CN110447147A - The method of osculating element and this osculating element of manufacture - Google Patents

Abstract

The present invention relates to a kind of osculating element and the methods of this osculating element (10) of manufacture, the osculating element has at least rows (30, 35, 40, 45) and have the first connecting side (20) contact shell (15), wherein rows (30, 35, 40, 45) include multiple same configurations contact element (55, 90, 95, 100), they are separated from each other arrangement, wherein contact element (55, 90, 95, 100) it passes through the shell wall (60) of contact shell (15) and is respectively provided with contact portion (85 at the first connecting side (20), 105, 110, 115), wherein the first connecting side (20) has at least one recess portion (135), its center dant (135) and contact portion (85, 105, 11 0,115) arranged spaced apart.

Description

The method of osculating element and this osculating element of manufacture

Technical field

The present invention relates to osculating element according to claim 1 and this osculating elements of manufacture according to claim 13 Method.

Background technique

The known osculating element with multiple contacts, wherein each rows have contact element, the contact element It arranges with configuring and be separated from each other identically in relation to each other and embarks on journey.For positioning contact row, they are in the first injection-molded stage In together with substrate injection molding so that the position of each contact element relative to each other is fixed.By substrate and rows It is concomitantly introduced into the injection molding for contact shell, and finally with the substance injection molding for contact shell around.Knot Fruit needs multiple injection molding process, these techniques are both expensive and time consuming.

Problem of the invention is to provide a kind of improved osculating element and a kind of for manufacturing the improvement of this osculating element Manufacturing method.

Summary of the invention

The above problem is solved by osculating element according to claim 1 and method according to claim 13.It is advantageous Embodiment is described in detail in the dependent claims.

It has realized that improved osculating element can be provided by a kind of osculating element, which includes at least one A rows and contact shell with the first connecting side.Rows have the contact element of multiple same configurations, the contact Element is arranged with being separated from each other.Contact element passes through the shell wall of contact shell and each of which has in the first connecting side There is contact portion.First connecting side has at least one recess portion, and the recess portion is arranged to be spaced apart with contact portion.

As a result, on the one hand can reduce the weight of osculating element, it on the other hand can be to avoid the material of contact interior of shell Transition, and especially can quickly and easily manufacture osculating element.

In another embodiment, recess portion is free.Recess portion is preferably configured to pass through openings and connects the first connecting side It is connected to the interior of shell of contact shell.Alternatively, recess portion is preferably at least partially filled with the substance of contact shell.

In another embodiment, contact element has the first pontes and at least second connecting portion point, and described second connects Connect be partially disposed on the first pontes on the side of contact portion.The first pontes is relative to second connecting portion point It is in tilted layout.

In another embodiment, contact element have be transversely arranged on second connecting portion respectively the first widened section, Center dant is arranged between the first widened section and the first pontes.

In another embodiment, the first widened section has the first supporting surface in the side towards the first pontes, First supporting surface is preferably parallel to recess portion and/or the first pontes.

In another embodiment, the first widened section is arranged in the side away from the first pontes of second connecting portion point On.

In another embodiment, contact element has the second widened section, and the second widened section is arranged in second connecting portion On the side towards the first pontes divided.Second widened section deviates the first widened section arrangement.Thus, it is possible to ensure spy Not good stability, the inclination of contact element especially during injection-molded osculating element, wherein widened section is at least partly Ground is injection-molded around.

In another embodiment, recess portion is arranged in cloth between two be adjacently positioned side by side each other the contact element of rows It sets in a first direction, preferably in a lateral direction, wherein first direction is orientated perpendicular to the first contact portion, and recess portion deviates touching Head is gone perpendicular to first direction arrangement in a second direction, preferably vertical direction.

In another embodiment, the first connecting side has multiple recess portions, and center dant preferably configures in the same manner, concave Portion is separated from each other arrangement in recess portion row.

In another embodiment, recess portion row is arranged in the planes.The first pontes of the contact element of rows is arranged In another plane, which is parallel to another horizontal layout.

In another embodiment, contact shell has the second connecting side, wherein in each comfortable second connecting side of contact element With another contact portion, wherein another contact portion is connected to second connecting portion point, wherein another contact portion and second connects Socket part point is preferably aligned.

In another embodiment, shell wall is arranged between recess portion and the first contact portion, and shell wall is by recess portion and The separation of one contact portion.

