CN101095017A - Threaded slider mounting system - Google Patents

Threaded slider mounting system Download PDF

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Publication number
CN101095017A
CN101095017A CNA2005800458555A CN200580045855A CN101095017A CN 101095017 A CN101095017 A CN 101095017A CN A2005800458555 A CNA2005800458555 A CN A2005800458555A CN 200580045855 A CN200580045855 A CN 200580045855A CN 101095017 A CN101095017 A CN 101095017A
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CN
China
Prior art keywords
profile
rail
mounting
threaded
mounting system
Prior art date
Application number
CNA2005800458555A
Other languages
Chinese (zh)
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CN101095017B (en
Inventor
吉多·根斯切尔克
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康纳吉股份公司
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Priority to DE102005001654A priority Critical patent/DE102005001654B3/en
Priority to DE102005001654.5 priority
Priority to DE102005001653A priority patent/DE102005001653B3/en
Priority to DE102005001653.7 priority
Application filed by 康纳吉股份公司 filed Critical 康纳吉股份公司
Priority to PCT/DE2005/002331 priority patent/WO2006072230A1/en
Publication of CN101095017A publication Critical patent/CN101095017A/en
Application granted granted Critical
Publication of CN101095017B publication Critical patent/CN101095017B/en

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S20/00Supporting structures for PV modules
    • H02S20/20Supporting structures directly fixed to an immovable object
    • H02S20/22Supporting structures directly fixed to an immovable object specially adapted for buildings
    • H02S20/23Supporting structures directly fixed to an immovable object specially adapted for buildings specially adapted for roof structures
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS, WEDGES, JOINTS OR JOINTING
    • F16B37/00Nuts or like thread-engaging members
    • F16B37/04Devices for fastening nuts to surfaces, e.g. sheets, plates
    • F16B37/045Devices for fastening nuts to surfaces, e.g. sheets, plates specially adapted for fastening in channels, e.g. sliding bolts, channel nuts
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S20/00Solar heat collectors specially adapted for particular uses or environments
    • F24S20/60Solar heat collectors integrated in fixed constructions, e.g. in buildings
    • F24S20/67Solar heat collectors integrated in fixed constructions, e.g. in buildings in the form of roof constructions
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/30Arrangement of stationary mountings or supports for solar heat collector modules using elongate rigid mounting elements extending substantially along the supporting surface, e.g. for covering buildings with solar heat collectors
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/60Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules
    • F24S25/63Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules for fixing modules or their peripheral frames to supporting elements
    • F24S25/634Clamps; Clips
    • F24S25/636Clamps; Clips clamping by screw-threaded elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/60Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules
    • F24S2025/6007Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules by using form-fitting connection means, e.g. tongue and groove
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S2025/80Special profiles
    • F24S2025/801Special profiles having hollow parts with closed cross-section
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/60Planning or developing urban green infrastructure
    • Y02A30/62Integration of district energy or distributed or on-site energy generation, e.g. combined heat and power generation or solar energy, in city layout
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/10Photovoltaic [PV]
    • Y02B10/12Roof systems for PV cells
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy
    • Y02E10/44Heat exchange systems
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy
    • Y02E10/47Mountings or tracking

Abstract

The support profile (1) has thread stone, which can be brought into a positive connection with the support profile. The thread stone is arranged between two parallel to the thread drilling (6) and at distance to each other arranged bars (3,4) of the support profile. The bar has a crank (9) at the end which grips the thread stone so that the movement of the thread stone is restricted laterally from above. - The thread stone supports the two other bars (5,8) of the support profile under the crank. One of the bar (5) grips, form-fit, the thread stone and so likewise restrains the movement away from the bar.

Description

具有螺纹滑块的安装系统 A threaded slider having a mounting system

技术领域 FIELD

本发明涉及一种由铝型材构成的安装系统,该安装系统特别适用于固定太阳能模块,并且其中特别地为固定太阳能模块和屋顶支架而使用置入该型材的螺纹滑块。 The present invention relates to a mounting system composed of aluminum, the mounting system is particularly suitable for fixing the solar module, and wherein in particular a solar module and roof fixing bracket and threaded into the slider of the profile.

背景技术 Background technique

太阳能模块的制造者或提供者制造了大多数专门与模块相配的支承系统,这些支承系统相对比较昂贵并且必须配合专门的使用情况。 The solar module manufacturer or provider system specially manufactured with most of the support module to match, these support systems are relatively expensive and must meet special usage. 传统的支承系统需要较高的安装费用,这会导致支承系统以及模块的安装大大地提高此类设备的总价。 Traditional support systems require higher installation costs, which will lead to installation of support systems and modules greatly increase the total price of such devices.

