CN103108478B - Ionotron - Google Patents

Abstract

The invention discloses a kind of ionotron, it easily manufactures in different lengths, even and if length change, ion still can stably discharge over the entire length.Produce the spray point of electrode, tube-axial fan as ion and the housing of opening is had on front end face be assembled such that the ion being produced by the electric discharge of spray point is stated from the air being produced by tube-axial fan and send from the opening of housing.This assembly is made for a unit of anti-static module, and multiple anti-static module is aligned on a direction by support and manufactures ionotron.By changing the quantity of anti-static module or the length of support, it may be possible to provide a kind of ionotron a size of needed for scene.

Description

Ionotron

Technical field

The present invention relates to a kind of cause electric discharge and produce quiet for eliminating by producing electrode applying high voltage to ion The ionotron of the ion of electricity.

Background technology

As a kind of conventional electrostatic canceller, there is a kind of configuration, plurality of ion produces electrode along tube-axial fan Front periphery arrangement to carry, in the air-flow producing by the rotation of tube-axial fan, the ion being produced by electric discharge so that will be from Son is sent forward（Referring to Japanese Patent Application Laid-Open the 2007-123167th）.

Additionally, there are another ionotron, it can make ion put by forming the shell of elongated shape with broad range Electricity.As a kind of ionotron of this species, a kind of No. 2007-103026 electrostatic of announcement of Japanese Patent Application Laid-Open Canceller, the air-blowing units accommodating fan wherein in elongate housing are removably installed in ion generation unit, In ion generation unit, spray point is installed in numerous lengthwise position of elongate housing.

Additionally, in Japanese Patent Application Laid-Open the 2008-91166th, which depict by can in each housing Multiple fixtures are lengthways put side by side by each fixture releasably installing fixing spray point in housing.

Ionotron is widely used in manufacture scene, and required size is various, but because all conventional electrostatic disappear Except device all has molding outer casing as main body, so being difficult to neatly change size.When multiple as Japan specially using a kind of arrangement When profit applies for the method for the ionotron of this type described in Patent Publication the 2007-123167th, each device It is required for power supply, therefore increased cost.

In the invention described in Japanese Patent Application Laid-Open the 2007-103026th, it is respectively prepared ion and produces Raw unit and air-blowing units, and it is therefore possible to carry out unit to the exchange of unit.However, because each unit all has admittedly Measured length, so do not allow the length of malleable device to carry out storing apparatus in molding outer casing.

Invention described in Japanese Patent Application Laid-Open the 2008-91166th can be by attachment and dismounting fixing Ion produces the fixture of electrode and exchanges, but it does not disclose the concept increasing fixture by the length changing shell.This Outward, the ionotron described in Japanese Patent Application Laid-Open the 2008-91166th does not have embedded fan, but Ion is sent by from the air of external reception, and this kind configuration in, deviation be present in some strength for sending ion In air-flow and be difficult to stable execution eliminostatic.

Content of the invention

Have been made by the present invention to solve the above problems, and an object of the invention is to provide a kind of eliminostatic Device, it makes ionotron be readily able to different length manufacture, even and if the change of its length, also can be steady over the entire length Surely release ion.

According to an aspect of the present invention, a kind of ionotron includes multiple anti-static module, these anti-static module Arrangement in one direction and is each entirety.Each of anti-static module all includes ion and produces electrode, axial-flow type Fan and the housing that opening is had on front end face, and ion produces electrode, tube-axial fan and housing are arranged such that to lead to The ion crossing the electric discharge generation that ion produces electrode is stated from the air-flow being produced by tube-axial fan to send from the opening of housing Go out.

Configured according to above, by using a kind of ionotron of the necessary amount of arrangement in one direction and can make It is connected or fixed to the method for support so that the ionotron of these necessary amounts is integrally formed to provide one kind to have institute Need the ionotron of length.Because all modules all have is installed on ion generation electrode therein and tube-axial fan, institute So that eliminostatic effect can be lifted by suppressing the deviation of ionic discharge intensity.

According to an embodiment of ionotron, multiple anti-static module are supported for being in lengthwise side by support The state being aligned upwards, its medium-height trestle has constant cross-section in the length of the scope corresponding to arrangement anti-static module.

According to another embodiment of ionotron, multiple anti-static module are supported for being in the lengthwise side of each support The state that is aligned upwards, be in by a pair of plate-shaped support support the plurality of anti-static module respective tip portion and The state of bottom part, the length of support corresponds to the scope being disposed with antistatic module.

According to another embodiment of ionotron, in the scope by having be disposed with the plurality of anti-static module A pair of plate-shaped support of corresponding length supports the respective tip portion of the plurality of anti-static module and bottom part Under state, and support the plurality of anti-static module in the state of be aligned on the longitudinally along each support.

In the embodiment above, can be with the intensity of lifting device, because the array of multiple anti-static module is all existed by support Support on array direction.Furthermore, it is possible to be easily solved the change of the quantity of anti-static module, because can cut out from frame parts To prepare support after manufacturing frame parts, support such as has constant cross-section and tool to necessary length via compression moulding There is long length.

