CN106663921A - Ion generation component, and ion generation device provided with ion generation component - Google Patents

Abstract

An ion generation component is provided with: a pair of ground electrodes (21) disposed so as to face each other; a center electrode (31) disposed between the pair of ground electrodes (21), said electrode (31) generating ions by using electrical discharge; and a holding part (40) for integrally holding the pair of ground electrodes (21) and the center electrode (31).

Description

Ion generating means and the ion generating apparatus with ion generating means

Technical field

The present invention relates to ion generating means and the ion generating apparatus with the ion generating means.

Background technology

In the past, as ion generating means, with the ion generating means described in patent documentation 1.The existing ion is produced Raw part has insulated substrate, is arranged at the ground electrode and wire electrode of insulated substrate, is being arranged at a pair of ground electrode Wire electrode is configured between foot.

Prior art literature

Patent documentation

Patent documentation 1：Japanese Unexamined Patent Publication 2005-63827 publications

The content of the invention

The invention problem to be solved

However, in the existing ion generating means, in assembling, separately to each ground electrode and line Shape electrode is positioned, therefore, larger deviation especially can be produced in the positioning precision of wire electrode.In addition, in order to true Ion generating means is assembled while the positioning precision of guarantor's ground electrode and wire electrode, in addition to time and workload, also Need operator skilled, therefore productivity is relatively low.

It is an object of the present invention in view of the above-mentioned problems, there is provided the positioning precision of a kind of ground electrode and central electrode The high and high ion generating means of productivity.

Means for solving the problems

The ion generating means of the present invention is characterised by that the ion generating means has：A pair of ground electrodes, they that This is arranged as opposed to；Central electrode, it is configured in the centre of the pair of ground electrode, and by electric discharge ion is produced；And protect Portion is held, the pair of ground electrode and the central electrode are kept being integrated by it.

The ion generating apparatus of the present invention are characterised by that the ion generating apparatus have the ion generating means.

Invention effect

Ion generating means of the invention, a pair of ground electrodes and central electrode are with central electrode positioned at a pair of ground connection The position relationship of the centre of electrode, by maintaining part integration is realized.Therefore, it is possible to higher precision to ground electrode and in Heart electrode is positioned.As a result, can easily be assembled, it is possible to increase productivity.

Ion generating apparatus of the invention, using the teaching of the invention it is possible to provide the positioning precision with a pair of ground electrodes and central electrode The ion generating apparatus of the high and high ion generating means of productivity.

Description of the drawings

Fig. 1 is the axonometric chart of the ion generating means of the 1st embodiment for representing the present invention.

Fig. 2 is that the ground electrode forming portion and central electrode forming portion of the ion generating means for representing Fig. 1 pass through maintaining part Realize the axonometric chart of the state before integration.

Fig. 3 is the schematic cross-section for illustrating the manufacture method of the ion generating means of Fig. 1.

Fig. 4 is the connecting portion of the ground electrode forming portion of the ion generating means for representing Fig. 1 and central electrode forming portion The axonometric chart of variation.

Fig. 5 is the connecting portion of the ground electrode forming portion of the ion generating means for representing Fig. 1 and central electrode forming portion The axonometric chart of another variation.

Fig. 6 is the axonometric chart of the ion generating means of the 2nd embodiment for representing the present invention.

Fig. 7 is that the ground electrode forming portion and central electrode forming portion of the ion generating means for representing Fig. 6 pass through maintaining part Realize the axonometric chart of the state before integration.

Specific embodiment

(the 1st embodiment)

[structure]

As shown in figure 1, the ion generating means 10 of the 1st embodiment has ground electrode forming portion 20, central electrode shape Into portion 30 and the maintaining part 40 of holding ground electrode forming portion 20 and central electrode forming portion 30.The He of ground electrode forming portion 20 Central electrode forming portion 30 is formed by electrocasting, is configured to not contact each other.

As shown in figure 1, ground electrode forming portion 20 has flush door shape, its two ends is provided with a pair of ground electrodes 21. A pair of ground electrodes 21 are configured to relative to each other across predetermined distance.In addition, in the substantial middle of ground electrode forming portion 20 Portion is provided with the connecting portion 22 of the ring-type for being connected with device for generating voltage (not shown).Ground electrode forming portion 20 and voltage Electrical connections between generator connect in this way by the way that the end of the lead (not shown) being connected with device for generating voltage is embedded The central opening of socket part 22 is carrying out.

As shown in figure 1, central electrode forming portion 30 is filled by the central electrode 31 of needle-like, for producing with voltage (not shown) The plate-like portion 33 for putting the connecting portion 32, connection central electrode 31 and connecting portion 32 of the ring-type of connection is constituted, and is configured to middle electrocardio Pole 31 is located at the centre of a pair of ground electrodes 21.Electrical connections between central electrode forming portion 30 and device for generating voltage are in this way Carried out by the central opening of the embedded connecting portion 32 in the end of the lead (not shown) being connected with device for generating voltage.