所以明显需要提供一种安装系统或安装型材,它能够与不同模块一起安置,能够明显减少安装费用,能够实现按照安全操作规范固定模块,并能够在较长一段时间之后确保精确并无损坏地固定模块。 Therefore a clear need to provide a mounting system or profile, it can be placed with different modules, can significantly reduce the installation costs can be achieved in accordance with the safe operation of the module for fixed and can not ensure accurate damage after a long period of time is fixed module. 此外还需要一种适用于各种使用地方的、用于组建模块的安装系统的安装型材,尤其是在屋顶上、在房屋正面以及在自由存在的设备上固定的时候。 In addition, a need for a place for a variety of use, the building blocks for the installation of the system installation profiles, especially on the roof, front of the house and fixed on the free time in the presence of the device.

为了解决这一提出的问题,在DE 101 32 557 A1中公开了一种用来固定光电模块的安装型材,其具有:远程延伸的方形基体;在基体的至少一个侧面上的、呈锯齿形的上表面阶段;基本上与纵轴平行的、在基体的至少一个侧面上延伸的侧面螺栓通道;至少一个排水通道,该通道向着上侧打开并沿着纵向在基体中延伸;以及一个位于上方的、基本上与纵轴平行的、在基体上侧并在两个密封条之间延伸的螺栓通道。 In order to solve this problem is proposed, is disclosed in DE 101 32 557 A1 a method for fixing the photovoltaic module mounting section having: a square matrix extending remotely; on at least one side of the substrate, the jagged the upper surface of the stage; substantially parallel to the longitudinal axis, extending on at least one side surface of the bolt side of the substrate channel; at least one drainage passage which opens towards the upper side and extending longitudinally along the base; and a positioned above substantially parallel to the longitudinal axis of the bolt on the base side of the passage and extending between the two sealing strips.

在该解决方法中不可缺少的是,在现场必须有精确准备的安装型材或其配合。 In this solution is indispensable and must have precise mounting profile or complex prepared in the field. 这两者对于屋顶或房屋正面脚手架上负重的条件下实行的安装来讲均不是最有利的。 Terms were not the most favorable conditions for both the load on roofs or facades scaffolding implementation of installation.

早先的解决建议在利于安装方面也具有缺点。 Previous settlement proposals in favor of the installation also has drawbacks.

因此在DE 34 23 227 A1中描述了一种用于太阳能收集器的固定装置,其具有多个由固定型材以及固定片形成的固定物。 Therefore, in DE 34 23 227 A1 describes a fixing device for a solar collector having a plurality of fixtures formed by the fixed profile and a fixing piece. 此外有至少两条固定轨道属于这一固定装置,它们能够沿着固定物的固定型材移动或固定,它们的侧面能够容纳固定元件,固定元件能够沿着它们的纵轴调节或固定并直接或间接地在太阳能收集器上接合。 In addition there are at least two fixed rails belonging to the fixing means which can be moved along a fixed or stationary fixture profile, their sides capable of receiving the fastening element, the fastening element can be adjusted along their longitudinal axis or fixed directly or indirectly joined to the solar collector. 最重要的是,当应用又一根横跨固定轨道并具有拉紧功能的轨道的时候应该给予一个稳定的、能够在任意方向上校准的框架,太阳能收集器被固定在该框架上。 Most importantly, when applied across the fixed rail and a tensioning rail, and having a function of time should give a stable, can be calibrated in an arbitrary direction of the frame, the solar collector is fixed on the frame.

这种系统的缺点在于:具有大量需要旋紧的轨道,丧失了面对屋顶表面的校准可能性,以及可以选择的固定。 A disadvantage of this system are: need to tighten a large number of tracks, the possibility of loss of calibration of the roof surface, and a fixing face can be selected.

在DE 91 09 605 U1中描述的安装包由至少四条垂直轨道以及至少两条水平轨道组成,其中垂直轨道能够挂入屋顶木条以及瓦片且利用能够移入和移出的钩子形成的钩子对而可以移动地设置,两条水平轨道分别与并排设置的垂直轨道连接并且可以关于其移动,其中,太阳能模块能够在水平轨道之内水平移动、停置以及锁定。 Described in DE 91 09 605 U1 installed package provided by at least four vertical tracks, and at least two horizontal tracks, which can be linked into the vertical rails and the roof tile and wood can be moved in and out using the hook can be formed on the hook movably disposed, two horizontal rails are connected to the vertical rails arranged side by side and can move about, wherein, the solar module can be moved horizontally within the horizontal rails, parked and locked. 这一安装包在屋顶平面中提供了确凿的灵活性,但是它的操作的局限性在于:具有较高的栅形轨道设置以及多种复杂的螺栓连接。 The installation package conclusive flexibility in the plane of the roof, but the limitations of its operation comprising: a high gate-shaped track is provided and a variety of complex bolting.

