CN203491506U - Electric field and discharge generation device, and air conditioning plant - Google Patents
Electric field and discharge generation device, and air conditioning plant Download PDFInfo
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- CN203491506U CN203491506U CN201190001044.6U CN201190001044U CN203491506U CN 203491506 U CN203491506 U CN 203491506U CN 201190001044 U CN201190001044 U CN 201190001044U CN 203491506 U CN203491506 U CN 203491506U
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T19/00—Devices providing for corona discharge
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T23/00—Apparatus for generating ions to be introduced into non-enclosed gases, e.g. into the atmosphere
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- Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
- Air Filters, Heat-Exchange Apparatuses, And Housings Of Air-Conditioning Units (AREA)
- Electrostatic Separation (AREA)
Abstract
The utility model provides an electric field and discharge generation device, and an air conditioning plant. The electric field and discharge generation device is provided with a discharge electrode (2), an opposite electrode (7), an upper frame (1), a lower frame (8), upper ribs (10), and lower ribs (13). The opposite electrode (7) is provided with a plate-shaped electrode portion (7a). The electrode portion (7a) is opposite to the discharge electrode (2). The discharge electrode (2) and the opposite electrode (7) are configured between the upper frame (1) and the lower frame (8). The upper ribs (10) are disposed on the upper frame (1). The upper ribs (10) are opposite to a side surface of the electrode portion (7a) from a side of the upper frame (1). The lower ribs (13) are disposed on the lower frame (8). In order to limit the position of the electrode portion (7a) together with the upper ribs (10), the lower ribs (13) are opposite to the other side surface of the electrode portion (7a) from a side of the lower frame (8).
Description
Technical field
The utility model relates to electric field and discharging generator and the conditioner that forms electric field and electric discharge occurs between electrode.
Background technology
In following patent documentation 1, the prior art of electric precipitation machine is disclosed.
In the precipitron described in patent documentation 1, possess the sparking electrode of hot side and the comparative electrode of ground connection.Sparking electrode consists of ion line.Sparking electrode mid portion be supported parts carry.This support unit is fixed on main frame.
Comparative electrode is by metallic plate being cut into the shape of regulation and implementing bending machining and make.Comparative electrode possesses the electrode part relative with sparking electrode.Comparative electrode is installed on upper frame.
Technical literature formerly
Patent documentation
Patent documentation 1: Japanese kokai publication hei 2-164466 communique
The problem that utility model will solve
In the technology described in patent documentation 1, by upper frame being installed on to main frame, make the electrode part of comparative electrode relative with sparking electrode.Therefore, the electrode part of comparative electrode and the position between sparking electrode easily produce skew sometimes, cannot form uniform electric field.In the situation that cannot being formed uniformly electric field, cannot maintain stable discharge condition, as device, cannot bring into play sufficient performance.
The bending machining of metallic plate is difficult to obtain high-precision angle.In the technology described in patent documentation 1, owing to not utilizing miscellaneous part to support the electrode part of comparative electrode, the electrode part and the position between sparking electrode that therefore easily produce comparative electrode are offset.In addition, in the technology described in patent documentation 1, also likely because of the aging Angulation changes that makes electrode part.
Utility model content
This utility model completes in order to solve problem as described above, and its object is, the position that can prevent between sparking electrode and comparative electrode skew is provided, and forms electric field and discharging generator and the conditioner of uniform electric field.
For solving the means of problem
The technical solution of the utility model 1 provides a kind of electric field and discharging generator, and it possesses: sparking electrode; Comparative electrode, it has the electrode part that is tabular, and electrode part is relative with sparking electrode; The first framework and the second framework, sparking electrode and comparative electrode are configured between this first framework and the second framework; First rib, it is located at the first framework, relative with a side of electrode part from the first frame side; Second rib, it is located at the second framework, in order to retrain the position of electrode part together with first rib, relative with the another side of electrode part from the second frame side.
The technical solution of the utility model 2 is, above-mentioned the first framework is formed for the first opening passing through for air, above-mentioned the second framework is formed for the second opening passing through for air, above-mentioned electrode part is with respect to the opening surface tilted configuration of opening surface and above-mentioned second framework of above-mentioned the first framework, and above-mentioned first rib and above-mentioned second rib are configured to above-mentioned electrode part clamping.
