CN107228191A - Transmission system control panel and driving control system - Google Patents

Abstract

The present invention relates to a kind of transmission system control panel, including：At least one first sealant and at least one receiving layer with the first potted component, first potted component is in the first sealant with receiving on the surface that layer deviates from laterally gauge multiple fluid guidance fields, it is in at least one fluid through-hole respectively is in fluid communication, in the following region for receiving layer, permanent magnet component is at least received within by region on receiving layer and/or in it, the region is located at least one fluid guidance field in the case where projecting in the plane common with the first sealant, first sealant has through hole, by its fluid guidance field and the surface of permanent magnet component to be in fluid communication.By this transmission system control panel, it at least has a stable sealing characteristics compared with the prior art, and can realize intercepting and capturing to impurity and meanwhile will not substantial effect fluid communication without component replacing and be to produce with less manufacturing cost.

Description

Transmission system control panel and driving control system

Technical field

The present invention relates to a kind of transmission system control panel, it has at least one first sealant, first sealant tool There is potted component and with least one other layer, the other layer, which has, is used for fastener and fluid through-hole.Here, First sealant on the surface of the other layer sets potted component, these potted components to fluid guidance field laterally Gauge.These fluid guidance fields are contacted with least one fluid through-hole in fluid.Here, the transmission system control panel is special Be in order to apply in hydraulic pressure or pneumatic driving control system with to control passage carry out sealing and pointedly carry out fluid Guide and set.

The invention additionally relates to a kind of hydraulic pressure or pneumatic driving control system, the driving control system has at least one The component of passage guiding, within the system, is provided with transmission system control panel, for being sealed and being directed to control passage Carry out fluid guiding to property.This driving control system is particularly the biography for hydraulic pressure or pneumatic actuator, especially motor vehicle The driving control system of dynamic device.This kind of driving control system has multiple valves and other controls and regulating element, and its is same Sample has the through hole of the cross section containing very little as affiliated transmission system control panel, and control fluid is conducted through these and led to Hole.These small cross sections may easily be blocked.Passage guiding component refer to mostly in casting process, for example by means of Pressing aid is cast or the manufactured component of sand casting, and it is trimmed by cutting working method.This implies danger and is in itself, especially Chip, especially borings under the initial start-up running situation of corresponding driving control system, and other impurities are freely discharged, And in control fluid, that is, further disseminated in hydraulicdriven hydraulic oil or in the pressure air of Pneumatic Transmission. And be also possible to cause abrasion during running in addition, will so it cause the impurity to controlling fluid.

Background technology

In order to which these impurity are intercepted and captured, and therefore prevent, they are sent to the component that this is guided with passage, because they May cause there block and function damage, therefore today transmission system control panel except at least one planar metal sealant with Also there are at least one screen layers extended by the screen element of part or by most of sealing surfaces mostly outside.Therefore in power train One or more fluid through-holes are configured with system control panel, it runs through at least one planar metal sealant as through hole, and By the screen layers over-tension, therefore the screen layers can be by above-mentioned particulate matter intercepting and capturing.Here, be not envisioned for can be by more for the screen layers The filtration system changed, but it is used as the element persistently obstructed.There are integrated, non-exchange screen layers for this as an example Transmission system control panel be given in EP0803654A2 and DE202013010604U1.

Certainly in practice it has been shown that this non-exchange screen element or screen layers will soon fail, because fluid The cross section partly covered by screen layers or screen element of through hole is very limited amount of.This causes by associated fluid through hole first Pressure drop rise, and therefore influence, by the fluid communication of the transmission system control panel, and and then influences transmission control system The control performance of system.If had again on the screen element or screen layers that more impurity are deposited at fluid through-hole, it is possible to lead Cause locking.As a result it may result in the error property of transmission device and/or cause the damage of sieve part.

Replaceable filtration system or screen system do not play the part of significant alternative, because related to dismounting and installation Cost on the market today be not obtain accreditation.

The content of the invention

Correspondingly task of the invention is to provide a kind of transmission system control panel, and it at least has constant compared with the prior art Sealing characteristics, the intercepting and capturing to impurity can be realized, at the same without substantially influence fluid communication and without component more Change, and can just be manufactured with less production cost in addition.The task of the present invention is to provide a kind of with this transmission in addition The driving control system of system control panel.

The solution of these tasks by claim 1 transmission system control panel and the driving control system of claim 23 Successfully realize.Preferred embodiment is described in the dependent claims.

The present invention relates to transmission system control panel, it has the first sealant with least one the first potted component, And with least one receiving layer.In order that transmission system control panel is fixed on other component, this transmission system control Making sheet has multiple through holes for fastener, and it extends through each layer of whole of the transmission system control panel.In addition it has Have multiple fluid through-holes, fluid through-hole at least through a part layer, that is in a given case only by a layer or Also by multilayer or pass through all layers extension.These fluid through-holes are used to guide control fluid to pass through transmission system control panel. On the surface deviated from receiving layer of first sealant, the first potted component is from side to multiple fluid guidance fields gauge.Stream Body guidance field is understood not to independent, the pent fluid boot section in all directions of the transmission system control panel Domain, and be understood to be suitable for be used for the guiding of fluid in the planes in the transmission system control panel of isolation.They only exist The transmission system control panel is assemblied in just plays their repertoire mostly when in driving control system.The transmission system is controlled Plate is so assembled, so that it gauge and seals (multiple) passage in the component that at least one passage is guided.The fluid is guided Region is contacted in confined state with these passages in fluid.Normally most of passage and fluid guidance field is being projected to Overlapped each other at least part mode when in one common plane.Fluid guidance field is used to control the guiding of fluid and in this point It is not in and is in fluid communication with least one fluid through-hole.Region-region of layer is being received to project to now according to the present invention Be located at during with the first sealant in common plane at least one fluid guidance field-in, permanent magnet component is with least pressing region Be received within receiving layer on and/or among.This permanent magnet component is used to maintain the magnetic impurity impacted together with controlling fluid. Present first sealant has through hole, and by the through hole, the fluid guidance field is connected with the surfactant fluid of the permanent magnet component. The control fluid that is, on the surface of permanent magnet component or by the surface flow of permanent magnet component, therefore the magnetic of there or can magnetic Compound matter, such as impurity can be separated.

