CN101178428B - Relay connector - Google Patents

Abstract

A relay connector connects a terminal of a connector to be inspected provided on a board for inspection to a measuring instrument. The relay connector includes: a pin block; a floating guide, arranged so as to approach and separate with respect to the pin block and resiliently urged in a separating direction, the floating guide formed with a guide hole; a plurality of probes, each of which is provided in the pin block so as to be opposed to the terminal of the connector to be inspected having been inserted into the guide hole; and a pressure operating member, adapted to be operated between an open state in which the connector to be inspected is allowed to be inserted into the guide hole in the floating guide, and a pressed state in which the connector to be inspected having been inserted into the floating guide is pressed toward the pin block.

Description

Relay linker

Technical field

The present invention relates to a kind of Relay linker, the side-connector that is examined that this Relay linker will be provided in for inspection on the inspection substrates such as electronic component is electrically connected with analyzer etc.

Background technology

In miniaturized electronics as pocket telephone, digital camera, the electronic equipment that has is in order to install more electronic circuit in narrow space, make many substrates overlapping and set, between these substrates, be electrically connected by the connector that sets respectively.Therefore, when the connector of checking substrate and setting thereon, analyzer etc. suitably is electrically connected with connector gets final product.At this, in order to check whole inspection substrate and to be examined side-connector, the connector of the preferably chimeric chuck side paired and it is electrically connected with analyzer with being examined side-connector.Yet no matter be examined the side or the connector of chuck side, chimeric plug durability times is all fewer, has only about 50 times.Therefore, whenever checking that number of times has reached durability times, just must change the chuck side connector.If this chuck side connector is fixed on the chuck side substrate by welding, and be welded with many distributions that are connected with analyzer etc. on this chuck side substrate, just can not only change the chuck side connector simply.Therefore, chuck side connector, chuck side substrate and distribution integral body must be changed.So just produce the problem of checking that cost increases of measuring.

So the present patent application people has proposed to reduce the cost of measuring inspection as opening disclosed technology in the 2004-273192 communique the spy by reducing the part of changing.In the technology that proposes before, on insulation relaying substrate, set and be examined the paired chuck side connector of side-connector, this insulation relaying substrate can be provided on the probe unit that is made of insulating material with freely installing and removing.On this probe unit, be equipped with probe.And, the terminal that is provided with on the terminal of chuck side connector and the insulation relaying substrate is electrically connected, the probe of probe unit is electrically connected with the terminal butt of this insulation relaying substrate.In addition, the other end that is arranged on the probe on the probe unit suitably is electrically connected with many distributions that are connected with analyzer etc.Thereby, be electrically connected with analyzer etc. by chuck side connector, insulation relaying substrate, probe and distribution being examined side-connector.Therefore, when the inspection access times of chuck side connector reach durability times, change this chuck side connector and get final product with insulation relaying substrate, the part of replacing is few, correspondingly can reduce and measure the cost of checking.

Patent documentation: the spy opens No. 192 communiques of 2004-273

Summary of the invention

Opening in the technology that proposes in the 2004-273192 communique above-mentioned spy, get final product with insulation relaying substrate though only need change the chuck side connector, compare with the past, can reduce and measure the cost of checking, is not very satisfactory.Therefore, considerations such as inventor are by taking following structure, can further reduce the cost of measure checking: make probe directly with the terminal butt that is examined side-connector, do not need to change chuck side connector and insulation relaying substrate, if the probe breakage of butt, this probe only changed.

The present invention is based on above-mentioned consideration and proposes, and its purpose is to provide a kind of probe and Relay linker that is examined the side-connector butt of making.

In order to realize described purpose, Relay linker of the present invention, the terminal butt that is examined side-connector on being used to make probe and be provided in inspection substrate and being electrically connected with analyzer, wherein, constitute: set the floating guiding body that constitutes by insulating material, making it can be free near separation with respect to the pin cushion block that is made of insulating material, and it is carried out elasticity at detaching direction energize; On described floating guiding body, wear and make the described guide hole that side-connector is located towards the chimeric insertion of described pin cushion block side that is examined; In the face of the chimeric described terminal that is examined side-connector that is inserted in this guide hole, set probe near detaching direction as direction of principal axis with described floating guiding body on described pin cushion block; Setting is operating as the pressing operation parts of open state and pressed state, this open state is to allow that the described state that is examined side-connector chimeric insertion in the described guide hole of described floating guiding body, this pressed state are to be inserted in the described side-connector that is examined in the described floating guiding body by the state that is pressed in described pin cushion block side with chimeric.

Also can constitute: on described pressing operation parts, the fastening projection is set, and on described floating guiding body, the fastening supporting part is set, under the open state of described pressing operation parts, described fastening projection and described fastening supporting part fasten, and limit described floating guiding body thus to described pin cushion block side shifting.

In addition, also can constitute: described pressing operation parts are adapted to by axis of swing can freely swing in described open state and described pressed state, this axis of swing is provided in chimeric and is inserted in described in the described guide hole and is examined side-connector in the face of on the parallel face of the face of described pin cushion block side, and can set briquetting by second axis of swing parallel with described axis of swing pushing the described front that is examined side-connector with freely swinging.

And can constitute: on described floating guiding body and described pin cushion block, be provided in the unsteady pin that two ends have huge portion connecting of described floating guiding body near detaching direction, the distance that can move to detaching direction from described pin cushion block by huge of the described two ends described floating guiding body of restriction, at described unsteady pin upstream embedding floating spring, and its contraction is arranged between described floating guiding body and the described pin cushion block.

Also can constitute in addition: described unsteady pin by with the distolateral adjustment screw close of twisting of one to adjusting in the distance that described detaching direction moves, in the face of described adjustment screw, on described pressing operation parts, wear to adjust and use the hole, thereby can adjust described adjustment screw from the outside.

And can constitute: with the described side-connector that is examined on the chimeric substrate lift-launch face that is inserted into the described floating guiding body in the described guide hole of described pin cushion block side, be formed with plane greater than described inspection substrate, be examined under the chimeric state that is inserted in the described guide hole of side-connector described, described inspection substrate is not subjected to any position limit.