According to the another embodiment of ionotron, support the opposed end section of the support of the plurality of anti-static module On housing is installed, be embedded with substrate at least one housing, substrate be mounted with produce and put on the high electricity that ion produces electrode The circuit of pressure, and each of anti-static module is all electrically connected to substrate.

According to above example, the opposite end of module array is protected by respective housing, so that can be more strongly Support array.Additionally, high voltage generation circuit becomes the common circuit in each module and is embedded in housing, so that unnecessary Installation space is come for putting high voltage generation circuit, and so that device is less is fixed for ionic discharge scope institute simultaneously Necessary length.

According to the another embodiment of ionotron, the inside of the housing of anti-static module is in the depth direction by having gas The dividing plate of stream floss hole is divided into two parts, and the accommodating portion of tube-axial fan is formed as one unit the rear end face in dividing plate On.Multiple ions produce electrodes along outlet periphery be arranged in dividing plate front end face on.

According to above example, ion can be stably supported to produce electrode and tube-axial fan and make mould in a housing Block is less.Furthermore, it is possible to being easy to by connection housing or realizing making via a kind of method that module is fixed to such as support Each module is integrally formed.

According to the another embodiment of ionotron, in one of the housing of multiple anti-static module, it is supported by control Substrate processed, control base board be used for controlling following at least one：Produce the behaviour putting on the high-tension circuit that ion produces electrode Make and each of anti-static module operation, and each of anti-static module is all electrically connected to control base board.

According to above example, the operation of all anti-static module can be controlled regardless of whether antistatic by a control panel The quantity of module how, so that efficiency is good and can reduces cost.

According to the another embodiment of ionotron, an end of the array being formed by multiple anti-static module partly in The module of housing in, be supported by for control produce put on ion produce the operation of high-tension circuit of electrode and each The control base board of the operation of anti-static module, and it is supported by interposer in the housing of other anti-static module.In relaying base In each of plate, relaying is formed with according to the species of signal and communicates at least between each anti-static module and control base board A kind of holding wire of signal, and the wiring in same module is respectively connecting to each of holding wire.In anti-static module The substrate of each is electrically connected in series on module array direction, so as each of holding wire be all arranged into for Each signal.

According to this embodiment, may be easy to connect each module and control panel via the interposer of each module.I.e. So that the quantity of module is increased, also not necessarily must change configuration and the wiring of each substrate, and cost can be made greatly to reduce.

According to another embodiment of ionotron, in the housing of each anti-static module, it is mounted with conductive pattern Case and support connect to corresponding conductive pattern ion produce electrode electrode base board.Each electrode base board is electrically connected to neighbouring Between anti-static module, the high-tension line putting on ion generation electrode for use in transmission is arranged in anti-static module array Direction on a straight line in.

According to this configuration, so that the ion generation electrode of each anti-static module is connected and can be easy to the wiring of high voltage circuit Carry out, and device can be made less.Even if additionally, the quantity of the adapter of anti-static module increases, the electricity of neighbouring anti-static module Electrode substrate can also same way be connected to each other, so that labour force necessary to assembly work can be saved.

According to the present invention it is possible to being easy to the anti-static module by arranging necessary amount in one direction and preventing these Electrostatic module is formed as entirety to change the length of device.Each anti-static module has tube-axial fan, and ion produces electrode Quantity and layout can carry out in the same manner, so that ionic discharge intensity can be prevented different.

It is, therefore, possible to provide a kind of ionotron, it has outstanding performance under reasonable cost and meets site dimension Require.

Brief description

Fig. 1 is the perspective view of the external appearance of the ionotron illustrating the present invention；

Fig. 2 is the decomposition diagram of the main configuration illustrating ionotron；

Before Fig. 3 a to 3c respectively illustrates the ionotron of the anti-static module with varying number of three types View；

Fig. 4 is the front view of the connector of anti-static module；

Fig. 5 is the rearview of the connector of anti-static module；

Fig. 6 is the right view of anti-static module；

Fig. 7 is the perspective view of electrode base board；

Fig. 8 a to 8c respectively illustrates front view, plane graph and the side view of the configuration of shutter；

Fig. 9 is that the view that an example is described, wherein shutter and metal grate are arranged on housing；And

Figure 10 is that each of anti-static module person and the connection status to the high voltage circuit plate on set terminal are described View.

Specific embodiment

Hereinafter, referring to accompanying drawing, the ionotron of one embodiment of the invention will be been described by.In the accompanying drawings, arrow Head R illustrates the right direction of device and arrow L illustrates the left direction of device.

Fig. 1 is the perspective view of the external appearance of the ionotron illustrating the present invention, and Fig. 2 is to illustrate ionotron The decomposition diagram of main configuration.

