FIELD OF THE INVENTION
[0001] The present invention relates to a dryer with a brush according to claim 1.
PRIOR ART
[0002] A dryer with a brush is known conventionally. As shown in Fig. 4, in the conventional
brush dryer, a fan, a motor, rectifier blades for rectifying a blow of air and supporting
the motor, a heat supply heater are arranged in this order from the upstream side
within an interior of a ventilation passage of a body. Furthermore, a brush 1 having
a blowout port on the downstream side is provided. A suction port is opened to a rear
portion of the body immediately upstream of the fan. Also, a switch is disposed in
or on the body for turning on/off and switching a blow amount. Then, in the conventional
case, an outer peripheral portion of the body in which the fan, the motor, the rectifier
blades, the heater and the switch are received provides a grip portion.
[0003] In the above-described conventional brush dryer, since the outer peripheral portion
of the portion of the body in which various components such as the fan, the motor,
the rectifier blades, the heater, the switch and the like are received, is used as
the grip portion, the diameter of the grip portion is inevitably increased (i.e. ,
the grip portion becomes larger in size), and there is almost no degree of freedom
in shape, and it is difficult, for instance to add other parts thereto. In particular,
since the fan that is one of the important components for generating the stream or
blow of air is disposed in the vicinity of the suction port, it is difficult to miniaturize
the fan, and this becomes a hindrance against thinning of the grip portion.
PROBLEMS TO BE SOLVED BY THE INVENTION
[0004] In view of the above-noted defects, it is an object of the present invention to provide
a dryer with a brush, in which a grip portion is thinned so that the dryer may easily
be used.
MEANS FOR SOLVING THE PROBLEMS
[0005] In order to solve the above-noted defects, according to the present invention, there
is provided a dryer with a brush characterized in that a fan, a motor, in particular
a rectifier blade, and a heater are provided in a ventilation passage within an interior
of a body having a brush, a blowout port to the outside is provided downstream of
the heater, a grip portion provided substantially in parallel with and axially with
the body upstream of the ventilation passage of the body, and an end portion opposite
to the body of the grip portion is opened to form a suction portion, a communication
passage is formed within the grip portion for communicating the suction portion with
an upstream portion of the ventilation passage. Thus, the grip portion is provided
separately from the body to thereby make it possible to reduce the number of the components
within the interior of the grip portion and to enhance the degree of freedom in shape
of the grip portion.
[0006] Also, it is preferable that a switch is provided within the grip portion for turning
on/off and switching a blow amount. With such a structure, it is possible to reduce
the number of the parts within the body.
[0007] Also, it is preferable that an outer diameter of the grip portion is thinner than
an outer diameter of the body downstream of the fan. The grip portion is easy to grip
with such a structure.
[0008] Also, it is preferable that a portion of the body on the grip side is formed into
a joint portion, and is slanted so that the joint portion is thinner from the body
side towards the grip portion side. The joint portion is thus slanted whereby the
blow or stream of air becomes smooth.
[0009] Also, it is preferable that the fan is disposed within the slanted joint portion,
and an outer peripheral portion of the blade of the fan is slanted substantially in
parallel with the above-described slant of the joint portion. With such a structure,
it is possible to form a compact air blow portion while receiving the fan in the slanted
joint portion, also to make smooth the flow of air toward the fan from the introduction
to the discharge, and to utilize a centrifugal force of the blade to feed the air.
[0010] Also, it is preferable that an outer surface shape of a hub of the fan is slanted
so that a diameter of its downstream portion is greater. With such a structure, it
is possible to form a compact air blow portion while receiving the fan 3 in the slanted
joint portion, and also the hub is slanted to thereby make more smooth the flow of
air toward the fan from the introduction to the discharge, and to utilize a centrifugal
force of the blade to feed the air.
[0011] Also, it is more preferable that a slant angle of the hub is greater than a slant
angle of an outer peripheral portion of the blade of the fan. With such a structure,
it is possible' to form a compact air blow portion while receiving the fan in the
slanted joint portion, and also the hub is slanted to thereby make more smooth the
flow of air toward the fan from the introduction to the discharge, and to utilize
a centrifugal force of the blade to feed the air. Furthermore, the slant angle of
the hub is greater than the slant angle of the outer peripheral portion of the blade
of the fan whereby a flow area on the suction side and a flow area on the outlet side
of the fan 3 are made close to each other to thereby make it possible to reduce the
loss of the flow.
