Technical Field
[0001] The present invention relates to an air filter and an air conditioner having the
air filter.
Background Art
[0002] As a conventional air filter of an air conditioner, there is a technique disclosed
in Japanese Patent Laid-Open No. 226024/1994. Fig. 5 is a perspective view showing
the air filter disclosed in the aforementioned publication. In Fig. 5, the reference
numeral 1 represents an air filter; and 2, a tabular unit filter member, in which
a net material using a general- purpose resin material such as polyethylene, nylon
or the like is employed because the tabular unit filter member is required to have
a filtration function to eliminate balls of dust and the like and a function as hinge
portions when folded. Then, each of the unit filter members 2 has a filter piece 3
having opposite sides retained by frame pieces 6, which will be described later. The
unit filter members 2 are formed with only the filter pieces 3 and coupled with one
another foldably through hinge portions 4 where the opposite sides of the unit filter
members 2 are not retained by the frame pieces 6.
[0003] The frame pieces 6 are molded of resin such as polyethylene or the like integrally
with the filter pieces 3. Then, flat frames 7 and a handle 8 are provided on the frame
pieces 6. Each of the frame pieces 6 has a shape to be fitted into a fitting groove
11 of an air conditioner 10, and formed to be slightly shorter than the interval between
the hinge portions 4 and 4 of the unit filter member 2 retained by the frame pieces
6. A plurality of such frame pieces 6 are disposed in symmetrical positions. Then,
chamfered portions 9 are provided in the opposite end portions of each of the frame
pieces 6 so as to insert and fit the frame pieces 6 easily into the fitting groove
11 at the time of insertion and fitting and so as to prevent angular portions of the
frame piece 6 from abutting against anything at the time of folding. A pair of flat
frames 7 are provided at the top and bottom of the air filter 1 so as to form the
top and bottom of a framework. The flat frames 7 are formed integrally with the left
and right frame pieces 6. A handle 8 is provided on the bottom-side flat frame 7.
The handle 8 is used to operate the air filter 1 with fingers when the air filter
1 is mounted on or removed from the air conditioner 10.
[0004] Next, description will be made below about the method for mounting and removing the
air filter 1.
[0005] As shown in Fig. 5, when the air filter 1 is mounted, the top-side flat frame 7 is
plugged into a mounting/removing port 12 from the lower side of an air inlet 13 of
the air conditioner 10 while the air filter 1 is bent. Then, the left and right frame
pieces 6 are fitted into the fitting grooves 11 at the opposite ends of the mounting/removing
port 12. In the same manner, the remaining frame pieces 6 are inserted into the fitting
grooves 11 of the air conditioner 10 sequentially while the hinge portions 4 are turned
back vertically in the same manner. Then, the handle 8 is operated to press the air
filter 1 until the last pair of frame pieces 6 are fitted in.
[0006] In addition, the handle 8 is projected from the lower side of the mounting/removing
port 12 of the air conditioner 10 so as to be gripped easily when the air filter 1
is removed. When the air filter 1 is removed, the handle 8 projecting from the lower
side of the mounting/removing port 12 is gripped and pulled so as to extract the frame
pieces 6 sequentially from the fitting grooves 11 of the air conditioner 10. Then,
the air filter 1 is removed from the lower side of the air conditioner 10 while the
hinge portions 4 are restored to be straight.
[0007] In such a manner, the conventional air filter 1 of the air conditioner 10 is mounted
on the air conditioner 10 by inserting the frame pieces 6 on the opposite sides into
the fitting grooves 11. However, each of the frame pieces 6 has a considerable length
in the direction in which the frame piece 6 is inserted. Thus, there is a problem
that the air filter 1 cannot be mounted or removed smoothly when the fitting grooves
11 are curved.
[0008] In addition, when the air filter 1 is mounted on the air conditioner 10, the frame
pieces 6 on the opposite sides are inserted into the fitting grooves 11 while the
filter pieces 3 and so on are inserted into the mounting/removing port 12 which is
formed to follow the fitting grooves 11 and which has the same opening width. Accordingly,
each of the filter pieces and so on cannot be made thicker than each of the frame
pieces 6. Thus, there is a problem that the filter pieces cannot be thickened for
the purpose of enhancing the air cleaning function of the filter pieces.
[0009] In addition, Figs. 15 and 16 are views showing a conventional air conditioner (indoor
unit), for example, disclosed in Japanese Patent Laid-Open No. 232025/1998.