Furthermore, it has been recognized that a kind of improved method for manufacturing this osculating element can be provided, this method has Following steps, wherein step is carried out according to following sequences: the substance and rows of injection molding, injection moldable are provided, it is described Rows have the contact element of multiple same configurations of side-by-side spaced apart arrangement each other, and stablize core and holding meanss, will It is inserted into predetermined position between the contact element that the joint element of stable core is adjacently positioned at two, rows are located in injection mold In tool, injection molding and at least partly injection-molded around contact element is introduced a substance into, supporting role is on stablizing core Rows at least one power, hardening material, and remove the stable core and in the first connecting side of contact shell Configure recess portion.

In another embodiment, it after the first part of hardening material, temporarily removes and stablizes core, wherein temporary After ground removes stable core, the second part of substance flows into recess portion and at least partly fills recess portion, wherein the second of substance Divide and is hardened.

In another embodiment, it is inserted between the contact element that the joint element of another stable core is adjacently positioned at two another One predetermined position, wherein contact element is fixed by joint element, avoids tilting by leaning on joint element.

In another embodiment, tug button core is introduced into injection molding, wherein tug button core is fixed stably at least one direction Determine the end position of core.

Detailed description of the invention

The present invention is explained in greater detail by attached drawing below.In the accompanying drawings:

Fig. 1 shows the perspective view of osculating element；

Fig. 2 shows the perspective views of osculating element rows as shown in Figure 1；

Fig. 3 shows the notch for the plan view for stablizing core from first；

Fig. 4 shows the flow chart of the manufacturing method for manufacturing osculating element；

Fig. 5 shows the perspective view of the osculating element 10 after third method step；

Fig. 6 is shown passes through osculating element along the section view of cutting planes A-A shown in FIG. 1 after the 5th method and step Figure；And

Fig. 7 shows the notch from the cross-sectional view for passing through osculating element after the 7th method and step.

Specific embodiment

Hereinafter, reference frame 5 in the accompanying drawings, wherein coordinate system 5 is for example configured to right hand system.Coordinate system includes X-axis (longitudinal direction), y-axis (transverse direction) and z-axis (vertical direction).Certainly, coordinate system 5 configures in which can also be different.

Fig. 1 shows the perspective view of osculating element 10.Osculating element 10 has the contact shell with the first connecting side 20 15.Contact shell 15 defines interior of shell 25 (being arranged in below the plotting planes in Fig. 1), wherein the first such as cloth of connecting side 20 It sets on the side away from interior of shell 25.

Contact shell 15 has contact jack 65.Contact jack 65 is defined by reception bar 70, for example, in transverse direction and erecting Histogram is upward.In a longitudinal direction, contact jack 65 is defined by shell wall 60, and shell wall 60 is in one towards the first connecting side 20 Have on side and receives base portion 75.

It can be inserted in contact jack 65 by receiving another osculating element (not shown) that bar 70 laterally fastens.This Outside, osculating element 10 can have clamp device 80, which is fastened to contact shell 15 for other osculating element.

As an example, osculating element 10 includes the first rows 30.In addition, osculating element 10 is for example including the first rows 35, the second rows 35, third rows 40 and the 4th rows 45.Rows 30,35,40,45 are spaced apart relative to each other Ground is stacked up and down.

First rows 30 have multiple same configurations first contact element 55, they for example in first straight line 50 With spacing arrangement regular each other in the first row 49.First contact element 55 passes through the shell wall 60 of contact shell 15, China and foreign countries Shell wall 60 separates the first connecting side 20 and interior of shell 25.Here, the first contact portion 85 of contact element 55 is respectively provided with To the first grid spacing a of next first contact portion 85₁。

Each first contact element 55 has the first contact portion 85.In first contact portion 85 of first contact element 55 Each protrude past receive base portion 75 enter contact jack 65.In embodiment, the first contact portion 85 is configured to stitch Contact.First contact portion 85 is obviously also configurable to bushing contact or can be configured differently.As an example, first connects Contact portion point 85 extends in the x direction.

As an example, the first contact portion 85 is arranged perpendicularly to receive the traveling of base portion 75 and prolong in a longitudinal direction It stretches.First contact portion 85 is arranged in parallel at regular intervals relative to each other in a lateral direction.As an example, the first contact Part 85 is arranged in the first plane 162 (it is configured to x/y plane).First straight line 50 is oriented perpendicular to the first contact portion 85 And it is equally arranged in x/y plane.

In embodiment, as an example, the second rows 35 have the second contact element 90 of multiple mutually the same configurations, And third rows 40 have the third contact element 95 of multiple mutually the same configurations.4th rows 45 have it is multiple each other 4th contact element 100 of same configuration.

Second, third and the 4th contact element 90,95,100 are respectively substantially configured as --- in addition to slight inclined Difference --- it is identical as first contact element 55.