The ionotron of this embodiment includes the leg being arranged on the opposed end section of the long main part of level 100 Divide 101 and 102.Leg section 101 and 102 is fixed by handle screw 103 and 104 respectively to be propped up with the slightly upward state rising Support main part 100.

Main part 100 includes a pair of brackets 21 and 22 on top and bottom, supports and become between support 21 and 22 Three anti-static module 1A, 1B and 1C and the housing 31 and 32 to set terminal for fixation that string comes into line.Housing 31 and 32 Twist admittedly to support 21 and 22 respectively, and the bottom of the top with support 21 and support 22 contacts.Each of housing 31 and 32 is equal Obtained by resin-made, and the embedded substrate being mounted with for producing high-tension circuit inside resin（Not shown）.In housing It is provided on surface the pedestal 30 of leg section 101 and 102 is installed.

Because anti-static module 1A, 1B and 1C will be except being subsequently identical in addition to the substrate type of description, institute is in case quiet Each of electric module 1A, 1B and 1C all will be commonly referred to as " anti-static module 1 " or " module 1 " following.Additionally, module The configuration of the part in 1 will be illustrated by common symbol.Additionally, for the detailed portion in accompanying drawing, symbol is only by module 1 The relevant position of any one is given.

Each of anti-static module 1A, 1B and 1C all include a pair and install the electric discharge serving as ion generating apparatus thereon The electrode base board 11 of pin 10 and 12, tube-axial fan 13, for accommodating the housing 14 of these parts, being arranged on the front portion of housing 14 On shutter 15, the backplate 16 that is arranged in the rear portion of tube-axial fan 13 and the like.

Housing 14, shutter 15 and backplate 16 are resin molded part.

The header board 141 of housing 14 is opening and retains bottom part, and in opening 140, arranges electrode base board 11 He 12 accommodating portion 142 and the accommodating portion 143 in back formation tube-axial fan 13.Between accommodating portion 142 and 143, The dividing plate 144 of the outlet 147 with the air-flow being produced by the rotation of tube-axial fan 13 is installed.Electrode base board 11 and 12 is solid It is scheduled on the front portion of dividing plate 144.The whole back of accommodating portion 143 is opening, and tube-axial fan 13 inserts from its opening In accommodating portion 143.

The header board 141 of housing 14 is with respect to rear portion accommodating portion 142 in all directions of top, bottom, left end and right-hand member On all protrude slightly outwards.In top and bottom salient position, it is formed continuously protrusion band 145 and 146 respectively（Referring to Fig. 4 extremely Fig. 6）.In the center of the left salient position of header board 141, form copulational protuberance 148（Referring to Fig. 4 and Fig. 5）, and convex on the right side In the caliper portion of out position, form the recess 149 that size corresponds to copulational protuberance 148（Referring to Fig. 5 and Fig. 6）.

Shutter 15 is removably mounted on opening 140.On backplate 16, form screw hole 162 or for ventilation Multiple joint-cutting holes 161, described screw hole twists the back of the tube-axial fan 13 in the solid accommodating portion 143 to insertion.

Additionally, formed in the tip portion of backplate 16 and bottom part respectively protruding band 165 and 166.Although not shown In accompanying drawing, but filter or its propulsive element are arranged on the back side of backplate 16.

Support 21 and 22 is cut out from the metallic plate of the homogeneous thickness made by compression moulding, and in two longitudinal edge It has been respectively formed on guide rail 20.Guide rail 20 He with 145 and 165 insertion supports 21 is protruded on top owing to housing 14 and backplate 16 In 20 groove and in the groove of the guide rails 20 and 20 with 146 and 166 insertion supports 22 for the bottom protrusion of housing 14 and backplate 16, prevent quiet Each of electric module 1 is all slidably supported between support 21 and 22.

Additionally, because 148 points of the left copulational protuberance of the housing 14 of center anti-static module 1B and right-hand member anti-static module 1A Cha Ru not be adjacent in anti-static module 1C in left side and the recess 149 of housing 14 of 1B, so three anti-static module 1A, 1B and 1C become with straight line connection.

By being added to certain length by the housing 31 and 32 of set terminal is bonded to anti-static module 1A, 1B and 1C Space necessary to connector is arranging the length of support 21 and 22.Therefore, by housing 31 and 32 is individually secured to support The connector of 21 and 22 end section, anti-static module 1A, 1B and 1C becomes between support 21 and 22 and housing 31 and 32 Irremovable.

Switch 105 and display lamp 106 be seated in anti-static module 1C at left end the header board 141 of housing 14 on.Here In embodiment, the housing 14 of anti-static module 1A, 1B and 1C is all formed by identical parts, and therefore punching press pattern is also corresponding to Shape in the position of the switch 105 on the header board 141 of the housing 14 of anti-static module 1A of center and right-hand member and 1B and display lamp 106 Become.However, its not limited to this, and the no housing of punching press pattern being introduced in anti-static module 1A and 1B can be manufactured.

