed, and a motor 40 for rotating the discharge tube 30 is installed behind the discharge tube.

In addition, the dryer according to an embodiment of the present invention may include a lighting device 70 for irradiating light toward the front of the dryer, and a display device 80 capable of displaying or inputting operation information of the dryer. It may include a grip 90 extending downward from the casing 10.

In addition, the dryer is an external temperature sensor (S1) for sensing the body temperature of the object to be dried or sensing the temperature of the part being dried, and an air temperature sensor (S2) for sensing the temperature of the heated air in the casing (10). It may include, and may include a controller 98 for controlling the operation of the dryer.

Hereinafter, the components of the dryer according to the embodiment of the present invention will be described in more detail.

Referring to FIGS. 1, 2, 3A and 3C, the casing 10 includes a casing body 11 in which the upper casing 11a and the lower casing 11b are integrally formed to form a cylindrical tube, and the casing It may include a cylindrical cap 14 connected to the rear of the body 11 and formed with a plurality of through holes 141 through which air flows.

In the embodiment of the present invention, the casing body 11 and the cylindrical cap 14 are separately manufactured and then combined to be integral with each other, but the casing body 11 and the cylindrical cap 14 are first It may be manufactured integrally.

A rear cover 15 in which a plurality of air inlets 150 are formed is disposed at the rear of the cylindrical cap 14, and the rear cover 15 is inserted into and coupled to an opening formed at the rear of the cylindrical cap 14 Or, a ring 16 having a plurality of air inlets 161 formed between the opening edge of the cylindrical cap 14 and the edge of the rear cover 15 is inserted into the cylindrical cap 14 and the rear cover. 15 and ring 16 may be combined to be integral.

'Combination' described above or later means that the two components are integrally combined or assembled by a known bonding method such as fusion, adhesion, forced insertion, screwing, bolting, or keying.

2 and 3c, the blowing fan 20 may be installed inside the rear portion of the casing 10, and disposed on the downstream side of the first fan 21 and the first fan 21. It may include a second fan (22).

The rotation axis (not shown) of the first fan and the rotation axis (not shown) of the second fan are arranged on the same axis, so that the first fan 21 and the second fan 22 can be rotated on the same axis, and the rotation axes are It can be arranged coaxially separated from each other.

In addition, the first fan 21 is disposed inside the cylindrical cap 14, the through hole 141 formed in the cylindrical cap 14 when rotated, the through hole 150 formed in the rear cover 15, and the ring 16 It may be designed to mainly perform a function of allowing external air to flow into the casing 10 through the through holes 161 formed therein.

The second fan 22 is disposed downstream of the first fan, and transmits external air introduced by the first fan 21 in the direction of the discharge tube 30 which is the front side of the casing 10 It can be designed to perform mainly.

When the first fan 21 and the second fan 22 are manufactured to mainly perform functions as an air inlet fan and an air outlet fan, the air flow noise is reduced and the noise is reduced while the air inflow amount and the blowing amount are increased. The dryer can be operated.

In addition, by operating only one of the first fan 21 and the second fan 22, it is possible to adjust the amount of drying air discharged from the dryer to be reduced.

By rotating the first fan 21 and the second fan 22 such that the rotational directions of the first fan 21 and the second fan 22 are opposite to each other, it is possible to further improve air inflow and outgoing efficiency.

Meanwhile, a fan mount 27 may be installed between the first and second fans 21 and 22, and the fan mount 27 may have a plurality of rods 26 projecting outwards, and then end portions 261. Can be bent, the bent end 261 of the rod is forcibly inserted into the groove 515 formed in the inner sleeve 50 to be described later, so that the fan 20 is fixed to a predetermined position inside the casing 10 You can.

The heater H installed downstream of the fan may be formed as a ring-shaped coil heater, and heats air sent from the fan 20. An air temperature sensor S2 may be installed downstream of the heater H, and a pair of left and right sides of the air temperature sensor S2 may be disposed in front of the heater H (FIG. 3c).

Meanwhile, referring to FIGS. 2, 3A, 4, and 5, a cylindrical inner sleeve 50 may be disposed inside the casing body 11 composed of the upper and lower casings 11a and 11b. , The outer circumferential surface of the inner sleeve 50 may be coupled in close contact with the outer circumferential surface of the casing body 11.