Maintaining part 40 is made up of the material of insulating properties, as shown in figure 1, maintaining part 40 with a part for ground electrode 21, in The mode that heart electrode 31 and connecting portion 32 expose, covers the one side of ground electrode forming portion 20 and central electrode forming portion 30.

[effect]

In the ion generating means 10, when device for generating voltage is connected, in ground electrode 21 and central electrode 31 Between produce certain voltage difference.By the voltage difference, in the leading section of central electrode 31 uneven electric field, its result are produced It is that corona discharge occurs.When there is corona discharge, the air for being present in the leading section periphery of central electrode 31 is decomposed, and generates Ion.

[manufacture method]

Then, the manufacture method of the ion generating means 10 of the 1st embodiment is illustrated using Fig. 2, Fig. 3.

First, as shown in (A) of Fig. 3, by conductive plate 60 and the insulating properties being arranged in the conductive plate 60 On the master mold 100 that part 70 is constituted, form insertion insulating part 70 and reach the cavity 81,82 of conductive plate 60.Cavity 81 are used to form ground electrode forming portion 20, and cavity 82 is used to form central electrode forming portion 30.Cavity 81,82 is configured to that This is not contacted, also, cavity 82 with the corresponding part of central electrode 31 be located at cavity 81 and the corresponding portion of ground electrode 21 The centre divided.

Then, master mold 100 is immersed in the electrolyte in electrolysis bath.Then, by electrode (comparative electrode) be configured to The face of the setting insulating part 70 of conductive plate 60 is relative, the applied voltage between conductive plate 60 and comparative electrode. Thus, the metal electrodeposition in electrolyte is in the conductive plate 60 exposed from cavity 81,82.

When being further continuously applied voltage between conductive plate 60 and comparative electrode, metal applies direction towards voltage Z is gradually layered in conductive plate 60.Then, as shown in (B) of Fig. 3, the moment that assigned position is reached in metal level is shape Into desired ground electrode forming portion 20 and the moment of central electrode forming portion 30, stop voltage and apply.

Then, the insulation around being configured in established ground electrode forming portion 20 and central electrode forming portion 30 is removed Property part 70.Then, as shown in Fig. 2 ground electrode forming portion 20 and central electrode forming portion 30 upper surface (not with conduction The face that mild-natured plate connects), form dielectric film 41 with the identical material of insulating part 70.Finally, with the phase of ground electrode 21 The unnecessary portion of dielectric film 41 is removed to the mode that part, central electrode 31 and connecting portion 32 expose, maintaining part is formed 40, complete the manufacture of ion generating means 10.

In addition, if may, it is also possible to which dielectric film 41 is formed as in advance the shape for specifying.

In the ion generating means 10, ground electrode forming portion 20 and central electrode forming portion 30 be not contacting each other And central electrode 31 is located at the position relationship of the centre of a pair of ground electrodes 21, and by maintaining part 40 integration is realized.Accordingly, it is capable to It is enough a pair of ground electrodes and central electrode are positioned with higher precision.As a result, can easily be assembled, energy Enough improve productivity.

In addition, by adopting electrocasting, can be with higher precision reliably to a pair of ground electrodes 21 and central electrode 31 are positioned.

[variation]

It is, as the connecting portion of ground electrode forming portion 20, to adopt using the connecting portion 22 of ring-type in the 1st embodiment The connecting portion 32 of ring-type as central electrode forming portion 30 connecting portion, but not limited to this.For example, as ground electrode forming portion 20 and the connecting portion of central electrode forming portion 30, it would however also be possible to employ the connecting portion 122 shown in Fig. 4.The connecting portion 122 has front end Sharp form of bifurcation, it is internally provided with the seam 123 of U-shaped.In addition, on each side of two sides of connecting portion 122 It is respectively arranged with a pair of anti-shedding parts 124 and otch 125.A pair of anti-shedding parts 124 are configured in the extension side of connecting portion 122 Spaced up interval.In addition, otch 125 is configured between a pair of anti-shedding parts 124.

In addition, as ground electrode forming portion 20 and the connecting portion of central electrode forming portion 30, it is also possible to using shown in Fig. 5 Connecting portion 222.The connecting portion 222 is the form of bifurcation of arc-shaped with front end.In addition, in two sides of connecting portion 222 Each side on be respectively arranged with a pair of anti-shedding parts 224 and otch 225.A pair of anti-shedding parts 224 are configured in connection Interval on the bearing of trend in portion 222.In addition, otch 225 is configured between a pair of anti-shedding parts 224.