The configuration of the ionotron shown in Fig. 1 and Fig. 2 is formed by connecting three anti-static module 1, but not special The quantity of definite limitation anti-static module 1.By changing the length of support 21 and 22 according to the quantity of the anti-static module 1 to be connected Degree, can arrange any amount of anti-static module 1.Because support 21 and 22 is cut out from metallic plate by compression moulding, can Change with easily treated length.

Fig. 3 a to 3c illustrates the ionotron of the anti-static module with varying number of three types.

In the accompanying drawings, had with the ionotron at center shown in symbol Q and connect joining of three anti-static module 1 Put, as shown in Figures 1 and 2.Additionally, ionotron P only has an anti-static module 1.

The ionotron R of bottom has the configuration connecting six anti-static module 1.

As described above, the anti-static module 1 of this embodiment can be able to be passed through to connect any number as a cell operation and also Amount anti-static module 1 and work.As will be subsequently described, in this embodiment, even if installing multiple anti-static module 1, it be used for Make the common circuit that the high voltage circuit of spray point 10 electric discharge or control circuit are used as in each of anti-static module 1, with Make configuration simple and can anti-locking apparatus excessive.Additionally, tube-axial fan 13 is arranged in each anti-static module 1, even if so that The quantity of module 1 increases, and stably can transmit via anterior whole length containing by the air-flow of the ion producing that discharges.

Fig. 4 illustrates to remove shutter 15 from module 1A of anti-static module 1 shown in Fig. 1 and Fig. 2 and the connector of 1B The configuration of front portion afterwards.Fig. 5 illustrates to remove the configuration at the back side of inclusion wiring after the backplate 16 of connector.Fig. 6 illustrates anti-quiet The right side of electric module 1A.

Dividing plate 144 between the accommodating portion 142 and the accommodating portion of tube-axial fan 13 of electrode base board 11 and 12 with Stamp out with the blowout opening identical shape of tube-axial fan 13 accepting in accommodating portion 143, and be consequently formed there is certain The outlet 147 of one size, in this outlet, nearly all vane part of tube-axial fan 13 is all exposed.In dividing plate It is formed with the joint-cutting hole 171 for inserting the detection lug being intended to subsequently describe in 144 left end portion.

On the back side of dividing plate 144, in top and the bottom of the both sides of accommodating portion 143（Amount to four positions）Middle installation Patch panel 111（Referring to Fig. 5, Fig. 6 and Fig. 8 a to 8c）.In each of patch panel 111, it is formed through and reaches dividing plate 144 Front portion wiring hole 116.

Between top patch panel 111 and bottom patch panel and 111, two dividing plates 112 are arranged with given spaced horizontal With 113.Fixture is disposed in the space between left clapboard 112 and 113（Not shown）, and limit switch is installed in fixture 17.

The cylindrical support thing with screw hole is installed between right clapboard 112 and 113（Not shown）.In accommodating portion The joint-cutting hole 114 passing through fore-end from center is formed on 142 right wall, and flat spring electrode 110 insertion joint-cutting In hole 114.The part after joint-cutting hole 114 of flat spring electrode 110 is put along supporter, and front end is to inflection Song, and fore-end is fixed to the screw hole of supporter by screw 115.Additionally, between screw 115 and flat spring electrode 110 Insertion connection cable 41.

Meanwhile, the slot apertures 114 of autotomying of flat spring electrode 110 is crossed towards the part that front portion is stretched out and is intended to along inwall storing The top edge of accommodating portion 142.

Electrode base board 11 and 12 is monosymmetric band-shaped plate, and the opposed end section of wherein formation is slightly wider, such as Fig. 7 Shown in.In opposed end section, form wiring hole 107 respectively, and from wiring hole 107 position slightly inward, put The needle point of acusector 10 is inwardly arranged with heeling condition.Meanwhile, on the surface of electrode base board 11 and 12, formed for by wiring hole 107 and 107 connect to the conductive pattern of high voltage signal line（Not shown）, and spray point 10 is soldered to conductive pattern.

Electrode base board 11 is identical with 12 size and configuration, and it is separately mounted to the tip portion of dividing plate 144 and bottom Partly go up, wherein top and bottom direction are reversed.

Fig. 4 to Fig. 6 will be referred again to and describe embodiment.

The wiring hole 116 and 116 extending from back wire plate 111 exposes in four corners of the dividing plate 144 of housing 14. Wiring hole 107 and 107 and bottom two wiring hole 116 He in two, top wiring hole 116 and 116 matched electrodes substrates 11 In the case of the wiring hole 107 and 107 of 116 matched electrodes substrates 12, screw electrode 108 inserts in the hole respectively so that fixed electrode Substrate 11 and 12.Fixed by this, each spray point 10 passes through the end margin of outlet 147 and needle point is located to towards outlet 147 core.