3A, the inner sleeve 50 is made of left and right sleeve pieces 51 and 52, and the set screw 513 is formed in the right sleeve piece 52, the groove 514. By being screwed to the screw hole 519 formed in the left sleeve piece 51 through, it can be assembled to be integral with each other.

In addition, referring to FIGS. 2 and 3A, a groove 515 is formed at the rear of the inner sleeve 50, and the end portion 261 of the fixing rod 26 of the fan 20 described above is formed in the groove 515. ), The fan 20 can be fixed to a predetermined position in the case 10 by forcibly inserted (see FIG. 2).

In addition, a protrusion 516 is formed on the inner circumferential surface of the left sleeve piece 51, and a screw groove 517 is formed in the protrusion 516 so that the bolt 422 penetrates the motor mount 42, which will be described later, and the screw By being screwed to the groove 517, the motor 40, which will be described later, can be fixed in a predetermined position inside the casing 11.

Referring to FIGS. 2, 3A, 5, and 6, the discharge tube 30 may have a rough shape of a small front side and a large funnel shape of the rear side, and a rear portion of the cylindrical portion 31 ), The front portion is formed of a predetermined tubular portion 32, between which the fallopian tube portion 39 is gradually reduced longitudinal area toward the front may be formed.

A circular air inlet 33 may be formed inside the cylindrical portion 31 of the discharge tube, and the tube body portion 32 may be formed in a rectangular columnar shape, and rectangular air on the front side of the discharge tube 30 The discharge port 34 may be formed.

In the above, the term “rectangular” means not only a rectangle but also a shape including tracks, ovals, and the like having different sizes of orthogonal widths.

In addition, in the embodiment of the present invention, the air inlet 33 formed in the discharge tube 30 is formed in a circular shape and the air outlet 34 is formed in a rectangular shape, but is not limited thereto, and the air inlet 33 and the air outlet 34 may be modified in various shapes.

On the other hand, the air discharge port 34 of the discharge tube 30 is formed to be smaller than the air inlet port 33 so that air is concentrated from the air discharge port 34 and discharged to the outside.

A partition plate 38 may be disposed to partition the air passage formed inside the discharge tube 30 so that air is distributed and discharged.

In addition, although not shown here, the air discharge port 34 may be formed in a circular shape, or may be formed asymmetrically based on a central rotation axis (not shown) of the discharge tube 30, and the central rotation axis It may be formed eccentrically based on the line.

Referring to Figure 6, a pair of projections 35 on the cylindrical portion 31 of the discharge tube 30 may be formed to protrude outward at an angle of 180 °, the pair of projections 35 is Each of the cylindrical guiders 60 to be described later may be inserted to be slidable in the groove 601.

2 to 5, the cylindrical guider 60 may be disposed in front of the inner sleeve 50, and as shown in FIG. 3A, three pieces (61, 62, 63) They can be combined with each other to form this cylinder.

The groove 601 is formed on the inner surface of the cylindrical guider 60, and the protrusion 35 of the discharge tube can be inserted into the groove 601 to be moved while sliding. On the other hand, the groove 601 may form a closed curve so that the projection 35 is also rotated when the discharge tube 30 is rotated.

As shown in FIG. 8, the groove 601 may be formed to form a waveform when the inner circumferential surface of the guider 60 is flat. The waveform may be a sine file.

On the other hand, the cylindrical guider 60 is disposed in front of the inner sleeve 50 and combined with the inner sleeve 50, or the inner sleeve 50 is pressed inward by the inner circumferential surface of the casing body 11 and the casing ( 10) can be fixed inside.

The casing body, the inner sleeve, and the guider may be separately manufactured and combined to be integral, as in the embodiment of the present invention, but may be manufactured to be integral from the beginning, and two of them may be integrally manufactured. It can also be combined with the other.

3A, reference numerals 518 and 605 denote cuts 518 formed in the inner sleeve and grooves 605 formed in the guider so that cables (not shown) can pass through, respectively.

On the other hand, a pair of inward blocks 36 may protrude in the inner direction of the cylindrical portion 31 of the discharge tube 30, and a recess 37 may be formed in each inward block 36. have.

The pair of recesses 37 may be disposed to face at an angle of 180 °, and a virtual straight line connecting the pair of recesses 37 is orthogonal to the virtual line connecting the pair of protrusions 35, The pair of protrusions 35 and the pair of recesses 37 may be arranged. A connector 44 of a motor, which will be described later, may be inserted into the recess 37.

