CN108024435A - Electro-dissociator unit（Ionizer Unit） - Google Patents

Abstract

Present invention offer is a kind of easy to set up and electro-dissociator unit the problem of being not likely to produce radiated noise.The electro-dissociator unit possesses：Rectangular electrode base board（11）；Wire discharge electrode（12）, it is configured at electrode base board（11）Surface, be formed as along electrode base board（11）Continuous 1 wire of length direction Y；The step-up transformer of boosting（14）, it is electrically connected to 1 wire discharge electrode（12）, relative to 1 wire discharge electrode（12）Exclusively set；And babinet（17）, it integratedly stores electrode base board（11）And step-up transformer（14）.

Description

Electro-dissociator unit（Ionizer Unit）

Technical field

The present invention relates to the electro-dissociator unit of generation ionised species.

Background technology

An example for possessing the ioniser arrangement of electro-dissociator unit is recorded in Japanese Unexamined Patent Publication 9-137634 publications. 1 electro-dissociator unit with wire discharge electrode is equipped with the ioniser arrangement.In the electro-dissociator unit, discharge electrode is configured to Wire, so ionised species are generated along the discharge electrode of wire.Thus, the discharge electrode next life partly set compared to utilization Into the situation of ionised species, ionised species can be equably generated in broad scope, removing in except electric object Electric object position have certain distribution in the case of, also can unbiased important place play remove electro ultrafiltration.

In such electro-dissociator unit, generally after the voltage of power supply supply is boosted transformer boosting, pass through confession Electric wire and be supplied to electro-dissociator unit.Therefore, supply lines is thicker, so as to set position to produce limitation there are electro-dissociator unit Situation, the situation for producing the problem of radiated noise produced by supply lines.

The content of the invention

Accordingly, it is desirable to realize electro-dissociator unit easy to set up and the problem of be not likely to produce radiated noise.

As 1 scheme, in view of the electro-dissociator unit of the above possesses：Rectangular electrode base board；Wire discharge electrode, It is configured at the surface of former electrodes substrate, is formed as continuous 1 wire of length direction along former electrodes substrate；Boosting Step-up transformer, it is electrically connected to 1 foregoing wire discharge electrode, is exclusively set relative to this 1 foregoing wire discharge electrode Put；And babinet, it integratedly stores former electrodes substrate and foregoing step-up transformer.

According to the structure, the voltage before being boosted to the supply of electro-dissociator unit by step-up transformer.Therefore, compared to by Step-up transformer makes the boost in voltage from power supply be supplied to the situation of electro-dissociator unit by supply lines afterwards, passes through supply lines Voltage it is relatively low.Supply lines is thicker therefore, it is possible to suppressing, and can be not easy the setting position to electro-dissociator unit and produce limit System, and the radiated noise produced by supply lines can be reduced, it can suppress to make outside by the radiated noise that supply lines produces Into influence.Moreover, electrode base board and step-up transformer are integratedly accommodated in babinet, institute is become so as to shortening by boosting Voltage after depressor boosting by wiring, substrate is accommodated in babinet.It is thus possible to enough suppress to be produced by electro-dissociator unit Raw radiated noise is influenced caused by outside.

Brief description of the drawings

Fig. 1 is the side view of handling device.

Fig. 2 is the top view of handling device.

Fig. 3 is the figure for showing ioniser arrangement.

Fig. 4 is the longitudinal cross-sectional side view of ioniser arrangement.

Fig. 5 is the vertical profile front view of ioniser arrangement.

Fig. 6 is the exploded perspective view of electrode unit.

Fig. 7 is the longitudinal cross-sectional side view after the mian part of ioniser arrangement is expanded.

Embodiment

Based on attached drawing, the first embodiment of ioniser arrangement is illustrated.As shown in Figure 1 and Figure 2, electro-dissociator fills Put the handling device 1 for carrying thing W of 2 tabulars such as being equipped on the glass substrate for carrying liquid crystal.Handling device 1 possesses： Supporting frame 1W；And rotation axis 1J, it is rotatably supported in supporting frame 1W.Handling device 1 carries direction C with edge The state of arrangement is equipped with multiple rotation axis 1J.Multiple transport roller 1R are installed in each of multiple rotation axis 1J, with Match somebody with somebody on the transport roller 1R of the end of length directions in standby multiple transport roller 1R on rotation axis 1J, being provided to rotation axis 1J Have large-diameter portion 1RR.Multiple rotation axis 1J are configured to utilize tape member（Illustration omitted）Rotate in linkage.Also, handling device 1 Drive motor outside using figure rotates multiple rotation axis 1J, will utilize the transport roller 1R being provided on rotation axis 1J will be under The carrying thing W of the tabular of Fang Zhicheng using the large-diameter portion 1RR of transport roller 1R while limited to horizontal movement, while to carrying side Carried to C.