[0010] In Fig. 16, hollow groove portions 107a provided on the left and right sides of a
top suction grille 107 slide on and are fitted onto rails 105a provided on the upper
left and right of a front panel 105, so that the top suction grille 107 is removably
mounted on the front panel 105. Then, an air filter is divided into front and rear
air filters. The rear air filter 110 is designed to be attached to the top suction
grille 107 so as to be mounted/removed in accordance with the mounting/removal of
the top suction grille 107.
[0011] The removable top suction grille and the air filter in the conventional air conditioner
are configured thus. Accordingly, the top suction grille has to be mounted/removed
in accordance with the left and right guide rails. Positioning is required for the
mounting/removing work, although this work is an overhead work carried out on a chair,
a table or the like. Therefore, the work is difficult. In addition, the air filter
is divided in two, that is, front and rear air filters. Particularly since the rear
air filter is fixed to the top suction grille, the workability in mounting/removing
the top suction grille is deteriorated, and further the labor for cleaning the filter
is increased. In addition, this also results in increase in the manufacturing cost.
[0012] JP-09315142 discloses a detachable air filter for an air conditioner for a construction
vehicle. The air filter is provided in the form of two or more foldable sections which
allow the filter to be easily attached or detached from an air filter housing in the
air conditioner.
Disclosure of the Invention
[0013] The present invention was developed to solve the foregoing problems. It is an object
of the invention to provide an air filter which can be removably mounted smoothly
into guide grooves having any various shape including a curved shape.
[0014] In addition, it is another object of the invention to provide an air filter in which
each of filter pieces can be thickened desirably so that the performance can be enhanced.
[0015] In addition, it is a further object of the invention to provide an air filter in
which it is difficult to produce chattering due to vibration when an air conditioner
is running.
[0016] In addition, it is a still further object of the invention to obtain an air filter
which is hardly detached from guide grooves when the air filter is attached to the
air conditioner.
[0017] In addition, it is another object of the invention to provide an air filter which
can be manufactured inexpensively.
[0018] In addition, it is a further object of the invention to provide an air conditioner
to which such an air filter has been attached, which is high in quality and performance,
and which is capable of preventing a heat exchanger from contamination.
[0019] Further, it is a still further object of the invention to provide an air conditioner
in which the work of mounting/removing a top suction grille can be carried out easily,
and the work of cleaning can be simplified.
[0020] According to the invention there is provided an air filter as set out in claim 1.
Preferred features of the invention are set out in claims 2 to 7.
Brief Description of the Drawings
[0021]
Fig. 1 is a perspective view of an air filter according to Embodiment 1 of the present
invention;
Fig. 2 is a sectional view of an air conditioner according to Embodiment 1 of the
present invention;
Fig. 3 is a partial configuration view of an air filter according to Embodiment 2
of the present invention;
Fig. 4 is a view showing a wedge-like guide portion and a wedge-like guide groove
according to Embodiment 3 of the present invention;
Fig. 5 is a perspective view showing a conventional air filter;
Fig. 6 is a cross-sectional view of an air conditioner according to Embodiment 4 of
the present invention;
Fig. 7 is a main portion perspective view of the air conditioner according to Embodiment
4 of the present invention;
Fig. 8 is an enlarged sectional view showing the portion where the front end portion
of a top suction grille is mounted on a front panel according to Embodiment 4 of the
present invention;
Fig. 9 is an enlarged sectional view showing the portion where the rear end portion
of the top suction grille is fixed to the front panel according to Embodiment 4 of
the present invention;
Fig. 10 is a plan sectional view showing the portion where a lock part is attached;
Fig. 11 is a perspective view showing the portion where the lock part is attached;
Fig. 12 is a cross-sectional view of the air conditioner when a front suction grille
is flipped open;
Fig. 13 is a plan view showing the attachment of a top suction grille according to
Embodiment 5 of the present invention;
Fig. 14 is an enlarged sectional view of the rear end portion of a top suction grille
according to Embodiment 6 of the present invention;
Fig. 15 is a cross-sectional view of a conventional air conditioner; and
Fig. 16 is a partially enlarged view of the conventional air conditioner.
Best Mode for Carrying Out the Invention
Embodiment 1
[0022] Embodiment 1 of the present invention will be described below with reference to Figs.
1 and 2.
[0023] Fig. 1 is a perspective view of an air filter according to Embodiment 1. Fig. 2 is
a sectional view of an air conditioner (or air conditioning-refrigerator) to which
the air filter has been attached.
[0024] In Figs. 1 and 2, a grille 17 as an air inlet is provided in front of a panel 16
of an air conditioner 15 installed indoors, while an air blower 19 and a heat exchanger
18 are built in behind the air inlet grille 17. The heat exchanger 18 is disposed
to cover the air blower 19. An air outlet 20 is provided in the lower portion of the
panel 16. The opening/closing and the air blowing direction of the air outlet 20 are
adjusted by a flap 21.