The technical solution of the utility model 3 is, the inclination of the face relative with above-mentioned electrode part of above-mentioned first rib and a side of above-mentioned electrode part is formed slopely matchingly, and the inclination of the face relative with above-mentioned electrode part of above-mentioned second rib and the another side of above-mentioned electrode part is formed slopely matchingly.
The technical solution of the utility model 4 is that this electric field and discharging generator possess: the first electrode support, and it by an end clamping of above-mentioned comparative electrode, supports above-mentioned comparative electrode together with above-mentioned the second framework; And second electrode support, it clamps the other end of above-mentioned comparative electrode together with above-mentioned the second framework, support above-mentioned comparative electrode, above-mentioned sparking electrode turns to and is supported by above-mentioned the first electrode support and above-mentioned the second electrode support.
The technical solution of the utility model 5 is, this electric field and discharging generator possess the supporting rib of being located at above-mentioned the first electrode support, above-mentioned sparking electrode is tabular, the section rectangular shaped of this sparking electrode, above-mentioned supporting rib makes the end face of above-mentioned sparking electrode and the side of above-mentioned electrode part relatively support above-mentioned sparking electrode.
The technical solution of the utility model 6 is, this electric field and discharging generator possess the supporting rib of being located at above-mentioned the second framework, and above-mentioned supporting rib is configured in the middle body of above-mentioned the second opening, from above-mentioned the second frame side, supports above-mentioned sparking electrode.
The technical solution of the utility model 7 is, above-mentioned sparking electrode is tabular, the section rectangular shaped of this sparking electrode, and above-mentioned supporting rib makes the side of above-mentioned sparking electrode and the side of above-mentioned electrode part relatively support above-mentioned sparking electrode.
The technical solution of the utility model 8 provides a kind of conditioner, and this conditioner possesses: according to electric field and the discharging generator described in any one in technical scheme 1~3.
The technical solution of the utility model 9 provides a kind of this conditioner to possess: blowing fan; According to electric field and the discharging generator described in any one in technical scheme 1~3, above-mentioned electric field and discharging generator are by driving said fan to make air be incorporated into inside.
Utility model effect
According to electric field of the present utility model and discharging generator and conditioner, can prevent the position skew between sparking electrode and comparative electrode, form uniform electric field.
Accompanying drawing explanation
Fig. 1 means electric field in execution mode 1 of the present utility model and the exploded perspective view of discharging generator.
Fig. 2 means the figure of the section of electric field in execution mode 1 of the present utility model and discharging generator.
Fig. 3 means the stereogram of the electrode support of electric field in execution mode 1 of the present utility model and discharging generator.
Fig. 4 means the stereogram of the major part of electric field in execution mode 1 of the present utility model and discharging generator.
Fig. 5 means the stereogram of the comparative electrode of electric field in execution mode 1 of the present utility model and discharging generator.
Fig. 6 is for the figure of supporting construction of the electrode part of comparative electrode is described.
Fig. 7 means the figure of other supporting constructions of the electrode part of comparative electrode.
Fig. 8 means the figure of other supporting constructions of the electrode part of comparative electrode.
Fig. 9 means the stereogram of the major part of electric field in execution mode 2 of the present utility model and discharging generator.
Figure 10 means the stereogram of the electrode support of electric field in execution mode 2 of the present utility model and discharging generator.
Figure 11 is for the figure of installation method of the sparking electrode of execution mode 2 of the present utility model is described.
Embodiment
With reference to accompanying drawing, describe the utility model in detail.In each figure, identical or suitable part is marked to identical Reference numeral.For the explanation repeating, suitably simplify or omit.
Fig. 1 means electric field in execution mode 1 of the present utility model and the exploded perspective view of discharging generator.Fig. 2 means the figure of the section of electric field in execution mode 1 of the present utility model and discharging generator.In Fig. 1, the weather side of top indication device, the downwind side of below indication device.