In supporting frame 1W, separate defined compartment of terrain and be equipped with ioniser arrangement 2.Ioniser arrangement 2 is utilized and come from The electric discharge of aftermentioned discharge electrode generates ionised species, to being de-energized except electric object, is formed as shown in Figure 1 and Figure 2 It is bar-shaped.In supporting frame 1W, by direction C is carried positioned at rotation axis 1J between in a manner of formed with mounting groove 1M, it is electric Handling device 1 is equipped in the way of mounting groove 1M is embedded in from top from device device 2.The ioniser arrangement so equipped 2 are located at along between the transport roller 1R for carrying direction C arrangements, and carry the positions of thing W on the lower positioned at than what is carried by handling device 1 Put.In addition, ioniser arrangement 2 is configured with the state at least overlapping with transport roller 1R in the case where being observed along carrying direction C, In present embodiment, to be configured with rotation axis 1J also overlapping state.

As shown in figure 3, ioniser arrangement 2 possesses 1 electro-dissociator unit 3 and for ioniser arrangement 2 to be connected to electricity The supply lines 5 in source 4.Equipped with multiple electrodes unit 6 in electro-dissociator unit 3.In addition, in electro-dissociator unit 3 equipped with：Line Shape discharge electrode 12, it is formed as continuous 1 wire of length direction Y along electro-dissociator unit 3；And the boosting of boosting becomes Depressor 14, it is electrically connected to 1 wire discharge electrode 12, is exclusively set relative to 1 wire discharge electrode 12.

Hereinafter, when being illustrated to electro-dissociator unit 3, by the side that the length direction Y relative to electro-dissociator unit 3 is orthogonal To and electrode base board 11 direction that is arranged with connecting substrate 13 be set to thickness direction X and illustrate（With reference to Fig. 4 etc.）.In addition, A direction of length direction Y is set to the first length direction Y1, the other direction of length direction Y is set to the second length direction Y2.In addition, on thickness direction X, by relative to connecting substrate 13, there are the direction of electrode base board 11 to be set to first thickness direction X1, second thickness direction X2 is set to by opposite to that direction.

As shown in FIG. 4 and 5, electro-dissociator unit 3 possesses electrode base board 11, wire discharge electrode 12, connecting substrate 13, liter Pressure transformer 14, thermal conductor 15, link substrate 16 and babinet 17.Electrode base board 11, wire discharge electrode 12, connecting substrate 13, Step-up transformer 14, thermal conductor 15 and link substrate 16 are incorporated in babinet 17.Babinet 17 is by the first cover 18 and the second cover 19 are formed.Also, as shown in fig. 6, by electrode base board 11, wire discharge electrode 12, connecting substrate 13, step-up transformer 14 and One cover 18 forms electrode unit 6, equipped with 1 or multiple with the state that Y along its length is arranged in electro-dissociator unit 3 Electrode unit 6（It is 6 electrode units 6 in the present embodiment）.

As shown in FIG. 4 and 5, in electro-dissociator unit 3, multiple electrodes substrate 11 and connecting substrate are respectively equipped with 13.In the present embodiment, the state that electrode base board 11 is arranged with alongst Y is equipped with 6.Connecting substrate 13 is with edge The state of length direction Y arrangements equipped with 6 with 11 identical quantity of electrode base board, in each of 6 electrode base boards 11 Step-up transformer 14 is configured with a.That is, risen relative to 1 electrode base board 11 equipped with 1 connecting substrate 13 and 1 Pressure transformer 14.

