CN102798178A - Air supply device - Google Patents
Air supply device Download PDFInfo
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- CN102798178A CN102798178A CN2012101632349A CN201210163234A CN102798178A CN 102798178 A CN102798178 A CN 102798178A CN 2012101632349 A CN2012101632349 A CN 2012101632349A CN 201210163234 A CN201210163234 A CN 201210163234A CN 102798178 A CN102798178 A CN 102798178A
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- air
- supply arrangement
- retainer
- partition member
- processor
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Abstract
The present invention provides an air supply device capable of raising a processing efficiency of indoor air. An air supply path (21a) of the air supply device is provided with an ionizer (26) therein, the ionizer (26) has a cation electrode (26a) for generating cations and an anion electrode (26b) for generating anions at a bottom surface, the cation electrode (26a) and the anion electrode (26b) enable the air flowing in the air supply path (21a) to release cations and anions, so as to process the air in a bathroom, and are arranged perpendicular to the air supply path (21a).
Description
Technical field
The present invention relates to a kind of air-supply arrangement that is used for indoor take a breath, heat gas, dryings etc. such as bathrooms; Especially relate to air-supply arrangement with following air processor; This air processor utilization flow to indoor air from air-supply arrangement, the air in the conditioning chamber.
Background technology
In the prior art, use and for example be documented in the air-supply arrangement in the patent documentation, to take a breath, heat gas, dryings etc. such as bathrooms.
The blower fan of the air-supply arrangement of patent documentation 1 is arranged in the Blower Housing, is formed with air supply path in a side of the side face of blower fan.In this air supply path, be provided with cation electrode and the anion electrode (a plurality of air-treatment portion) of ion generating device (air processor).
Said cation electrode and anion electrode produce cation and anion respectively.This cation and anion are discharged by flow air in air supply path, be transported to again indoor, thereby with indoor air purification.
(patent documentation 1) TOHKEMY 2004-353977 communique
But, in the air-supply arrangement of patent documentation 1, the cation electrode of ion generating device and anion electrode and air supply path configured in parallel, thereby mix each other through the air of each self-electrode.Thus, cation that produces from both sides and anion are cancelled out each other and can not be delivered to indoorly, can not fully carry out the processing of room air.
Summary of the invention
The present invention proposes in view of above-mentioned existing problem, and its purpose is to provide a kind of air-supply arrangement that can improve the treatment effeciency of room air.
The inventor has adopted following air-supply arrangement to solve the problems referred to above through further investigation.
It is characterized in that of air-supply arrangement of the present invention; Has air processor; The a plurality of air-treatment portion of this air processor is perpendicular to the air supply path of a side of the side face that is formed on the Blower Housing inner blower; Said air-treatment portion utilizes and flows to indoor air from this air supply path, handles this indoor air.
In addition, air-supply arrangement of the present invention is preferred, in air supply path, is provided with cowling panel, and the flow separation that this cowling panel will pass the air of a plurality of air-treatment portion becomes to pass the air-flow of the air of each air-treatment portion.
Air-supply arrangement of the present invention can be that a plurality of cowling panels are along relative direction and row arrangement perpendicular to said air supply path.In this case, preferred a plurality of cowling panel forms along the side face bending of blower fan.In addition, a plurality of cowling panels bend to its flexibility with constantly diminishing gradually away from blower fan.
Air-supply arrangement of the present invention is preferred, and in a plurality of cowling panels, the height setting that is positioned at the cowling panel of blower fan one side must be lower than the height of other cowling panel.
In air-supply arrangement of the present invention, cowling panel can be arranged on the downstream of air processor; Cowling panel can be arranged on the upstream side of air processor; Cowling panel can be arranged on the upstream side and the downstream of air processor.
Air processor can be, a plurality of air-treatment portion is extend out to air supply path, and the space outside air supply path is installed on Blower Housing with detachable mode.
In this case, air processor preferably extend out to a plurality of air-treatment portion in the air supply path, and is installed in the outside of Blower Housing with removable mode.
Can also be, install and to be arranged on the part corresponding with the said air supply path of Blower Housing with peristome that air processor embeds installation with in the peristome, a plurality of air-treatment portion of air processor stretches out and is configured in the air supply path.
In this case, preferred water proofing property encapsulant is arranged on air processor and installs with between the peristome.