[0012] Also, it s preferable that the fan is disposed within the slanted joint portion,
a discrete bugle sleeve having a bugle-shape is connected between the joint portion
and the fan, and a slant of the bugle sleeve and the slant of the outer peripheral
portion of the blade of the fan are substantially in parallel with each other. With
such a structure, it is possible to make uniform the gap around the fan irrespective
of the shape of the joint portion.
BRIEF DESCRIPTION OF THE DRAWINGS
[0013] The invention and prior art are described in relation of the drawings, in which
- Fig. 1
- is a longitudinal cross-section through an embodiment according to the invention;
- Fig. 2
- is a plan view of the embodiment of Fig. 1;
- Fig. 3
- is a perspective view of a fan of an embodiment of the invention; and
- Fig. 4
- is an example of a prior art dryer in a partly longitudinal cross-section.
DESCRIPTION OF THE EMBODIMENTS
[0014] The present invention will now be described on the basis of an embodiment shown in
the accompanying drawings.
[0015] A casing 17 forming an outer shell of a dryer according to the present invention
is composed of a body 8 and a grip portion 9 provided in an axial direction or in
parallel with the body 8.
[0016] A portion of the body 8 on the side of the grip portion side 9 is formed into a joint
portion 13 with the grip portion 9 and is provided in its interior with a ventilation
passage 2. A fan 3, a motor 4 for rotating the fan 3, rectifier blades 5 for rectifying
a blow and supporting the motor 4 and a heater 6 are disposed in the ventilation passage
2 within an interior of the body 8 from the upstream side to the downstream side.
A brush 1 is provided on an outer surface portion of the body 8. A blowout port 7
to the outside is provided in a portion where the brush 1 is provided on the downstream
side of the heater 6.
[0017] A grip portion 9 is provided axially and in parallel with a body 8 upstream of the
ventilation passage 2. An opening is formed at an end portion of the grip portion
9 opposite to the body 8 and the opening is used as a suction portion 10. A communication
passage 11 for communicating the suction portion 10 and the upstream side of the ventilation
passage 2 with each other is formed within the grip portion 9. Also, a switch 12 is
provided within the grip portion 9 for turning on/off and switching a blow amount.
[0018] As described above, the grip portion 9 is provided separately from the body 8 which
contains therein the fan 3, the motor 4, the rectifier blades 5 and the heater, 6
whereby it is possible to enhance the degree of freedom of the shape of the grip portion
9 without affecting the primary components such as the fan 3, the motor 4, the rectifier
blades 5, the heater 6 and the like. Also, as shown in Fig. 1, the switch 12 for turning
on/off and switching the blow amount is provided in the grip portion 9, the number
of the parts within the body 8 may be reduced.
[0019] As described above, since the degree of freedom of the shape of the grip portion
9 is enhanced, in the present embodiment, an outer diameter of the grip portion 9
is smaller than an outer diameter of the body 8 downstream of the fan 3 to thereby
make it easy to grip the grip portion 9 and to enhance the operability while holding
,the dryer.
[0020] Between the body portion 8 of the casing 17 and the grip portion 9, the joint portion
13 is slanted towards the grip portion 9 or inclined to become thinner or more slim
starting from the side of the body 8 towards the side of the grip portion 9. Since
the joint portion 13 is slanted or inclined to be thinner from the side of the body
8 to the side of the grip portion 9, it is possible to make the flow or stream of
air smooth which is flowing through the interior.
[0021] The fan 3 is disposed within the joint portion 13 that becomes slender beginning
with the body 8 towards the grip portion 9. The fan 3 is slanted or inclined so that
the outer peripheral portion of the blades 14 is substantially in parallel with the
above-described inclination or tapering of the joint portion 13. Also, the outer surface
shape of the hub 15 of the fan 3 is slanted or tapered so that the diameter thereof
is larger toward the downstream side. Thus, the fan 3 having the outer peripheral
portion slanted or tapered is received in the slanted or tapered joint portion 13
to thereby make the air blow portion more compact. Also, the outer peripheral portion
of the blades 14 of the fan 3 is slanted or tapered and the hub 15 of the fan 3 is
slanted or tapered whereby the flow or stream of the air stream to the fan 3 from
the inlet to the discharge may be smoothened. Also, the outer peripheral portion of
the blades 14 is slanted or inclined to thereby supply the stream of air by utilizing
the centrifugal force of the blades 14.