Second contact element 90 also has the second contact portion 105, and third contact element 95 also has third contact portion 110, the 4th contact element 100 also has the 4th contact portion 115, and first to fourth contact portion 85,105,110,115 is respectively It is configured to mutually the same.

First to fourth contact element 55,90,95,100 is arranged in the second row 119, such as in second straight line 120 On, which advances in xz plane.As an example, second straight line 120 is arranged perpendicular to first straight line 50.

In addition, the second contact portion 105 is respectively arranged in the third line 124 at regular intervals relative to each other, such as It is arranged on the third straight line 125 in x/y plane.

Second contact portion 105 is respectively arranged away from next second contact portion, 105 second grid spacing a₂Place.Second net Compartment is away from a₂With the first grid spacing a₁It is identical.

In addition, third contact portion 110 is respectively arranged in fourth line 126 at regular intervals relative to each other, such as It is arranged on the 4th straight line 127 in x/y plane.In addition, the 4th contact portion 115 is respectively relative to each other at regular intervals It is arranged in fifth line 128, such as on the 5th straight line 129 being arranged in x/y plane.

In embodiment, as an example, the first recess portion row 130 is arranged in the second rows 35 and third in the vertical direction In shell wall 60 between rows 40.

First recess portion row 130 is arranged in the second plane 161, which is for example configured to x/y plane.Second is flat Face 161 is parallel to the first plane 162 arrangement.First recess portion row 130 has multiple first recess portions 135, and each first recess portion 135 is matched It is set to mutually the same.First recess portion 135 has third grid spacing a relative to each other₃.As an example, each first recess portion 135 have rectangular section.Each first recess portion 135 extend in a longitudinal direction and be disposed parallel to contact portion 85, 105, it 110,115 advances.For example, the first recess portion 135 of the first recess portion row 130 is arranged in two in a lateral direction respectively Between the contact portion 85,105,110,115 being adjacently positioned, but be arranged as deviateing in the vertical direction contact portion 85, 105,110,115, so that the first recess portion 135 is arranged in Fig. 1 from the upward inclination and offset of the second contact portion 105.First is recessed Each of portion 135 be arranged in being preferably centered rows 30,35,40,45 two contact portions 85,105,110, Between 115.In the vertical direction, the first recess portion 135 is defined by shell wall 60.

As an example, the first recess portion 135 is defined by the bar 140 that defines of contact shell 15 in a lateral direction respectively.It defines Bar 140 is arranged in 85,105,110,115 top of contact portion in second straight line 120.If defining bar 140 and contact portion 85,105,110,115 be incident upon in xy projection plane in a z-direction, then define bar 140 and contact portion 85,105,110, 115 are overlapped in xy projection plane.

In the top of the first recess portion row 130, as an example, guiding bar 145 can be arranged in third rows 40 and first It between recess portion row 130, is projected into contact jack 65, and for when other osculating element is introduced contact jack 65 Other osculating element is guided, and prevents other osculating element from tilting.

Above guiding bar 145, the third contact portion 110 of third rows 40, which protrudes past, receives base portion 75.4th Rows 45 are arranged in 40 top of third rows.Above the 4th rows 45, for example, in the 4th rows 45 and receiving bar Between 70, it is disposed with the second recess portion row 150, with multiple second recess portions 155, they are configured identically in relation to each other.Second recess portion 155 are arranged in the 6th row 156 on the 6th straight line 157.6th row 156 be preferably parallel to first to fifth line 49,119, 124,126,128 arrangement.As an example, the second recess portion row 150 be arranged in the 4th rows 45 away from the first recess portion row 130 Side.

Second recess portion 155 is configurable to identical as the first recess portion 135.Second recess portion 155 can also be with the first recess portion 135 It is configured differently.

Second recess portion 155 extends through shell wall 60 on the longitudinal direction for be parallel to x-axis, and for example cuts with rectangle Face.For example, extension of second recess portion 155 in vertical direction is greater than the first prolonging in vertical direction of recess portion 135 Extending portion point.

First recess portion 135 and the second recess portion 155 are arranged in common third plane 160.As an example, third plane 160 are configured to xz plane.As a result, (it offsets up ground towards the 4th contact portion 115 in the vertical direction to the second recess portion 155 Arrangement, for example, being deviated in the side away from third rows 40) also it is arranged in two the 4th contact portions in a lateral direction respectively Divide between 115.

In embodiment, as an example, the first recess portion 135 and the second recess portion 155 be it is free and be configured to perforation open Mouthful.Here, it is freely understood to mean in the first recess portion 135 or the second recess portion 155 without arrangement other component, it means that The channel that peripheral region 170 is fluidly connected to interior of shell 25 is formed via the first recess portion 135 and the second recess portion 155.The One recess portion 135 and/or the second recess portion 155 can also be at least partially filled with substance 171.