As shown in Figure 1 and Figure 2, electric field and discharging generator possess upper frame 1, sparking electrode 2, spring 3, power supply 4, electrode support 5 and 6, comparative electrode 7 and lower section frame 8.The profile of electric field and discharging generator is formed by upper frame 1 and lower section frame 8.That is, between upper frame 1 and lower section frame 8, configuration sparking electrode 2, spring 3, power supply 4, electrode support 5 and 6, comparative electrode 7.
The part that is disposed at weather side of upper frame 1 constituent apparatus.Upper frame 1 is for example whole to be formed by resin.In upper frame 1, be formed with for outside air is introduced (by) the opening 1a of the inside of auto levelizer.In upper frame 1, be provided with grid 9, top rib 10, handle 11.
Handle 11 is the structures that grasp while supplying people's device dominated by hand.
The part that is disposed at downwind side of lower section frame 8 constituent apparatus.Lower section frame 8 is for example whole to be formed by resin.In lower section frame 8, be formed with for by from opening 1a, be incorporated into the inside of device Bas Discharged (by) the outside opening 8a of auto levelizer.In lower section frame 8, be provided with grid 12, bottom rib 13, supporting rib 14 and protuberance 15.
The bar-like member that supporting rib 14 is for example quadrangle shape by section forms.Supporting rib 14 is located at grid 12, and front end is outstanding to the private side (top) of device.Supporting rib 14 vertically configures with respect to the opening surface of lower section frame 8.In addition, supporting rib 14 is disposed at the middle body of opening 8a.At the upper surface of supporting rib 14, upper at the Width (X-direction of Fig. 1) of opening 8a, be formed with slit 14a(not shown in Fig. 1 and Fig. 2).
The major part of sparking electrode 2 consists of metal rectangular plate-shaped member.As the metal that forms sparking electrode 2, such as preferred tungsten or copper, nickel, stainless steel, zinc, iron, molybdenum etc.Sparking electrode 2 can form by take the alloy that above-mentioned metal is principal component, also can consist of the structure that is coated with the such noble metal of silver or gold, platinum on above-mentioned metallic surface.
The section of sparking electrode 2 is and utilizes minor face and long limit by the rectangular shape impaling around.The section of sparking electrode 2 is for example that the length of minor face is 0.01 to 0.1mm, and the length on long limit is 0.1 to 1.0mm.In each end of sparking electrode 2, terminal 2a is in the form of a ring installed.Sparking electrode 2, under pars intermedia turns back the state of 2 to 4 left and right, is accommodated in device.
Power supply 4 consists of metal parts.Power supply 4 with for to 7 of sparking electrode 2(and comparative electrodes) power supply (not shown) of supplying with 4 to 7kV voltage is connected.
Fig. 3 means the stereogram of the electrode support (electrode support 5) of electric field in execution mode 1 of the present utility model and discharging generator.
Fig. 4 means the stereogram of the major part of electric field in execution mode 1 of the present utility model and discharging generator.Fig. 4 is illustrated in the structure that the central portion of device supports sparking electrode 2.
Sparking electrode 2 as mentioned above, is supported by electrode support 5 in an end side of installing, and in the other end side, by electrode support 6, is supported.In addition, sparking electrode 2 is supported rib 14 supportings at the central portion of device.Be formed on the slit 14a opening upward of the upper surface of supporting rib 14.The A/F of slit 14a for example forms 0.1 to 1.0mm.Sparking electrode 2, with towards being longitudinally inserted into slit 14a, is supported rib 14 (lower section frame 8 sides) supporting from below.
Fig. 5 means the stereogram of the comparative electrode of electric field in execution mode 1 of the present utility model and discharging generator.
Comparative electrode 7 is by carrying out cutting to metal plate-shaped member and bending machining is made.As the metal that forms comparative electrode 7, such as preferred tungsten or copper, nickel, stainless steel, zinc, iron, molybdenum etc.Comparative electrode 7 can form by take the alloy that above-mentioned metal is principal component, also can consist of the structure that is coated with the such noble metal of silver or gold, platinum at above-mentioned metallic surface.
Comparative electrode 7 for example possesses electrode part 7a, kink 7b, horizontal part 7c.