[0025] An air filter 14 is attached between the grille 17 and the heat exchanger 18 in accordance
with the sectional layout of the heat exchanger 18. In the air filter 14, a plurality
of unit filter frame members 22 in each of which a tabular filter piece 3 having a
filtration function to eliminate balls of dust and the like is mounted, are coupled
with one another through hinge portions 23 foldably. The air filter 14 is attached
to cover the whole surface of the heat exchanger 18.
[0026] Then, each of the unit filter frame members 22 has at least one boss portion 25 on
one of opposite side surface 35. Curved fitting grooves 26 are provided in the panel
16 so as to engage with these boss portions 25. Only the boss portions 25 are inserted
and attached into the fitting grooves 26 from a mounting/removing port 40 of an insertion
portion 28 which will be described later.
[0027] The air filter 14 is constituted by a plurality of the unit filter frame members
22, the boss portions 25 serving as guide portions 32, and so on. The plurality of
unit filter frame members 22 are provided with the filter pieces 3 and coupled through
the hinges 23.
[0028] The boss portions 25 as the guide portions 32 are columns paired and projecting from
the opposite sides 35 of each of the unit filter frame members 22. At least one boss
portion 25 projects from each side surface so as to be paired with a corresponding
boss portion on the other side surface. Fig. 2 shows an example of one pair and two
pairs.
[0029] The fitting grooves 26 as guide grooves are formed into sectional U-shapes in the
insertion direction of the fitting grooves 26 so that the opening portion of the fitting
groove on each side is opposed to the opening portion of the fitting groove on the
other side. Thus, only the boss portions 25 as the guide portions 32 on the opposite
sides are received in the fitting grooves 26.
[0030] As shown in Fig. 2, the insertion portion 28 of each of the fitting grooves 26 is
constituted by a mounting/removing port 40 having a U-shape in section, and a support
plate portion 41 extending downward from the mounting/removing port 40.
[0031] However, according to the shape, the insertion portion 28 may have only the mounting/removing
port 40 without the support plate portion 41.
[0032] Of the unit filter frame members 22 coupled with one another, the unit filter frame
member 22 mounted finally is provided with a handle 27 at its end portion. The handle
27 is operated when the air filter 14 is mounted/removed.
[0033] In addition, the unit filter frame members 22, the hinge portions 23, the boss portions
25 and the handle 27 are molded integrally of resin. Thus, their manufacturing becomes
easy.
[0034] Next, description will be made on the method for mounting and removing the air filter
14.
[0035] Although the method for mounting/removing differs in accordance with the kind of
air conditioner 15, the grille 17 is opened or extracted to mount/remove the air filter
14. When the air filter 14 is mounted, the air filter 14 is inserted into the mounting/removing
ports 40 of the fitting grooves 26 from below the air inlet 17 of the air conditioner
15 so that the boss portions 25 of the unit filter frame members 22 are inserted and
fitted into the fitting grooves 26. Then, the handle 27 is operated to press the air
filter 14 till the last pair of boss portions 25 are fitted in.
[0036] On the other hand, when the air filter 14 is removed, the handle 27 is gripped and
pulled out toward the side close to a worker so that the boss portions 25 of the unit
filter frame members 22 are extracted from the fitting grooves 26 sequentially while
the hinge portions 23 are restored to be straight.
[0037] Incidentally, at the time of mounting, if the unit filter frame member 22 in the
end portion having the handle 27 (the last unit filter frame member 22 having the
handle 27) is located on the aforementioned support plate portion 41, the mounting/
removal can be performed easily.
[0038] As described above, the boss portions 25 are provided on the side surfaces 35 of
the unit filter frame members 22, and only the boss portions 25 are fitted into the
fitting grooves 26 provided in the panel 16. Accordingly, even if the filter pieces
3 are tabular, even if the thickness of the filter pieces 3 is smaller or larger than
the opening width of the fitting grooves 26, or even if the fitting grooves 26 are
curved to cover the whole surface of the heat exchanger 18, the air filter 14 can
be smoothly mounted/removed in/from the fitting grooves 26 serving as guide grooves.
[0039] In addition, when the air filter 14 is mounted, only the boss portions 25 on the
opposite sides are inserted into the guide grooves 26 while the unit filter frame
members 22 coupled with each other are left free. It is therefore possible to make
the thickness of the filter pieces 3 larger than the opening width of the guide grooves
26. Thus, filter pieces having high performance can be used so that the performance
of the air filter can be improved.