Preferably, the through hole is so configured in the first sealant, so that it projects to permanent magnetism member in the first sealant When in the plane of part in the region of the permanent magnet component.Through this through hole, the permanent magnet component thus with least one fluid Guidance field is contacted in direct fluid, so that the magnetic impurity carried in control fluid can be particularly simply trapped With maintain.

Preferably, the through hole in the first sealant simultaneously be constructed so as to the first sealant by permanent magnet component by Partly cover.The covering can be implemented as contact covering, therefore permanent magnet component a part of surface by the first sealant lid Firmly., should but the covering can also be implemented as the covering with spacing, therefore in the top view of the transmission system control panel Although permanent magnet component is by by partly covering, the coated cap surface of the permanent magnet component is accessible.

The receiving layer of the transmission system control panel can have dead slot, and the permanent magnet component is at least received in the sky in subregional In groove.The dead slot can be arranged to through hole, therefore the whole thickness of receiving layer provides receiving to permanent magnet component.But it can be with It is simply set to blind hole, therefore permanent magnet component is placed in the recessed of receiving layer with it and surface that the first sealant mutually deviates from In (sinking) region.

Surpass when the permanent magnet component is always prominent in the case where being configured on the surface for the sealant of sensing first for receiving layer When crossing receiving layer, it can also protrude past the table of the sealant of sensing first of receiving layer when being received in and receiving in layer Face, particularly when receive layer have the thickness smaller than permanent magnet component when.

First sealant can be at least partially folding at it along in the circular region in the outward flange of permanent magnet component Turn of bilge and/or stick up edge.Here, being surround then it is meant that first bending part or the first deflection along the outer peripheral of permanent magnet component Portion is located at outside following region, i.e., overlapped when the region is in the plane for project to permanent magnet component with the permanent magnet component, wherein, First bending part or the first deflector, which are played, makes the first horizontal-extending in other environments sealant be deflected from this plane The effect of (deviation).But the region that this relative planar tilt extends can be then protruded into following region, the region is being thrown Overlapped when shadow is into the plane of permanent magnet component with the permanent magnet component.

It is this bending (Groove) and/or stick up edge (Abkantung, crimp) and on the one hand allow by partly Cover permanent magnet component part, or even when the permanent magnet component protrudes past the surface for the sealant of sensing first for receiving layer also such as This.On the other hand, it is possible thereby to stick up edge, (its portion to extend transverse to original plane is deflected out from an original plane Divide to terminate) in the case of, flowing guiding is formed to flow through the control fluid of permanent magnet component, this flowing guiding contributes to Prevent the magnetic that has been accumulated on permanent magnet component or magnetisable impurity, such as chip from departing from again.

Furthermore, it is possible to which (region is substantially for the region being bent over that is, the region of the bending of first sealant Parallel to but relatively primitive plane extend with deviateing) have relative permanent magnet component the surface in face of the first sealant spacing. This shows that possible scheme is, is pointedly formed for being received in the magnetic or magnetisable material, example that are accumulated on permanent magnet component Such as the warehouse of magnetic chip.

The structure that form (shape) on permanent magnet component has many may scheme.If people are to project to receiving layer Plane on mode consider the permanent magnet component if, then it can be for example square with annular, (vertical), dumb-bell shape, or carry Elongated, the overstriking shape on its opposite end dog-bone shapes.Many other structure types are all possible.

For example, the permanent magnet component in itself can have at least one perpendicular to layer plane dead slot.This shows possibility side Case is, is pointedly provided for receiving the warehouse of the magnetic chip accumulated on permanent magnet component.

The dead slot (permanent magnet component is accepted in the dead slot) existed in the case of being given in receiving layer can also be made not It is embodied as circumferentially flushing with the outward flange of permanent magnet component.And this shows that possible scheme is, is pointedly provided for connecing Receive the warehouse of the magnetic chip of accumulation on permanent magnet component.If considering this with mathematical way, then it is applicable in this case , receive the dead slot in layer the summation of remaining whole area after permanent magnet component is received be more than the permanent magnet component with Receive layer this plane parallel plane in surface extension (Area elongation).

If not only there is at least one dead slot perpendicular to layer plane in permanent magnet component, and in the outer of permanent magnet component If there is spacing between edge and the edge for receiving the dead slot in layer, then that advantageously receives the dead slot in layer is receiving permanent magnetism The summation of the whole area of dead slot of permanent magnet component after element at least one plane of remaining whole area with receiving layer More than the permanent magnet component (deducted in the plane with receiving this plane parallel of layer comprising dead slot in the inner) Surface extension (area elongation).