Between the end of adjacent electrode part 7a, by kink 7b and horizontal part 7c, connected.Kink 7b is the triangular shape to bend to the side-prominent mode of upper frame 1.Kink 7b is located at each end of electrode part 7a.Horizontal part 7c is tabular, configures abreast with the opening surface of upper frame 1.Horizontal part 7c connects adjacent kink 7b.The end of comparative electrode 7 is the wavy of kink 7b and horizontal part 7c alternate configurations.
The end of one side of comparative electrode 7 (that is, forming wavy part by kink 7b and horizontal part 7c) by from clamping up and down, is fixed on the position of regulation by electrode support 5 and lower section frame 8.At the lower surface of electrode support 5, be alternately formed with the recess 5a of the triangle corresponding with kink 7b and the planar portions 5b corresponding with horizontal part 7c.Similarly, the end of the opposite side of comparative electrode 7 by from clamping up and down, is fixed on the position of regulation by electrode support 6 and lower section frame 8.At the lower surface of electrode support 6, be alternately formed with the recess of the triangle corresponding with kink 7b and the planar portions corresponding with horizontal part 7c.
When comparative electrode 7 is suitably configured in device, the side of electrode part 7a is relative with opening 1a and 8a with heeling condition.It should be noted that, kink 7b and horizontal part 7c are not relative with opening 1a and 8a.Kink 7b and horizontal part 7c are not exposed to the position of Air Flow in device.Therefore flowing of the air-flow, producing in device can not be bent the 7b of portion and horizontal part 7c obstruction.
Next, with reference to Fig. 6 to Fig. 8, describe the supporting construction of electrode part 7a in detail.
Fig. 6 is for the figure of supporting construction of the electrode part of comparative electrode is described.The pars intermedia of the electrode part 7a of comparative electrode 7 is by top rib 10 and 13 supportings of bottom rib.
As shown in Figure 6, the end face 10a of top rib 10 is with respect to the opening surface tilted configuration of upper frame 1.Top rib 10 is configured to end face 10a to be had minim gap from top with respect to the side towards upside (opening 1a side) of electrode part 7a (upper frame 1 side) is relative.Or it is relative with above-mentioned side, side towards upside in the mode that contacts gently with the side towards upside of electrode part 7a that top rib 10 is configured to end face 10a.That is, the inclination of the top rib 10 electrode part 7a when comparative electrode 7 is suitably configured in device is formed with end face 10a matchingly.
The mode that electrode part 7a is held by top rib 10 and bottom rib 13 with pars intermedia is supported, and its position (inclination) is restrained.As long as top rib 10 and bottom rib 13 possess the structure that keeps electrode part 7a by end face, all it doesn't matter in any case in its formation.Fig. 7 and Fig. 8 mean the figure of other supporting constructions of the electrode part of comparative electrode.Fig. 7 represents that top rib 10 and bottom rib 13 are the situation of semicircle shape.Fig. 8 represents that top rib 10 and bottom rib 13 are the situation of trapezoidal shape.
Preferably, the length of the end face 10a of top rib 10 (A1 of Fig. 6) is the more than 1/3 of tilt length (that is, near the distance (A of Fig. 6) between the edge part of opening surface of upper frame 1 and the edge part of the opening surface of close lower section frame 8) of electrode part 7a.Equally, for bottom rib 13, also preferably the length of end face 13a is the more than 1/3 of tilt length of electrode part 7a.According to said structure, can utilize the larger area sustaining electrode 7a of portion, can keep reliably electrode part 7a.In addition,, if fully guarantee the length of end face 10a and 13a, can make the root portion of rib thick and firm.Therefore, can prevent the breakage of rib, can in whole long-term scope, in position keep electrode part 7a.
In the present embodiment, the bottom of top rib 10 is configured in than the upper end of bottom rib 13 on the lower about 1 to 10mm.That is it is upper overlapping in short transverse (Z-direction of Fig. 1) that, the top of the bottom of top rib 10 and bottom rib 13 is configured to its part.According to said structure, can, from the above-below direction 7a of control electrode portion firmly, can utilize stronger power to keep electrode part 7a.