In the connecting portion 122,222 shown in Fig. 4, Fig. 5, for example, lead is embedded in (not by the gap between bifurcated Diagram) an end, easily lead can be connected to into ground electrode forming portion 20 and central electrode forming portion 30.Separately Outward, due to being provided with otch 125,225, therefore, it is possible to install the crimp type terminals such as inserting terminal (female terminal), can easily by Lead is connected to ground electrode forming portion 20 and central electrode forming portion 30.Further, since arranging at the two ends of otch 125,225 There is anti-shedding part 124,224, therefore, it is possible to inserting terminal etc. is reliably held on connecting portion 122,222.As a result, energy It is enough reliably to improve lead and the connection reliability between ground electrode forming portion 20 and central electrode forming portion 30.In Fig. 4 institutes In the connecting portion 122 for showing, by inseam 123, when lead or inserting terminal etc. is installed, can disperse to be applied to connecting portion 122 On stress.Therefore, it is possible to extend the life-span of ion generating means.

Connecting portion 22,32,122,222 is engaged with an end of lead alternatively, it is also possible to pass through welding etc..Thus, The connection reliability between lead and ground electrode forming portion 20 and central electrode forming portion 30 can be improved and grafting is not used The miscellaneous parts such as terminal.

In addition, if anti-shedding part 124,224 and otch 125,225 can keep the miscellaneous parts such as inserting terminal, Can be according to the design of ion generating means, using arbitrary construction.

As long as ground electrode forming portion 20 and central electrode forming portion 30 are in the intermediate configurations of a pair of ground electrodes 21 Heart electrode 31, can be according to design of ion generating means etc., using arbitrary shape and configuration.

It is to use electrocasting to form ground electrode forming portion 20 and central electrode forming portion 30 in the 1st embodiment, but Not limited to this.Arbitrary method can be adopted, as long as ground electrode and central electrode can be formed on datum level and be passed through The method that maintaining part realizes integration.

(the 2nd embodiment)

As shown in fig. 6, the ion generating means 110 of the 2nd embodiment has ground electrode forming portion 20, central electrode shape Into portion 130 and the maintaining part 40 of holding ground electrode forming portion 20 and central electrode forming portion 130.In addition, for real with the 1st Apply mode identical part, mark identical Ref. No. is simultaneously omitted the description, pair say with the difference of the 1st embodiment It is bright.

Central electrode forming portion 130 is formed by electrocasting, as shown in fig. 6, by the central electrode 31 and use of needle-like Constitute in the connecting portion 132 of the tabular being connected with device for generating voltage (not shown).Central electrode forming portion 130 and ground electrode Forming portion 20 is configured to not contact each other.

[manufacture method]

Then, the manufacture method of the ion generating means 110 of the 2nd embodiment is illustrated using Fig. 7.

The manufacture method of the ion generating means 110 of the 2nd embodiment is essentially identical with the 1st above-mentioned embodiment, such as Shown in Fig. 7, difference is that formation is connected ground electrode forming portion 20 with central electrode forming portion 130 by linking part 50 One thing 111.

I.e., first, except being formed for forming the cavity 81 of ground electrode forming portion 20 and for being formed on master mold 100 Outside the cavity 82 of central electrode forming portion 130, the cavity (not shown) for forming linking part 50 is also formed.

After forming one thing 111, removal is configured in around ground electrode forming portion 20 and central electrode forming portion 130 Insulating part.Then, in the state of ground electrode forming portion 20 and central electrode forming portion 130 are fixed, rotation links Portion 50 is twisted off.Thus, being arranged between ground electrode forming portion 20 and central electrode forming portion 130 for linking part 50 is made Linking portion on rupture portion 51,52 rupture, remove linking part 50.

Afterwards, as shown in fig. 6, on the upper surface of ground electrode forming portion 20 and central electrode forming portion 130, with it is exhausted The identical material of edge part 70 forms dielectric film 41.Finally, with a part for ground electrode 21, central electrode 31 and connection The mode that the part in portion 132 is exposed, removes the unnecessary portion of dielectric film 41, forms maintaining part 40, completes ion generation The manufacture of part 110.

So, it is formed by connecting by linking part 50 by forming ground electrode forming portion 20 and central electrode forming portion 130 One thing 111, reliably a pair of ground electrodes 21 and central electrode 31 can be positioned with higher precision.

In addition, in the 2nd embodiment, maintaining part 40, but not limited to this are formed after linking part 50 is removed, if can Can, it is also possible to remove linking part after maintaining part 40 is installed.

Certainly, the structural element described in the 1st embodiment, the 2nd embodiment and variation can also be fitted Locality combination, can also properly select, replaces or delete.

The present invention and embodiment are summarized as follows.