The water proofing property encapsulant preferably is arranged on the whole outer peripheral face of air processor or installs on the periphery with peristome.In addition, the water proofing property encapsulant can be arranged on the whole outer peripheral face and the periphery of installing with peristome of air processor.
Air-supply arrangement of the present invention can have the retainer of accommodating air processor.In addition, air-supply arrangement of the present invention is preferred, and being installed on the outside of Blower Housing with detachable mode when air processor is under the situation, and retainer is installed in the outer surface of Blower Housing.
Preferably, retainer is container-like that lower surface opens wide, and is made up of a pair of partition member that can left and rightly separate.
Preferably, this to partition member in, each partition member be provided with this partition member is fastened and form retainer engage pawl and connecting hole.
Preferably, wherein a partition member is formed by sidewall, upper wall and antetheca, and another partition member is formed by sidewall, upper wall and rear wall; In this case, engaging pawl and connecting hole is separately positioned on the upper wall of antetheca, two partition members of sidewall and a partition member of rear wall, another partition member of sidewall and another partition member of a partition member.
Air-supply arrangement of the present invention is preferred, at this both downside to partition member, is provided with a pair of hook-shaped maintenance pawl that is used for remaining on the air processor that retainer accommodates.
Air-supply arrangement of the present invention is preferred, between the outer surface of retainer and Blower Housing, is provided with the water proofing property encapsulant.
Preferably, encapsulant be arranged on retainer lower surface or Blower Housing outer surface, with the corresponding part of lower surface of retainer.In addition, encapsulant can be arranged on retainer lower surface and Blower Housing outer surface, with the corresponding part of lower surface of retainer.
Air-supply arrangement of the present invention can have the shell body of the outer surface that covers retainer and Blower Housing.
In air-supply arrangement of the present invention, air supply path is provided with perpendicular to a plurality of air-treatment portions, thereby the air that passes each air-treatment portion is not blended in and can be delivered to indoor together.Air-supply arrangement of the present invention thus can improve the treatment effeciency of room air.
Description of drawings
Fig. 1 is the exploded perspective view of the air-supply arrangement of an embodiment of the present invention;
Fig. 2 is the figure that looks up the air-supply arrangement of this embodiment from downside;
Fig. 3 looks up the figure that from Fig. 2, takes off front panel from downside;
Fig. 4 is expression is provided with the air flow circuit under the situation of cowling panel when the downstream of the ion generator of this embodiment figure;
Among Fig. 5, (A) be the figure of the air flow circuit of expression under the situation that be provided with cowling panel at the upstream side of ion generator; (B) be the figure that is illustrated in the air flow circuit of the upstream side of ion generator and the situation that the downstream all is provided with cowling panel;
Fig. 6 is along the sectional view of N-N line among Fig. 2;
Fig. 7 comprises the installation constitution of ion generator at interior exploded perspective view in the air-supply arrangement of this embodiment;
Fig. 8 is the figure of the state after retainer is divided right and left in expression;
Among Fig. 9, (A) be the vertical view of retainer; (B) be the front view of retainer;
Among Figure 10, (a) be the upward view of ion generating mechanism; (b) be the rearview of ion generating mechanism.
Description of reference numerals:
1 air-supply arrangement
4 shell bodies
21 Blower Housings
The 21a air supply path
22 blower fans
26 ion generators (air processor)
26a cation electrode (air-treatment portion)
26b anion electrode (air-treatment portion)
27 retainers
28 cowling panels
51 water proofing property encapsulants
52 water proofing property encapsulants
53 water proofing property encapsulants
128 cowling panels
Peristome is used in 216 installations
271 left side partition members
2711 left side walls
2712 rear walls
2713 upper walls
271d, 271e fastener
271a, 271f connecting hole
271b keeps pawl
Material is cut apart on 272 right sides
2721 left side walls
2722 rear walls
2723 upper walls
272d, 272e fastener
272a, 272f connecting hole
272b keeps pawl
A passes cation and anionic air
B passes cationic air
C passes anionic air
The specific embodiment
Below in conjunction with accompanying drawing embodiment of the present invention is described.