按照DE 197 17 996 A1的收集器快速安装系统在屋顶结构与太阳能收集器之间设置带有管道套管的屋顶钩作为机械连接元件。 According to DE 197 17 996 A1 collector quick mounting system is provided with a hook roof duct sleeve element as a mechanical connection between the roof structure and the solar collector. 屋顶钩被推到屋顶瓦的下方并钩在屋顶木条上,不然则平放在屋顶瓦上。 Roof hooks are pushed to the bottom of the roof tiles and wooden hooks on the roof, or the flat on the roof tile. 收集器的固定通过在安装之后被水平设置的管道套管上的固定夹实施,其中,依据事先的管道套管距离测量将收集器背面上的固定夹拧紧。 On the pipe via the fixing sleeve after mounting clip is provided in a horizontal embodiment of the collector, wherein the pipe sleeve according to the distance measurement will be collected in advance fixing clip tightening on the back of device. 这种安装系统的缺点具体在于必须以准确的尺寸安装固定夹、并且丧失了校准的可能性。 The disadvantage of this system is installed in that particular folder to be fixed dimensionally accurate, and the possibility of loss of calibration.

从EP 0 76 1901 B1中已知一种用来固定片状组件、尤其用来固定太阳能模块以及太阳能收集器的装置,其中,片状组件沿着纵向以鳞片式重叠的方式设置在太阳能模块以及太阳能收集器上,并且组件在上面以更高边缘为方向利用组件前方的末端搭接组件后方的末端,片状组件在型材上被沿着纵向固定基本上水平放置的装配零件、例如屋顶木条上,并且片状组件在型材上以其下方的末端挂入钩子之中,其中,每一个型材在其上面的侧边上均具有两个在其纵向上延伸的侧支承面以及一个位于侧支承面之间的凹槽,并且组件以其侧面的棱边平放于各自的型材支承面上,并且通过凹槽可以在这两个支承面之间设置自由存在的间隙。 From EP 0 76 1901 B1 discloses a sheet assembly for fixing, in particular, means for fixing the solar modules and solar collectors is used, wherein the sheet assembly along a longitudinal direction imbricated overlap the solar module and a solar collector, and the direction of terminal assembly rearward end ahead of the assembly components to higher lap top edge, the sheet assembly is fixed substantially horizontally disposed along the longitudinal direction on the profile of the assembly parts, such as roof batten , the assembly on the profile and the sheet beneath its tip engaged in a hook, wherein each profile has two side bearing surface extending in its longitudinal direction on the upper side thereof and located on a side of the support between the surface of the recess, and the assembly of its side edges to the respective flat side surfaces of the support sections, and may be present in the free space provided between the two support surfaces through the groove. 其中,型材按照下述构造,即在一个型材的下段可以推入另一个型材的上段,并且两段需相互形状接合地贴靠。 Wherein, according to the following profile configuration, i.e. in the upper section can be pushed into a profile to another profile, and the shape of two mutually abutting engagement need be.

型材能够以任意的长度彼此移动,从而使得长度比例得以平衡。 Profiles can be moved to each other in an arbitrary length, so that the ratio of the length to be balanced.

尽管为了研制利于安装并具有配合能力的建造系统想尽了各种办法,这种建议仍然不受人关注,所以本发明不再研究该种建议。 Although the development is conducive to install and has built the system with the ability to try a variety of ways, such recommendations remain unnoticed, the invention is no longer the kind of research recommendations.

由于在原理上设置了被挤压的铝型材作为支承型材,所以在使用预制圆孔或使用用于螺栓连接并能够顺利引入支承型材的槽块的条件下,应用螺栓连接作为连接。 The provision of the extruded aluminum profiles, in principle, as a support, so that under the conditions used for prefabricated round or smoothly introduced into the screw connection and the support block groove profile, the application of a bolted connection.