By the way that recess portion 135,155 is arranged, the weight of osculating element 10 can be made to minimize.Furthermore it ensures, in a kind of system It makes in method, it is especially small for manufacturing the quantity of method and step of osculating element 10.In addition, by setting recess portion 135,155, it can It is moulded with manufacturing contact shell 15, such as plastics, especially thermoplasticity with uniform substance 171 in single injection molding process Material.

In Fig. 1, contact portion 85,105,110,115 and recess portion row 130,150 be arranged in straight line 50,120, 125, on 127.Certainly, recess portion row 130,150 can also be arranged on another profile, such as with curve shape.

Fig. 2 shows the perspective views of rows 30,35,40,45 shown in Fig. 1.

Hereafter, as an example, explaining the first contact element 55 of the first rows 30.Second to the 4th contact element 90, 95,100 be configured to it is essentially identical with first contact element 55, wherein the corresponding second to the 4th contact element 90,95,100 Extension is configured differently with first contact element 55.

First contact element 55 also has the first pontes 175 and second connecting portion other than the first contact portion 85 Divide 180.In addition, first contact element 55 includes the 5th contact portion 185, it is arranged in the end opposite with the first contact portion 85 At portion.

Second connecting portion point 180 is obliquely arranged relative to the first pontes 175.Second connecting portion point 180 is preferably It is arranged to the first pontes 175 into right angle.First contact portion 85 and the first pontes 175 are aligned, it is meant that first Coupling part 175 also is disposed in the first plane 162.5th contact portion 185 is also aligned with second connecting portion point 180.In reality Apply in example, as an example, second connecting portion points 180 be configured to it is longer than the first pontes 175.

First widened section 190 is transversely disposed in second connecting portion point 180.As an example, the first widened section 190 With 185 direct neighbor of the 5th contact portion.

First widened section 190 has the first supporting surface 195 in the side towards the first pontes 175.First It holds surface 195 and is parallel to the arrangement of the first pontes 175.In addition, the first supporting surface 195 for example extends in x/y plane.Separately Outside, the first widened section 190 be arranged in the second connecting portion points 180 on the side of the first pontes 175.First Coupling part 190 can also be arranged in the two sides of second connecting portion point 180.It can also only be arranged at the first pontes 175 One the first widened section 190.

The substitution of above-mentioned planar configuration as the first supporting surface 195, the first supporting surface 195 are also configurable to song Line, for example, it is semicircle.

The side surface 200 of second connecting portion point 180 is above second connecting portion point 180 and above the first pontes 190 Plane earth extends.

Second is additionally provided at the second connecting portion of first contact element 55 and second contact element 90 point 180 to widen Part 205.Second widened section 205 is preferably configured to essentially identical with the first widened section 190.Second widened section 205 There is the second supporting surface 210 in the side towards the first pontes 175.As an example, the second supporting surface 210 is configured to X/y plane and be parallel to the first supporting surface 195 orientation.Second connecting portion point 180 is configured in 190 He of the first widened section It is more very thin than at widened section 190,205 between second widened section 205.

The longer configuration of the second connecting portion of first contact element 55 and/or second contact element 90 point 180 in a z-direction In the case where, other widened section 190,205 can be provided at contact element 55,90.It is also envisaged that widened section 190,205 it is configured to the lateral notch in second connecting portion point 180.

Second contact element 90 is configured to essentially identical with first contact element 55.The geometric configuration of second contact element 90 It is different herein, so that second connecting portion point 180 is configured in a z-direction than the second connecting portion of first contact element 55 point 180 It is short.The widened section 190,205 of first contact element 55 and second contact element 90 configures in the same manner in embodiment.First connects Touching element 55 and the widened section 190,205 of second contact element 90 are also configurable to difference.However, it is important here that The widened section 190,205 of two second connecting portions of the arrangement that follows one another in the x direction point 180 is in supporting surface 195,210 Arrangement, configuration and positioning aspect be each configured to it is mutually the same.The widened section 190,205 of contact element 55,90,95,100 It can change in the rows 30,35,40,45 for the contact elements 55,90,95,100 being juxtaposed to each other in y-direction.

Third contact element 95 and the 4th contact element 100 deviate first contact element 55 and second contact element 90, make Second connecting portion point 180 is obtained to be configured in a z-direction than the second connecting portion of first contact element 55 and second contact element 90 Divide 180 much shorters.In addition, eliminating the second widened section 205.