Free space between the edge of dead slot in the outward flange of permanent magnet component and receiving layer can also be realized close Structure of the through hole of this in sealing relative to the replacement of permanent magnet component.It is close first that the through hole can also be constructed so as to it Sealing does not overlap mutually when projecting in the position of permanent magnet component with this permanent magnet component, but is only being received forever with the dead slot Overlap mutually the part left a blank after magnetic cell.Accordingly, it is capable to by the through hole and remaining between fluid guidance field and permanent magnet component Dead slot realize be in fluid communication.The dead slot constitutes the magnetic or magnetisable thing of the outer edge for being maintained at permanent magnet component simultaneously The warehouse of matter, such as impurity.

Advantageously, the area elongation (surface extension) of the permanent magnet component is 6 and 200mm²Between, preferably 8 And 30mm²Between.

There are different elements selective as permanent magnet component.On the one hand it is possible that the permanent magnet of applied metal or comprising The element of this permanent magnet.This element may, for example, be plastic body, and there is the plastic body at least one to include gold in the inner Belong to permanent magnet.The permanent magnet can be the permanent magnet of at least one metal, and it is injection molding or is pressed into plastic body.It is equally possible , using permanent magnet component, it is arranged to artificial magnet or including at least artificial magnet.

If can apply with the plastic body wherein containing metal permanent magnet or plastics (/ artificial) magnet, then In the presence of a particularly preferred collocation method, i.e. the permanent magnet component is injected on the surface for receiving layer.The concept on surface is by such as This understands, i.e. it in a given case also comprising recessed region, that is (also comprising) it is this be implemented as blind hole it Surface in the region of dead slot.Therefore, in order to improve adhesion of the plastics on the surface for receiving layer, it can will increase attached dose or increase Attached dose of system is applied on this surface.

As an alternative or supplement, the permanent magnet component can by with the first sealant and receive layer form fit and with this First sealant is connected with receiving layer.This is received within the dead slot for receiving layer in permanent magnet component, especially when this dead slot quilt It is set to particularly simply be realized when blind hole or the step left from the first sealant with least one (convex shoulder).In addition, The form fit is for example so completed, i.e. the part of the first sealant or the first sealant is by permanent magnet component with receiving layer By being partly fixed in dead slot on the side mutually deviated from.If receiving the moulding of layer hollow groove to allow the horizontal fortune of permanent magnet component If dynamic, then the bending part of the specific aim construction of these parts of the first sealant can be used for preventing this motion.It is equally possible , contact pin is set from the first sealant, these contact pin then snap fit onto positioned at dead slot inward flange and permanent magnet component it is outer In the region vacated between edge.

Particularly effective connection then passes through the company of a form fit and/or power cooperation between permanent magnet component and receiving layer Connect, for example, be press-fitted and obtain.

In favourable modification, transmission system-control panel of the present invention not only has permanent magnet component, and except this forever Also there is at least one screen element beyond magnetic cell.This screen element allows, and the impurity carried in control fluid is dispensed on On two carriers, therefore it can neither be overloaded.Typical impurity sample-be applied to the examination of driving control system such as them Test like that-iron-share with weight % between 60 and 70.Pass through an appropriate number of permanent magnetism member in fluid guidance field Therefore part, can make the screen element be lightened the burden well.While magnetic impurity is by solid inhale at least one permanent magnet component, Then at least one screen element maintains non-magnetic impurity, the abrasive dust of such as aluminium alloy in this remodeling.

Above-mentioned traditional screen element is alternative in or is additional to, transmission system control panel of the present invention there can be screening member (sieve Net), it is constructed so as to it and covers permanent magnet component at least in part.Advantageously, this screening member (screen cloth) especially with There is at least one opening, it allows impurity alluviation to permanent magnet component in the region of reversal of fluid flow.It should further be appreciated that the screening member (screen cloth) remaining that is, region then compared to the opening or is vacated at downstream in the region do not left a blank.So by permanent magnetism The combination of element and screening member (screen cloth) can maintain impurity particularly well.It is particularly suitable for for high volume flow Control the fluid guidance field of fluid.Selection herein in regard to suitable screen material refers to DE202013010604U1.Together Sample is not it is possible that the screening member (screen cloth) itself is open, but the fluid stream is through hole by the construction in permanent magnet component Dead slot and reach the screening member (screen cloth).Therefore similar effectiveness can be implemented.

Advantageously, layer is received by the type structure of wall, such as it is as an example in DE102008062829A1 theres quilt As referred to as described by intermediate layer.The thickness in this intermediate layer is advantageously 0.8mm.But the receiving layer can also -- particularly When receiving in layer, but be only received within receiving layer when at least one permanent magnet component is not received within -- it is thinner layer, example Such as there is 0.2mm thickness.

Receiving layer is typically made up of metallic plate, and advantageously it is made up of aluminium alloy or steel, special carbon steel or stainless steel Constitute, and have simultaneously less than 900N/mm², more preferably less than 700N/mm²Tensile strength.Aluminium alloy is particularly because its is less Density is preferred.Alternatively it is also possible that receiving layer to be made up of fibre-reinforced plastics.

And first sealant can be made up of aluminium alloy, or steel, special carbon steel or stainless steel.But plate thickness is typically small In the thickness of wall.Typical plate thickness is in the range of 0.15 to 0.3mm.