Fig. 1 is the exploded perspective view of the air-supply arrangement 1 of an embodiment of the present invention.This air-supply arrangement 1 is used for indoor, and for example take a breath in bathroom etc., heating, drying, and it is arranged on the furred ceiling portion in bathroom.This air-supply arrangement 1 has air-supply arrangement body 2, be installed in the front panel 3 on the bottom surface of air-supply arrangement body 2 and cover the shell body 4 of air-supply arrangement body 2.
Though accompanying drawing is not shown, air-supply arrangement body 2 is in bathroom one side is embedded in the furred ceiling opening the furred ceiling portion that is arranged on the bathroom, and its underpart exposes in the bathroom.As shown in figures 1 and 3, this air-supply arrangement body 2 has Blower Housing 21, is arranged on blower fan 2, heater 23, damper regulator 24, substrate 25 and ion generating mechanism 30 (ion generating device 26 and retainer 27) in the Blower Housing 21.
As shown in figures 1 and 3, at the upper surface of Blower Housing 21, be formed with to the top stretch out in the face of the blower fan of introducing port 211 with resettlement section 213 and the heater of facing blow-off outlet 212 with resettlement section 214.
As shown in Figure 3, blower fan 22 is housed in blower fan with in the resettlement section 213.This blower fan 22 is multiblade fans that impeller is arranged on side face cylindraceous, and this blower fan 22 receives that blower motor 22a (with reference to figure 1) drives and during rotation, sucks air from introducing port 211, and discharge from side face absorbing the air of coming in.Side at the side face of blower fan 22 is formed with air supply path 21a, and this air supply path 21a is used for the air that the side face from blower fan 22 flows out is delivered to heater with resettlement section 214.
Be provided with outlet 215 at heater with the side of resettlement section 214, this outlet 215 is connected with the outlet 41 of shell body 4.The inboard of this outlet 215 is provided with damper regulator 24.This damper regulator 24 is by arbitrarily angled rotation, and adjustment will flow to the amount that the air that comes is delivered to outlet 215 latter's blow-off outlets 212 from air supply path 21 whereby.
The air-supply arrangement 1 of formation as above-mentioned, if blower fan 22 rotation, then air in the introducing port 211 importing bathrooms is discharged from side face.After the air of discharging passes air supply path 21a, regulate through damper regulator 24, from blow-off outlet 212 blow to the bathroom or through outlet 215,41, joint attaching parts 42, discharge conduit, be disposed to outside.
In this air-supply arrangement 1, as shown in Figure 3, ion generating device 26 is arranged among the air supply path 21a.This ion generating device 26 has the cationic cation electrode 26a of generation and produces anionic anion electrode 26b in its bottom surface.
As shown in Figure 4, said cation electrode 26a and anion electrode 26b discharge cation and anion to flow air in air supply path 21a, regulate air in the bathroom whereby, and it disposes with the mode perpendicular to air supply path 21a.Because; Can not mix each other through the air B of cation electrode 26a and the air C of process anion electrode 26b; So the air that can cation and anion not cancelled out each other; Be delivered in the bathroom, be present in the airborne bacterium in the bathroom, improve amount of ions in the bathroom with decomposition.Thus, the air-supply arrangement 1 of this embodiment can improve the adjusting efficient of air in the bathroom.
The downstream of the ion generating device 26 among the air supply path 21a is provided with a plurality of cowling panels 28.Said a plurality of cowling panel 28 forms from the inner face 213a setting of blower fan with resettlement section 213.And; As shown in Figure 4, a plurality of cowling panels 28 dispose according to following mode, promptly; To pass through the air-flow of the air A of cation electrode 26a and anion electrode 26b, be split into through the air-flow of the air B of cation electrode 26a with through the air-flow of the air C of anion electrode 26b.
Thereby, can effectively prevent through mixing each other between the air-flow of the air B of cation electrode 26a and the air-flow through the air C of anion electrode 26b.Can the air that cation and anion are not cancelled out each other be delivered in the bathroom thus, be present in the airborne bacterium in the bathroom, improve amount of ions in the bathroom with decomposition.Thus, the air-supply arrangement 1 of this embodiment can further improve the adjusting efficient of air in the bathroom.
A plurality of cowling panels 28 are along direction and row arrangement perpendicular to air supply path 21a.Can be split into the air-flow of air B and the air-flow of air C effectively with the air-flow of air A thus.Thereby, can guarantee the air that cation and anion are not cancelled out each other is delivered in the bathroom, so in the bathroom, discharge more polyion, improve amount of ions in the bathroom.Therefore the air-supply arrangement 1 of this embodiment can further improve the air conditioning efficient in the bathroom.