Fig. 3 shows the notch for carrying out the plan view of self-stabilization core 215,250；

Stablizing core 215,250 has the first core segment 220 and the second core segment 225.Second core segment 225 is configured to similar Rake (rake) and for example with joint element 230, joint element 230 is arranged in the third grid spacing a of rule₃Place and Each of which is defined each other by gap 235.Joint element 230 extends in a longitudinal direction.Each joint element 230 is in section In have corresponding to recess portion 135,155 rectangular configuration.First core segment 220 is configured to be substantially similar to plate, wherein with On the adjacent longitudinal direction of first core segment 220, joint element 230 is connected to the first core segment each by fixing end 240 220.It is also envisaged that joint element 230 has different sections, such as polygon, round or ellipse section.Supporting surface 195, it 210 is configured correspondingly to configure corresponding to the upside of joint element 230.

Fig. 4 shows the flow chart of the manufacturing method for manufacturing osculating element 10.Fig. 5 is shown in third method step The perspective view of osculating element 10 after 310, Fig. 6 is shown passes through osculating element 10 along Fig. 1 after the 5th method and step 315 Shown in cutting planes A-A cross-sectional view.Fig. 7 shows coming from across osculating element 10 during the 7th method and step 330 Cross-sectional view notch.

In first method step 300, provide injection molding 245 (being schematically shown in Fig. 6 by chain-dotted line), First, which stablizes core 215 and advantageous second, stablizes core 250 and at least one rows 30,35,40,45.

In second method step 305, by means of holding meanss 260 (in figs. 5 and 6 by a dotted line indicate), at least the One rows 30 are four rows 30,35,40,45 in this embodiment；As an example, they are positioned in injection molding It scheduled first position in 245 inside 265 and is kept by holding meanss 260.Holding meanss 260 can partly be caught And each contact element 55,90,95,100 of fixed contact row 30,35,40,45, such as at the 5th contact portion 185.Example Such as, holding meanss 260 are configurable to fixture.For each 5th contact portion 185, fixture can have recess portion, recessed at this The 5th contact portion 185 is respectively disposed in portion.Holding meanss 260 keep all four rows 30,35,40,45.

Shown (referring to Fig. 5) in third method step 310, tug button core 255 is located in inside in the second predetermined position In 265.In addition, first stable core 215 and the second stable core 250 are located at third and fourth in third method step 310 Predetermined position.

In embodiment, for example, stablize core 215,250 be all inserted into a longitudinal direction inside 265 in it is very deep, make The free end 270 that the joint element 230 of core 215,250 must be stablized, which hits tug and buckles the tug of core 255, buckles core side surface 280.Free end 270 can with tug button core side surface 280 arrange at interval or two stable cores 215,250 in only one can pass through Free end 270, which leans on, stablizes core 215,250.

Core 255 is buckled in tug towards the receiver hole setting on the side for stablizing core 215,250 it is also contemplated that being arranged in In.It preferably, is each stable distribution of core 215,250 one receiver hole of setting.Receiver hole corresponds to the stabilization at free end 270 Core 215,250.Receiver hole is configurable to the channel-shaped mode extended in y-direction on its principal spread direction.It can also be every A receiver hole is respectively set in a joint element 230, and the receiver hole each other embark on journey in y-direction side by side by arrangement.By will be steady Determine core 215,250 to immerse in receiver hole, stablizes core 215,250 and be additionally supported on free end.

In this case, stablize in the insertion of core 215,250 internal 26, so that stablizing core 215,250 respectively in rows 30, joint element 230 is engaged between 35,40,45 two second connecting portions being adjacently positioned point 180 and carries rows 30,35,40,45 (referring to Fig. 5).First widened section 190 is arranged in the upside 275 for the joint element 230 that first stablizes core 215 Top.Second widened section 205 is arranged in the joint element 230 that first stablizes core 215 and second and stablizes the joint element of core 250 Between 230, and therefore it is arranged in the second top for stablizing core 250.Since rows 30,35,40,45 are by stablizing core 215,250 It keeps, holding meanss 260 can be removed.In this case, stablize the support of core 215,250 from contact element 55,90,95, 100 at least one power (such as gravity, but also have acceleration).As the part 230 by two stable cores 215,250 of engagement And pass through the first rows 30 and the second rows 35 as a result, the first contact element of the first rows 30 and the second rows 35 The inclination of part 55 and second contact element 90 can be avoided reliably.

If widened section 190,205 is configured to the lateral notch in second connecting portion point 180, joint element 230 can To pass through recess, so as to bearing contact element 55,90,95,100.