[0022] Here, the slant or inclination angle of the hub 15 is greater than the slant angle
of the outer peripheral portion of the blades 14 of the fan 3. Thus, the slant angle
of the hub 15 is greater than the slant angle of the outer peripheral portion of the
blade 14 of the fan 3, in one containing the fan with the outer peripheral portion
slanted within the slanted joint portion 13, the flow area on the suction side and
the flow area on the outlet side of the fan 3 are close to each other to thereby reduce
the loss of the power of the air current.
[0023] Also, as shown in Fig. 1, a discrete bugle sleeve 16 in the form of a bugle may be
disposed between the slanted or tapered joint portion 13 and the fan 3. In this case,
the inclination or tapering of the bugle sleeve 16 is substantially in parallel with
the inclination or tapering of the outer peripheral portion of the blades 14 of the
fan 3. Such a discrete bugle sleeve 16 is disposed within the joint portion 13 so
that the gap around the blades 14 of the fan 3 and the slanted or tapered outer peripheral
portion may be readily made uniform.
[0024] In a dryer with such a structure, the grip portion 9 is thin and the suction portion
10 upstream of the grip portion 9 is very narrow. Even under the condition that it
is difficult to generate a large amount of air current, it is possible to generate
the large amount of blow or air current without enlarging the body 8 using the compact
fan 3 and it is possible to provide a dryer in which the heater 6 is mounted having
a large output.
EFFECT OF THE INVENTION
[0025] According to the invention of claim 1 of the present invention, there is provided
a dryer with a brush in which a fan, a motor, in particular a rectifier blade, and
a heater are provided in a ventilation passage within an interior of a body having
a brush, wherein a blowout port to the outside is provided downstream of the heater,
a grip portion is provided substantially in parallel with and axially with the body
upstream of the ventilation passage of the body, an end portion opposite to the body
of the grip portion is opened to form a suction port, and a communication passage
is formed within the grip portion for communication of the suction part with an upstream
portion of the ventilation passage. Thus, the grip portion is provided separately
from the body to thereby make it possible to reduce the number of components within
the interior of the grip portion and to enhance the degree of freedom in shape for
the grip portion. Thus, it is more simple to grip the dryer according to the invention
and making it possible to arrange parts in the space inside the body and in particular
also inside the grip portion.
[0026] Also, according to one embodiment since a switch 12 is provided within the grip portion
9 for turning on/off and switching an amount of air current, it is possible to reduce
the number of the parts within the body to thereby make the body more compact.
[0027] Also, according to one embodiment of the invention, since an outer diameter of the
grip portion 9 is thinner than an outer diameter of the body 8 downstream of the fan
3, the grip portion 9 is easy to grip to thereby make it possible to form a more compact
blow portion
[0028] Also, according to one embodiment of the invention, since a portion of the body 8
on the grip side is formed into a joint portion 13 with the body, and is slanted or
tapered so that the joint portion 13 is thinner or more slender starting from the
body side towards the grip portion side, the joint portion 13 is thus slanted whereby
the stream of air becomes more smooth.
[0029] Also, according to one embodiment of the invention, since the fan 3 is disposed within
the slanted or tapered joint portion 13, and an outer peripheral portion of the blade
14 of the fan 3 is slanted substantially in parallel with the above-described inclination
of the joint portion 13, it is possible to form a compact air blow portion while receiving
the fan in the slanted or tapered joint portion 13, also to make smooth the flow or
current of air towards the fan 3 from the inlet opening to the discharge opening,
and to utilize a centrifugal force of the blade 14 to feed the air, thereby improving
the air blow efficiency.