On the back side of housing 14, the fore-end of each screw electrode 108 protrudes from patch panel 111, and the front end protruded Part is by nuts and washers（Not shown）Fixing.By inserting cable 40 between nut and packing ring, right anti-static module 1A The screw electrode 108 of left top patch panel 111 is with the screw electrode 108 of the right top patch panel 111 of left anti-static module 1B even Connect, as shown in Figure 5, and similarly, the screw electrode 108 of the left bottom patch panel 111 of right anti-static module 1A and a left side are prevented The screw electrode 108 of the right bottom patch panel 111 of electrostatic module 1B connects.

Although not shown in accompanying drawing, anti-static module 1B and anti-static module 1C also with anti-static module 1A and 1B phase Same mode is connected to each other.Additionally, the cable connection stretched out from substrate in the housing 31 being adjacent to right side is to right-hand member antistatic The screw electrode 108 of the right top patch panel 111 of module 1A, and the cable stretching out from substrate in being adjacent to the housing 32 in left side Connect the screw electrode 108 of the left bottom patch panel 111 to right-hand member anti-static module 1C.

In the bottom part at the back side of the header board 141 of housing 14, size corresponds to the width of housing 14 and the base of depth Plate S by protrude with 146 tip edge or unshowned substrate clamping tool horizontal support.Various species are formed on substrate S Holding wire or supply lines, and it is positioned at adapter 51 and 54 and the company in the right end portion of substrate in right end portion Connect device 52,53 and 55.Among these adapters, the cable 41 that is arranged on above-mentioned flat spring electrode 110 connect to It is seated in the adapter 51 on right-hand member inside.This adapter 51 connects the reference voltage line to substrate S.

It is respectively connecting to adapter 52 and 53 from the limit switch 17 of tube-axial fan 13 or cable 42 and 43.Adapter 54 and 55 are used for making substrate S be connected to each other.

Fig. 8 a to 8c illustrates anterior shutter 15 as seen by from anterior, top and left part.Fig. 9 illustrates and shutter 15 phase The method that configuration and installation shutter 15 are described in detail in detail of the part closing.

The shutter 15 of this embodiment has size and corresponds to the grid 150 of opening 140 of housing 14, in grid 150 A pair of the projection 151 being formed on the anterior top at two edges and 151 and the detection lug that protrudes backward from left end portion 155.Each of projection 151 is respectively provided with following configuration：In the configuration, make the protrusion protruding backward from grid 150 Piece 153 with protrude from the front portion of grid 150 to side have chip shape convex sheet 152 continuous.In each convex sheet 153 Pawl 153a is formed with the inside of front end.

In the left projection of the header board 141 of housing 14 and the upper position of right projection, be respectively formed with for The stepped portion 156 of insertion convex sheet 152.Accommodating portion 142 in the coupling part and back of the opening 140 of header board 141 In be formed with size mate convex sheet 153 length joint-cutting hole 157（Referring to Fig. 4 and Fig. 5）, and the side in accommodating portion 142 Recessed portion for fixed claw 153a is formed with wall（Not shown）.

If the convex sheet in the back of shutter 15 153 and 153 insertion joint-cutting hole 157 and 157 and shutter 15 quilt Pressing is until convex sheet 152 and 152 inserts left stepped portion and right stepped portion 156, then the pawl 153a of convex sheet 153 and 153 With the recessed portion of 153a insertion side wall so that shutter 15 is fixed to opening 140.

Additionally, the grid 18 being obtained by metal（Hereafter referred to as " metal grate 18 "）It is arranged on the back side of shutter 15. The size of this metal grate 18 is almost equivalently-sized with the grid 150 of shutter 15, and except grid is in left-end point portion Point one of outside the rectangular opening 180 that formed on position, this metal grate 18 has the shape of the grid matching.If this Metal grate 18 is located on the top end edge of accommodating portion 142 of housing 14 and shutter 15 is installed as described above, then Metal grate 18 is pressed into flat spring electrode 110 so that metal grate is supported in the front of spray point 10.Shutter 15 Detection lug 155 passes through the hole 180 of metal grate 18 and the slit pore 171 of dividing plate 144（Referring to Fig. 4）Opened with the restriction pressing back Close 17 contact portion.

As described above, flat spring electrode 110 connects to the reference voltage of substrate S via cable 41 and adapter 51 Line, so that reference voltage also puts on the metal grate 18 contacting with flat spring electrode 110.Therefore, when high voltage puts on During spray point 10, electric field produces to produce electric discharge between spray point 10 and metal grate 18.Reference voltage line connects to being used for The high voltage circuit of electric current is to feed back, and passes through to measure electric current, adjustable ionic equilibrium.Reference voltage line can connect to be grounded.

Figure 10 illustrates the state of the electrical connection of anti-static module.

In the ionotron of this embodiment, it is mounted with the embedded right cover cover 31 of plate producing just high-tension circuit, And be mounted with the embedded left cover cover 32 of the plate of the circuit producing negative high-voltage.Hereinafter, these plates are referred to as " high voltage circuit plate ".