The motor 40 for rotating the discharge tube 30 can be fixedly installed in the motor mount 42 with reference to FIGS. 2, 3A, and 5 to 8, and the motor mount 42 is the inner described above. Among the pieces 51 and 52 of the sleeve 50, it can be fixed to one sleeve piece 51.

The motor mount 42 includes a motor mounting portion 42a to which the motor 40 is fastened, and a bracket portion 42b formed integrally with the motor mounting portion 42a to be fastened to the inner sleeve 50 described above.

The motor mounting portion 42a is formed of a cylindrical tubular portion 421 into which at least a distal end portion of the motor 40 is inserted, and the motor 40 through a hole 423 in which a bolt 429 is formed in the tubular portion 421 By being screwed to the screw hole 401 formed in the front portion of the motor 40 is fastened to the motor mounting portion 42a, the rotating shaft 41 of the motor 40 is a hollow portion 422 formed in the motor mounting portion 42a It protrudes forward through.

The bracket portion 42b is formed of a connecting portion 425 protruding outwardly from the motor mounting portion 42a and a plate body portion 424 bent toward the rear from one side of the connecting portion 425.

On the other hand, the bracket portion 42b is set screw 428 through the through-hole 426 formed in the plate body portion 424 is screwed to the screw hole 517 formed in the protrusion 516 of the left sleeve piece 51 , The bracket portion 42b is fixed to the inner sleeve 50, so that the motor 40 can be fixed to a predetermined position inside the inner sleeve 50.

The power transmission device that transmits the rotational force of the motor 40 to the discharge tube 30 is arranged orthogonally to the link block 43 of the cuboid connected to be fixed to the rotational shaft 41 of the motor 40 and the rotational shaft 41 Both ends 441 may include a connector 44 having a circular rod shape penetrating the link block 43 so as to protrude outward of the link block 43.

The rotating shaft 41 is inserted into and fixed to the horizontal hole 431 formed on one side of the link block 43, and the connector 44 has a through hole 432 formed in the vertical direction on the link block 43. Penetrate.

The connector 44 may be rotatably connected to the link block 43 or fixedly connected.

Both ends 441 of the connector 44 are inserted into the recess 37 of the above-described discharge tube 30, and when the motor 40 is operated, the discharge tube 30 rotates in the rotational direction of the rotation shaft 41 Can be.

Both ends 441 of the connector 44 may be rotatably inserted into the recess 37 or may be fixedly inserted, but at least when the connector 44 is fixed to the link block 43, at least the connector ( Both ends 441 of 44) are rotatably inserted into the recess 37, so that the connector 44 and the discharge tube 30 are connected to each other so that they can rotate relative to each other based on the central axis of the connector 44. You can.

After both ends 441 of the connector 44 are inserted into the recess 37 of the discharge tube 30, the stopper 47 can be fastened to the inward block 36 of the discharge tube 30, and more details The bolt 471 is screwed into the screw hole 361 formed in the inward block 36 through the hole 472 formed in the stopper 47 so that the stopper 47 is fastened to the discharge tube 30. Both ends 441 of the connector 44 can be prevented from being detached from the recess 37, so that the connector 44 and the discharge tube 30 can be prevented from being separated from each other.

The discharge tube 30 and the motor 40 are connected as described above, when the motor 40 is rotated, the connector 44 is rotated, and when the connector 44 is rotated, the discharge tube 30 is rotated. Since the pair of protrusions 35 protruding outward from the cylindrical portion 31 of the cylindrical guider 60 is inserted into the groove 601 formed on the inner circumferential surface and moved along the groove 601, the discharge tube 30 Is rotated before and after a predetermined angle based on the central axis of the connector 44, and is rotated in the rotational direction of the rotating shaft 41 together with the connector 44.

This will be described in more detail with reference to FIGS. 9 and 10.

9 is a view in which the inner surface of the cylindrical guider 60 is developed, reference numerals 61, 62, and 63 denote first, second, and third pieces of the guider, and 601 grooves formed on the inner side of the guider, 35a, 35b Is a pair of projections formed on the discharge tube, the angle represents a phase angle of 360 ° with 0 ° as a reference point. In addition, the period of the waveform formed by the groove 601 shown in FIG. 9 is an angle of 120 °, and a waveform forming symmetry with each other in the forward and reverse directions based on the reference line L in the quantum region having a phase angle of 180 ° is different. Shows.