[0030] Also, according to one embodiment of the invention, since an outer surface shape
of a hub 15 of the fan 3 is slanted so that a diameter of its downstream portion is
larger, it is possible to form a compact air blow portion while receiving the fan
3 in the slanted or tapered joint portion 13, and also the hub 15 is slanted or tapered
to thereby make the stream of air additionally smooth towards the fan from the inlet
towards the discharge, and to utilize a centrifugal force of the blade 14 to supply
the air, thereby improving the air blow efficiency.
[0031] Also, according to one embodiment of the invention, since an inclination angle of
the hub 15 is greater than an inclination angle of an outer peripheral portion of
the blade 14 of the fan, it is possible to form a compact air blow portion while receiving
the fan 3 in the slanted joint portion 13, and also the hub 15 is slanted or tapered
to thereby make further the stream or current of air smoother towards the fan 3 starting
from the inlet opening to the discharge opening 7, and to utilize a centrifugal force
of the blade 14 to supply the air. Furthermore, the inclination angle of the hub 15
is greater than the inclination angle of the outer peripheral portion of the blade
14 of the fan 3, whereby a flow area on the suction side and a flow area on the outlet
side of the fan 3 are close to each other to thereby make it possible to reduce the
loss power of the air current. As a result, the air stream efficiency is further improved.
[0032] Also, according to one embodiment of the invention, since the fan 3 is disposed within
the slanted or tapered joint portion 13, a discrete bugle sleeve 16 having a bugle-shape
is connected between the joint portion 13 and the fan 3, and an inclination of the
bugle sleeve 16 and the inclination of the outer peripheral portion of the blade 14
of the fan 3 are substantially in parallel with each other, it is possible to make
uniform the gap around the fan 3 irrespective of the shape of the joint portion 13.
Thus, the performance of the fan 3 may be improved.
EXPLANATION OF SIGNS
[0033]
- 1
- brush
- 2
- ventilation passage
- 3
- fan
- 4
- motor
- 5
- rectifier blade
- 6
- heater
- 7
- outlet port
- 8
- body
- 9
- grip portion
- 10
- suction portion
- 11
- communication path
- 12
- switch
- 13
- joint portion
- 14
- blade
- 15
- hub
- 16
- bugle sleeve
1. A dryer with a brush (1) characterized in that a fan (3), a motor (4), and a heater (6) are provided in a ventilation passage (2)
within an interior of a body (8) having a brush (1), a blowout port to the outside
being provided downstream of the heater (6), a grip portion (9) being provided substantially
in parallel with and axially with the body upstream of the ventilation passage of
the body, an end portion opposite to the body of the grip portion (9) being opened
to form a suction port (10) and a communication passage (11) is formed within the
grip portion for communicating the suction port (10) with an upstream portion of the
ventilation passage (2).
2. A dryer according to claim 1, further characterized in that a rectifier blade (5) and/or a switch (12) is provided, said switch being provided
within said grip portion (9) for turning on/off and switching a blow amount.
3. A dryer according to one of claims 1 or 2, further characterized in that an outer diameter of said grip portion (9) is thinner than an outer diameter of the
body (8) downstream of the fan (3).
4. A dryer according to one of claims 1 to 3, further characterized in that a portion of said body (8) on the grip side is formed into a joint portion (13),
and at the same time, is slanted and/or tapered so that the joint portion (13) is
thinner or more slender starting from the body side toward the grip portion (9).
5. A dryer according to claim 4, further characterized in that said fan (3) is disposed within said joint portion, and an outer peripheral portion
of the blade (14) of the fan is slanted and/or tapered substantially in parallel with
the above-described slant of the joint portion (13).
6. A dryer according to claim 5 further characterized in that an outer surface shape of a hub (15) of said fan (3) is inclined so that a diameter
of its downstream portion is larger.
7. A dryer according to claim 6, further characterized in that a slant angle of said hub (15) is larger than an inclination angle of an outer peripheral
portion of the blade (14) of the fan.
8. A dryer according to one of claims 4 to 7, further characterized in that said fan (3) is disposed within said joint portion (13), a discrete bugle sleeve
(16) having a bugle-shape is connected between the joint portion (13) and the fan
(3), and an inclination of the bugle sleeve (16) and the inclination of the outer
peripheral portion of the blade (14) of the fan (3) are substantially in parallel
with each other.