[0040] In addition, the guide grooves 26 are provided in the upstream of the air passage
of the heat exchanger 18 so as to be curved along the heat exchanger 18, and the guide
portions 32 are inserted into the guide grooves 26 so that the air filter 14 is mounted
to be curved to cover the heat exchanger 18. Accordingly, most of the air supplied
to the heat exchanger 18 passes though the air filter 14 so that the heat exchanger
18 is surely prevented from contamination. In addition, since the guide grooves 26
are disposed to be curved correspondingly to the heat exchanger 18 disposed to be
curved, it is possible to obtain a compact air conditioner 15.
[0041] In addition, when unit filter frame members 22 each having a comparatively small
length in the insertion direction are used for large-curvature portions in the fitting
grooves 26 as shown in Fig. 2, the air filter 14 is well mated with the curve as a
whole. Thus, the air filter 14 can be well mated with the heat exchanger 18 even if
the heat exchanger 18 is curved. Accordingly, while the air not passing through the
air filter 14 is prevented from being supplied to the heat exchanger 18, the air conditioner
15 can be made compact effectively.
[0042] Further, when unit filter frame members 22 each having a comparatively small length
in the insertion direction are used, the unit filter frame members 22 each having
a small length may be formed as unit filter frame members 22 having no boss portion
25. Even if the unit filter frame members 22 having no boss portion 25 are caused
to coexist the unit filter frame members 22 having boss portions 25, an air filter
14 having similar effect can be obtained without causing any trouble in mounting/removal
of the coupled unit filter frame members 22. In such a manner, the manufacturing of
the air filter 14 can be simplified.
Embodiment 2
[0043] Embodiment 1 has been described in reference to the case where at least one boss
portion 25 projects from each of opposite side surfaces 35 of each of the unit filter
frame members 22, and only the boss portions 25 are inserted into the curved fitting
grooves 26 of the panel 16 so as to mount the coupled unit filter frame members 22.
However, in this embodiment, as shown in Fig. 3, of the boss portions 25 on the opposite
side surfaces 35 of the unit filter frame members 22, the boss portions 25 on the
same side are connected with one another through a deformable tabular guide belt 29
which is an elastic body. Guide portions 32 each constituted by these boss portions
25 and the guide belt 29 connecting the boss portions 25 are inserted respectively
into the curved fitting grooves 26 of the panel 16 so that the coupled unit filter
frame members 22 are mounted.
[0044] The guide belt 29 is formed in such a manner that side surfaces 37 of the adjacent
boss portions 25 are connected integrally on their front side or back side along the
side surfaces 37 of the boss portions 25 of the unit filter frame members 22. Here,
the front side means the side facing the grille 17 as an air inlet in Fig. 2 when
the guide portions 32 are inserted into the fitting grooves 26. On the other hand,
the back side means the side opposite to the front side.
[0045] In addition, as shown in Fig. 3, the side surfaces 37 of the boss portions 25 are
cut correspondingly to the thickness of each of the guide belts 29, and the guide
belt 29 is attached to the boss portions 25. As a result, when the guide belt 29 and
the side surfaces 37 of the boss portions 25 slide on the inner wall of the corresponding
fitting groove 26 in the corresponding fitting groove 26, they have one and the same
sliding surface. Thus, mounting and removal are performed more smoothly.
[0046] Further, when the tabular guide belts 29 are disposed on the front side of the unit
filter frame members 22, there is no fear that the guide belts 29 interfere with the
mounting/removing ports 40 of the fitting grooves 26 when the air filter 14 is mounted/removed.
Thus, the performance of mounting/removal is improved.
[0047] In addition, when the tabular guide belts 29 and the boss portions 25 on the both
side surfaces 35 of the unit filter frame members 22 are manufactured by integral
molding of resin, they can be manufactured inexpensively.
[0048] In addition, the connection through the guide belts 29 may be carried out not on
the whole of the boss portions 25 on the side surfaces 35 of the coupled unit filter
frame members 22 but on parts of the boss portions 25. For example, in the air conditioner
of Fig. 2, when the air filter 14 is mounted, the boss portions 25 received between
the mounting/removing ports 40 of the guide grooves 26 and the front end portions
38 of the guide grooves 26 may be connected through the guide belts 29 while the boss
portions 25 on the support plate portion 41 are not connected through the guide belts
29. Similar effect can be obtained.
[0049] As described above, by use of the guide portions 32 according to this embodiment,
the boss portions 25 can be prevented from being detached from the fitting grooves
26 when the guide portions 32 are inserted into the fitting grooves 26 through the
mounting/removing ports 40 of the insertion portion 28. Thus, the air filter 14 can
be mounted more smoothly.