And can constitute: the described pressing operation parts that are provided with freely swinging limit its restrictions to the swing of described open state side, limiting under the state of described pressing operation parts with described restrictions, described fastening projection and described fastening supporting part are fastened.

In addition, Relay linker of the present invention, the terminal butt that is examined side-connector on being used to make probe and be provided in inspection substrate and being electrically connected with analyzer, wherein, also can constitute: set the floating guiding body that constitutes by insulating material, make it and to separate with respect to the free butt of the basic components that constitute by insulating material; Be located in described inspection substrate is inserted under the state between described basic components and the described floating guiding body, make describedly to be examined that side-connector is chimeric to be inserted in the described floating guiding body and the guide hole that positions; On described basic components, set the pressing operation parts, make it to clamp described floating guiding body, and make the described floating guiding side can be free near separating; On described pressing operation parts, described floating guiding body is set the pin cushion block that is made of insulating material, on described pin cushion block, set probe, make it under the state of described pin cushion block and described floating guiding body butt, with the chimeric described terminal butt that is examined side-connector that is inserted in the described guide hole; Make and the operation interlock of the described pressing operation parts of the direction that described pin cushion block is separated from described floating guiding body, described floating guiding body is separated from described basic components; Make and to operate by open state and pressed state described pressing operation parts, this open state allows that described inspection substrate inserts between described basic components and described floating guiding body, this pressed state be with described pin cushion block by being pressed in the described side-connector side that is examined, this is examined in the chimeric described guide hole that is inserted in described floating guiding body of side-connector.

And also can constitute: in the face of the described guide hole of described floating guiding body, on the substrate lift-launch face that is arranged on the described basic components, from edge part, setting has the substrate orientation recess of shape of the inserting side fore-end of described inspection substrate, by the insertion size of the described inspection substrate of described substrate orientation recesses limit with to the dislocation of side, thereby described inspection substrate is positioned.

In addition, also can constitute: described floating guiding body is by the linear steering body guiding that is arranged on the described basic components, carries face with respect to the described substrate of described basic components and separates at the vertical direction butt.

And can constitute: can set described pressing operation parts with freely swinging, so that described floating guiding side is with respect to the approaching separation of described basic components, and between described pressing operation parts and described basic components, shrink to be provided with and press pressing spring, make it to carry out elasticity and energize in the approaching direction in the described floating guiding side of described pressing operation parts.

In addition, also can constitute: can set described pressing operation parts with freely swinging, so that described floating guiding side is with respect to the approaching separation of described basic components, and set rod unit, make it with respect to described basic components, can freely swing by the axis of swing parallel with the axis of swing of described pressing operation parts, and an end of described rod unit and described floating guiding body are fastened, the other end is pressed by the operation of described pressing operation parts, along with swing to detaching direction from described basic components on the described floating guiding side of described pressing operation parts, described floating guiding body is swung to detaching direction from described basic components, thereby becomes described open state.

And also can constitute: make the degree of depth that is located in the described guide hole on the described floating guiding body consistent with the described height that is examined side-connector.

And can constitute: on the face of the described pin cushion block side of described floating guiding body, recess is set, on the face on the described floating guiding side of described pin cushion block, be provided with and the chimeric protuberance of described recess, by the fastening of described recess and described protuberance, described floating guiding body and described pin cushion block are relatively positioned.

And can constitute: the front end outside portion on the described floating guiding side of described pressing operation parts forms the dip plane of chamfering shape.

The invention effect

In technical scheme 1 described Relay linker, under the open state of pressing operation parts, position towards the chimeric guide hole that is inserted into the floating guiding body of being energized by elasticity and having separated of pin cushion block side being examined side-connector from the pin cushion block, under described state, because be operable to floating guiding body and be examined side-connector by the pressed state that is pressed in pin cushion block side by the pressing operation parts, side-connector is chimeric to be inserted in the guide hole and when positioning so being examined, the situation of side-connector with inappropriate posture and probe butt can not appear being examined, do not have under the state that is examined side-connector and probe butt and relatively have an effect, thereby can not make probe or be examined the side-connector breakage to this power of next door dislocation.

In technical scheme 2 described Relay linkers, because the fastening projection is set on the pressing operation parts, and the fastening supporting part is set on the floating guiding body, under the open state of pressing operation parts, fasten projection and fasten the supporting part fastening, limit the floating guiding body thus to pin cushion block side shifting, so in the time of in the chimeric guide hole that is inserted into the floating guiding body with tested side-connector, have an effect even have towards the power of pin cushion block on the floating guiding body, the floating guiding body can not move yet, can there be the situation that is examined side-connector and probe butt of the state that does not have correct location, thereby can not make probe or be examined the side-connector breakage.

In addition, in technical scheme 3 described Relay linkers,, set the simple in structure of pressing operation parts between open state and pressed state because the pressing operation parts are adapted to by axis of swing and can freely swing.And, set briquetting pushing the front that is examined side-connector, make it to freely swing by second axis of swing parallel, so can be with the floating guiding body to pushing exactly near the direction of pin cushion block side with axis of swing.

And in technical scheme 4 described Relay linkers, the floating guiding body can be restricted because of the unsteady pin that two ends have huge portion to the distance that detaching direction moves from the pin cushion block.And, carry out elasticity by floating spring at detaching direction and energize, under the open state of pressing operation parts, can become the state that the floating guiding body separates from the pin cushion block.

In addition, in technical scheme 5 described Relay linkers, because the pin that floats is by being adjusted into the distance that can move at detaching direction with the distolateral adjustment screw that closes of twisting of one, so can set the distance that the floating guiding body can separate from the pin cushion block arbitrarily.And, in the face of adjusting screw, on the pressing operation parts, worn to adjust and used the hole, thus loosening even in use adjust screw, also can adjust again simply from the outside.

And, in technical scheme 6 described Relay linkers, because constitute: will be examined side-connector on the chimeric substrate lift-launch face that is inserted into the floating guiding body in the guide hole of pin cushion block side, formed plane greater than inspection substrate, under being examined the chimeric state that is inserted in the guide hole of side-connector, inspection substrate is not subjected to any position limit, even misplace with respect to the inspection substrate position when mounted so be examined side-connector, do not have to make yet and be examined side-connector and in any direction have an effect to the power of side dislocation with respect to inspection substrate, thus can be to checking any problem that produces.