A plurality of cowling panels 28 form along the side face bending of blower fan 22.Thereby air B and air C can effectively utilize the air-flow (air-flow of the air that around blower fan, produces owing to the rotation of blower fan 22) of air A to produce to flow, so can successfully give conveying cation and anion in the bathroom.That is, can give to discharge more ion in the bathroom, improve the amount of ions in the bathroom.Thereby can further improve the air conditioning efficient in the bathroom.
A plurality of cowling panels 28 are set at, and flexibility is along with constantly lowering gradually away from blower fan 22.Thus, further effectively utilize the air-flow of air A, promote flowing of air B and air C, carry cation and anion in the bathroom so can give smoothly.Can give to discharge more ion in the bathroom, improve the amount of ions in the bathroom.Thereby can further improve the air conditioning efficient in the bathroom.
The quantity of cowling panel 28 can change according to the size of ion generating device 26.In the air-supply arrangement 1 of this embodiment, cowling panel 28 is arranged on the downstream of the ion generating device 26 among the air supply path 21a, yet the position that is provided with of cowling panel 28 is not limited thereto.For example, shown in Fig. 5 (a), also can be arranged on the upstream side of ion generating device 26; Shown in Fig. 5 (b), also can be arranged on the upstream side and the downstream of ion generating device 26.
Shown in Fig. 5 (a), through cowling panel 128 being arranged on the upstream side of ion generating device 26, can be in advance be the air-flow of air B and air C with the airflow diversion of air A.Then, the air B after the separation can pass from cation electrode 26a top, and the air C after the separation can pass from cation electrode 26b top.
Even be not provided with in the downstream of ion generating device 26 under the situation in space of cowling panel 28; Also can cowling panel 128 be arranged on the upstream side of ion generating device 26; Thereby, can effectively prevent through the air-flow of the air B of cation electrode 26a with through the mutual mixing between the air-flow of the air C of anion electrode 26b.Thus, can guarantee the air that cation and anion are not cancelled out each other is delivered in the bathroom, give in the bathroom to discharge more polyion, improve amount of ions in the bathroom.The air-supply arrangement 1 of this embodiment can further improve the air conditioning efficient in the bathroom.
Shown in Fig. 4 and Fig. 5 (b), when cowling panel 28 was arranged on the downstream of ion generating device 26, the action sound (especially high pitch zone) that can utilize cowling panel 28 to suppress ion generating device 26 leaked to blow-off outlet 212 1 sides.Thereby can reduce user's unhappy sense.
Shown in Fig. 5 (b), when cowling panel 128,28 was arranged on upstream side and the downstream of ion generating device 26, the air-flow that can make air A to the downstream, was split into the air-flow of air B and air C from the upstream side of ion generating device 26 all the time.Thereby, air B and air C through before the ion generating device 26 after passing through, all can not mix.Thus, can give in the bathroom to discharge more polyion, improve amount of ions in the bathroom, can further improve the air conditioning efficient in the bathroom.
The height of the cowling panel 28 of blower fan 22 sides (inboard) is set lowlyer than the height of other cowling panel 28.Thus, the air of seeing off from blower fan 22 can be easy to flow to a side (outside) opposite with blower fan 22, can air evenly be blown in the bathroom from blow-off outlet 212.
In the air-supply arrangement 1 of this embodiment, as shown in Figure 3 with ion generating device 26 be arranged on blower fan 22 near.Because, the sound of ion generating device 26 work, the operational sound of the blower fan 22 that the sound of not working is bigger is such outstanding.Thereby the user can only hear the sound of blower fan 22 work, thereby can reduce user's unhappy sense.
Like Fig. 1, Fig. 3, shown in Figure 6, ion generating device 26 is arranged on the outside (between Blower Housing 21 and shell body 4) of Blower Housing 21, and cation electrode 26a and anion electrode 26b expose in air supply path 21a.Owing to have only the cation electrode 26a of ion generating device 26 and anion electrode 26b to be arranged in the Blower Housing 21; Thereby; Even the humidity of Blower Housing 21 uprises because of the dewfall in the bathroom, can prevent that also humidity from exerting an influence to the running of ion generating device 26.