When the motor 40 is operated, the discharge tube 30 is rotated, and the pair of protrusions 35a and 35b of the discharge tube 30 are also moved along the groove 601, a pair of protrusions 35a and 35b Is located at the 0 ° and 180 ° positions of the groove 601, the position of the projection is located at the reference line L of the same height, so the air outlet port 34 of the discharge tube 30 is at 0 ° in FIG. As shown in the center in the vertical direction. As the discharge tube 30 is rotated in the rotational direction of the rotation shaft 41 at the above position, the pair of protrusions 35a and 35b are moved in the direction of the arrow, so the pair of protrusions 35a and 35b have the same height. When it starts to bias toward the opposite side of the reference line L and is rotated by 30 °, the pair of protrusions 35a and 35b are positioned to face each other farthest from the reference line L, and then rotated by 60 ° again to the reference line L ), Is further rotated and biased farthest when rotated 90 °, then positioned at the reference line L when rotated 120 °, and the above motion is repeated again.

Therefore, when the rotating shaft 41 is rotated, the discharge tube 30 is rotated in a rotational direction of the rotating shaft 41 and rotated at a predetermined angle relative to the central axis of the connector 44, and thus the air outlet of the discharge tube 30 As the 34 is also rotated, the position is continuously changed from the rotational center toward one side, and then the position is changed again toward the other side, so that the drying air discharged from the air outlet 34 is greatly diffused to the outside while the discharge angle is changed. It is discharged and the drying area is greatly expanded.

On the other hand, when the motor 40 is stopped and the discharge tube 30 is not rotated, the direction of the air discharged from the discharge port 34 does not change, and the air discharge port 34 of the discharge tube 30 is an air inlet Since it is formed smaller than 33, the drying air can be intensively discharged to one place through the air discharge port 34, and when the motor 40 is operated, the air discharge port 34 is rotated while the discharge tube 30 is rotated. Since the air for drying discharged from is diffused, by controlling whether the motor 40 is operated, it is possible to select and discharge the concentrated air and the diffused air toward the drying site as necessary.

The coupling configuration of the discharge tube and the motor according to another embodiment of the present invention is illustrated in FIGS. 10 to 12.

The discharge tube 300 shown in FIG. 10 has a cylindrical portion 310 at the rear, a rectangular cylindrical portion 320 at the front, and a fallopian tube portion 390 in the middle, as in the above-described embodiment. It may be formed of, a circular air inlet and a rectangular air outlet may be formed.

A pair of holes 360 facing each other may be formed in the cylindrical portion 310, and both ends 441 of the connector may be rotatably inserted into the hole.

In another embodiment of the present invention, it has been exemplified that the pair of holes 380 are formed through the cylindrical portion 310, but at least one of them does not penetrate the cylindrical portion 310, but the cylindrical portion ( 310) may be formed as a groove dug outward from the inner surface.

The motor 40 is provided with a rotating shaft 41 as in the above-described embodiment, it can be fastened to the motor mount 42 mounted to the inner sleeve 50.

Meanwhile, in another embodiment of the present invention shown in FIGS. 10 to 12, at least one protrusion 350 is formed in the discharge tube and can be inserted to be movable in the groove 601 described above.

Meanwhile, referring to FIGS. 2, 3A, 4, and 5, the discharge cover 77 is formed in a cylindrical shape to accommodate the discharge tube 30 between the front portion of the casing body 11 and the discharge tube 30 to be fixed. It may be disposed, and at least the front portion of the discharge tube 30 may be located inside the discharge cover 77.

The rear end of the discharge cover 77 may be coupled to the front end of the cylindrical guider 60 described above, and the front end of the discharge cover 77 may extend forward to the front end of the casing body 11.

A ring-shaped seal 78 is disposed between the rear end of the discharge cover 77 and the discharge tube 30 so that air blown from the fan 20 leaks between the discharge cover 77 and the discharge tube 30 and is external. It can be prevented from being discharged.

The sealing 78 is fixedly coupled to the outer circumferential surface of the sealing 78 to the discharge cover 77, and the inner circumferential surface of the sealing 78 is disposed not to be fixed to the discharge tube 30 so that the discharge tube 30 is sealed. ) Can be rotated without interference.

2 and 3B, the fixing ring 79 is extrapolated to the discharge cover 77 so that the fixing ring 79 can be disposed between the discharge cover 77 and the casing body 11.