And, in technical scheme 7 described Relay linkers, because constitute: be provided with the pressing operation parts that can freely swing are limited its restrictions to the swing of open state side, under state with restrictions restriction pressing operation parts, fasten projection and fasten the supporting part fastening, in case so the pressing operation parts are constrained to open state, fasten projection and fasten, can limit the floating guiding body like clockwork to pin cushion block side shifting with fastening supporting part.

In addition, in technical scheme 8 described Relay linkers, because constitute: under inspection substrate is inserted in state between basic components and the floating guiding body, side-connector is chimeric to be inserted in the guide hole that is located on the floating guiding body and to position with being examined, make pin cushion block and floating guiding body butt, thereby make probe and the chimeric terminal butt that is examined side-connector that is inserted in the guide hole, so if basic components are provided in downside, just can check will being examined under the state of upside that side-connector is provided in inspection substrate.

In technical scheme 9 described Relay linkers, because guide hole in the face of the floating guiding body, on the substrate lift-launch face of basic components, from edge part, be provided with the substrate orientation recess of the shape of inserting side fore-end with inspection substrate, so the insertion size of inspection substrate and the dislocation to the side are limited because of the substrate orientation recess, thereby inspection substrate is located.Therefore, be provided in being examined side-connector and being able to relative positioning on the inspection substrate with respect to the guide hole that is located on the floating guiding body.

In addition, in technical scheme 10 described Relay linkers, because the floating guiding body is by the linear steering body channeling conduct that is arranged on the basic components, described substrate lift-launch face with respect to basic components separates at the vertical direction butt, so when being examined side-connector and being inserted in the guide hole that is located on the floating guiding body, do not make to be examined side-connector and to have an effect, do not set the inspection substrate that is examined side-connector and have an effect to the power of side dislocation thereby make to the power of side dislocation yet.

And, in technical scheme 11 described Relay linkers, because can set the pressing operation parts with freely swinging, so that the floating guiding side is with respect to the approaching separation of basic components, and between pressing operation parts and basic components, shrink and be provided with by pressing spring, make it the direction approaching and carry out elasticity and energize, so its structure is very simple on the floating guiding side of pressing operation parts.And, the pressing operation parts are carried out pressing operation during, become open state and allow the insertion of inspection substrate, if releasing pressing operation, just can become the pin cushion block is measured by being pressed in the pressed state that is examined on the side-connector, in mensuration, do not need pressing operation, its processing ease.

In addition, in technical scheme 12 described Relay linkers, because along with swing to detaching direction from basic components on the floating guiding side of pressing operation parts, the floating guiding body becomes open state from basic components to the detaching direction swing, so the pressing operation parts are carried out pressing operation during, the floating guiding body separates and can allow the insertion of inspection substrate like clockwork from basic components.

And, in technical scheme 13 described Relay linkers, because make the degree of depth that is located in the guide hole on the floating guiding body consistent with the height that is examined side-connector, so the face of the pin cushion block side of floating guiding body and the chimeric face of the pin cushion block side that is examined side-connector in the guide hole that is inserted in are in same plane, with this face is benchmark, on the pin cushion block, set probe, thus can make probe with suitable power be examined the side-connector Elastic Contact.

And, in technical scheme 14 described Relay linkers, because constitute: on the face of the pin cushion block side of floating guiding body, be provided with recess, on the face on the floating guiding side of pin cushion block, be provided with the protuberance chimeric with recess, fastening by recess and protuberance, floating guiding body and pin cushion block are relatively positioned, so, can make the probe that is provided on the pin cushion block carry out butt in position with respect to the side-connector that is examined of in the guide hole of floating guiding body, being located.

And, in technical scheme 15 described Relay linkers, because the front end outside portion on the floating guiding side of pressing operation parts forms the dip plane of chamfering shape, so when the inspection of the CCD imaging apparatus that carries out on inspection substrate setting near being examined side-connector etc., the pressing operation parts of Relay linker of the present invention can not hinder this inspection.

Description of drawings

Fig. 1 is the side view of pressed state of first embodiment of Relay linker of the present invention.

Fig. 2 is the vertical view of Fig. 1.

Fig. 3 is the side view of the open state of Fig. 1.

Fig. 4 is the decomposition diagram of Fig. 1.

Fig. 5 is the decomposition diagram of upper and lower pin cushion block and floating guiding body.

Fig. 6 is the decomposition diagram of pin cushion block.

Fig. 7 is the decomposition diagram of following pin cushion block, wiring substrate and basic components.

Fig. 8 is the outward appearance skeleton view that is examined side-connector that is provided with on the inspection substrate with Relay linker inspection of the present invention.

Fig. 9 is the longitudinal section of pin cushion block.

Figure 10 is the figure that is illustrated in the terminal figure that is provided with on the wiring substrate.

Figure 11 is the decomposition diagram of pressing operation parts, hinge member and basic components.

Figure 12 is that the A-A section of Fig. 2 is to view.

Figure 13 represents to be used in the rib that is provided with on the hinge member wiring substrate is pressed in structure on the basic components, (a) is the partial cut-out side view, (b) is rear view.

Figure 14 is the figure that the dip plane role of chamfering shape is cut into the upper front end of pressing operation parts in explanation.

Figure 15 is the side view of pressed state of second embodiment of Relay linker of the present invention.

Figure 16 is the longitudinal section of Figure 15.

Figure 17 is the side view of the open state of Figure 15.

Figure 18 is the longitudinal section of Figure 17.

Figure 19 is the decomposition diagram of Figure 15.

Figure 20 be under open state, inserted inspection substrate among second embodiment want portion's longitudinal profile enlarged drawing.

Figure 21 be insert among second embodiment become pressed state behind the inspection substrate want portion's longitudinal profile enlarged drawing.