Next, the mounting structure to ion generating device 26 specifies.As shown in Figure 7, at the upper surface of Blower Housing 21, be provided with installation with peristome 216 with the corresponding part of air supply path 21a (with reference to figure 3).
Different therewith is that ion generating device 26 is housed in the retainer 27, and forms ion generating mechanism 30, is embedded in this state and installs with in the peristome.Retainer 27 is installed on the upper surface (outer surface) of Blower Housing 21 through installing with fixed parts such as screws 29,29.
As above-mentioned, ion generating device 26 utilizes retainer 27 and is installed on the upper surface of Blower Housing 21, so can carry out the installation exercise of ion generating device 26 very simply.In addition, ion generating device 26 is coated by retainer 27, can also prevent that ion generating device 26 from receiving the collision from the outside.
The cation electrode 26a and the anion electrode 26b of ion generating device 26 expose in air supply path 21a, but this ion generating device 26 is not the inside from air supply path 21a, but from the space beyond the air supply path 21a, are installed on the Blower Housing 21 with installing and removing.Thereby, can install or dismantle ion generating device 26 simply, can improve the maintainability of ion generating device 26.That is,,, improve its maintainability so can carry out the installing/dismounting operation of ion generating device 26 more simply because this ion generating device 26 is installed on the outside of Blower Housing 21 dismantledly.
As shown in Figure 8, retainer 27 is container-like that lower surface opens wide, so that ion generating device 26 is installed.Said retainer 27 be by, about a pair of partition member 271,272 cut apart combine.Two partition members the 271, the 272nd, same parts, fore-and-aft direction is put upside down.
Use the (a) and (b) of Fig. 8 and Fig. 9, the formation of partition member 271,272 is described.Left side partition member 271 has left side wall 2711, rear wall 2712 and upper wall 2713.Be formed with flange 2714 from the outside of the outside to the rear wall 2712 of left side wall 2711.On flange 2714 and left side wall 2711, be formed with the flank 2715 of strengthening usefulness.
Be provided with connecting hole 271a in the front portion of left side wall 2711.Downside at the pars intermedia of left side wall 2711 is provided with the hook-shaped maintenance pawl 271b, the 271b that are used to keep ion generating device 26.Be provided with the screwed hole 271c that supplies screw 29 (with reference to figure 7) to pass through in the back bight of flange 2714.Distolateral in rear wall 2712, be provided with engaging pawl 271d with the mode of stretching out to the right.Distolateral engaging pawl 271e and the connecting hole 271f that stretches out to the right that be provided with in upper wall 2713.
Right side partition member 272 has right side wall 2721, antetheca 2722 and upper wall 2723.Be formed with flange 2724 from the outside of right side wall 2721 to antetheca 2722.Between flange 2724 and right side wall 2721, be formed with and strengthen with flank 2725.
Forward corner at flange 2724 is provided with the screwed hole 272c that supplies screw 29 (with reference to figure 7) to pass through.Distolateral in antetheca 2722, be provided with engaging pawl 272d with the mode of stretching out to the left.
Downside at the pars intermedia of right side wall 2721 is provided with hook-shaped maintenance pawl 272b, the 272b that keeps ion generating device.Be provided with connecting hole 272a at the rear portion of right side wall 2721.Distolateral engaging pawl 272e and the connecting hole 272f that stretches out to the left that be provided with in upper wall 2723.
In order ion generating device 26 to be housed in the retainer 27 of above-mentioned formation, for example can carry out according to following order.
At first, ion generating device 26 is placed in the partition member 271, by keeping pawl 271b, 271b to keep.
Next, the connecting hole 271a, the 271f that engaging pawl 272d, the 272e of right side partition member 272 are put into left side partition member 271 make it mutual engaging.Simultaneously, the engaging pawl 271d of left side partition member 271, connecting hole 272a, the 272f that 271e puts into right side partition member 272 are made it mutual engaging, thereby utilize both maintenance pawl 271b, 271b, 272b, 272b, keep ion generating device 26.(a) of Figure 10 and (b) expression ion generating device 26 is housed in the state in the retainer 27.
Like this; The retainer 27 of this embodiment is container-like that lower surface opens wide; And constitute by a pair of partition member of dividing right and left 271,272; When being housed in ion generating device 26 in the retainer 27, can after being placed on ion generating device 26 in the partition member, assemble another partition member again.Thereby, there is not separated situation to compare with retainer, the air-supply arrangement 1 of this embodiment can very simply be housed in ion generating device 26 in the retainer 27.