As shown in Fig. 4 ~ Fig. 6, electrode base board 11 is thin on thickness direction X and long on length direction Y substrate, is formed It is rectangle in the case of to be observed in through-thickness X.In the surface of electrode base board 11 towards first thickness direction X1 Face on be configured with wire discharge electrode 12.Wire discharge electrode 12 is formed as continuous 1 wire of alongst Y, in 1 electricity 1 wire discharge electrode 12 is only configured with electrode substrate 11.In electro-dissociator unit 3, the electricity of wire discharge electrode 12 is so provided with Electrode substrate 11 is with the state that Y along its length is arranged equipped with multiple, outfit electrode base board 11, so that wire discharge electrode 12 is with edge The state of length direction Y arrangements is equipped with multiple.In the present embodiment, in electro-dissociator unit 3,6 electrode base boards 11 with Y is arranged in the state outfit of a row along its length, and 6 wire discharge electrodes 12 are arranged in a row with Y along its length State is equipped with.

Connecting substrate 13 is thin on thickness direction X and long on length direction Y substrate, is formed as in through-thickness X is rectangle in the case of observing.Connecting substrate 13 is with the state overlapping on thickness direction X with electrode base board 11 relative to electricity Electrode substrate 11 is provided to second thickness direction X2, the first face 13A and electricity towards first thickness direction X1 in connecting substrate 13 Electrode substrate 11 is opposed.Specifically, connecting substrate 13 is equipped to the center of its length direction Y and the length side of electrode base board 11 Become identical position on length direction Y to the center of Y.In electro-dissociator unit 3, the company with 11 identical quantity of electrode base board The state that substrate 13 is arranged with Y along its length is connect to be equipped with.In the present embodiment, in electro-dissociator unit 3,6 electrode bases The state that plate 11 is arranged in a row with Y along its length is equipped with.

It is configured with the first face 13A in connecting substrate 13 for the connecting substrate 13 to be electrically connected to electrode base board 11 Connection terminal 13C.Connection terminal 13C towards the first thickness direction X1 states protruded from the first face 13A to be provided in ratio Center of the center of length direction Y in connecting substrate 13 by the part of the first length direction Y1 and than length direction Y leans on second In each of the part of length direction Y2.Be provided in a pair of of connection terminal 13C in a connecting substrate 13 with it is identical Electrode base board 11 contacts.Thus, 1 connecting substrate 13 is only electrically connected to 1 electrode base board 11.

In connecting substrate 13 with the second face 13B of the first face 13A opposite side towards second thickness direction X2.In the company Connect to be configured with the second face 13B in substrate 13 and be concatenated for the connecting substrate 13 to be electrically connected to the first of link substrate 16 Terminal 13D and second is concatenated terminal 13E.First be concatenated terminal 13D be provided in connecting substrate 13 than length direction Y Center lean on the first length direction Y1 part.Second be concatenated terminal 13E be provided in connecting substrate 13 than length direction Y Center lean on the second length direction Y2 part.These first are concatenated terminal 13D and second and are concatenated each of terminal 13E A state to be protruded from the second face 13B towards second thickness direction X2 is equipped with.First be provided in connecting substrate 13 is connected Knot terminal 13D and second is concatenated terminal 13E and is equipped to be located on length direction Y first is concatenated terminal equipped with this 13D and second is concatenated between a pair of of connection terminal 13C of the connecting substrate 13 of terminal 13E.Also, it is provided in a connection First on substrate 13, which is concatenated terminal 13D と second, is concatenated terminal 13E and is linked to different link substrates 16.Thus, 1 Connecting substrate 13 is electrically connected to a pair of of link substrate 16.

Step-up transformer 14 is configured with the second face 13B in connecting substrate 13.Step-up transformer 14 is with length side It is located on to Y between a pair of of connection terminal 13C and is located at and the position that terminal 13D leans on the first length direction Y1 sides is concatenated than first Mode configure in connecting substrate 13.Become relative to 1 connecting substrate 13 and 1 electrode base board 11 equipped with 1 boosting Depressor 14, step-up transformer 14 are exclusively set relative to 1 wire discharge electrode 12.Specifically, step-up transformer 14 is opposite 1 wire configured on the electrode base board 11 that the connecting substrate 13 that Yu Yu is configured with the step-up transformer 14 is connected and is electrically connected Discharge electrode 12 is exclusively set.Also, step-up transformer 14 is electrically connected to 1 wire via connecting substrate 13 and electrode base board 11 Discharge electrode 12.

As shown in fig. 6, thermal conductor 15 is formed as thin on thickness direction X and long on length direction Y tabular.Thermal conductor 15 are made of insulating material.As shown in figs.5 and 6, thermal conductor 15 with electrode base board 11 on thickness direction X it is overlapping State is provided to first thickness direction X1 relative to electrode base board 11.Also, existing with wire discharge electrode 12 in thermal conductor 15 Formed with opening 15A at overlapping part on thickness direction X.Also, as shown in figure 5, thermal conductor 15 is between electrode base board 11 In the face towards first thickness direction X1 peripheral portion and first cover 18 between state be equipped with.