Symbol description

10,70 basic components

12 hinge members

The 12a rib

14,76 pressing operation parts

14a fastens projection

The 14b dip plane

14d adjusts and uses the hole

16 axis of swing

18,82 press pressing spring

20 second axis of swing

22 briquettings

24 pin cushion blocks

The 24a screw

26,74 floating guiding bodies

26a, 70a substrate carry face

26b, 70a guide hole

26c, 74b recess

26f fastens supporting part

28 wiring substrates

The 28a screw

The 28b guide hole

36 inspection substrates

30,72 linear steering bodies

The 30a linear axes

The linear cartridge unit of 30b

32 unsteady pins

32a adjusts screw

34 floating springs

36 inspection substrates

38 are examined side-connector

The 38a terminal

40 times pin cushion blocks

Pin cushion block on 42

The 42a protuberance

46,52 probe aperture

The 48a upper/lower positions is adjusted piece

48b adjusts piece in last position

50 patchholes

54 probes

56 look for a pin

The 58CCD imaging apparatus

60 testing fixtures

62 camera lenses

70b substrate orientation recess

74c fastens recess

78 pin cushion blocks

80 first axis of swing

84 second axis of swing

86 rod units

88 bars are pressed pressing spring

Embodiment

Below, referring to figs. 1 through Figure 14 the first embodiment of the present invention is described.Fig. 1 is the side view of pressed state of first embodiment of Relay linker of the present invention.Fig. 2 is the vertical view of Fig. 1.Fig. 3 is the side view of the open state of Fig. 1.Fig. 4 is the decomposition diagram of Fig. 1.Fig. 5 is the decomposition diagram of upper and lower pin cushion block and floating guiding body.Fig. 6 is the decomposition diagram of pin cushion block.Fig. 7 is the decomposition diagram of following pin cushion block, wiring substrate and basic components.Fig. 8 is the outward appearance skeleton view that is examined side-connector that is provided with on the inspection substrate with Relay linker inspection of the present invention.Fig. 9 is the longitudinal section of pin cushion block.Figure 10 is the figure that is illustrated in the terminal figure that is provided with on the wiring substrate.Figure 11 is the decomposition diagram of pressing operation parts, hinge member and basic components.Figure 12 is that the A-A section of Fig. 2 is to view.Figure 13 represents with the rib that is arranged on the hinge member wiring substrate to be pressed in structure on the basic components, (a) is the partial cut-out side view, (b) is rear view.Figure 14 is the figure that the dip plane role of chamfering shape is cut into the upper front end of pressing operation parts in explanation.

In Fig. 1 to Figure 14, the Relay linker of the first embodiment of the present invention is constructed as follows.At first, hinge member 12 is fixed on the basic components 10 by screw 10a, on this hinge member 12, can be equipped with pressing operation parts 14 with freely swinging by the axis of swing 16 that perforation sets.And, be arranged between the rear side and hinge member 12 of these pressing operation parts 14 shrinking by pressing spring 18.In addition, in the front of pressing operation parts 14, can be equipped with briquetting 22 by connecting second axis of swing 20 that sets abreast with axis of swing 16 with freely swinging.And, be equipped with the floating guiding body 26 that constitutes by insulating material, this floating guiding body 26 can be with respect to the pin cushion block 24 that constitutes by insulating material on the roughly swaying direction linearity ground of the front of pressing operation parts 14 near separating, and the distance of detaching direction is limited.And the side opposite with floating guiding body 26 that wiring substrate 28 is fixed on pin cushion block 24 by screw 28a, is fixed on pin cushion block 24 and wiring substrate 28 on the basic components 10 by screw 24a as basic components 10 sides with this wiring substrate 28.And outstanding the setting fastens supporting part 26f on floating guiding body 26, and the outstanding fastening projection 14a that is provided with on pressing operation parts 14 under the open state of pressing operation parts 14, makes to fasten projection 14a and fasten supporting part 26f fastening.Therefore, when pressing operation parts 14 are in open state, floating guiding body 26 are separated from pin cushion block 24, and limit it to pin cushion block 24 side shiftings.In addition, under the open state of pressing operation parts 14, make distolateral thereafter and hinge member 12 butts and limit swing, being played a role as restrictions of hinge member 12 by abutment portion.

Make floating guiding body 26 with respect to pin cushion block 24 according to the front of pressing operation parts 14 be open state and closed pressed state swing and in Fig. 1 and Fig. 3 the above-below direction at accompanying drawing freely move by straight line.And, on pin cushion block 24, be embedded with linear axes 30a at above-below direction, on floating guiding body 26, set linear cartridge unit 30b at above-below direction, make it to slide freely so that in this linearity cartridge unit 30b, insert this linear axes 30a, can realize that this straight line moves by the linear steering body 30 that constitutes by described linear axes 30a and linear cartridge unit 30b at direction of principal axis.In addition, with respect to pin cushion block 24 and floating guiding body 26, be equipped with the unsteady pin 32 that two ends have huge portion in the above-below direction perforation.Distance between the huge portion at two ends, the stubborn incompatible adjustment of the adjustment screw 32a that can be provided with by side at one end.And floating spring 34 contractions that trip is embedded on this unsteady pin 32 are arranged between pin cushion block 24 and the floating guiding body 26, floating guiding body 26 is carried out elasticity to the direction of separating from pin cushion block 24 energize.Thereby, adjustment by the pin 32 that floats at random limits floating guiding body 26 from pin cushion block 24 separable distances, and shrinks the elastic force that is provided with by floating spring 34, make under the open state of pressing operation parts 14, become the state that floating guiding body 26 separates from pin cushion block 24.

On floating guiding body 26, be provided with and carry the substrate set inspection substrate 36 and carry face 26a, carry on face 26a at this substrate and wear guide hole 26b, can chimeric insertion among this guide hole 26b be provided in and be examined side-connector 38 on the inspection substrate 36.Make to be examined the outer perimeter wall of side-connector 38 and the internal perisporium butt of this guide hole 26b, thereby carry out the location that is examined side-connector 38 of being inserted.And, carry on the face 26a at the substrate of this guide hole 26b periphery, the structure of any this restriction site that the inspection substrate 36 that is carried is positioned is not set, have enough big plane.In addition, carry at substrate on the face of pin cushion block 24 sides of reverse side of face 26a, showing the guide hole 26b that wears greatly is the center, is provided with recess 26c.The thickness that the bottom surface of this recess 26c and substrate carry face 26a is the degree of depth of guide hole 26b, cuts and waits and adjustment forms consistent with the height that is examined side-connector 38 through substrate being carried face 26a.In addition, the two ends reverse side in that substrate carries face 26a is provided with the reinforcement rib 26d that is used to increase physical strength.