Be respectively arranged with at this, make this partition member 271,272 engaging and form engaging pawl 271d, 271e, 272d, 272e and connecting hole 271a, 271f, 272a, the 272f of retainer 27 each other to partition member 271,272.Thereby, in ion generating device 26 being placed on wherein a side partition member after, when assembling the opposite side half point again and cutting parts, can simplify very much task difficulty.That is, the air-supply arrangement 1 of this embodiment can improve the operation property when ion generating device 26 is housed in retainer 27.
Above-mentioned engaging pawl 271d, 271e, 272d, 272e and connecting hole 271a, 271f, 272a, 272f are separately positioned on the upper wall 2713,2723 of antetheca 2722, two partition members 271,272 of left side wall 2711 and right side partition member of rear wall 2712, left side partition member 271 of right side wall 2721 and the left side partition member 271 of right side partition member 272.That is, the engaging position of two partition members 271,272 is positioned at front portion, three positions in rear portion and top, thereby two partition members 271,272 are difficult for separately.Thus, the air-supply arrangement 1 of this embodiment can carry out ion generating device 26 is installed in the installation exercise on the Blower Housing 21 very simply.
At the downside of two partition members 271,272, be provided with hook-shaped maintenance pawl 271b, 271b, 272b, the 272b of two couples that is used for keeping being housed in the ion generating device 26 of retainer 27.Thereby when being installed in ion generating device 26 in the Blower Housing 21, ion generating device 26 can not fall down from retainer 27.Thus, the air-supply arrangement 1 of this embodiment can carry out being installed in the installation exercise on the Blower Housing 21 to ion generating device 26 very simply.
Shown in Figure 10 (a), the whole outer peripheral face of ion generating device 26 is provided with water proofing property encapsulant 53.The installation that ion generating device 26 is embedded Blower Housings 21 with peristome 216 in the time, water proofing property encapsulant 53 can be folded in ion generating device 26 and installation with between the peristome 216.Thereby, in the air-supply arrangement 1 of this embodiment,, can prevent that also moisture is dipped into inside, the raising water resistance through installing with peristome 216 from the outside of Blower Housing 21 even without the structure that ion generating device 26 self is designed to waterproof.
Also can encapsulant be set on the periphery of installing with peristome 216, or on the whole outer peripheral face of ion generating device 26 and the periphery of installation, encapsulant be set, encapsulant become be arranged on ion generating device 26 and installation with the state between the peristome 216 with peristome 216.
Compare with the situation that encapsulant 53 is set on the whole outer peripheral face of ion generating device 26, the situation of encapsulant is set on the periphery of installing with peristome 216, can enlarge the area of encapsulant, thereby can improve water resistance.
With at the whole outer peripheral face of ion generating device 26, or the situation that encapsulant is set on the periphery with peristome 216 is installed compares; The whole outer peripheral face of ion generating device 26 with install with the periphery of peristome 216 on the situation of encapsulant all is set; Can increase the thickness of encapsulant; Also can enlarge the area of encapsulant, thereby more can improve water resistance.
On each bottom surface (lower surface of retainer 27) of two partition members 271,272 of retainer 27,, be provided with water proofing property encapsulant 51,52 except that screwed hole 271c, 272c and maintenance pawl 271b, 271b, 272b, other part the 272b.Thus, in the time of on the upper surface that retainer 27 is installed in Blower Housing 21, seal member 51,52 is folded between the upper surface of retainer 27 and Blower Housing 21.Thereby the air-supply arrangement 1 of this embodiment can prevent that moisture from passing through to install with peristome 216, is dipped into inside, the raising water resistance from the outside of Blower Housing 21.
Also can encapsulant be arranged on the corresponding part of the lower surface with retainer 27 of upper surface of Blower Housing 21, encapsulant is arranged between the upper surface of retainer 27 and Blower Housing 21.Compare with the situation that encapsulant 51,52 is arranged on the lower surface of retainer 27, this situation can enlarge the area of encapsulant, more can improve water resistance.