Advantageously, wherein the driving control system that application has transmission system control panel is not only controlled in face of transmission system It is respectively provided with the side of first sealant of plate and on the one side relative with the first sealant of transmission system control panel The component of passage guiding.I.e. in this case, the transmission system control panel deviating from the first sealant in receiving layer There is at least one other layer, the other layer is particularly comparably arranged to close in addition with the first sealant on surface Seal another sealant of element.The receiving layer on and/or in, can also towards the receiving layer other sealant on dispose There is permanent magnet component, that is as previously the permanent magnet component of the first sealant is essentially identical to be all suitable for pointing to for it.Equally may be used Can, the permanent magnet component is by receiving the whole thickness of layer to extend, and the dead slot being located in permanent magnet component also serves as through hole Surface on the other hand is extended to from the surface of this permanent magnet component.

The other potted component of the other sealant is advantageously constructed by the mode similar with the first potted component.So And, due to passage guiding different in the component of passage guiding relative to each other on the not ipsilateral of transmission system control panel, Such part is drawn when the first potted component and other potted component are projected in common plane, is sealed in these sections Element has identical trend (change), but also draws such part, the first potted component and in addition sealing in these sections Element intersects or is branched off from a common circuit.

In addition, the present invention relates to the driving control system with least one foregoing transmission system control panel of the present invention.This Individual driving control system has the component that at least one first passage is guided, and it is adjacent to the transmission in driving control system First sealant of system control panel.First potted component of first sealant is at least pressed partly, especially with circular side At least one passage of the formula bound first passage guiding elements.By the first potted component on the surface of the first sealant it is horizontal Then therefore fluidly acted synergistically with passage to the fluid guidance field of bound.The passage is projected in the first sealant When on the component of guiding, the fluid guidance field is at least in part but advantageously fully each with first passage guiding elements Passage coincides.The permanent magnet component is configured in following region in this driving control system, and the region is in permanent magnet component It is configured in when in the plane for the component for projecting to passage guiding in the passage area of the first passage guiding elements.The permanent magnetism In element that is, fluid stream in control fluid, and (suction is obtained) magnetic can be so maintained from the control fluid flowed through Impurity.

Advantageously, at least one first potted component is the crimping being molded in one of metal sealing layer of the plane (Sicke, crimping or indent).The crimping can be arranged to full crimping with similar U- or basin shape cross section or can also be by It is set to half crimping with similar flat Z- shapes cross section., but it is preferred that the crimping is arranged to complicated crimping system, its Extended with branch and intersecting in the metal sealing layer of the plane, wherein on branch point or crosspoint full crimping can using transition as Half crimping and half crimping can transition be full crimping.Particularly towards the outward flange of transmission system control panel, the complicated crimping system It is closed.But it is preferred that the complicated crimping system also internally has the part of closed in itself, particularly for controlling fluid Through hole and this part for continuing ground encirclement channel part or fluid guidance field.Advantageously, the potted component of the crimping shape can Constructed and formed in a manufacturing step together with sticking up edge with the bending part existed in a given case with the first sealant.

Alternatively or additionally, the potted component is at least one table of at least one in the metal sealing layer of plane On face whole plane or it is partial, especially with a pattern (Muster) apply polymer matrix coating (coating).Moreover, herein The coating pattern advantageously has a branch and the complexity (pattern) intersected, and be also about in addition to the line of closure the outward flange with Spacing circumferentially has an other part, other part be in itself be closed and surround through hole and continuously channel part or Person says fluid guidance field.In this first flexible program, the coating of part is also single potted component.Become second One is provided with type scheme, at least one of crimping crimping system complicated in other words at least in part in their surfaces to cover Layer.Preferably, coating is laterally projecting by actual crimp regions, and it is wide for example to protrude half to one whole crimping towards both sides Degree.On suitable unexpanded or foaming clad material referring again to DE202013010604U1.

Except above layers, transmission system control panel of the present invention can also have other layer.Multi-layer transmission system is controlled Each layer of plate is advantageously by art methods before being assemblied between the component of passage guiding, and such as they are in metal flat It is known in sealing to be connected like that, that is to say, that the connection side that welding, riveting and/or occlusion and other shapes coordinate Method.

Driving control system of the present invention be particularly suitable for use in hydraulic pressure and pneumatic transmission control in, especially in automotive field, Particularly as transmission, the driving control system of preferably hydraulic pressure and Pneumatic Transmission.The permanent magnet component is especially in fluid circulation operation Keep the wear particle of (intercepting and capturing) magnetic and other chips here.

The present invention should be explained in detail by accompanying drawing below.These accompanying drawings are applied only for the explanation of preferred embodiment, absolutely Non-invention is confined on these.Same or analogous reference symbol represents same or analogous component in the accompanying drawings.Accompanying drawing Also it is included in during different combinations are set and selects in addition to comprising the essential characteristic scheme described in independent claims of the present invention Property and favourable expansion structure scheme.Each independent scheme of these favourable and/or selective extended architectures of the invention can As this invention described in the independent claim ground extended architecture, while nor with the selection described in embodiment Property and/or advantageous extension construction, multiple or whole combinations set.The description is letter in schematical essence, therefore need not Meet dimension scale, need not also accord with the technology figure of standard requirement.Particularly mostly in order to details it is clear for the sake of Exactly the arris in background and the description of similar portions are abandoned.