It is furthermore possible to also provide stabilising arrangement 290 (being indicated in Fig. 5 with chain-dotted line), for example, its setting connects first to fourth An above and or below in contact portion point 85,105,110,115.Stabilising arrangement 290 is configurable to the shape of bar, and Its principal spread direction extends in a lateral direction.When joint element 230 is inserted between contact element 55,90,95,100, stablize 290 fixed contact row 30,35,40,45 of device is to prevent from tilting around y-axis.If such as contact element 230 is partially joined to Between rows 30,35,40,45, then stabilising arrangement 290 can be removed.

(referring to Fig. 6) in fourth method step 315, the substance 171 of the injection moldable of contact shell 15 is injected into note It penetrates in mold 245.Flowing material 171 surrounds the first pontes 175 and second connecting portion of contact element 55,90,95,100 Divide 180, and is formed and engage connection with the material of contact element 55,90,95,100.Injection molding 245 is configured so that rows 30,35,40,45 the 5th contact portion 185 keeps freedom and there is not 171 injection molding of utility around, to touch The inside of head shell 20 forms the second connecting side 281 of osculating element 10.For example, substance 171 can be thermoplastic.Substance 171 inject in injection molding 245 in the temperature (in Process temperature ranges) for being higher than its fusion temperature.

In the 5th method and step 320, the first part 282 of substance 171 is for example hardened in first area 296.First The hardening of part 282 can be carried out below by the way that substance 171 is cooled to its fusion temperature (and glass transition temperature), example Such as in first area 296.First area 296 is integrated on the side surface 297 of injection molding 245.First part 282 can be Such as 30 to 60 mass percents of substance 171.First part 282 stablizes the position of rows 30,35,40,45.In addition, In During the first part 282 of substance 171 hardens, the first of rows 30,35,40,45 and its contact element 55,90,95,100 Predetermined position is fixed by stablizing core 215,250.Particularly, such as when injection molding 245 is mobile, by supporting surface 195, 210 ensure that the possibility of contact element 55,90,95,100 is sagging, and the supporting surface 195,210 is supported on stable core 215,250 Respective face pair upside 275 on.In such a case, it is possible to support at least one power, such as generated by acceleration or gravity Power.In addition, two stable cores 215,250 prevent from tilting, the especially inclination of the first rows 30 and the second rows 35.By Stop on joint element 230 in second connecting portion point 180, so also preventing contact element 55,90,95,100 from reversing around y-axis.

In the 6th method and step 325, after the first part 282 of substance 171 hardens, removes and stablize core 215,250.

(referring to Fig. 7) in the 7th method and step 330, at least it is being arranged in and the side surface 297 of injection molding 245 interval In the second area 298 in inside 265 opened, the second part 283 of substance 171 is not hardened, it means that the substance 171 exists It is fluid in second area 283.In second area 283, the temperature of substance 171 is locally still higher than glass transition temperature And/or fusion temperature.

By recalling stable core 215,250, the fluid second part 283 of substance 171 flows into recess portion 135,155, and portion Ground (preferably entirely) is divided to fill recess portion 135,155.Particularly, it by the hardening of the first part 282 of substance 171, is leaning on Covering 285 is formed during joint element 230.Covering 285 can be interrupted at second part 283, and can also be in substance 171 second part 283 determines after flowing into recess portion 135,155.Recess portion 135,155 due to second part 283 flowing and by Sealing.Furthermore ensure that contact shell 15 is particularly lightweight.

It, can will in addition after first part 282 hardens in addition, in order to increase the volume of the second part 283 of substance 171 171 feed-in injection molding 245 of flowing material, to accelerate second part 283 to flow into recess portion 135,155 and/or so as to hard The contraction of change/cooling period compensation first part.

In eighth method step 335, the second part 283 of substance 171 is further hardened, until substance 171 is completely hard Change and there is the temperature lower than glass transition temperature and/or fusion temperature always.

In the 9th method and step 340, removes tug button core 255 and take out osculating element 10 from injection molding 245.

As the alternative solution of above-mentioned 5th to the 7th method and step 320-330, injection can be retained in by stablizing core 215,250 In mold 245, until substance 171 substantially completely harden and when remove stablize core 215,250 when substance 171 do not flow into recess portion 135、155。

As the assembly described in above-mentioned second method step 305 and third method step 310 for stablizing core 215,250 The alternative solution of (making rows 30,35,40,45 in injection molding 245), first position (its in second method step 305 Middle rows 30,35,40,45 are positioned by holding meanss 260) it can also be in the outside of injection molding 245.