The ion generating means of the present invention is characterised by that the ion generating means has：A pair of ground electrodes 21, they Configure relative to one another；Central electrode 31, it is configured between the pair of ground electrode 21, produces ion；And maintaining part 40, the pair of ground electrode 21 and the central electrode 31 are kept being integrated by it.

Ion generating means of the invention, a pair of ground electrodes 21 and central electrode 31 are located at one with central electrode 31 To the position relationship between ground electrode 21, integration is realized by maintaining part 40.Therefore, it is possible to higher precision to ground connection Electrode 21 and central electrode 31 are positioned.As a result, can easily be assembled, it is possible to increase productivity.

As embodiments of the present invention, it is also possible to be configured to：The pair of ground electrode 21 and the central electrode 31 Form as one via linking part 50, after the linking part 50 is removed, integration is realized by the maintaining part 40.

According to present embodiment, because a pair of ground electrodes 21 and the central electrode 31 are formed as one via linking part 50 Body, therefore, it is possible to reliably be positioned to ground electrode 21 and central electrode 31 with higher precision.

As embodiments of the present invention, it is also possible to be configured to：The pair of ground electrode 21 and the central electrode 31 Form as one via linking part 50, after integration is realized by the maintaining part 40, remove the linking part 50.

According to present embodiment, because a pair of ground electrodes 21 and the central electrode 31 are formed as one via linking part 50 Body, therefore, it is possible to reliably be positioned to ground electrode 21 and central electrode 31 with higher precision.

As embodiments of the present invention, it is also possible to be configured to：The pair of ground electrode 21 and the central electrode 31 It is to be formed by electrocasting.

According to present embodiment, it is fixed reliably ground electrode 21 and central electrode 31 can be carried out with higher precision Position.

As embodiments of the present invention, it is also possible to be configured to：Ion generating means has：Ground electrode forming portion 20, It forms the pair of ground electrode 21；And central electrode forming portion 30, it forms the central electrode 31, the ground connection electricity Pole forming portion 20 and the central electrode forming portion 30 have respectively the connecting portion 22,32 for being capable of connecting lead wire, in the connecting portion 22nd, it is provided with keeping the lead maintaining part of the lead on 32.

According to present embodiment, the ground electrode forming portion can reliably be remained connected to by lead maintaining part 20 and the lead of the central electrode forming portion 30.Therefore, it is possible to improve lead with ground electrode forming portion 20 and central electrode Connection reliability between forming portion 30.

The ion generating apparatus of the present invention are characterized by the ion generating means 10.

Ion generating apparatus of the invention, using the teaching of the invention it is possible to provide the ion generating apparatus with ion generating means 10, should A pair of ground electrodes 21 of ion generating means 10 and the positioning precision height of central electrode 31 and productivity height.

Industrial applicability

The ion generating apparatus of the ion generating means with the present invention can be used in neutralizer, the sterilization of air, kill In the electrical equipment such as bacterium or odor removal, electric dust-absorbing apparatus, ozone generating apparatus, electrostatic coating device.

Label declaration

10、110：Ion generating means；20：Ground electrode forming portion；21：Ground electrode；22、32、122、132、222： Connecting portion；30、130：Central electrode forming portion；31：Central electrode；33：Plate-like portion；40：Maintaining part；41：Dielectric film；50：Even Knot；51、52：Fracture；60：Conductive plate；70：Insulating part；81、82：Cavity；100：Master mold；124、224：It is anti- Come off portion；125、225：Otch.

Claims (6)

1. a kind of ion generating means, it is characterised in that the ion generating means has：

A pair of ground electrodes, they are configured relative to one another；

Central electrode, it is configured in the centre of the pair of ground electrode, produces ion；And

Maintaining part, the pair of ground electrode and the central electrode are kept being integrated by it.

2. ion generating means according to claim 1, it is characterised in that

The pair of ground electrode and the central electrode form as one via linking part, after the linking part is removed, lead to Cross the maintaining part and realize integration.

3. ion generating means according to claim 1, it is characterised in that

The pair of ground electrode and the central electrode form as one via linking part, and by the maintaining part one is being realized After body, the linking part is removed.

4. the ion generating means described in any one in claims 1 to 3, it is characterised in that

The pair of ground electrode and the central electrode are formed by electrocasting.

5. the ion generating means described in any one in Claims 1 to 4, it is characterised in that

The ion generating means has：

Ground electrode forming portion, it forms the pair of ground electrode；And

Central electrode forming portion, it forms the central electrode,

The ground electrode forming portion and the central electrode forming portion have respectively the connecting portion for being capable of connecting lead wire, in the company It is provided with keeping the lead maintaining part of the lead in socket part.

6. a kind of ion generating apparatus, it is characterised in that

The ion generating apparatus have the ion generating means described in any one in Claims 1 to 5.