Also can encapsulant be arranged on the corresponding part of the lower surface with retainer 27 of upper surface of lower surface and Blower Housing 21 of retainer 27, encapsulant is arranged between the upper surface of retainer 27 and Blower Housing 21.With encapsulant be arranged on retainer 27 lower surface, or situation about being arranged on the corresponding part of the lower surface with retainer 27 of the upper surface of Blower Housing 21 compare; This situation can increase the thickness of encapsulant; Also can enlarge the area of encapsulant, thereby more can improve water resistance.
Below represented the embodiment that the present invention relates to for example, yet said embodiment is not limited to content of the present invention.Only otherwise break away from the scope that claim of the present invention is asked for protection, can carry out various changes.
For example; At this embodiment, apply the present invention to, use the situation of ion generating device 26 as being arranged on the air processor in the air-supply arrangement 1; But also can apply the present invention to, use the situation of other air processor (fragrance device etc.).In addition, described that in this embodiment air-supply arrangement 1 is arranged on the content within the bathroom, other is indoor but also can it be arranged on.
According to above-mentioned explanation, air-supply arrangement of the present invention can improve the treatment effeciency of room air.Thereby air-supply arrangement of the present invention can make full use of in the technical field of air-supply arrangement.
Claims (27)
1. air-supply arrangement with air processor; It is characterized in that; In Blower Housing; Be provided with and be formed on the orthogonal a plurality of air-treatment of the air supply path of side face one side of blower fan portion, said air-treatment portion utilizes from this air supply path and flows into indoor air, and this indoor air is regulated.
2. air-supply arrangement according to claim 1 is characterized in that,
In said air supply path, be provided with cowling panel, the air-flow of the air that this cowling panel will be through said a plurality of air-treatment portion is split into the air-flow through the air of each air-treatment portion.
3. air-supply arrangement according to claim 2 is characterized in that,
Said cowling panel is a plurality of cowling panels of edge perpendicular to the direction and the row arrangement of said air supply path.
4. air-supply arrangement according to claim 3 is characterized in that,
Said a plurality of cowling panel forms along the side face bending of said blower fan.
5. air-supply arrangement according to claim 4 is characterized in that,
Said a plurality of cowling panel forms with the mode bending that diminishes gradually in the process flexibility away from said blower fan.
6. according to each described air-supply arrangement among the claim 3-5, it is characterized in that,
In said a plurality of cowling panels, the height that is positioned at the cowling panel of said blower fan one side is lower than the height of other cowling panel.
7. according to each described air-supply arrangement among the claim 2-6, it is characterized in that,
Said cowling panel is arranged on the downstream of said air processor.
8. according to each described air-supply arrangement among the claim 2-6, it is characterized in that,
Said cowling panel is arranged on the upstream side of said air processor.
9. according to each described air-supply arrangement among the claim 2-6, it is characterized in that,
Said cowling panel is arranged on the upstream side and the downstream of said air processor.
10. according to each described air-supply arrangement among the claim 1-9, it is characterized in that,
Said air processor is exposed in said air supply path with said a plurality of air-treatment portion, and the mode of said air processor installing and removing from the space outerpace of said air supply path, is installed on the said Blower Housing.
11. air-supply arrangement according to claim 10 is characterized in that,
Said air processor, said a plurality of air-treatment portion is exposed in said air supply path, and said air processor, be installed in the outside of said Blower Housing with removable mode.
12. air-supply arrangement according to claim 11 is characterized in that,
Be provided with to install in the part corresponding with said air supply path of said Blower Housing and use peristome, said air processor to be embedded in said installation with in the peristome, a plurality of air-treatment portion of said air processor exposes in said air supply path.
13. air-supply arrangement according to claim 12 is characterized in that,
Between said air processor and said installation are with peristome, be provided with the water proofing property encapsulant.
14. air-supply arrangement according to claim 13 is characterized in that,
Said water proofing property encapsulant is arranged on the whole outer peripheral face of said air processor.
15. air-supply arrangement according to claim 13 is characterized in that,
Said water proofing property encapsulant is arranged on the periphery of said installation with peristome.
16. air-supply arrangement according to claim 13 is characterized in that,
Said water proofing property encapsulant is arranged on whole outer peripheral face and the said installation of the said air processor periphery with peristome.
17. according to each described air-supply arrangement among the claim 10-16, it is characterized in that,
Has the retainer of accommodating said air processor.