Embodiment 3
[0050] Each of Embodiments 1 and 2 has been described as applied to the case where the projecting-direction
sections 36 of the boss portions 25 provided on the side surfaces 35 of the unit filter
frame members 22 have the same size. However, as shown in Fig. 4, in this embodiment,
the sections 36 of the boss portions 25 are designed to increase in size as they approach
the mounting/removing ports 40 of the fitting grooves 26 (the insertion side of the
guide portions of the air filter) as shown by boss portions 25a, 25b, 25c and 25d.
Thus, each of the guide portions 32 is formed into a wedge-like shape as a whole.
In addition, each of the fitting grooves 26 is formed into a wedge-like shape corresponding
to the guide portion 32. Accordingly, at the time of mounting, the boss portions 25
can be attached to the fitting grooves 26 without generating any gap therebetween.
Thus, the air filter 14 can be retained surely on the panel 16, while chattering or
the like caused by the vibration of the air conditioner 15 when it is running can
be prevented from occurring. It is therefore possible to provide a high-quality air
conditioner 15.
[0051] In actual mounting, as shown in Fig. 4, the section of the front end portion 38 is
reduced while the section of the mounting/removing port 40 of the insertion portion
28 is increased. That is, the fitting groves 26 are formed so that the opening width
of each of the fitting grooves 26 is reduced as it approaches the front end portion
38. Thus, each of the fitting grooves 26 is formed into a wedge-like shape between
the front end portion 38 and the mounting/removing port 40. The boss portion 25a having
a small sectional size is first inserted into each of the wedge-like fitting grooves
26 so that the boss portion 25a is located in the front end portion 38 of the fitting
groove 26. Succeedingly, the boss portions 25b and 25c are located sequentially, and
the boss portion 25d having the largest sectional size is located in the mounting/removing
port 40. Further, the remaining boss portions 25 each of which may have any desirable
sectional size are disposed on the support plate portion 41. Thus, the coupled unit
filter frame members 22 are mounted. That is, of the boss portions 25 of the coupled
unit filter frame members 22, a boss portion 25d at one predetermined end which is
located in each of the mounting/removing port 40, boss portions 25c and 25b, and a
boss portion 25a at the other end which is located in corresponding one of the front
end portions are reduced in sectional size sequentially so as to form a wedge-like
shape as a whole. These wedge-like guide portions 32 are inserted into the guide grooves
26 each formed into a wedge-like shape in the same manner.
[0052] Incidentally, not to say, the wedge-like guide portions 32 and the wedge-like guide
grooves 26 in this embodiment may be applied to the guide portions 32 each constituted
by the guide belt 29 and the boss portions 25 in Embodiment 2. That is, the boss portions
25 are arrayed sequentially in the order of reducing sectional size. These boss portions
25 are connected through the guide belts 29 so as to form wedge-like guide portions
32. The wedge-like guide portions 32 are inserted into the wedge-like guide grooves
26 corresponding thereto.
[0053] Although the present invention was described as applied to the case where the boss
portions 25 are circular in section, the shape is not limited thereto, but may be
elliptic or polygonal. In short, any shape may be adopted if the unit filter frame
members 22 can be mounted/removed smoothly into/from the curved fitting grooves 26
when the boss portions 25 are inserted into the fitting grooves 26.
[0054] As described in the Embodiments 1 to 3, the air filter according to the present invention
is inserted into guide grooves provided at the place where the air filter is to be
installed. Guide portions are provided so that at least one boss portion projects
from each of the opposite side surfaces of each unit filter frame member. Accordingly,
when the air filter is mounted by inserting the boss portions into the guide grooves,
it is possible to obtain an air filter which can be mounted/removed smoothly into/from
the guide grooves each of which may have any desirable shape including a curved shape.
At that time, the air filter is bent desirably at hinge portions in accordance with
the shapes of the guide grooves. Thus, it is possible to obtain an air filter mated
with the shapes of the guide grooves.
[0055] In addition, the coupled unit filter frame members are reduced in sectional size
sequentially as the location goes from the boss portion at a predetermined one end
of the coupled unit filter frame members toward the boss portion at the other end
in the front end portion of the coupled unit filter frame members, so that each of
the guide portions is formed into a wedge-like shape as a whole. Each of the guide
grooves to which the guide portions are inserted is formed into a wedge-like shape.
In accordance with the direction of the wedges, the guide portions are inserted into
the guide grooves in the order of increasing the sectional size. Thus, the guide portions
are brought into close contact with the guide grooves. It is therefore possible to
obtain an air filter in which chattering or the like caused by vibration or the like
is hard to occur.