Brief description of the drawings

Show schematically in the drawings：

Fig. 1 shows the decomposition view of driving control system；

Fig. 2 shows the top view and phantom of drive train according to the present invention control panel；

Fig. 3-8 shows six sectional views of drive train according to the present invention control panel；

Fig. 9 shows the sectional view of the driving control system according to the present invention；

Figure 10 shows six top views of the permanent magnet component of drive train according to the present invention control panel；With

Figure 11 shows the top view in a part for drive train according to the present invention control panel.

Embodiment

Fig. 1 shows the decomposition view of driving control system 12, and the driving control system 12 has three layers of transmission system control Plate 10 and the component 70,80 of two passage guiding.The transmission system control panel 10 includes：First with the first potted component 21 Sealant 20, the wall 90 without potted component and with other potted component (but its in this view by wall 90 Cover) the second sealant 60.Through hole 16 for fastener extends through all three layers of transmission system control panel 10 20,90,60, through hole 16 continues in the corresponding through hole 76,86 for the component 70,80 that two passages are guided.In addition, for fluid A part for through hole 15 extends through each layer 20 of whole of the transmission system control panel 10, and 90,60, and therefore draw two passages Passage 71,82 in the component 70,80 led is connected.Another part for the through hole 15 of fluid then only extends through a part Layer, for example by layer 20 and 90, the particularly this through hole 15 for fluid passes through the passage shape in wall 90 Dead slot and mutually fluidly connect, and therefore can first passage guide component 70 different passages 71 between realize fluid connect It is logical.Similarly, in order to connect the second channel guiding component 80 different passages 82, such as by positioned at the second sealant 60 In the dead slot of passage shape be to realize.At at least one but in the component of preferably two passage guiding, at least one is set Adjust and/or control element, but it is not seen.The driving control system 12 can be arranged to hydraulic pressure or pneumatic transmission control System processed.

Present Fig. 2 shows the partial cutaway of transmission system control panel 10 of the present invention, and it has fluid guidance field 28, that is, Say such a region：The region in assembled state of the transmission system control panel 10 in driving control system 12 at least partly Ground is located on the passage 71 for the component 70 that the passage is guided, and in the fluid stream therefore in hydraulic oil or pressure air.Permanent magnetism Element 40 is in fluid communication with this fluid guidance field 28.Now it is configured to receive herein here, the permanent magnet component 40 is received within In the dead slot 32 of layer 30.The dead slot 32 is arranged to receive the depressed part in layer 30.First sealant 20 is in permanent magnet component 40 Region in have through hole 22, therefore permanent magnet component 40 with control fluid in fluid contact and can maintain control fluid in The magnetic impurity of carrying.In order to which the solution of the present invention is better described, the first sealant 20 is along in sky in component 2-a The straight line 19 extended on groove 32 is truncated, i.e., along this straight line 19 to the projection in the plane of dead slot 32, the permanent magnet component 40 The part of facing observer be removed.Therefore become it is seen that, the permanent magnet component 40 beyond receive layer surface 31, and And the outer edge region 43 of permanent magnet component 40 is covered by a part 24 for the first sealant 20.Therefore, the first sealant 20 exists There is circular folding in the fringe region of through hole 22 in the circular region in its outward flange 43 along permanent magnet component 40 or at it Turn of bilge 25.The region 25 ' being bent over is located on the surface 44 of permanent magnet component 40, and therefore constitutes the area of covering permanent magnet component 40 Domain 23.After the dead slot 32 is arranged to blind hole 32 ' and permanent magnet component 40 fills up the whole surface of dead slot 32, the two elements The connection for the form fit being responsible for together with covering the region 23 of permanent magnet component 40 between each layer 20,30 and permanent magnet component 40.

Herein, permanent magnet component 40 is configured to metallic magnet, and E4 indicates the plane of this permanent magnet component 40.Layer 30 is received to exist Correspond to Fig. 1 wall 90 in this embodiment in addition to the receiving of dead slot 32 and permanent magnet component 40.The two Hes of layer 20 30 are made up of different aluminium alloys, and wherein the material of sealant 20 has the tensile strength higher than receiving the material of layer 30.

In the fig. 3 embodiment, the through hole 22 in sealant 20 is equally configured in fluid guidance field 28.But this A part 23 for place's sealant 20 extends on the surface 44 of the whole sensing sealant 20 of permanent magnet component 40.Thus, fluid draws Lead region 28 and be in by through hole 22 and permanent magnet component 40 and fluidly connected, because in the outward flange 43 of permanent magnet component 40 and dead slot 32 Inward flange between leave free space 49, from control fluid impurity permanent magnet component 40 can be brought in the free space Outward flange 43 at, and be held in herein.Along this outward flange 43, control fluid and impurity can also be reached by sealant 20 In the region being completely covered, such as region 49 ', therefore a sufficiently large warehouse is provided for magnetic contamination.In region The magnetic impurity lived retained in 49 ' is kept particularly well, because there was only the fluid stream of very little herein.With it is similar in Fig. 2 Ground, the dead slot 32 is arranged to blind hole 32 ', but also has two depressed parts 33, the permanent magnet component in these depressed parts in addition 40 are connected by circular press-fitting 45 with receiving layer 30.Depressed part 33 also allows permanent magnet component 40 special in layer 30 is received Simple positioning.Correspondingly, the permanent magnet component 40 is without constant thickness, but the region outside the direction of (having) relatively small thickness With multiple intermediate regions with larger thickness, the increase of the wherein thickness occur only at permanent magnet component 40 with the phase of surface 44 On the side deviated from.