An external temperature sensor S1 may be installed at the rear of the fixing ring 79. The external temperature sensor S1 may sense the temperature of the drying site where the drying air is ejected from the air outlet 34 of the discharge tube 30 and hits.

The lighting device 70 may be disposed in front of the fixing ring 79, and the lighting device 70 includes a light emitting panel 71, a light diffusion module 72, a light guide 73, and a front cap 74 ).

The light emitting panel 71 may be an LED panel in which at least one LED module (not shown) is disposed, and two panel pieces in a semi-arc shape may be arranged to form one ring-shaped panel 71, The light emitting panel 71 may be coupled to the fixing ring 79.

The light diffusion module 72 may be disposed in front of the light emitting panel 71 and may be formed of a light guide plate capable of diffusing and irradiating light emitted from the light emitting panel 71 forward, and the light emitting panel 71 As described above, two module pieces having a semicircle shape may be arranged to form a single ring-shaped module.

The ring-shaped light guider 73 is disposed in front of the light diffusion module 72 and can be irradiated to diffuse while guiding the light passing through the light diffusion module 72 forward. The lighting device 70 can illuminate a site where drying is performed, and accordingly, the skin state and hair quality of the object to be dried can be grasped by the lighting device 70.

On the other hand, the front cap 74 is inserted and covered in the front opening of the casing body 11, and the light emitting panel 71, the light diffusion module 72, and the light guide 73 have a front cap 74 and a discharge cover ( 77).

Meanwhile, a pair of ionizers 75 may be disposed on the light emitting panel 71 and / or the light diffusion module 72, and the ionizer cover 752 into which the nozzle 751 is inserted has a light guide 73. Inserted into the hole 731 formed in, the anion emitted from the ionizer 75 may be discharged to the front of the dryer through the nozzle 751.

Accordingly, when the drying air is discharged toward the object to be dried, plasma is released to generate (+) (-) ions, so that harmful substances such as various bacteria contained in the air can be removed, and dust floating in the air By neutralizing and inviting the back, foreign substances such as dust can be prevented from being adsorbed on the object to be dried, and the skin and hair quality of the object to be dried can be kept moist.

Meanwhile, referring to FIGS. 2, 3C, and 5, the display device 80 installed at the rear of the dryer is fixed to the opening 151 formed at the center of the rear cover 15 and coupled to one end. It includes 81, a display panel 82 disposed at the rear of the base 81 to display various information, and a decorating 83 combining the base and the display panel 82.

The display panel 82 is formed of a touch panel, and a user can directly input and display various driving factors, for example, a desired heating temperature, discharge speed, and drying duration of drying air, and externally. It is possible to receive and display information necessary for operation from an input device, for example, a heating temperature and a drying time of drying air suitable for each object to be dried.

Therefore, the user can perform drying while easily grasping the currently operating operation information displayed on the display panel 82, and operating the optimal drying air temperature, air volume, wind speed, and drying duration according to the object to be dried. Different optimal drying operation can be performed according to the object to be dried by receiving or receiving information.

On the other hand, the grip 90 coupled to the lower side of the casing 10 is formed of left and right grip pieces 91a, 91b of a semi-cylindrical shape, and is cylindrically coupled. It may include a grip body 91 and a lower cover 93 coupled to the lower side of the grip body 91.

The grip pieces 91a and 91b are engaged with the lower extension 111 protruding from the lower portion of the casing body 11 by a set screw 912, and the lower cover 93 is an upper side of the lower cover 93 It can be assembled to the grip body 91 by the insertion projection (931) protruding from the upward direction.

Meanwhile, a heat dissipation cap 94 having a through hole 941 for heat dissipation may be disposed between the grip body 91 and the lower cover 93.

The upper surface of the heat dissipation cap 94 may be fused with the lower side of the grip body 91, and the insertion protrusion 931 of the lower cover 93 is forcibly inserted into the hole 942 formed in the heat dissipation cap 94. It can be combined with the heat dissipation cap 94.

Between the heat dissipation cap 94 and the lower cover 93, the ring-shaped first electrical terminal 95 and the second electrical terminal 96 may be disposed at the center of the bottom of the lower cover 93, and the first and second The electrical terminals 95 and 96 may be electrically connected to an external power source (not shown).

On the other hand, two touch buttons 915 and 916 are installed in the vertical direction on the rear grip piece 912 and a button case 917 and a button housing 97 may be mounted in front of it.