[0056] In addition, guide belts for connecting the boss portions with one another are provided
along the side surfaces of the boss portions projecting from the respective side surfaces
of the unit filter frame members. Each of the guide portions is constituted by the
boss portions and the guide belt connecting the boss portions. Accordingly, when the
guide portions are inserted into the insertion portions of the guide grooves, the
boss portions are prevented from being detached from the guide grooves. It is therefore
possible to obtain an air filter which can be mounted more smoothly.
[0057] In addition, the unit filter frame members and the guide portions are manufactured
by integral molding. Thus, the air filter can be manufactured inexpensively.
[0058] Further, as described in the Embodiments 1 to 3, in the air conditioner according
to the present invention, the guide grooves are provided at the place where the air
filter is to be installed. The guide portions of the air filter according to the present
invention are inserted into the guide grooves so that the air filter is mounted. Thus,
by the aforementioned effect inherent to the air filter, the quality of the air conditioner
is improved.
[0059] In addition, each of the guide grooves is formed to be smaller in sectional size
gradually as the location goes from the insertion port of corresponding one of the
air filter guide portions toward the front end portion of the groove. The air filter
guide portions are shaped to be mated with the grooves. Thus, the guide portions are
brought into close contact with the guide grooves. It is therefore possible to obtain
an air conditioner in which chattering or the like caused by vibration or the like
is hard to occur.
[0060] In addition, the guide grooves are provided in the upstream of the air passage of
the heat exchanger so as to be curved along the heat exchanger. The guide portions
are inserted into the guide grooves so that the air filter is mounted to be curved
to cover the heat exchanger. Thus, most of the air supplied to the heat exchanger
passes through the air filter, so that the heat exchanger is surely prevented from
contamination.
Embodiment 4
[0061] Fig. 6 is a cross-sectional view of an air conditioner (indoor unit) according to
Embodiment 4 of the present invention. In Fig. 6, an air conditioner body 101 is constituted
by a base 102, a front panel 105, a front suction grille 106, a top suction grille
107, an air passage 108, an air filter 114, a heat exchanger 111, an air fan 112,
and a louver 113. The front panel 105 is attached to the front surface of the base
102, and has air inlets 103a and 103b in its front and top surfaces and an air outlet
104 in its front lower portion. The front suction grille 106 is attached to the front
surface of the front panel 105 removably and closably. The top suction grille 107
is attached to the top surface of the top air inlet 103b of the front panel 105. The
air passage 108 is formed to communicate between the front and top air inlets 103a
and 103b and the air outlet 104. The air filter 114 is installed removably along the
inside of the front and top suction grilles 106 and 107 by use of grooves provided
in the front panel 105 as guides. The air filter 114 has a length corresponding to
the total length of the front and top air inlets 103a and 103b. The heat exchanger
111 is divided into three (an upper heat exchanger 111a inclined forward in the upper
portion of the air passage, a rear heat exchanger 111b linked to the upper heat exchanger
111a and inclined to the deep portion of the air passage, and a lower heat exchanger
111c linked to the lower portion of the upper heat exchanger 111a and disposed vertically).
The louver 113 is placed in the exit opening portion of the air outlet 104.
[0062] Fig. 7 shows a main portion perspective view of the air conditioner according to
Embodiment 4 of the present invention. In Fig. 7, the top suction grille 107 is attached
to the top surface of the top air inlet 103b of the front panel 105. While being curved
with the grooves provided in the front panel 105 as guides, the front air filter 114
is installed removably along the inside of the front and top suction grilles 106 and
107. Then, the front air filter 114 reaches the deepest portion of the top air inlet
103b. Thus, the front and top air inlets 103a and 103b can be covered with only the
front air filter 114. However, the front air filter 114 may be divided into two with
respect to the width of the air conditioner as shown in Fig. 7.
[0063] Fig. 8 is an enlarged sectional view of the portion where the front end portion of
the top suction grille 107 is attached to the front panel 105. A protrusion portion
107b is provided in the front end portion of the top suction grille 107 so as to project
all over the grille width. In addition, a reception portion 105b into which this protrusion
portion 107b can be plugged is provided in the portion of the front panel 105 where
the top suction grille 107 is to be attached. The protrusion portion 107b is plugged
into the reception portion 105b so that the top suction grille 107 is positioned.
In order to suppress chattering during the running of the air conditioner, a cushion
material may be put between the protrusion portion 107b and the reception portion
105b. This cushion material may be attached either to the protrusion portion 107b
or to the reception portion 105b.