In addition, preferably, electrode part 7a is retained as the inclination of flow (that is, being incorporated into flowing of outside air in device, be discharged to device from opening 8a from opening 1a) of the air in hinder device not.Preferably, the inclination of electrode part 7a is below 45 degree with respect to the distinguished and admirable angle (θ of Fig. 6) that enters the direction (normal direction of the opening surface of upper frame 1) in auto levelizer.When this device is equipped on to product, flowing of the air in this device meeting obstruction product, increases the power consumption of product thus.If electrode part 7a is kept with above-mentioned angle of inclination, even this device is equipped in the situation of product, also the increase of the power consumption of this product can be suppressed to below 1W.
In thering is the electric field and discharging generator of said structure, when driving is arranged at outside blowing fan (not shown), outside air is incorporated in device from opening 1a.Now, swim aerial bacterium, mould, virus etc. are also incorporated in device from opening 1a.In electric field and discharging generator, comparative electrode 7 ground connection, apply 4 to 7kV voltage to sparking electrode 2.Between sparking electrode 2 and comparative electrode 7, form electric field, produce corona discharge.
From opening 1a, enter into bacterium, mould, the virus in device, by applying electric field and electric discharge, destroyed in the time of between by sparking electrode 2 and comparative electrode 7, kill.The bacterium of killing, mould, virus and air are discharged to the outside of device in the lump from opening 8a.Thus, can be by the planktonic bacteria of indoor existence, mould, virus removal/deactivation.
Next, to thering is the electric field of said structure and the assemble method of discharging generator describes.
First, lower section frame 8 is placed to form the ventricumbent mode of the profile of device.Under this state, bottom rib 13 and supporting rib 14 are configured to outstanding towards top.Next, lower section frame 8 towards above face mounting comparative electrode 7 and be disposed at appropriate location.
At lower section frame 8 places, in the both sides of opening 1a, be provided with protuberance 15.Protuberance 15 is the triangle corresponding with the concave shape of the kink 7b of comparative electrode 7.So that protuberance 15 is accommodated in the mode of the sunk part of kink 7b, comparative electrode 7 is placed in lower section frame 8, comparative electrode 7 is configured in appropriate location with respect to lower section frame 8.
Under above-mentioned state, electrode part 7a is the mode tilted configuration with the angle inclination of regulation with the opening surface with respect to lower section frame 8.That is, the side towards downside of electrode part 7a is relative with opening 8a with heeling condition.Bottom rib 13 is configured to the quadrature with electrode part 7a.In addition, bottom rib 13, in the end face 13a mode relative with the side towards downside of electrode part 7a from below, configures abreast with the above-mentioned inclined plane (towards the side of downside) of electrode part 7a.Supporting rib 14 is configured between electrode part 7a.
Next, electrode support 5 is installed on to an end of lower section frame 8.Now, kink 7b is accommodated in to the mode configured electrodes support 5 of recess 5a, utilize electrode support 5 and lower section frame 8 that the end of a side of comparative electrode 7 is clamped from above-below direction.Equally, electrode support 6 is installed on to the other end of lower section frame 8.Kink 7b is accommodated in to the mode configured electrodes support 6 in the formed recess of lower surface of electrode support 6, utilize electrode support 6 and lower section frame 8 that the end of the opposite side of comparative electrode 7 is clamped from above-below direction.Thus, the fixing both ends of comparative electrode 7.
Power supply 4 is installed on electrode support 6.
Next, sparking electrode 2 is being given in the longitudinal direction by spring 3 under the state of tension force, be connected with power supply 4.Sparking electrode 2 is inserted into slit 14a or electrode support 5 and the 6 formed slits of supporting rib 14 from top.Thus, it is vertical mode that sparking electrode 2 be take the face (side) on long limit and the opening surface of lower section frame 8 that form section, is supported rib 14, electrode support 5 and 6 with towards longitudinal supporting.In addition, sparking electrode 2 turns to by electrode support 5 and 6, and a part is configured between two pieces of electrode part 7a of configured in parallel.Therefore, the side of a side of sparking electrode 2 and electrode part 7a's in above-mentioned two pieces of electrode part 7a, a side is laterally inclined relative.The side of the opposite side of sparking electrode 2 and electrode part 7a's in above-mentioned two pieces of electrode part 7a, the opposing party is laterally inclinedly relative.