In Fig. 4, permanent magnet component is only fixed on by the press-fitting of depressed part 33 in receiving layer 30.First sealant 20 encloses Equally constructed herein with the embodiment different from Fig. 2 around the edge of through hole 22.The bending part 25 is only partially around logical herein Hole 22 is surround, as this in fig. 2 circular situation.In another part shown in left side, first sealant 20 Edge is only simply set to stick up edge (Kantung) 26, that is, has lacked the region 25 ' being bent over, and the side of the permanent magnet component 40 Also unsealed layer 20 is covered edge 43 in this region.With Fig. 3 it is similar-also because permanent magnet component 40 surface extend model EncloseLeft less than the surface extension-of dead slot 32 at the outward flange 43 of permanent magnet component 40 Free space 49, it can be used as the warehouse for being obtained the magnetic impurity on permanent magnet component 40 by suction from control fluid.If permanent magnetism The outward flange 43 of element 40 and the edge of dead slot 32 are with a spacer ring around extension, then whole region can be used as warehouse, even if each Partly, covered as part 49 ' by the first sealant 20.

Advantageously, this sticks up edge 26 and the region 25 ' of bending is so arranged in fluid guidance field 28, to stick up edge 26 are configured in upstream at least with main flow direction, and the region 25 of the bending is then in contrast configured under flow Trip.This, which sticks up edge 26, can play guide functions, therefore the relatively light part of control fluid is turned to from the surface 44 of permanent magnet component 40, and compared with Weight part that is, impurity, especially metal impurities are closer to surface 44 is by its flowing and therefore can be trapped.

One embodiment is described in Figure 5, and wherein receiving layer 30 is not used for the dead slot 32 for receiving permanent magnet component 40. But this permanent magnet component is received within the surface 31 for receiving layer 30.This permanent magnet component 40 includes the gold of permanent magnetism now herein Belong to core 47, the metal core is plastic by plastic sheath 46.The permanent magnet component 40 in other words its plastic sheath 46 here by bonding coating 48 are directly molded on the surface 31 for receiving layer 30.The sealant 10 surrounds the fringe region of its through hole 22 by as in Fig. 2 Implement.Because this, which is at the outward flange 43 of permanent magnet component 40, lacks warehouse, therefore it can be set on the surface 44 of permanent magnet component 40 Have, the dead slot as being also explained in detail by accompanying drawing 10, but it is not cut here.In the 5 embodiment of figure 5, Layer 30 is received to be arranged to the layer of the comparable relative thick in wall 90.There is less thickness, for example small when receiving layer 30 When 0.5mm, probably such as 0.2mm, but the magnet structure received on the surface 31 of layer 30 is also presented.

In figure 6, the dead slot 32 is arranged to through hole 32 ", therefore the permanent magnet component 40 is in the whole thickness of permanent magnet component 40 Extend on degree.Have dead slot 41 in the internal structure of permanent magnet component 40, its perpendicular to permanent magnet component 40 plane E4, pass through permanent magnet component Extend to 40 whole thickness, and as the storage for receiving the magnetic impurity being maintained in control fluid on permanent magnet component 40 Storehouse.In order to prevent departing from again for magnetic impurity, the permanent magnet component 40 is partly covered by screening member (screen cloth) 50.But in order that control The impurity floated together in fluid realizes that to the path on the surface of permanent magnet component 40 screen cloth (screening member) 50 has opening 51.Have Sharp ground, the fluid stream is so realized in region 28, to control fluid from left to right first in permanent magnet component 40 by screening member Flow through, can be entered by opening 51 in the dead slot 41 of permanent magnet component 40 on the surface 44 of (screen cloth) release (exposing), these Magnetic impurity is maintained on surface 44 or is also maintained in an advantageous manner in dead slot 41, in the inward flange of permanent magnet component 40 43 ' places, and the control fluid is by the discharge of screening member (screen cloth) 50, and continue flowing.Can be with by screening member (screen cloth) 50 Drain non-magnetic impurity from control fluid.

The edge of the through hole 22 of the sealant 20 is similar in Fig. 2 embodiment to be constructed like that, but the screening member (sieve herein Net) 50 it is received between sealant 20 and the surface 31 for receiving layer 30, and for example shape-ordinatedly fixed.In addition Fig. 6 Embodiment has the second sealant 60, and it extends in shown part as tabula rasa, and closes dead slot 41 towards downside in figure.

Another embodiment of transmission system control panel 10 of the present invention is described in Fig. 7, it is with being similar to Fig. 4 embodiments Construction.Additionally, there are the second sealant 60.Here, the permanent magnet component 40, which has, compares less thickness in Fig. 4, therefore spacing D23 formation is between the region 25 of bending and the surface 44 of permanent magnet component 40, and it also is used as the magnetic impurity being separated Warehouse.In addition, the dead slot 32 has depressed part 33, it causes the dead slot to entreat at least in for a through hole, and the through hole can be with The later through hole 41* also to be explained in detail in fig 1 oc is comparable.In second sealant 60, through hole is then equally existed 65.The connection between permanent magnet component 40 and layer 30,60 can be so realized by the unique tightening member not being described herein.