[0064] Fig. 9 is an enlarged sectional view showing the portion where the rear end portion
of the top suction grille 107 is fixed to the front panel 105. The top suction panel
107 is placed over the front panel 105 so that a fixing hole 105c formed in the front
panel 105 is aligned with a fixing hole 107c formed in the top suction grille 107.
A lock part 115 extends through the aforementioned two holes so as to fix the top
suction grille 107 in place.
[0065] The fixing method of the lock part 115 will be described with reference to the plan
sectional view of Fig. 10 and the perspective view of Fig. 11. As shown in Fig. 10,
the lock part 115 is constituted by a lock portion 115a and an operating portion 115b.
The lock portion 115a is a portion to be inserted into the fixing hole 105c formed
in the front panel 105 and the fixing hole 107c formed in the top suction grille 107.
The lock portion 115a has a depth corresponding to the thickness of the fixing holes
105c and 107c and a fixing hook portion. According to the shape shown in Fig. 10,
the lock portion 115a is slid to the right after insertion so that the front panel
105 and the top suction grille 107 can be nipped and fixed by the lock portion 115a.
[0066] Incidentally, the operating portion 115b of the lock part 115 may be formed into
an arrow-like shape as illustrated. By forming the operating portion 115b into such
a shape, an operator can know the operating direction easily. Further, the lock part
115 may have a color tone different from those of the other parts surrounding the
lock part 115 so that a worker can recognize the existence of the lock part easily.
[0067] In addition, the fixing hole 105c formed in the front panel 105 may have a cuspidate
shape as shown in Fig. 11 in order to receive the fixing hook portion of the lock
portion 115a of the lock part 115 easily.
[0068] Fig. 12 is a cross-sectional view of the air conditioner, showing the state where
the front suction grille 106 has been flipped open. Since the front suction grille
106 has hinge portions on its opposite sides and is mounted on the front panel therethrough
as shown in Fig. 7, the front suction grille 106 can be flipped open as shown in Fig.
12. In this state, the lock part 115 is located in a position where the lock part
115 can be operated. In the case of a normal use state as shown in Fig. 6, the lock
part 115 does not appear externally. Thus, there is no fear that the lock part 115
spoils the design of the air conditioner.
[0069] Since the air conditioner according to Embodiment 4 of the present invention is configured
thus, the mounting/removing work of the top suction grille can be performed by only
the operation from the side close to a worker. Thus, the work can be performed more
easily and more safely.
[0070] In addition, the air filter can cover the front and top air inlets without being
divided into two in the front/rear direction. Accordingly, the air filter can be removed
easily only by the operation from the front side, and the labor for cleaning can be
reduced.
Embodiment 5
[0071] Fig. 13 is a plan view showing the state where the top suction grille 107 is mounted
on the body 101 including the front panel 105 according to Embodiment 5 of the present
invention. As for the shape of the top suction grille 107, the width of its front
end portion located on the deep side of the front panel 105 is made narrower than
the width of its rear end portion located on the front side of the front panel 105.
On the other hand, the top suction grille mounting portion of the front panel 105
has a shape mated with the shape of the top suction grille 107. Thus, the top suction
grille 107 can be positioned easily by a simple method in which the protrusion portion
107b provided in the front end portion of the top suction grille 107 is plugged into
the reception portion 105b of the front panel 105. Thus, the workability in the mounting/removing
work carried out overhead is improved.
Embodiment 6
[0072] Fig. 14 is an enlarged sectional view showing the portion where the rear end portion
of the top suction grille 107 is fixed to the front panel 105 according to Embodiment
6 of the present invention. The top suction grille 107 is placed over the front panel
105. At least one protrusion portion 107d is provided in the top suction grille 107
so as to enter the opening of the top air inlet 103b of the front panel 105. As a
result, when the top suction grille 107 is mounted, the top suction grille 107 can
be prevented from slipping down toward the side close to a worker even if the lock
part 115 is not inserted. Thus, the workability in inserting/extracting the lock part
115 can be improved.
[0073] In addition, if the aforementioned protrusion portion is provided in the front panel
105 so as to enter an opening formed in the top suction grille 107, similar effect
can be obtained.
[0074] As described in the Embodiments 4 to 6, in the air conditioner according to the present
invention, a protrusion portion is provided in the front end portion of a top suction
grille, and fitted into a reception portion of a front panel. Then, the top suction
grille is fixed to the front panel by a lock part using hole portions provided in
the rear end portions of the top suction grille and the front panel. Accordingly,
the work of mounting/removing the grille or the air filter can be carried out by a
simple method of performing the operation on the side close to a worker. It is therefore
possible to carry out the work more easily and more safely.