Next, upper frame 1 is installed on to lower section frame 8 from top.When upper frame 1 is suitably installed on lower section frame 8, the opening surface configured in parallel of the opening surface of upper frame 1 and lower section frame 8.In addition the mode tilted configuration that, the electrode part 7a of comparative electrode 7 tilts with the angle of stipulating with the opening surface with respect to upper frame 1.That is, the side towards upside of electrode part 7a is relative with opening 1a with heeling condition.Top rib 10 is configured to the quadrature with electrode part 7a.In addition, top rib 10 is in the end face 10a mode relative with the side towards upside of electrode part 7a from top, with above-mentioned inclined plane (towards the side of the upside) configured in parallel of electrode part 7a.
In the electric field and discharging generator of assembling like this, can be to the electrode part 7a of comparative electrode 7 to support from the mode of above-below direction clamping by top rib 10 and bottom rib 13.Particularly, in the present embodiment, the bottom of top rib 10 is relative with the mode that the upper end of bottom rib 13 is configured to so that electrode part 7a is clipped between it.Therefore, electrode part 7a reliably and chronically can be constrained in to appropriate location (angle of inclination).Owing to not producing the electrode part 7a of sparking electrode 2 and comparative electrode 7() between position skew, therefore can self assembly after, start soon for a long time in, between sparking electrode 2 and comparative electrode 7, form uniform electric field, performance that can anti-locking apparatus reduces.
In the electric field and discharging generator of said structure, make bottom rib 13 relative from the below of electrode part 7a, make top rib 10 relative from the top of electrode part 7a, therefore make assembling easily.Because sparking electrode 2 and the opening surface (and opening surface of lower section frame 8) of upper frame 1 vertically configure, therefore also can easily carry out the installation of sparking electrode 2.
In addition, sparking electrode 2 device an end side by electrode support 5, supported, in the other end side, by electrode support 6, supported, device central portion be supported rib 14 from below supporting.Therefore, the interelectrode distance between sparking electrode 2 and comparative electrode 7 can keep fixing within the scope of the whole Width of device, can the stable discharge condition of long term maintenance.
In execution mode 1, for end face (forming the face of the minor face of the section) configuration relative with the opening surface (and opening surface of lower section frame 8) of upper frame 1 of sparking electrode 2 illustrated.In the present embodiment, to by sparking electrode 2, the situation along landscape configuration describes.
Fig. 9 means the stereogram of the major part of electric field in execution mode 2 of the present utility model and discharging generator.Figure 10 means the stereogram of the electrode support of electric field in execution mode 2 of the present utility model and discharging generator.Figure 10 represents to be configured in the electrode support 5 of an end side of device.
In the present embodiment, in electrode support 5, be provided with supporting rib 16.The bar-like member that supporting rib 16 is for example quadrangle shape by section forms.Supporting rib 16 is for example arranged on the parts for the sparking electrode 2 that turns back of electrode support 5.Supporting rib 16 is with respect to the opening surface horizontal arrangement of lower section frame 8, and front end is outstanding to side.For example, supporting rib 16 matches with the direction of the sparking electrode 2 that turns back, and has a plurality of in electrode support 5.Front end face (face towards side) at supporting rib 16 is upper, and along continuous straight runs is formed with slit 16a.
Sparking electrode 2 turns to by electrode support 5 in the end of a side of device.In addition, in the present embodiment, sparking electrode 2 is supported rib 16 supportings in the end of a side of device.
Figure 11 is for the figure of installation method of the sparking electrode of execution mode 2 of the present utility model is described.In the present embodiment, sparking electrode 2 is inserted into the slit 16a of supporting rib 16 from side, makes sparking electrode 2 be supported rib 16 supportings.Then, along the parts of the regulation of electrode support 5 and 6 sparking electrode 2 that turns back, sparking electrode 2 is connected with power supply 4.In execution mode 1, sparking electrode 2 is by forming face (side) bending on the long limit of section.In the present embodiment, sparking electrode 2 is by forming face (end face) bending of the minor face of section.
In electrode support 6, as required, the supporting rib having with above-mentioned supporting rib 16 same structures is also set.In these cases, sparking electrode 2 is also inserted into the slit of the supporting rib that is arranged at electrode support 6 from side.