As described above, the electrode base board 11 and 12 in each of module 1 is fixed to by screw electrode 108 Patch panel 111.Between proximity modules 1 and 1, it is fixed to left top patch panel and the bottom patch panel 111 and 111 of right mould block 1 Screw electrode 108 be respectively connecting to fix on the right side that mutually level position is in left mould block 1 with each of 108 Screw electrode 108 in patch panel 111.

In addition, the screw electrode 108 of the right top patch panel 111 of anti-static module 1A connects as in right end housing 31 High voltage circuit plate, and the screw electrode 108 of the bottom left patch panel 111 of anti-static module 1C connects as left-end point housing High voltage circuit plate in 32.

Connect the screw electrode 108 between the cable of these high voltage circuit plates and screw electrode 108 and link block 1 Cable 40 be used for transmitting high voltage signal.

In being arranged in anti-static module 1C at left distal end, arrangement is mounted with the main base of control circuit or power circuit Plate S0 is as aforesaid substrate S.In other anti-static module 1A and 1B, only arrangement has for relaying or simple signal process electricity The interposer S1 of the conductive pattern on road_AAnd S1_B.These substrates S1_A、S1_BPass through adapter 54 and 55 and connection adapter with S0 54 and 55 cable is connected in series respectively.Additionally, the interposer S1 of anti-static module 1A_AConnect as in right end housing 31 High voltage circuit plate, and anti-static module 1C main substrate S0 connect as the high voltage circuit plate in left-end point housing 32.

Connecting substrate S1_AInclude electric lines of force, reference voltage line with the cable of S0 and high voltage circuit plate and be used for controlling letter Number（This control signal is used for driving high voltage circuit）Transmission line.Between substrate S1_A、S1_BThe cable being connected between S0 except Electric lines of force, reference voltage line and for control signal from main substrate S0 as the junction line in housing 31 outside also include transmitting The drive signal of tube-axial fan 13 or the circuit of the detection signal from limit switch 17.Additionally, leading for these circuits Electrical pattern is placed in each of substrate.

By the cable connection between the substrate of the control circuit to main substrate S0 to be connected, each circuit is arranged for Each signal.For by adapter 51,52 and 53（Flat spring electrode 110, tube-axial fan 13 and limit switch 17 connect to On these adapters）Connect to the conductive pattern of the respective transmission line to induction signal（The adapter 52 and 53 of tube-axial fan 13 Or limit switch 17 is also included for connecting to the conductive pattern of power supply）It is formed at the interposer S1 of module 1A and 1B_AAnd S1_B On.

In Fig. 10, the path of positive polarity high voltage signal flowing is shown by any thick chain line, and passes through 2 points of thick chains Line illustrates the path of negative high-voltage signal flow.

First, for describing some chain lines, the high voltage circuit plate from right end housing 31 for the positive polarity high voltage signal is sent out Send, and transmit to the right top screw electrode 108 of anti-static module 1A.Therefore, in module 1A, signal is from screw electrode 108 Transmit to the spray point 10 of counterpart substrate 11 and 10 and transmit to left top screw electrode via the pattern on front electrode base board 11 108.The high voltage signal reaching left top screw electrode 108 transmits the right top of neighbouring anti-static module 1B to dorsal part Screw electrode 108.Similarly in module 1B, high voltage signal transmits to counterpart substrate 11 from right top screw electrode 108 Spray point 10 and 10 and transmit to left top screw electrode 108 via the pattern on front electrode base board 11.Additionally, high voltage signal Transmit from the left top screw electrode 108 of module 1B to the right top screw electrode 108 of module 1C, so that high voltage signal transmission The spray point 10 and 10 of the electrode base board 11 to module 1C.

Secondly, for describing 2 points of chain lines, the high voltage circuit plate from left-end point housing 32 for the negative high-voltage signal is sent out Send, and transmit to the bottom left screw electrode 108 of anti-static module 1C.Therefore, in module 1C, signal is from screw electrode 108 Transmit to the spray point 10 of counterpart substrate 12 and 10 and transmit to right lower screws electrode via the pattern on front electrode base board 12 108.Transmit to the high voltage signal of right lower screws electrode 108 the bottom left screw electricity transmitting to neighbouring anti-static module 1B Pole 108.Similarly in module 1B, high voltage signal transmits from bottom left screw electrode 108 to the spray point of counterpart substrate 12 10 and transmit to right lower screws electrode 108 via front electrode base board 12.Additionally, this high voltage signal is from the right bottom of module 1B Screw electrode 108 transmits to the bottom left screw electrode 108 of module 1A, so that high voltage signal transmits the electrode to module 1A The spray point 10 and 10 of substrate 12.

As described above, positive polarity high voltage supplies the respective electrode base board 11 to anti-static module 1A, 1B and 1C successively Spray point 10, and negative high-voltage supplies the spray point of the respective electrode base board 12 to anti-static module 1C, 1B and 1A successively 10.Therefore, under cation passes through spray point 10 and 10 generation of the upper electrode substrate 11 of modules 1, and anion is passed through The spray point 10 and 10 of portion's electrode base board 12 produces.