Pin cushion block 24 constitutes: following pin cushion block 40 and last pin cushion block 42 form one by screw 42b, be provided with protuberance 42a up on last pin cushion block 42, the recess 26c of itself and floating guiding body 26 is chimeric and pin cushion block 24 and floating guiding body 26 are relatively located.In addition, on following pin cushion block 40 and last pin cushion block 42, be equipped with a plurality of probe aperture 46 with becoming row, it is connected at above-below direction.And, on down pin cushion block 40 and last pin cushion block 42, connect and wear patchhole 50 at above-below direction, in this patchhole 50, insert the position that constitutes by insulating material and adjust piece 48.It also is to adjust piece 48b by upper/lower positions adjustment piece 48a and last position to constitute that piece 48 is adjusted in the position, suitably becomes one, and wears a plurality of probe aperture 52 in the above-below direction perforation with forming row.In patchhole 50, adjust the position and adjust piece 48, so that the position of probe aperture 52 is suitable with the distance of the probe aperture 46 that wears on following pin cushion block 40 and last pin cushion block 42, and with looking for a pin 56 to be fixed.In addition, in patchhole 50, the position is adjusted piece 48 and is set to and can only moves in the direction that the distance between the probe aperture 46,52 is adjusted, and can not move in the direction of quadrature with it.In addition, probe aperture 46,52 forms: be provided with narrow in the upper end, probe 54 can suitably insert from downside, and can not deviate from from above.And, wear the spacing of probe aperture 46,52, to cooperate the spacing P of the terminal 38a that is examined side-connector 38 as shown in Figure 8 to wear certainly.And the probe aperture 52 that piece 48 is adjusted in the position also will suitably be adjusted certainly with the distance between the probe aperture 46 of following pin cushion block 40 and last pin cushion block 42, to make it corresponding apart from d with between two of the terminal 38a that is examined side-connector 38 is listed as.And, probe 54 is inserted into the probe aperture 46,52 with suitable quantity from downside in position according to the terminal 38a that is examined side-connector 38.

Pin cushion block 24 with respect to inserted probe 54 in probe aperture 46,52 sets wiring substrate 28 from downside, and is fixed with screw 28a and it is become one from downside.Because of fixing of this wiring substrate 28, probe can not deviate from from probe aperture 46,52.And, the pin cushion block 24 that is fixed with this wiring substrate 28 is fixed on the basic components 10 with screw 24a from the top.In addition, basic components 10 also can suitably be fixed on not shown gauging fixture etc. with fixed screw 10b in advance.Thereby form: with respect to the terminal 38a that is examined side-connector 38 shown in Figure 8, as shown in Figure 9, the plunger that is inserted into the probe 54 in the probe aperture 46,52 is butt with it.And as shown in figure 10, the terminal figure 28b that is arranged on the wiring substrate 28 forms more longways at moving direction, moves even piece 48 is adjusted in the position, and the plunger of probe 54 is butt with it also.

And the pressing operation parts 14 that can be provided on the hinge member 12 are limited by hinge member 12 moving of the swaying direction that becomes open state with freely swinging.Become under the mobile state that is restricted of swaying direction of open state at this, make above-mentioned fastening projection 14a with fasten supporting part 26f and fasten.And, on hinge member 12, be provided with rib 12a as shown in figure 13, its effect be with wiring substrate 28 from last by being pressed in basic components 10 sides, restriction wiring substrate 28 is lifted up from basic components 10.

On pressing operation parts 14,, wear porose 14c and adjustment hole 14d respectively in the face of linear steering body 30 and unsteady pin 32.In addition, on floating guiding body 26, in the face of screw 24a wears porose 26e, the pin cushion block 24 that this screw 24a will be fixed with wiring substrate 28 is fixed on the basic components 10.And the upper front end of pressing operation parts 14 forms the dip plane 14b of chamfering shape.The physical dimension of first embodiment of Relay linker of the present invention is: high 27mm, and wide 26mm, long 60mm can take and check operation.

In said structure, the elastic force of pressing spring 18 is pressed in opposing, pressing operation parts 14 are carried out swinging operation and make it to become open state, on the substrate lift-launch face 26a of floating guiding body 26, set inspection substrate 36, will be examined side-connector 38 chimeric being inserted among the guide hole 26b.By this chimeric insertion, be examined the location of side-connector 38 to guide hole 26b.At this, work without any the power of locating on one's body 36 of inspection substrates, worked with respect to the power of inspection substrate 36 to the side dislocation in the position that is examined side-connector 38.Make these pressing operation parts 14 keep open state during, the fastening supporting part 26f of the fastening projection 14a of pressing operation parts 14 and floating guiding body 26 fastens, become the state that floating guiding body 26 separates from pin cushion block 24, thereby do not have inadvertently situation to pin cushion block 24 side shiftings.Thereby, do not have following worry: be about in the chimeric operation process that is inserted among the guide hole 26b will being examined side-connector 38, floating guiding body 26 moves downwards because of carelessness, and probe 54 and posture be inappropriate to be examined side-connector 38 butts and to make and be examined side-connector 38 or probe 54 breakages.And, in case make pressing operation parts 14 become pressed state by elastic force closed front end side by pressing spring 18, floating guiding body 26 just carries out straight line to pin cushion block 24 sides and moves by linear steering body 30, the plunger of probe 54 and the terminal 38a butt that is examined side-connector 38.At this moment, the recess 26c of floating guiding body 26 and the protuberance 42a of pin cushion block 24 are chimeric, cooperate thereby make floating guiding body 26 and pin cushion block 24 carry out relative position exactly.Thereby make to be examined side-connector 38 and to be located with respect to pin cushion block 24, terminal 38a is located on probe 54.In addition, make pressing operation parts 14 become the elastic force of pressed state, be set at the elastic force that floating guiding body 26 is separated greater than floating spring 34 from pin cushion block 24 certainly by pressing spring 18.And, because it is consistent with the height that is examined side-connector 38 that the degree of depth of the guide hole 26b of floating guiding body 26 is set at, so the bottom surface of chimeric face that is inserted in pin cushion block 24 sides that are examined side-connector 38 among the guide hole 26b and recess 26c is in same plane, bottom surface with this recess 26c is that benchmark sets probe 54, so that the projecting height of plunger is suitable, just can make the plunger and the terminal 38a butt that is examined side-connector 38 of probe 54 thus with suitable elastic force.