It should be noted that in the present embodiment, in lower section frame 8, do not possess supporting rib 14.
When sparking electrode 2 is suitably supported in device, the face (side) of the upside on the long limit of formation section is relative with opening 1a.In addition, the face (side) of the downside on the long limit of the formation section of sparking electrode 2 is relative with opening 8a.That is, the opening surface of the end face of sparking electrode 2 and upper frame 1 and the opening surface arranged perpendicular of lower section frame 8.Sparking electrode 2 turns to by electrode support 5 and 6, and a part is configured between two pieces of electrode part 7a of configured in parallel.Therefore, the end face of a side of sparking electrode 2 and electrode part 7a's in above-mentioned two pieces of electrode part 7a, a side is laterally inclined relative.The end face of the opposite side of sparking electrode 2 is laterally inclined relative with electrode part 7a's in above-mentioned two pieces of electrode part 7a, the opposing party.
According to electric field and the discharging generator with said structure, can be by sparking electrode 2 with horizontal in stable condition supporting.Therefore, sparking electrode 2 and the interelectrode distance of comparative electrode 7 can be kept to fixing within the scope of the whole Width of device, can the stable discharge condition of long term maintenance.
Other structure or assemble method, function are identical with execution mode 1.Therefore, the device of this structure also can be realized the effect identical with execution mode 1.
Industrial applicibility
The electric field of this utility model and discharging generator for example carry the inside at the such product of room air conditioner, floor air conditioner, deduster, hair-dryer, air cleaning machine, humidifier, dehumidifier, refrigerator.
Description of reference numerals:
1 upper frame
1a, 8a opening
2 sparking electrodes
2a terminal
3 springs
4 power supplies
5,6 electrode support
5a recess
5b planar portions
7 comparative electrodes
7a electrode part
7b kink
7c horizontal part
8 lower section frame
9,12 grid
10 top ribs
10a, 13a end face
11 handles
13 bottom ribs
14,16 supporting ribs
14a, 16a slit
15 protuberances
Claims (9)
1. electric field and a discharging generator, wherein,
This electric field and discharging generator possess:
Sparking electrode;
Comparative electrode, it has the electrode part that is tabular, and this electrode part is relative with above-mentioned sparking electrode;
The first framework and the second framework, above-mentioned sparking electrode and above-mentioned comparative electrode are configured between above-mentioned the first framework and above-mentioned the second framework;
First rib, it is located at above-mentioned the first framework, and relative with a side of above-mentioned electrode part from above-mentioned the first frame side; And
Second rib, it is located at above-mentioned the second framework, and in order to retrain the position of above-mentioned electrode part together with above-mentioned first rib, relative with the another side of above-mentioned electrode part from above-mentioned the second frame side.
2. electric field according to claim 1 and discharging generator, wherein,
Above-mentioned the first framework is formed for the first opening passing through for air,
Above-mentioned the second framework is formed for the second opening passing through for air,
Above-mentioned electrode part is with respect to the opening surface tilted configuration of opening surface and above-mentioned second framework of above-mentioned the first framework,
Above-mentioned first rib and above-mentioned second rib are configured to above-mentioned electrode part clamping.
3. electric field according to claim 2 and discharging generator, wherein,
The inclination of the face relative with above-mentioned electrode part of above-mentioned first rib and a side of above-mentioned electrode part is formed slopely matchingly,
The inclination of the face relative with above-mentioned electrode part of above-mentioned second rib and the another side of above-mentioned electrode part is formed slopely matchingly.
4. according to the electric field described in any one in claim 1~3 and discharging generator, wherein,
This electric field and discharging generator possess:
The first electrode support, it by an end clamping of above-mentioned comparative electrode, supports above-mentioned comparative electrode together with above-mentioned the second framework; And
The second electrode support, it by the other end clamping of above-mentioned comparative electrode, supports above-mentioned comparative electrode together with above-mentioned the second framework,
Above-mentioned sparking electrode turns to and is supported by above-mentioned the first electrode support and above-mentioned the second electrode support.