The control circuit being placed on main substrate S0 is supplied electric power or control signal respectively and is directly negative in housing 32 Polarity high voltage circuit plate output HIGH voltage signal, and via interposer S1_BAnd S1_AHigh electricity for the anelectrode in housing 31 Volt circuit plate output HIGH voltage signal.Additionally, control circuit is directly in tube-axial fan 13 or the module of limit switch 17 Configuration input and output signal in configuration and anti-static module 1C, and via interposer S1_AAnd S1_BFor other modules 1A With 1B input and output signal.

For example, by detecting the voltage of the shared reference voltage line of each substrate, control circuit judges that ionic equilibrium is No suitable, and the driving pulse based on result of determination adjustment supply to left high voltage circuit plate and right high voltage circuit plate.For adjusting The air quantity volume of bearing flow fan 13, control circuit changes the control signal for tube-axial fan 13 sometimes.When from each Detection signal input and detection signal closing from the limit switch 17 of module 1（Mean that shutter 15 separates）When, control circuit Stop to high voltage circuit or the supply of electric power to tube-axial fan 13.

According to the ionotron of above example, spray point 10, tube-axial fan 13 and substrate S are contained in a housing In 14, so that anti-static module 1 can be obtained with small size.Because high voltage circuit is embedded in both end housings 31 and 32, institute Small device sizes are obtained to save space.

Embodiments of the invention are not limited to above content, and it is contemplated that with Types Below.

First, in the embodiment above, in addition to there is module 1C of main substrate S0, in module 1A and 1B, it is mounted with relaying Substrate, and the various signals comprising the signal group for high voltage circuit plate are connected to main substrate S0.However, except Main substrate S0, any substrate also can have control function in addition to the relay function of signal, so that the base in modules 1 Plate can carry out signal processing under the centralized Control by main substrate S0 or control for the configuration in equal modules.Interposer All signals need not be relayed, but can only relay supply of electric power, reference voltage and the control to high voltage circuit plate for driving Signal processed.It that case, the wiring of power supply and reference voltage line can be only connected to between module 1 and relaying Connection between substrate.

In addition to Above Transmission Lines, for the transmission line of the signal of any of tube-axial fan 13 and limit switch 17 It is formed on interposer, the corresponding configuration in module 1 connects to corresponding transmission line, and the signal for another configuration can be in another One path uploads and transports to control base board S0.

When the quantity of module 1 increases, given quantity mark module 1 to be connected is obtained in groups, the whole connection of module 1 Body is divided into multiple groups, and power circuit may be disposed to for each group.

In the case of not disposing interposer, each of module 1 or high voltage circuit plate respectively can be connected It is connected to main substrate S0.For example, it is possible to multiple substrates of the previously prepared port with varying number, and have from substrate selection In or more than module 1 quantity port substrate.In the case, substrate can be put in one of module 1, and Can be using the substrate with the width extending to multiple modules 1.

The high voltage signal of the spray point 10 of each of module 1 is not limited to be connected in series, but is likely to by simultaneously Connection connects each of high voltage signal supply to module 1.

Additionally, high voltage circuit plate need not be placed among both housings 31 and 32.For example, just by positive polarity voltage For the method that reverse voltage is alternately applied to each spray point 10, high voltage circuit plate can be disposed at arbitrary in housing In person.Although device can become much larger a bit, the molded resin plate with high voltage circuit plate can be disposed at except housing In position outside 31 and 32（For example, between the connector of module 1 and upper bracket 21）.

In each of module 1 in the embodiment above, four spray points 10 by spray point is divided into two groups and It is arranged on two electrode base boards 11 and 12, but the quantity not limited to this of the quantity of spray point 10 and electrode base board.Additionally, ought be just When polar voltages and reverse voltage replace applying to spray point 10, can be on an electrode base board with unlimited central part And the periphery along opening arranges multiple spray points 10.

The method of attachment of the electrode base board between module 1 is not limited by method shown in the embodiment above.Example As, respectively male connector is placed on the side of each housing and female connector is placed on opposite side, and these connections Device is electrically connected with electrode base board, and the male connector that therefore may pass through to connect between module 1 adjacent to housing is connected with the moon Device and simultaneously realize be electrically connected and be mechanically connected.

As the component of the connector of the anti-static module 1 being arranged on support 21 and 22, above example uses guide rail 20, but not limited to this, also can twist the solid method to support using introducing engaging foot method or by housing.

The framework supporting the connector of anti-static module 1 is not limited to a pair of top and bottom plate support 21 and 22, but The monolithic entity of support can be used as using the metallic object of the shape with constant cross-section and unlimited terminal surface.For example, connect The top of body, bottom and back can be supported by U-bracket.If additionally, when module 1 is completely fixed by these supports, Support can be made into a plate-shaped frame, and module 1 is securable on framework.