As shown in figs.5 and 6, the first cover 18 is formed as being in second thickness side in the case where Y along its length is observed The U-shaped being open to X2.First cover 18 in, at the part overlapping on thickness direction X with wire discharge electrode 12 formed with Be open 18A.This first cover 18 inner space in, with from the X1 of first thickness direction according to thermal conductor 15, be configured with wire The electrode base board 11 of discharge electrode 12, the order for the connecting substrate 13 for being configured with step-up transformer 14 are overlapping on thickness direction X State arranges.Also, the thermal conductor 15 by so arranging, the electrode base board 11 for possessing wire discharge electrode 12, be configured with boosting change The connecting substrate 13 of depressor 14 and the 1st cover stored form electrode unit 6.

As shown in Fig. 4, Fig. 5 and Fig. 7, link substrate 16 and be attached at adjacent pair connecting substrate 13 on length direction Y, It is attached at adjacent pair electrode unit 6 on length direction Y.It is thin on thickness direction X and in length direction Y to link substrate 16 The substrate of upper length, is formed as being rectangle in the case where through-thickness X is observed.Link substrate 16 relative to connecting substrate 13 Second thickness direction X2 sides are configured at, across a pair of of connecting substrate 13 in a manner of opposed with the second face 13B of connecting substrate 13 Between configure.In linking substrate 16 towards possess on the face of first thickness direction X1 for a pair of of connecting substrate 13 The first connection terminal 16A and second for being electrically connected with the opposing party of a pair of of connecting substrate 13 that one side is electrically connected links Terminal 16B.First connection terminal 16A is provided to the center than length direction Y linked in substrate 16 and depends on the second length direction Y2 Part.Second connection terminal 16B is provided to the center than length direction Y linked in substrate 16 and leans on the first length direction Y1's Part.Each of these the first connection terminal 16A and the second connection terminal 16B with from link substrate 16 in direction first The state protruded facing to first thickness direction X1 of thickness direction X1 is equipped with.

By the connecting substrate 13 of the first length direction Y1 sides in the adjacent pair connecting substrate 13 on length direction Y The first connecting substrate 13 is set to, the connecting substrate 13 of the second length direction Y2 sides is set to the second connecting substrate 13, links substrate 16 arrange with spanning to the underface of the second connecting substrate 13 from the underface of the first connecting substrate 13.Also, the first connecting end Sub- 16A, which is linked to the first of the second connecting substrate 13 and is concatenated terminal 13D, the second connection terminal 16B, is linked to the first linker The second of plate 13 is concatenated terminal 13E.In this way, link 16 electrical ties of substrate in the first connecting substrate 13 and the second connecting substrate 13 This both sides.

As shown in figure 5, the second cover 19 is formed as being open in first thickness direction X1 in the case where Y along its length is observed U-shaped.Second cover 19 is formed as identical with 3 length of electro-dissociator unit on length direction Y.Also, with the second cover 19 The mode of overlapping first cover 18 links on the X1 of first thickness direction.The first cover 18 linked with second cover 19 is alongst Y is arranged with the babinets 17 multiple, tubular is formed by 1 second cover 19 and multiple first covers 18.

As shown in figure 4, in the second cover 19, the state that multiple link substrates 16 line up 1 row with Y along its length is received Receive, as shown in FIG. 4 and 5, the plurality of bottom 19A for linking substrate 16 and being fixed on the second cover 19.Connecting member 20 is fixed on The face towards first thickness direction X1 of connecting substrate 13, the connecting member 20 are linked to the adjacent pair on length direction Y First cover 18.In this way, first cover 18 is fixed on the second cover 19 using connecting substrate 13 and connecting member 20.

Also, powered in link substrate 16 and be linked with the adjacent pair connecting substrate 13 on length direction Y, so as to be equipped with In electro-dissociator unit 3（Ioniser arrangement 2）In multiple connecting substrates 13 be electrically connected.Being located at most in electro-dissociator unit 3 By connecting supply lines 5 on the electrode unit 6 of the second length direction Y2.Therefore, the connection being provided in each of electrode unit 6 Substrate 13 is electrically connected to power supply 4 via supply lines 5, link substrate 16, other connecting substrates 13.Also, in electrode unit 6, Voltage after being boosted by step-up transformer 14 is fed into wire discharge electrode 12 via connecting substrate 13 and electrode base board 11.Line Shape discharge electrode 12 generates ionised species, the opening which passes through the covers of the opening 15A of thermal conductor 15 and first 18 18A and to electrode unit 6（Electro-dissociator unit 3）First thickness direction X1 release.