Pressing operation parts 14 constitute by axis of swing 16 and can freely swing between open state and pressed state, and it is relatively simple for structure.And, because be provided with briquetting 22 by second axis of swing 20, so, floating guiding body 26 can be pushed exactly towards the direction near pin cushion block 24 sides by this briquetting 22 in the front of pressing operation parts 14.

At this, for the corresponding various different sizes of Relay linker of the present invention be examined side-connector 38, at first be examined side-connector 38 and correspondingly suitably adjust the size and the degree of depth thereof of the guide hole 26b that sets floating guiding body 26.The adjustment of the degree of depth of guide hole 26b can be undertaken by suitably cutting modes such as substrate lift-launch face 26a.In addition, in pin cushion block 24 sides, also by in patchhole 50 suitably desired location adjust the fixed position of piece 48, thereby make consistent between distance and the two row terminal 38a that are examined side-connector 38 between the two row probe aperture 46,52 apart from d.To this, can realize by suitably wearing the position of inserting the hole of looking for a pin 56.In addition, yes inserts probe 54 with respect to probe aperture 46,52, to make it in the face of being examined the terminal 38a of side-connector 38.So, in order to make the operation that is examined side-connector 38 of the corresponding various different sizes of Relay linker of the present invention, as long as the various parts before the final processing that is prepared in advance are just fairly simple, compare with the various parts of new processing and fabricating, can promptly carry out correspondence.

The distance that floating guiding body 26 leaves to detaching direction from pin cushion block 24, can adjust arbitrarily by unsteady pin 30, but, when the distance that floating guiding body 26 is left because of use from pin cushion block 24 to detaching direction changes, as long as suitably insert instrument with hole 14d, the adjustment screw 32a of unsteady pin 32 stubborn closed the insertion state adjust and get final product from the adjustment that is arranged on the pressing operation parts 14.In addition, when changing, under state, directly hinge member 12 is pulled down from basic components 10 with pressing operation parts 14 in probe 54 breakages, insert instrument from the hole 26e that is arranged on the floating guiding body 26, screw 24a is pulled down from basic components 10.And then, make the pin cushion block 24 pulled down up with wiring substrate 28, wiring substrate 28 is dismantled from pin cushion block 24 after pulling down screw 28a.Then, only need from probe aperture 46,52, to take out damaged and probe 54 that need to change is changed and got final product.

Though wiring substrate 28 is fixed on the pin cushion block 24 by screw 28a, might bends because of the heat etc. of welding, and become the state that its rear end side is lifted up from basic components 10.Therefore form: by the rib 12a that on hinge member 12, is provided with, with wiring substrate 28 by being pressed in basic components 10 sides.In addition, if inspection substrate 36 is a photographing module, can be distolateral at another of inspection substrate 36, promptly be provided with the opposite side of a side that is examined side-connector 38, set CCD imaging apparatus 58.And, set be examined side-connector 38 and CCD imaging apparatus 58 the position as shown in figure 14, what have is more approaching.Therefore, the front end outside portion of floating guiding body 26 sides of pressing operation parts 14 is formed the dip plane 14b of chamfering shape, thereby can enlarge the visual field of the top of CCD imaging apparatus 58 significantly, in the visual field without any obstacle the camera lens 62 on making this CCD imaging apparatus 58 and being located at the testing fixture 60 that is used to check relative.

Below, with reference to Figure 15 to Figure 21 the second embodiment of the present invention is described.Figure 15 is the side view of pressed state of second embodiment of Relay linker of the present invention.Figure 16 is the longitudinal section of Figure 15.Figure 17 is the side view of the open state of Figure 15.Figure 18 is the longitudinal section of Figure 17.Figure 19 is the decomposition diagram of Figure 15.Figure 20 be under open state, insert inspection substrate among second embodiment want portion's longitudinal profile enlarged drawing.Figure 21 be insert among second embodiment become pressed state behind the inspection substrate want portion's longitudinal profile enlarged drawing.In Figure 15 to Figure 21, to giving identical label with Fig. 1 to parts object identical or that be equal to shown in Figure 14, thereby the repetitive description thereof will be omitted.

In Figure 15 to Figure 21, the Relay linker of the second embodiment of the present invention is constructed as follows.With respect to the basic components 70 that constitute by insulating material, be equipped with the floating guiding body 74 that constitutes by insulating material, this floating guiding body 74 can be in the free butt separation of vertical direction with respect to the substrate lift-launch face 70a of the front that is located at basic components 70 by being embedded in the linear steering body 72,72 on the basic components 70.In addition, clip wiring substrate 28,, set by Screw etc. and to be fixed with pin cushion block 24, set by Screw etc. in rear end side and be fixed with the hinged block 78 that constitutes by insulating material in the front of the pressing operation parts 76 that constitute by insulating material.And, make first axis of swing 80 that is located on the basic components 70 connect hinged block 78 and can set pressing operation parts 76 with freely swinging.At this, pin cushion block 24 forms and is positioned at and is equipped on the position that the floating guiding body 74 on the basic components 70 is faced.And, between hinged block 78 and basic components 70, shrink to be provided with and to press pressing spring 82,82, pin cushion block 24 is energized carrying out elasticity with the direction of floating guiding body 74 butts.And, on basic components 70, being equipped with rod unit 86, this rod unit 86 is by freely swinging with first axis of swing, 80 parallel second axis of swing 84 that set.The fastening recess 74c of one end of this rod unit 86 and floating guiding body 74 fastens, the other end is pressed against on the hinged block 78 from the swing of floating guiding body 74 to the pressing operation parts 76 of detaching direction swing by making pin cushion block 24, makes rod unit 86 swings.And, between rod unit 86 and basic components 70, shrink and bar is set by pressing spring 88, floating guiding body 74 is applied the elasticity power of energizing in the direction with basic components 70 butts.In addition, be provided with the dip plane 76a of chamfering shape in the front end outside portion that is equipped with pin cushion block 24 1 sides of pressing operation parts 76.