Fig. 8 describes another implementation of the transmission system control panel 10 with integrated screening member (screen cloth) 50 of the present invention Example, wherein the screen cloth is not configured to local screen element herein, and is set to continuous screen layers.In fluid guidance field The control fluid flowed in 28 can enter in the through hole 41 of permanent magnet component 40, and magnetic impurity is left in the inner edge of permanent magnet component 40 On edge 43 '.In whole component in the case of the guiding of suitable fluid, it is advantageous to which the control fluid passes through screening member (screen cloth) 50 Flow on the surface underlying in this figure of transmission system control panel 10.The damping action of the screening member (screen cloth) 50 makes fluid Stream slows down, therefore isolation of the magnetic impurity on the inward flange 43 ' of permanent magnet component 40 is enhanced.In addition, other impurity are kept In screening member (screen cloth) 50.Therefore permanent magnet component 40 and screen cloth 50 constitute the element of two synergies, to prevent impurity in control Further transmitted in fluid processed.The permanent magnet component 40 also prevents that screening member (screen cloth) 50 is completely filled up, therefore is enduringly carried simultaneously For the acceptable pressure drop on screen element.

Fig. 9 shows the partial sectional view from driving control system 12, and the driving control system has two passage guiding Component 70,80 and the transmission system control panel 10 installed between these.The transmission system control panel 10 has three herein Layer, that is, point to the first sealant 20 of first passage guiding elements 70, and one is received layer 30 and second sealant 60, and this Two sealants point to the component 80 of second channel guiding.When in first passage guiding elements 70 only a passage 71 be cut- Its in plan that is, from right to left in other words on the contrary extension-when, two passages 82 in second channel guiding elements 80 It is cut, they are extended in the plan.It can be seen that three potted components 61, these sealings in the second sealant 60 These passages 82 are sealed and opened with outside sealing by element relative to each other.Do not have in contrast in the first sealant 20 Potted component extends in section plane.Two sealants this be on their two surfaces and be outwardly coated with coating 29 entirely Or 69.In layer 30 is received the dead slot 32 for receiving permanent magnet component 40 is used as provided with through hole 32 ".The permanent magnet component 40 almost has herein Fixed just like the identical external dimensions of dead slot 32, and by press-fitting 45.Dead slot 41 is provided with permanent magnet component 40, but dead slot exists It is not cut in the section plane of this displaying.Only it can be seen that a through hole 22, the surface of the through hole in the first sealant 20 Surface extension (area extension of the expanded range (area elongation) at least in shown part corresponding to permanent magnet component 40 Amount).

Figure 10 shows six arrangements exemplary, for permanent magnet component 40.Annular is described in component 10A Permanent magnet component 40, its have by the dead slot 41 of solid metal surrounded by edges.Make it is desirable that this permanent magnet component 40 is installed into Magnetic dirt not only may remain on inward flange 43 ', and be maintained on outward flange 43, when by suitably selecting the sky The size of groove 32 and when leaving free space 49.Correspondingly it has been marked the wheel for the dead slot 32 for receiving layer 30 in addition in panel A It is wide.Then indicate different area elongated areas in the different regions for beating shade.In the argyle design mark in the center permanent magnet component The area A41 of dead slot 41 in 40 inner space.The chequer then indicates not having time wherein for the permanent magnet component 40 The area A4 of groove 41.The line image mark area A3 of the level, the face is left after the permanent magnet component 40 is received by dead slot 32 Product A3.It is abandoned in the component of the explanation of these different zones afterwards.

The permanent magnet component 40 of same circle is described in component B, but makes here by connection sheet 42 volume of dead slot 41 Share reduces to be conducive to the larger surface of internal edge 43 '.The embodiment of the permanent magnet component 40 in component C is due to narrow Narrow connection sheet 42 not only has the high volume share of dead slot 41 but also the large surface with internal edge 43 '.In addition, in Centre is provided with through hole 41*, and it may be alternatively used for the permanent magnet component 40 being connected in receiving layer 30.

Component D replaces circular basic configuration to make modification to the embodiment of panel A by square.Component E is shown without The permanent magnet component 40 of dead slot, it is characterised in that relatively large outward flange 43.It has the shape of dog hone, and the shape is with length Shape, on its opposite end overstriking shape.Implementation in component F exemplifies the rectangle fundamental form of six dead slots 41 of band Shape, dead slot 41 is separated by connection sheet 42 respectively.In addition, the big volume share (ratio) of dead slot 41 is not only produced herein, and And draw the large surface share (ratio) of inward flange 43 '.

Figure 11 shows the position of two permanent magnet components 40 in transmission system control panel 10.Compared to Figure 1 compared with herein separately Outside it can also be seen that element 14, it is applied to the connection of each layer of the transmission system control panel 10, and according to WO2013/ 011132A1, especially in the 29th row of page 3 to the 2nd row of page 5 and from the 23rd row of page 6 to these paragraphs of the 21st row of page 8 It is middle to be implemented.The sealant 20 has multiple fluid guidance fields 28 on its surface, and it is surrounded by potted component 21 respectively And seal, it is herein crimping (Sicken) be stamped, with local coating, such as according to DE202013005264U1 skill Art, the technology especially as described in [0009] to [0015] and [0023] to [0030] paragraph.Two for controlling fluid The through hole 15 emphasized with reference symbol is respectively in fluid guidance field 28, and fluid guidance field is compared to the transmission system control The shown part of making sheet 10, which is prolonged to the right, to be projected farther.In involved fluid guidance field 28, in face of the first of observer A through hole 22 is respectively present in sealant 20.The permanent magnet component 40 be received within as described previously receiving layer 30 on or Among, and be in fluid communication respectively with fluid guidance field 28, therefore they can keep what is flowed through from the side to control in fluid Magnetic impurity.