(other embodiment)

Next, the other embodiment of electro-dissociator unit is illustrated.

（1）In the above-described embodiment, multiple electrodes substrate 11 and connecting substrate 13 are equipped with electro-dissociator unit 3 In, but each 1 electrode base board 11 and connecting substrate 13 can also be only equipped with electro-dissociator unit 3.That is, In the above embodiment, possesses multiple electrodes unit 6 in electro-dissociator unit 3, but can also only possess in electro-dissociator unit 3 1 electrode unit 6.

（2）In the above-described embodiment, the mode for possessing 1 electro-dissociator unit 3 in ioniser arrangement 2 is exemplified.But It is the reasonable quantity for the electro-dissociator unit 3 that can also possess to ioniser arrangement 2 ground make a change, such as is filled in electro-dissociator Possess more than two electro-dissociator units 3 etc. in putting 2.

（3）In the above-described embodiment, step-up transformer 14 is equipped on the second face 13B of connecting substrate 13, this is connected Connect substrate 13 and be electrically connected to electrode base board 11, so that step-up transformer 14 is electrically connected to wire discharge electrode 12, but can also fit Step-up transformer 14 is electrically connected to the structure of wire discharge electrode 12 by locality change.Specifically, for example, it is also possible in linker Step-up transformer 14 is configured on first face 13A of plate 13, in addition step-up transformer 14 can also be equipped in electrode base board 11 The face towards second thickness direction X2.Alternatively, it is also possible to be set as, do not possess connecting substrate 13 in electro-dissociator unit 3, and by Wiring is electrically connected step-up transformer 14 and electrode base board 11.

（4）In the above-described embodiment, the state outfit that electrode base board 11 is arranged in a row with alongst Y is more It is a, but the state that electrode base board 11 can also be arranged in the multiple row of two row or the three row above with alongst Y is equipped with It is multiple.

（5）In the above-described embodiment, ioniser arrangement 2 is equipped on to the handling device 1 of moving glass substrate, but also may be used Other devices for carrying thing W are carried so that ioniser arrangement 2 to be equipped on to handling device of carrying film etc..In addition, so that ionization Ioniser arrangement 2 is equipped on handling device 1 by device device 2 relative to the underlying modes of thing W are carried, but can also be to removing The height of ioniser arrangement 2 is equipped in shipping unit 1, towards suitably make a change, such as so that ioniser arrangement 2 relative to removing Fortune thing W is above, side mode equips ioniser arrangement 2 etc..

（6）As long as in addition, disclosed structure does not produce contradiction in the respective embodiments described above, can also with other implementations Structure disclosed in mode is combined and applied.For other structures, disclosed embodiment is all in the present specification Aspect is only to illustrate.Thus, various changes can be suitably carried out in the range of the main idea of the disclosure is not departed from.

(summary of embodiment)

Hereinafter, the summary of the electro-dissociator unit in above-mentioned middle explanation is illustrated.

As 1 scheme, electro-dissociator unit possesses：Rectangular electrode base board；Wire discharge electrode, it is configured at foregoing electricity The surface of electrode substrate, is formed as continuous 1 wire of length direction along former electrodes substrate；The boosting transformation of boosting Device, it is electrically connected to 1 foregoing wire discharge electrode, is exclusively set relative to this 1 foregoing wire discharge electrode；And babinet, It integratedly stores former electrodes substrate and foregoing step-up transformer.

According to this structure, the voltage before being boosted to the supply of electro-dissociator unit by step-up transformer.Therefore, compared to The situation of electro-dissociator unit is supplied to by supply lines after the boost in voltage from power supply is made by step-up transformer, passes through confession The voltage of electric wire is relatively low.Supply lines is thicker therefore, it is possible to suppressing, and can be not easy the setting position to electro-dissociator unit and produce Limitation, and the radiated noise produced by supply lines can be reduced, the radiated noise that can suppress to be produced by supply lines is to outside Caused by influence.Moreover, electrode base board and step-up transformer are integratedly accommodated in babinet, institute is so as to shorten by boosting Voltage after transformer boosting by wiring, substrate is accommodated in babinet.It is thus possible to enough suppress by electro-dissociator unit The radiated noise of generation is influenced caused by outside.