If anti-static module 1 is supported by bracket stable ground, module 1 need not connect.If module 1 is formed into Completely irremovable, then this is unimportant, even if there is little space between module 1.

Spray point 10 and tube-axial fan 13 need not be contained in a housing；Following configuration can be used：Spray point and axle Each of flow fan is contained in a separate housing, and housing is connected or is aligned.Additionally, multiple tube-axial fans 13 With given arranged for interval and be fixed on a plate shape framework, and can install to have and be supported on tube-axial fan（Tube-axial fan Front portion and back has opening）Before and after spray point housing.

All embodiments have such configuration：As ion produce the assembly of spray point of electrode, tube-axial fan and The housing with opening is obtained an anti-static module, and the anti-static module of necessary amount is arranged on a direction, and each mould Block is fixed to the method integration of support by the connection between module or by module.According to such configuration, one can be manufactured Plant the ionotron with the width meeting live needs, so that convenience is greatly improved compared with traditional product.

Claims (5)

1. a kind of ionotron, including:Multiple anti-static module, the plurality of anti-static module be arranged on a direction and It is each entirety, wherein, each of described anti-static module all includes ion and produces electrode, tube-axial fan and front The housing of opening is had on end face, and described ion produces electrode, described tube-axial fan and described housing and is assembled into and makes Must by described ion produce electrode electric discharge produce ion be stated from the air-flow being produced by described tube-axial fan with Send from the described opening of described housing；Wherein, the plurality of anti-static module is supported for being in lengthwise side by support The state being aligned upwards, described support has constant cross-sectional in the length corresponding to the scope being disposed with described anti-static module Face, the opposed end section of described support supporting the plurality of anti-static module is provided with housing, at least one housing It is embedded with substrate, described substrate is mounted with and produces the high-tension circuit putting on described ion generation electrode, and described anti-quiet Each of electric module is all electrically connected to described substrate, wherein, in the described housing of the plurality of anti-static module In one, be supported by control base board, described control base board be used for controlling following at least one:Generation puts on described ion and produces The operation of each of the operation of the high-tension circuit of electrode and described anti-static module, and in described anti-static module Each is electrically connected to described control base board.

2. a kind of ionotron, including:Multiple anti-static module, the plurality of anti-static module be arranged on a direction and It is each entirety, wherein, each of described anti-static module all includes ion and produces electrode, tube-axial fan and front The housing of opening is had on end face, and described ion produces electrode, described tube-axial fan and described housing and is assembled into and makes Must by described ion produce electrode electric discharge produce ion be stated from the air-flow being produced by described tube-axial fan with Send from the described opening of described housing, wherein, the plurality of anti-static module is supported for the lengthwise side of a pair of plate-shaped support The state being aligned upwards；To be in the respective top ends supporting the plurality of anti-static module by the pair of plate-shaped carrier Divide the state with bottom part, the length of the pair of plate-shaped carrier corresponds to the scope being disposed with described anti-static module, On the opposed end section of the pair of plate-shaped carrier supportting the plurality of anti-static module, housing is installed, at least one housing In be embedded with substrate, described substrate is mounted with produce and puts on the high-tension circuit that described ion produces electrode, and described anti- Each of electrostatic module is all electrically connected to described substrate, wherein, in the described housing of the plurality of anti-static module One in, be supported by control base board, described control base board be used for controlling following at least one:Generation puts on described ion and produces The operation of each of the operation of the high-tension circuit of raw electrode and described anti-static module, and in described anti-static module Each be electrically connected to described control base board.

3. ionotron according to claim 1 and 2, wherein, the inside of the described housing of described anti-static module exists It is divided into two parts by having the dividing plate of airflow exits mouth, the receiving portion for described tube-axial fan is allocated as on depth direction It is formed on the rear end face of described dividing plate for a unit, and multiple ion produces electrode and is arranged in along the periphery of described floss hole On the front end face of described dividing plate.

4. the ionotron according to claim 1 or 2, wherein, formed by the plurality of anti-static module In the housing of described module in one end section of array, it is supported by control base board, described control base board is used for controlling produces Life puts on the operation that described ion produces each of the operation of high-tension circuit of electrode and described anti-static module, And in the housing of other anti-static module, it is supported by interposer, in each of described interposer, according to signal Species be formed with for relay communicate between each of described anti-static module and described control base board at least one Plant the holding wire of signal, and the wiring in same module is respectively connecting to each of described holding wire, and described anti-quiet The described substrate of each of electric module is electrically connected in series on the described direction of module array, so that in holding wire Each is all arranged for each signal.

5. ionotron according to claim 1 and 2, wherein, in the described housing of each anti-static module, disposes There is electrode base board, described electrode base board has conductive pattern and supports the described ion connecting to corresponding conductive pattern to produce electricity Pole, and each electrode base board is electrically connected between neighbouring anti-static module, puts on described ion for use in transmission and produces The high-tension line of raw electrode is arranged in the straight line on the described direction of anti-static module array.