The permanent magnet component 40 being located below with the more left side is adjacent to, and first sealant 20 has the folding of crescent moon (reaping hook) shape Turn of bilge 25, the bending part 25 faces the through hole 15 being located in same fluid guidance field 28.In through hole 22 and this through hole 15 On that side mutually deviated from, the sealant 20 then differently therefrom constitute through hole 22 smooth edge and without other structures.

More the right permanent magnet component 40 above is then in such region, and in this region, the first sealant 20 exists By partly with through hole 22 in the case of projecting in the plane of permanent magnet component 40.It can be seen that the receiving in this through hole The dead slot 32 of layer 30, it surrounds the permanent magnet component 40 with crescent.On the left side of the permanent magnet component 40, the structure of sealant 20 Into edge 26 is stuck up, this sticks up edge and is used as diversion member, for flowing through the control fluid of fluid guidance field 28 from through hole 15.

Claims (23)

1. transmission system control panel (10), including：

At least one first sealant (20) with the first potted component (21)

Layer (30) is received with least one,

Wherein, multiple through holes (16) for fastener extend through all each layers (20,30,60),

Wherein, multiple fluid through-holes (15) extend at least across the part in each layer (20,30,60),

Wherein, first potted component (21) is on the surface deviated from the receiving layer (30) of first sealant (20) On laterally multiple fluid guidance fields (28) of bound, the fluid guidance field respectively with least one fluid through-hole (15) In fluid communication,

Wherein, in the following region of the receiving layer (30), permanent magnet component (40) is at least received within described connect by region Receive on layer (30) and/or in it, the region is in the case where projecting in the plane common with first sealant (20) In at least one fluid guidance field (28),

Wherein, first sealant (20) have through hole (22), the fluid guidance field (28) by the through hole with The surfactant fluid connection of the permanent magnet component (40).

2. the transmission system control panel (10) as described in preceding claims, it is characterised in that：

The situation that the through hole (22) is projected in the plane (E4) of the permanent magnet component (40) in first sealant (20) Under it is overlapping with the permanent magnet component (40) at least in part in the region of the permanent magnet component (40).

3. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：First sealant (20) permanent magnet component (40) is partly covered.

4. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：Receive layer (30) that there is sky Groove (32), the permanent magnet component (40) is at least received in the dead slot by region.

5. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) The prominent surface (31) beyond direction first sealant (20) for receiving layer (30).

6. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：First sealant (20) it be at least partially along in the circular region (24) of the permanent magnet component outward flange (43) bending part (25) and/ Or stick up edge (26).

7. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：First sealant (20) table in face of first sealant (20) of the region (25 ') that at least one is bent over relative to the permanent magnet component Face has a spacing (D23).

8. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) Have when projecting in the plane for receiving layer (30)：Annular, cube, dumbbell shape or with it is elongated, its relative two By the dog-bone shapes of overstriking shape on end.

9. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) Itself has at least one dead slot (41) perpendicular to layer plane.

10. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：Receiving the sky of layer (30) At least one plane of the gross area (A3) left after the permanent magnet component (40) is received of groove (32) with receiving layer (30) In dead slot (41) gross area (A41) of permanent magnet component (40) summation of the two be more than the permanent magnet component (40) parallel to connecing Receive layer (30) this plane plane in surface extension (A4).

11. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) Surface extension (A4) be 6 and 200mm²Between, preferably in 8 and 30mm²Between.

12. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) It is the permanent magnet or the permanent magnet including at least this metal of metal.

13. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) It is to have it contains the plastic body of at least one metal permanent magnet.

14. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) It is artificial magnet or comprising at least one artificial magnet.

15. the transmission system control panel (10) as described in one of two foregoing Claims, it is characterised in that：The permanent magnet component (40) it is injection-moulded on the surface (31) for receiving layer (30), is in a given case to be injection molding by increasing attached dose.

16. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) By the form fit with first sealant (20) and receiving layer (30) with first sealant (20) and receiving layer (30) it is connected.

17. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) By power cooperation and/or form fit, particularly by press-fitting (45) with receiving layer (30) to be connected.

18. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The permanent magnet component (40) Covered at least in part by screening member (50).

19. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：Described receiving layer (30) quilt It is set to wall and with least 0.8mm thickness (D3).

20. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：Layer (30) is received to be closed by aluminium Gold or steel, especially carbon steel or stainless steel are made, and with less than 900N/mm², preferably smaller than 700N/mm²Tensile strength, or by Fibre-reinforced plastics are made or comprising fibre-reinforced plastics.

21. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：First sealant (20) it is made up of aluminium alloy or steel, especially carbon steel or stainless steel.

22. the transmission system control panel (10) as described in one of preceding claims, it is characterised in that：The transmission system control Plate receive layer (30) away from the surface (39) of first sealant (20) on at least one other layer (60), especially At least one other sealant with other potted component (61).

23. there are a kind of driving control system (12), the driving control system one of at least one foregoing Claims to limit Transmission system control panel (10), it is characterised in that：

The driving control system (12) has the component (70) that at least one first passage is guided, the first passage guiding Component is adjacent to the first sealant (20), wherein the first potted component (21) of first sealant (20) gauge at least in part Go out, advantageously circumferentially at least one passage (71) of the component (70) of gauge first passage guiding, and the permanent magnet component (40) it is arranged in following region, when the region is projected in permanent magnet component (40) in the plane of the component of the passage guiding In the region for being positioned in the passage (71) of the first passage guiding elements (70).