In the third method step 310 of substitution, stablizes core 215,250 and positioned relative to rows 30,35,40,45, made Core 215,250 must be stablized to move along a straight line and introduce, wherein joint element 230 be in two contact elements 55,90,95,100 it Between.

Compared with rows 30,35,40,45, stablizes core 215,250 and be driven to opposite end position.Opposite In scheduled end position, stablizes core 215,250 and rows 30,35,40,45 correctly position relatively relative to each other, use In then with substance 171 it is injection-molded around (referring to fourth method step 315).In this case, in opposite end Position, the first gap base portion 295 for stablizing the gap 235 of core 215 can lean on the second of the 4th contact element 105 in front and connect The side surface 200 of socket part point 180.Similarly, the gap base portion 295 in the second gap 235 for stablizing core 250 can lean in front The side surface 200 of the second connecting portion of second contact element 90 point 180.In addition, first stablizes core in opposite end position The gap base portion 295 in 215 gap 235 can have the side with the second connecting portion of third contact element 95 point 180 in front Scheduled first spacing in surface 200, the second gap base portion 295 for stablizing the gap 235 of core 250 can have and the first contact element Scheduled second spacing in side surface 200 of the second connecting portion of part 55 point 180.

In the additional method step 311 after third relative manner step 310, removes holding meanss 265 and pass through Stablize core 215,250 and keeps rows 30,35,40,45.In addition, rows 30,35,40,45 with stablize core 215,250 together It is driven in the inside 265 of injection molding 245, until the first stabilization core 215 is located at the second predetermined position and the second stabilization Core 250 is located at third predetermined position, and preferably stops on tug button core 255 or immerse as described above.

Subsequent method and step is identical as above method step.

The advantages of this configuration, is, on the one hand, may insure that the pressure between interior of shell 25 and peripheral region 170 is equal Weighing apparatus, on the other hand, this configuration have extra high shape stability.

Reference signs list

5 coordinate systems

10 osculating elements

15 contact shells

20 first connecting sides

25 interior of shells

30 first rows

35 second rows

40 third rows

45 the 4th rows

49 the first rows

50 first straight lines

55 first contact elements

60 shell walls

65 contact jacks

70 receive bar

75 receive base portion

80 clamp devices

85 first contact portions

90 second contact elements

95 third contact elements

100 the 4th contact elements

105 second contact portions

110 third contact portions

115 the 4th contact portions

119 second rows

120 second straight lines

124 the third lines

125 third straight lines

126 fourth lines

127 the 4th straight lines

128 fifth line

129 the 5th straight lines

130 first recess portion rows

135 first recess portions

140 define bar

145 guiding bars

150 second recess portion rows

155 second recess portions

156 the 6th rows

157 the 6th straight lines

160 first planes

161 second planes

162 first planes

165 the 5th straight lines

170 peripheral regions

171 substances

175 the first pontes

180 second connecting portions point

185 the 5th contact portions

190 first widened sections

195 first supporting surfaces

200 side surfaces

205 second widened sections

210 second supporting surfaces

215 first stablize core

220 first core segments

225 second core segments

230 joint elements

235 recess portions

240 fixing ends

245 injection moldings

250 second stablize core

255 tug button cores

260 holding meanss

Inside 265

270 free ends

275 upsides

280 tug button core side surfaces

281 second connecting sides

282 first parts

283 second parts

285 coverings

290 stabilising arrangements

295 recess portion base portions

300 first method steps

305 second method steps

310 third method steps

315 fourth method steps

320 the 5th method and steps

325 the 6th method and steps

330 the 7th method and steps

335 eighth method steps

340 the 9th method and steps

Claims (15)

1. a kind of osculating element (10),

With at least rows (30,35,40,45) and have the first connecting side (20) contact shell (15),

Wherein the rows (30,35,40,45) include the contact element (55,90,95,100) of multiple same configurations, they Be separated from each other arrangement,

Wherein the contact element (55,90,95,100) passes through the shell wall (60) of the contact shell (15) and described the Contact portion (85,105,110,115) are respectively provided at one connecting side (20),

Wherein first connecting side (20) has at least one recess portion (135),

Wherein the recess portion (135) and the contact portion (85,105,110,115) are arranged spaced apart.

2. osculating element (10) according to claim 1,

Wherein the recess portion (135) is free,

Wherein the recess portion (135) is preferably configured to pass through openings and first connecting side (20) is connected to the contact The interior of shell (25) of shell (15),

Or

Wherein the recess portion (135) is preferably at least partially filled with the substance (171) of the contact shell (15).