Among the touch buttons, one may be an ON / OFF switch of the dryer, and the other may be an ON / OFF switch of the motor 40.

In addition, the control unit 98 is disposed inside the grip body 91 and the battery 99 is installed to be detachable in a space below the grip body 91, so that power is supplied from the first and second electric terminals 95 and 96. The battery 99 may be charged by receiving.

On the other hand, the dryer according to an embodiment of the present invention, referring to Figure 13, the grip 90 is placed on the cradle 100 can be operated without the need for the user to grip the dryer, the dryer is the size of the object to be dried The height and angle are adjusted to be suitable for drying air to be discharged.

<Detailed description of major reference numerals>
10: casing 11: casing body
14: cylindrical cap 15: rear cover
20: fan 21: first fan
22: second fan 30: discharge tube
34: air outlet 35: projection
37: groove 40: motor
41: rotating shaft 42: motor mount
42b: Bracket part 43: Link block
44: connector 50: inner sleeve
60: guider 601: groove
71: light emitting panel 74: front cap
77: discharge cover 82: display panel
90: grip 91: grip body
93: lower cover 95: first electrical terminal
96: second electric terminal 100: holder
H: Heater
S1: External temperature sensor S2: Air temperature sensor

Claims (19)

A hollow casing with an open front,
A fan for introducing and sending air into the casing,
A heater that heats air introduced into the casing;
A discharge tube disposed downstream of the fan so as to be rotatable in the casing, an air inlet port is formed at the rear and an air outlet port is formed at the front,
A motor that generates power to rotate the discharge tube and is provided with a rotating shaft,
The discharge tube is connected to the rotation axis so that the discharge tube is rotated around the first axis of the rotation axis, and connected to the discharge tube so as to be rotated around the second axis forming a predetermined angle with the first axis. Dryer with connector.
According to claim 1,
The connector is disposed in a direction orthogonal to the rotating shaft, at least one end of which is connected to the discharge tube dryer.
According to claim 2,
A dryer with a link block connected between the connector and the rotating shaft.
According to claim 3,
A dryer having a groove formed in the horizontal direction in the link block so that the rotating shaft is fixed to the groove, and formed in a through hole in the vertical direction to the link block to penetrate the connector to fix the connector.
According to claim 4,
The connector is a dryer in which both ends of the connector projecting opposite from the link block are connected to the discharge tube.
The method of claim 5,
The discharge tube is formed with a pair of concave groove portions facing each other, and both ends of the connector are inserted into the concave groove so as to be rotatable alternately based on the central axis of the connector.
The method of claim 6,
The discharge tube is formed with a pair of inward blocks protruding to face each other inward, and the pair of recesses are formed in the pair of inward blocks.
The method of claim 7,
A dryer with a stopper fastened to cover at least a portion of the groove portion on the inward block of the discharge tube.
The method of claim 5,
A dryer in which a pair of holes facing each other are formed in the discharge tube, and both ends of the connector are rotatably inserted into the hole in the pair of holes.
According to claim 1,
A dryer mounted on a motor mount in which a cylindrical inner sleeve is disposed inside the casing, and the motor is fixed to the inner sleeve.
The method of claim 10,
The motor mount is a motor mounting portion having a hollow portion through which at least a part of the motor is inserted and fastened, and through which a rotational axis of the motor passes.
A dryer comprising a plate-shaped bracket that is integrally connected to the motor mounting portion and fixed to the inner sleeve.
According to claim 1,
A dryer in which projections are formed in the radially outward direction on the discharge tube and grooves are inserted in the casing so that the projections are movable.
The method of claim 12,
The groove is a dryer formed in a cylindrical guider disposed inside the casing.
The method of claim 13,
The cylindrical guider is a dryer formed by combining a plurality of guider pieces (pieces).
The method of claim 13,
The groove is a dryer that forms a closed curve such that when the discharge tube is rotated, the protrusion is rotated along the groove.
The method of claim 15,
The groove is a dryer formed of sinusoidal waves.
The method of claim 15,
The protrusion includes a pair of protrusions spaced 180 ° from each other in the rotation direction of the discharge tube.
The method of claim 17,
The wave formed by the groove is a dryer formed by symmetrical to each other in the forward and reverse directions based on the center reference line at a portion where the phase angle is spaced apart by an angle of 180 °.
The method of claim 17,
The virtual straight line connecting the pair of protrusions and the virtual straight line connecting the central axis of the connector are orthogonal to each other.

Images