Carry on the face 70a at the substrate of basic components 70, from edge part, be provided with substrate orientation recess 70b, this substrate orientation recess 70b has the shape of fore-end of the inserting side of inspection substrate 36.The amplitude of the edge part side of this substrate orientation recess 70b is expanded into taper, makes inspection substrate 36 insert easily.And, be examined side-connector 38 in the face of being provided on the inspection substrate 36 towards upside, wear wherein the guide hole 74a that can chimeric insertion be examined side-connector 38 on floating guiding body 74, described inspection substrate 36 inserts size by this substrate orientation recess 70b restriction and positions with respect to basic components 70 to the dislocation of side.And showing this guide hole 74a greatly is the center, is provided with recess 74b on the face of pin cushion block 24 sides of floating guiding body 74.At this, the degree of depth of guide hole 74a forms consistent with the height that is examined side-connector 38.The structure of pin cushion block 24 is the same with first embodiment, but the point different with first embodiment is: probe 54,54 ... be provided on the pressing operation parts 76 towards floating guiding body 74 side-prominently.In addition, at the chimeric protuberance 42a of recess 74b that is provided with and is located on the pin cushion block 24 on the floating guiding body 74, this is the same with first embodiment.

In second embodiment of above-mentioned formation, if opposing is pushed hinged block 78 sides of the rear end side of pressing operation parts 76 by the elastic force of pressing spring 82,82, then pressing operation parts 76 swing, the pin cushion block 24 of front moves to detaching direction from basic components 70.Be hinged piece 78 thereupon the other end of rod unit 86 and push and resist bar and swing by the elastic force of pressing spring 88, the floating guiding body 74 that the end with rod unit 86 is fastened moves to detaching direction from basic components 70, thereby becomes open state.And, as shown in figure 20, between basic components 70 and floating guiding body 74, inserting inspection substrate 36,70b positions it by the substrate orientation recess.At this, be examined side-connector 38 and be in the state that sets towards floating guiding body 74.Under above-mentioned state, in case remove pushing of pressing operation parts 76, then pressing operation parts 76 are because of swinging by the elastic force of pressing spring 82,82, the pin cushion block 24 and floating guiding body 74 butts of front, meanwhile, rod unit 86 is also swung by the elastic force of pressing spring 88 because of bar, floating guiding body 74 move and with basic components 70 butts.So, be provided in being examined among the chimeric guide hole 74a that is inserted into floating guiding body 74 of side-connector 38 on the inspection substrate 36, and then the probe 54,54 of pin cushion block 24 ... with the terminal 38a, the 38a that are examined side-connector 38 ... butt and being electrically connected.

In this second embodiment,, then can check will being examined under the state of upside that side-connector 38 is provided in inspection substrate 36 if basic components 70 are provided in downside.And, carry the insertion size of the substrate orientation recess 70b restriction inspection substrate 36 on the face 70a and to the dislocation of side by the substrate that is located at basic components 70, thereby inspection substrate 36 is located with respect to basic components 70.And, can set floating guiding body 74 discretely because carry face 70a at the free butt of vertical direction by linear steering body 72,72 with respect to substrate, so the guide hole 74a of floating guiding body 74 is with respect to being provided in being examined side-connector 38 and can relatively being located on the inspection substrate 36, thereby by floating guiding body 74 near and butt, make to be examined that side-connector 38 is chimeric exactly to be inserted among its guide hole 74a.At this, because floating guiding body 74 carries face 70a in the approaching separation of vertical direction with respect to substrate, so, when being examined that side-connector 38 is chimeric to be inserted among the guide hole 74a, do not make to be examined side-connector 38 and to have an effect, do not make to be examined side-connector 38 and relatively to have an effect yet to the power of side dislocation with respect to inspection substrate 36 to the power of side dislocation.And pressing operation parts 76 constitute and can freely swing with respect to basic components 70, and it is simple in structure.And, if insert inspection substrate 36, remove pushing of pressing operation parts 76, then become pin cushion block 24 by being pressed in the pressed state that is examined on the side-connector 38 because of elastic force by pressing spring 82,82, in mensuration, do not need pressing operation, its processing ease.In addition, if pressing operation parts 76 are pushed and made it swing, then follow this swing, floating guiding body 74 moves in the direction from basic components 70 separation linkedly, so the insertion of inspection substrate 36 is easy.And, pressing operation parts 76 are carried out pressing operation during, by the effect of rod unit 86, can limit floating guiding body 74 like clockwork to basic components 70 side shiftings.

In addition, though in a second embodiment, pressing operation parts 76 are being carried out under the open state of pressing operation, limit floating guiding body 74 to prevent that it is to basic components 70 side shiftings by rod unit 86, but be not limited thereto, also can between floating guiding body 74 and basic components 70, shrink to be provided with floating guiding body 74 is carried out the spring that elasticity is energized in the direction of separating from basic components 70, when pressing operation parts 76 become open state, elastic force by this spring, floating guiding body 74 is moved in the direction of separating from basic components 70, thereby allow and between floating guiding body 74 and basic components 70, insert inspection substrate 36.

Claims (15)

1. Relay linker, the terminal butt that is examined side-connector on being used to make probe and be provided in inspection substrate and being electrically connected with analyzer, it is characterized in that, constitute: set the floating guiding body that constitutes by insulating material, making it can be free near separation with respect to the pin cushion block that is made of insulating material, and it is carried out elasticity at detaching direction energize; On described floating guiding body, wear and make the described guide hole that side-connector is located towards the chimeric insertion of described pin cushion block side that is examined; In the face of the chimeric described terminal that is examined side-connector that is inserted in this guide hole, set probe near detaching direction as direction of principal axis with described floating guiding body on described pin cushion block; Setting is operating as the pressing operation parts of open state and pressed state, this open state is to allow that the described state that is examined side-connector chimeric insertion in the described guide hole of described floating guiding body, this pressed state are to be inserted in the described side-connector that is examined in the described floating guiding body by the state that is pressed in described pin cushion block side with chimeric.