Here, it is preferable that it is also equipped with the rectangular connecting substrate configured with former electrodes substrate-parallel, foregoing company Connect substrate to be incorporated in foregoing babinet, and be connected to power supply, it is opposed with former electrodes substrate in foregoing connecting substrate The first face on be configured to the connecting substrate being electrically connected to the connection terminal of former electrodes substrate, with said first side phase Foregoing step-up transformer is configured with second face of anti-side.

According to the structure, step-up transformer is configured with the second face of connection terminal, institute so as to by connection terminal and Electrode base board is set with the direction arranged along these connection terminals and electrode terminal state close to each other.In addition, it is not to rise Pressure transformer is equipped on electrode base board but step-up transformer is equipped on connecting substrate, so as to relative to foregoing arrangement Direction intersect width on compactly form electrode base board.Thereby, it is possible to compactly form electro-dissociator in the width direction Unit.

It is further preferred, that being equipped with multiple foregoing connecting substrates with the state alongst arranged, and it is also equipped with Link the link substrate of the foregoing connecting substrate of adjacent pair, foregoing link substrate is with foregoing second face with foregoing connecting substrate Opposed mode configures between a pair of foregoing connecting substrate, moreover, foregoing link substrate possesses for foregoing with a pair The first connection terminal that one side of connecting substrate is electrically connected and for being electrically connected with the opposing party of a pair of foregoing connecting substrate Second connection terminal, a pair of foregoing connecting substrate are connected to aforementioned power source via foregoing link substrate.

It is alongst to possess multiple connecting substrates and connected by link substrate connection adjacent pair according to the structure Connect the structure of substrate, so as to by varying these connecting substrates, link the quantity of substrate, and change the length of electro-dissociator unit Spend the length in direction.Also, even if the length of the length direction of electro-dissociator unit changes, it can also use general electrode Substrate, connecting substrate, link substrate, so being easy to qurer forms the different electro-dissociator unit of length.

Description of reference numerals

3：Electro-dissociator unit,

4：Power supply,

11：Electrode base board,

12：Wire discharge electrode,

13：Connecting substrate,

13A：First face,

13B：Second face,

13C：Connection terminal,

14：Step-up transformer,

16：Link substrate,

16A：First connection terminal,

16B：Second connection terminal,

17：Babinet,

Y：Length direction.

Claims (3)

1. a kind of electro-dissociator unit, foregoing electro-dissociator unit is characterized in that it possesses：

Rectangular electrode base board；

Wire discharge electrode, it is configured at the surface of former electrodes substrate, is formed as the length direction company along former electrodes substrate 1 continuous wire；

The step-up transformer of boosting, it is electrically connected to 1 foregoing wire discharge electrode, relative to this 1 foregoing wire discharge electrode Exclusively set；And

Babinet, it integratedly stores former electrodes substrate and foregoing step-up transformer.

2. electro-dissociator unit as claimed in claim 1, it is characterised in that

Foregoing electro-dissociator unit is also equipped with rectangular connecting substrate, the rectangular connecting substrate and former electrodes substrate-parallel Ground configures,

Foregoing connecting substrate is incorporated in foregoing babinet, and is connected to power supply,

It is configured to the connecting substrate being electrically connected on the first face opposed with former electrodes substrate in foregoing connecting substrate In the connection terminal of former electrodes substrate, foregoing boosting transformation is configured with the second face with said first side opposite side Device.

3. electro-dissociator unit as claimed in claim 2, it is characterised in that

Foregoing electro-dissociator unit is equipped with multiple foregoing connecting substrates with the state alongst arranged, and is also equipped with linking Substrate, the link substrate link the foregoing connecting substrate of adjacent pair,

Foregoing link substrate in a manner of opposed with foregoing second face of foregoing connecting substrate across a pair of foregoing connecting substrate it Between configure,

Moreover, foregoing link substrate possesses：First connection terminal, it is used for the side for being electrically connected to a pair of foregoing connecting substrate； And second connection terminal, it is used for the opposing party for being electrically connected to a pair of foregoing connecting substrate,

A pair of foregoing connecting substrate is connected to aforementioned power source via foregoing link substrate.