18. air-supply arrangement according to claim 17 is characterized in that,
Be installed on detachable mode when said air processor under the situation on the outside of said Blower Housing, said retainer is installed in the outer surface of said Blower Housing.
19. according to claim 17 or 18 described air-supply arrangements, it is characterized in that,
Said retainer is container-like that lower surface opens wide, and is made up of a pair of partition member that can divide right and left.
20. air-supply arrangement according to claim 19 is characterized in that,
Be provided with on said this each partition member, this is engaged partition member each other and become the engaging pawl and the connecting hole of said retainer partition member.
21. air-supply arrangement according to claim 20 is characterized in that,
Wherein a partition member is formed by sidewall, upper wall and antetheca; Another partition member is formed by sidewall, upper wall and rear wall, and said engaging pawl and said connecting hole are separately positioned on the upper wall of antetheca, two partition members of sidewall and a said partition member of the sidewall of a said partition member and the rear wall of said another partition member, said another partition member.
22. according to each described air-supply arrangement among the claim 19-21, it is characterized in that,
Downside at each partition member of said this a pair of partition member is provided with hook-shaped maintenance pawl, and this maintenance pawl is used for holding the said air processor that is housed in said retainer.
23. according to each described air-supply arrangement among the claim 17-22, it is characterized in that,
Be provided with the water proofing property encapsulant between the outer surface of said retainer and said Blower Housing.
24. air-supply arrangement according to claim 23 is characterized in that,
Said encapsulant is arranged on the lower surface of said retainer.
25. air-supply arrangement according to claim 23 is characterized in that,
Said encapsulant is arranged on the outer surface of said Blower Housing and the corresponding part of lower surface said retainer.
26. air-supply arrangement according to claim 23 is characterized in that,
Said encapsulant is arranged on outer surface and the corresponding part of lower surface said retainer of lower surface and said Blower Housing of said retainer.
27. according to each described air-supply arrangement among the claim 17-26, it is characterized in that,
The shell body that also has the outer surface that covers said retainer and said Blower Housing.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2011114392A JP5640891B2 (en) | 2011-05-23 | 2011-05-23 | Blower |
JP2011-114392 | 2011-05-23 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN102798178A true CN102798178A (en) | 2012-11-28 |
Family
ID=47197387
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2012101632349A Pending CN102798178A (en) | 2011-05-23 | 2012-05-23 | Air supply device |
Country Status (2)
Country | Link |
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JP (1) | JP5640891B2 (en) |
CN (1) | CN102798178A (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP6735596B2 (en) * | 2016-04-27 | 2020-08-05 | シャープ株式会社 | Ion generator, air conditioner equipped with ion generator |
JP6758423B2 (en) * | 2017-01-26 | 2020-09-23 | 三菱電機株式会社 | Bathroom Dryer |
JP6904010B2 (en) * | 2017-03-31 | 2021-07-14 | マックス株式会社 | Blower |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2001238326A (en) * | 2000-02-23 | 2001-08-31 | Yazaki Corp | Waterproof sealing for electric junction box |
JP2005134016A (en) * | 2003-10-29 | 2005-05-26 | Shimizu Corp | Atmospheric ion conveyer |
JP4079890B2 (en) * | 2004-01-28 | 2008-04-23 | シャープ株式会社 | refrigerator |
JP4494870B2 (en) * | 2004-05-27 | 2010-06-30 | 清水建設株式会社 | Air ion transport system |
JP4627011B2 (en) * | 2005-06-27 | 2011-02-09 | シャープ株式会社 | Air conditioner |
MY152662A (en) * | 2009-04-16 | 2014-10-31 | Sharp Kk | Ion generating apparatus and air cleaner |
JP2011023238A (en) * | 2009-07-16 | 2011-02-03 | Sharp Corp | Ion-spraying device and air conditioner |
JP5270491B2 (en) * | 2009-08-05 | 2013-08-21 | シャープ株式会社 | Drying unit and washing dryer |
-
2011
- 2011-05-23 JP JP2011114392A patent/JP5640891B2/en active Active
-
2012
- 2012-05-23 CN CN2012101632349A patent/CN102798178A/en active Pending
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Publication number | Publication date |
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JP2012242038A (en) | 2012-12-10 |
JP5640891B2 (en) | 2014-12-17 |
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Application publication date: 20121128 |