3. osculating element (10) according to claim 1 or 2,

Wherein the contact element (55,90,95,100) includes the first pontes (175) and at least second connecting portion is divided (180), the second connecting portion point be arranged in the first pontes (175) away from the contact portion (85,105, 110,115) on side,

Wherein the first pontes (175) is in tilted layout relative to the second connecting portion point (180),

Wherein first contact portion (85,105,110,115) is connected to the first pontes (175).

4. osculating element (10) according to claim 3,

Wherein the contact element (55,90,95,100) has the be transversely disposed at the second connecting portion point (180) One widened section (190),

Wherein the recess portion (135) is arranged between first widened section (190) and the first pontes (175).

5. osculating element (10) according to claim 4,

Wherein first widened section (190) includes the first bearing on the side towards the first pontes (175) Surface (195),

Wherein first supporting surface (195) is preferably parallel to the recess portion (135) and/or is parallel to first connection Partially (175) are arranged.

6. osculating element (10) according to claim 4 or 5,

Wherein first widened section (190) be arranged in the second connecting portion point (180) away from the first connecting portion Divide on the side of (175).

7. the osculating element according to any one of claim 4 to 6 (10),

Wherein the contact element (55,90,95,100) includes the second widened section (205),

Wherein second widened section (205) be arranged in the second connecting portion point (180) towards the first connecting portion Divide on the side of (205),

Wherein second widened section (205) deviates the first widened section (190) arrangement.

8. osculating element (10) according to any one of the preceding claims,

Wherein be juxtaposed to each other two contact element of the recess portion (135) in the rows (30,35,40,45) It is arranged between (55,90,95,100) in a first direction, preferably in a lateral direction,

Wherein the first direction is oriented perpendicular to first contact portion (85,105,110,115),

Wherein recess portion (135) deviation rows (30,35,40,45) are arranged in second perpendicular to the first direction On direction, preferably in the vertical direction.

9. osculating element (10) according to any one of the preceding claims,

Wherein first connecting side (20) has multiple recess portions (135),

Wherein the recess portion (135) preferably configures in the same manner,

Wherein the recess portion (135) in recess portion row (130) arrange each other by side-by-side spaced apart.

10. osculating element (10) according to claim 9,

Wherein the recess portion row (130) is arranged in plane (161),

Wherein the first pontes (175) cloth of the contact element (55,90,95,100) of the rows (30,35,40,45) It sets in another plane (162),

Wherein the plane (161) is parallel to another plane (162) arrangement.

11. osculating element (10) according to any one of the preceding claims,

Wherein the contact shell (15) has the second connecting side (281),

Wherein the contact element (55,90,95,100) is respectively provided with another contact portion at second connecting side (281) (185),

Wherein another contact portion (185) is connected to the second connecting portion point (180),

Wherein another contact portion (185) and the second connecting portion point (180) are preferably aligned.

12. osculating element (10) according to any one of the preceding claims,

Wherein the shell wall (60) be arranged in the recess portion (135) and first contact portion (85,105,110,115) it Between, and the shell wall (60) separates the recess portion (135) and first contact portion (85,105,110,115).

13. a kind of method for manufacturing osculating element (10), the osculating element is preferably according to any one of preceding claims institute It states,

The method has follow steps:

The substance and rows (30,35,40,45) of injection molding (245), injection moldable are provided, the rows have that This side-by-side spaced apart arrangement multiple same configurations contact element (55,90,95,100), and stablize core (215,250) and Holding meanss (260),

By the joint element (230) of the stable core (215,250) two contact elements being adjacently positioned (55,90,95, 100) predetermined position is inserted between,

The rows (30,35,40,45) are located in the injection molding (245),

By the substance introduce the injection molding (245) and at least partly it is injection-molded the contact element (55,90, 95,100) around,

At least one power of supporting role in the rows (30,35,40,45) on the stable core (215,250),

The substance is hardened, and

It removes the stable core (215,250) and configures recess portion in the first connecting side (20) of the contact shell (15) (135)。

14. according to the method for claim 13,

Wherein, after the first part for hardening the substance, the stable core (215,250) is temporarily removed,

Wherein, after temporarily removing the stable core (215,250), the second part of the substance flows into the recess portion (135) and at least partly the recess portion (135) are filled,

Wherein the second part of the substance is hardened.

15. method described in 3 or 14 according to claim 1,

Wherein the joint element (230) of another stable core (250) is inserted between two contact elements being adjacently positioned (55,90) Another predetermined position,

Wherein the contact element (55,90) is fixed by the joint element (230), by leaning on the joint element (230) it avoids tilting,

Wherein preferably, tug button core (255) is introduced into the injection molding (245),

Wherein tug button core (255) fixes the end position of the stable core (215,250) at least one direction.