5. electric field according to claim 4 and discharging generator, wherein,
This electric field and discharging generator possess the supporting rib of being located at above-mentioned the first electrode support,
Above-mentioned sparking electrode is tabular, the section rectangular shaped of this sparking electrode, and above-mentioned supporting rib makes the end face of above-mentioned sparking electrode and the side of above-mentioned electrode part relatively support above-mentioned sparking electrode.
6. according to the electric field described in claim 2 or 3 and discharging generator, wherein,
This electric field and discharging generator possess the supporting rib of being located at above-mentioned the second framework,
Above-mentioned supporting rib is configured in the middle body of above-mentioned the second opening, from above-mentioned the second frame side, supports above-mentioned sparking electrode.
7. electric field according to claim 6 and discharging generator, wherein,
Above-mentioned sparking electrode is tabular, the section rectangular shaped of this sparking electrode,
Above-mentioned supporting rib makes the side of above-mentioned sparking electrode and the side of above-mentioned electrode part relatively support above-mentioned sparking electrode.
8. a conditioner, wherein, this conditioner possesses: according to the electric field described in any one in claim 1~3 and discharging generator.
9. a conditioner, wherein, this conditioner possesses:
Blowing fan;
According to the electric field described in any one in claim 1~3 and discharging generator,
Above-mentioned electric field and discharging generator are by driving said fan to make air be incorporated into inside.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/JP2011/073601 WO2013054428A1 (en) | 2011-10-14 | 2011-10-14 | Apparatus for generating electric field and electric discharge |
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CN203491506U true CN203491506U (en) | 2014-03-19 |
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CN201190001044.6U Expired - Lifetime CN203491506U (en) | 2011-10-14 | 2011-10-14 | Electric field and discharge generation device, and air conditioning plant |
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EP (1) | EP2768096B1 (en) |
JP (1) | JP5532183B2 (en) |
CN (1) | CN203491506U (en) |
WO (1) | WO2013054428A1 (en) |
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JP5868289B2 (en) * | 2012-08-22 | 2016-02-24 | 三菱電機株式会社 | Discharge device and air conditioner |
JP2014041754A (en) * | 2012-08-22 | 2014-03-06 | Mitsubishi Electric Corp | Discharging device and air conditioner |
CN104406236B (en) * | 2014-11-10 | 2017-02-15 | 珠海宏马电器有限公司 | Electronic dust removing type ion wind air purifier |
JP2015131153A (en) * | 2015-04-09 | 2015-07-23 | 三菱電機株式会社 | Discharge device and product having discharge device |
JP5968489B2 (en) * | 2015-04-09 | 2016-08-10 | 三菱電機株式会社 | Discharge device |
JP2015131152A (en) * | 2015-04-09 | 2015-07-23 | 三菱電機株式会社 | Discharge device and product having discharge device |
KR102431701B1 (en) * | 2015-11-20 | 2022-08-11 | 삼성전자주식회사 | Electrical precipitator and manufacturing method for the same |
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JPH02164466A (en) | 1988-12-15 | 1990-06-25 | Midori Anzen Kk | Electric dust collector |
JP4252405B2 (en) * | 2003-09-03 | 2009-04-08 | 東芝キヤリア株式会社 | Electric dust collector for air conditioner |
JP2005138034A (en) * | 2003-11-07 | 2005-06-02 | Mitsubishi Electric Corp | Air cleaning apparatus and air conditioning machine fitted with air cleaning apparatus |
JP4354884B2 (en) * | 2004-08-02 | 2009-10-28 | 三菱電機株式会社 | Air purifier, air purifier and air conditioner |
JP4451740B2 (en) * | 2004-08-02 | 2010-04-14 | 三菱電機株式会社 | Air purifier and air conditioner |
CN100377748C (en) * | 2004-08-03 | 2008-04-02 | 三菱电机株式会社 | Deodorizer |
JP2009165957A (en) * | 2008-01-16 | 2009-07-30 | Panasonic Corp | Electric dust collector |
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- 2011-10-14 EP EP11873914.3A patent/EP2768096B1/en active Active
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JPWO2013054428A1 (en) | 2015-03-30 |
EP2768096B1 (en) | 2018-09-05 |
EP2768096A1 (en) | 2014-08-20 |
WO2013054428A1 (en) | 2013-04-18 |
EP2768096A4 (en) | 2015-07-08 |
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