[0075] In addition, the lock part is formed into an arrow-like shape. Accordingly, the direction
of the operation can be shown to the operator in an easy-to-understand way. Further,
the lock part is made to have a color tone different from those of the other parts
surrounding the lock part. Accordingly, the worker can recognize the existence of
the lock part easily.
[0076] In addition, as for the shape of the top suction grille 107, the width of its front
end portion located on the deep side of the front panel is made narrower than the
width of its rear end portion. Accordingly, the top suction grille 107 can be positioned
easily so that the workability in the mounting/removing work carried out overhead
is improved.
[0077] Further, the air filter can cover all the air inlet surface without being divided
in the front/rear direction, so that it becomes easy to remove the air filter. This
contributes to reduction in manufacturing cost, and further results in labor saving
for cleaning.
1. Luftfilter (14), aufweisend eine Mehrzahl von Block-Filterrahmenelementen (22), die
jedes eine Filterplatte (3) aufweisen und die untereinander über Gelenkteile (23)
verbunden zusammenklappbar sind,
wobei Blockrahmenelemente (22) Führungsabschnitte (32) haben, die zu Einsetzen
in Führungsrillen (26) angeordnet sind, die an einem Bereich des Apparates vorgesehen
sind, an dem das Luftfilter (14) eingebaut werden kann, dadurch gekennzeichnet, dass in die Führungsabschnitte (32) mehrere Paare von Nockenabschnitten (25) einbezogen
sind, die an gegenüberliegenden Seitenflächen (35) der Block-Filterrahmenelemente
(22) hervorragen, wobei die Querschnittgrößen der Nockenabschnitte (25) so ausgewählt
sind, dass eine Querschnittgröße eines Nockenabschnittes (25a), der dem oberen Ende
(38) der Block-Filterrahmenelemente (22), das mit einem anderen verbunden ist, die
kleinste ist, und die Querschnittgrößen der folgenden Nockenabschnitte (25b, 25c,
25c), die in Richtung auf das gegenüberliegende Ende der Block-Filterrahmenelemente
(22) angeordnet sind, größer werden, und zwar an einer der gegenüberliegenden Seitenflächen
(35).
2. Luftfilter (14) nach Anspruch 1, wobei in die Führungsabschnitte (32) ferner ein Führungsriemen
(29) einbezogen ist, der die Seitenfläche der Nockenabschnitte (25) verbindet, die
an der einen der gegenüberliegenden Seitenflächen (35) der Block-Filterrahmenelemente
(22) hervorstehen.
3. Luftfilter (14) nach Anspruch 1 oder 2, wobei die Block-Filterrahmenelemente (22)
und Führungsabschnitte (32) durch einstückiges Formpressen hergestellt werden.
4. Klimaanlage, aufweisend ein Luftfilter (14) nach einem der Ansprüche 1 bis 3, einen
Wärmetauscher (18) und ein Luftgebläse (19) mit einem Eintritt und einem Luftaustritt
zum Fördern der aus dem Lufteintritt angesaugten Luft durch das Filter, zum Wärmetausch
der geförderten Luft mit einem Kühlmittel in dem Wärmetauscher und zum Ausblasen der
wärmegetauschten Luft aus dem Luftaustritt (20); wobei die Klimaanlage ferner Führungsrillen
(26) aufweist, die an einem Bereich vorgesehen sind, wo das Luftfilter (14) angebaut
ist, wobei Führungsabschnitte (32) an dem Luftfilter (14) in die Führungsrillen (26)
eingesetzt sind, wenn das Luftfilter (14) eingebaut ist.
5. Klimaanlage nach Anspruch 4, wobei jede der Führungsrillen (26) vom Trapeztyp ist,
die eine Rillenbreite haben, die vom oberen Ende (38) zu einem Einsatzende (40) allmählich
zunimmt, wobei beim Einbau des Luftfilters (14) die Führungsabschnitte (32) des Luftfilters
(14) so eingesetzt werden, dass der Nockenabschnitt (25a) mit der kleinsten Querschnittgröße
zuerst in die Führungsrillen (26) eingesetzt wird.
6. Klimaanlage nach Anspruch 4 oder 5, wobei die Führungsrillen (26) an den Wärmetauscher
(18) angewölbt auf einer Zustromseite eines Luftdurchlasses des Wärmetauschers (18)
vorgesehen sind und die Führungsabschnitte (32) in die Führungsrillen (26) so eingesetzt
werden, dass das Luftfilter (14) so aufgebaut ist, dass es zum Abdecken des Wärmetauschers
(18) gewölbt ist.