2. Relay linker according to claim 1, it is characterized in that, constitute: on described pressing operation parts, the fastening projection is set, and on described floating guiding body, the fastening supporting part is set, under the open state of described pressing operation parts, described fastening projection and described fastening supporting part fasten, and limit described floating guiding body thus to described pin cushion block side shifting.

3. Relay linker according to claim 1, it is characterized in that, constitute: described pressing operation parts are adapted to by axis of swing can freely swing in described open state and described pressed state, this axis of swing is provided in chimeric and is inserted in described in the described guide hole and is examined side-connector in the face of on the parallel face of the face of described pin cushion block side, and can set briquetting by second axis of swing parallel with described axis of swing pushing the described front that is examined side-connector with freely swinging.

4. Relay linker according to claim 1, it is characterized in that, constitute: on described floating guiding body and described pin cushion block, be provided in the unsteady pin that two ends have huge portion connecting of described floating guiding body near detaching direction, the distance that can move to detaching direction from described pin cushion block by huge of the described two ends described floating guiding body of restriction, described unsteady pin upstream embedding floating spring, and its contraction is arranged between described floating guiding body and the described pin cushion block.

5. Relay linker according to claim 4, it is characterized in that, constitute: described unsteady pin by with the distolateral adjustment screw close of twisting of one to adjusting in the distance that described detaching direction moves, in the face of described adjustment screw, on described pressing operation parts, wear to adjust and use the hole, thereby can adjust described adjustment screw from the outside.

6. Relay linker according to claim 1, it is characterized in that, constitute: with the described side-connector that is examined on the chimeric substrate lift-launch face that is inserted into the described floating guiding body in the described guide hole of described pin cushion block side, be formed with plane greater than described inspection substrate, be examined under the chimeric state that is inserted in the described guide hole of side-connector described, described inspection substrate is not subjected to any position limit.

7. Relay linker according to claim 2, it is characterized in that, constitute: the described pressing operation parts that are provided with freely swinging limit its restrictions to the swing of described open state side, limiting under the state of described pressing operation parts with described restrictions, described fastening projection and described fastening supporting part are fastened.

8. Relay linker, the terminal butt that is examined side-connector on being used to make probe and be provided in inspection substrate and being electrically connected with analyzer, it is characterized in that, constitute: set the floating guiding body that constitutes by insulating material, make it and to separate with respect to the free butt of the basic components that constitute by insulating material; Be located in described inspection substrate is inserted under the state between described basic components and the described floating guiding body, make describedly to be examined that side-connector is chimeric to be inserted in the described floating guiding body and the guide hole that positions; On described basic components, set the pressing operation parts, make it to clamp described floating guiding body, and make the described floating guiding side can be free near separating; On described pressing operation parts, described floating guiding body is set the pin cushion block that is made of insulating material, on described pin cushion block, set probe, make it under the state of described pin cushion block and described floating guiding body butt, with the chimeric described terminal butt that is examined side-connector that is inserted in the described guide hole; Make and the operation interlock of the described pressing operation parts of the direction that described pin cushion block is separated from described floating guiding body, described floating guiding body is separated from described basic components; Make and to operate by open state and pressed state described pressing operation parts, this open state allows that described inspection substrate inserts between described basic components and described floating guiding body, this pressed state be with described pin cushion block by being pressed in the described side-connector side that is examined, this is examined in the chimeric described guide hole that is inserted in described floating guiding body of side-connector.

9. Relay linker according to claim 8, it is characterized in that, constitute: in the face of the described guide hole of described floating guiding body, on the substrate lift-launch face that is arranged on the described basic components, from edge part, setting has the substrate orientation recess of shape of the inserting side fore-end of described inspection substrate, by the insertion size of the described inspection substrate of described substrate orientation recesses limit with to the dislocation of side, thereby described inspection substrate is positioned.

10. Relay linker according to claim 8 is characterized in that, constitutes: described floating guiding body is by the linear steering body guiding that is arranged on the described basic components, carries face with respect to the substrate of described basic components and separates at the vertical direction butt.

11. Relay linker according to claim 8, it is characterized in that, constitute: can set described pressing operation parts with freely swinging, so that described floating guiding side is with respect to the approaching separation of described basic components, and between described pressing operation parts and described basic components, shrink to be provided with and press pressing spring, make it to carry out elasticity and energize in the approaching direction in the described floating guiding side of described pressing operation parts.

12. Relay linker according to claim 8, it is characterized in that, constitute: can set described pressing operation parts with freely swinging, so that described floating guiding side is with respect to the approaching separation of described basic components, and set rod unit, make it with respect to described basic components, can freely swing by the axis of swing parallel with the axis of swing of described pressing operation parts, and an end of described rod unit and described floating guiding body are fastened, the other end is pressed by the operation of described pressing operation parts, along with swing to detaching direction from described basic components on the described floating guiding side of described pressing operation parts, described floating guiding body is swung to detaching direction from described basic components, thereby becomes described open state.

13. according to claim 1 or 8 described Relay linkers, it is characterized in that, constitute: make the degree of depth that is located in the described guide hole on the described floating guiding body consistent with the described height that is examined side-connector.

14. according to claim 1 or 8 described Relay linkers, it is characterized in that, constitute: on the face of the described pin cushion block side of described floating guiding body, recess is set, on the face on the described floating guiding side of described pin cushion block, be provided with and the chimeric protuberance of described recess, by the fastening of described recess and described protuberance, described floating guiding body and described pin cushion block are relatively positioned.

15. according to claim 1 or 8 described Relay linkers, it is characterized in that, constitute: the front end outside portion on the described floating guiding side of described pressing operation parts forms the dip plane of chamfering shape.

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