另外,这样的连接在DE 34 23 227 A1以及DE 299 19 147 U1中也有所描述。 Further, such a connection in DE 34 23 227 A1 and DE 299 19 147 U1 also described. 其中,侧面的槽块可以从侧面推入槽中,不然则必须在置入槽中之后转过90°,以便于在向内弯曲的槽支脚的后面找到支点。 Wherein, the groove can be pushed into the side of the block from the side of the slot, otherwise it must be rotated 90 ° in the groove after placement in order to find the fulcrum in the back inwardly bent legs of the groove. 当槽块在支座以及相反面上拥有平行平面时,除了应用这种螺旋连接以外还公开了呈拱形或圆薄片形(DE 299 11 401 U1)的槽块。 When the grooves in the seat and an opposite surface of the block has parallel planes when, in addition to the application of this connection also discloses a helical groove arched or rounded block-shaped sheet (DE 299 11 401 U1) a.

德国比勒菲尔德的SCHCO International KG公司提供了一种一侧呈半圆形的槽块,该种槽块可以通过倒圆摆入支承型材的槽中。 German company SCHCO International KG Bielefeld side was provided a semicircular groove block, the block kind of groove can be placed into the support a rounded profile slot. 这种槽块可以在安置之后借助一种设置在槽块之中、并被弹簧加载滚珠固定。 Such blocks may be by means of a groove disposed in the groove after the placement of the block, and is fixed to a spring-loaded ball.

根据实施以及其它来说,这种连接的缺点基本上在于,为了将槽块装入可固定的位置,必须将槽块从侧面引入,额外建造槽块/夹紧螺栓,槽块必须转动;最重要的是,螺栓连接前的固定需通过附加的元件实施。 According to other embodiments as well, this disadvantage is substantially that connection, in order to block the slot may be charged a fixed position, to be introduced from the side of the groove block, an extra block construction groove / clamping bolt, must turn the groove block; most importantly, the embodiment is fixed by the additional elements required before bolting.

发明内容 SUMMARY

因此,本发明的任务是,为了安装不同尺寸的太阳能模块而经济地设置具有标准长度的支承型材轨道,并同时在型材轨道中使用螺纹滑块以建立与太阳能模块和/或屋顶固定物的连接。 Accordingly, the object of the present invention, in order to mount different sizes of solar modules and economically support profile rail arrangement has a standard length, while the profiled rail slider threaded to establish a connection to the solar module and / or roof fixture .

这一任务利用权利要求1的特征得以解决,从属权利要求的内容为优选实施例。 This object is achieved with the features of claim 1 is resolved, the contents of the dependent claims preferred embodiments.

正如已知方法那样,按照发明的用来固定太阳能模块的安装系统包含至少两条间隔设置的安装型材轨道,该轨道各自拥有限定型材高度且用于一个或多个模块的支座,该轨道还拥有位于支座下面的、用于屋顶固定的接口。 As is known methods such as, for fixed installation system according to the invention the solar module mounting section comprises at least two spaced rails, each with the track and defining a profile height for the one or more support modules, the rail further located below the support has, for fixing the roof interface. 为了以螺栓连接固定太阳能模块以及屋顶而使用了螺纹滑块,螺纹滑块分别以形状接合的形式啮合到安装型材轨道中。 To bolted fixing the solar modules and the roof using threaded slider, the slider are engaged to the threaded mounting profile rail shape in the form of engagement. 在安装型材轨道的侧面或在其侧面以及底部设有型面,该型面能够与连接型材轨道的型面相连,其中,在连接到一起之后,在两个型面之间,至少在两个点上形成形状配合连接并可以产生力封闭的连接,其中,连接型材轨道优选在形状配合连接建立之后以安装型材轨道的型材高度在上方闭合,连接型材轨道的机械负荷能力近似或等同于安装型材轨道的机械负荷能力,并且安装型材轨道的至少一段能够通过其型面与连接型材轨道的型面连接、固定。 In mounting the side rail profile or profile is provided on its sides and a bottom, the profile can be connected with the connecting profile rail profile, wherein, after connecting together, between the two profiles, the at least two points on a shape-fit connection and may generate a force closure connection, wherein the connecting profile rails are preferably mounted profile rail profile height closed above after the form-fit connection is established, the mechanical load capacity of the profiled connecting rail is approximately or equivalent to the mounting section the mechanical load capacity of the track, and mounting at least one piece connected profile rail, which fixing profile through the connecting profile of the profile rail.

在一个优选的实施例中,安装型材轨道的型面以及连接型材轨道的型面形成一个能够交错移动的型面对。 In a preferred embodiment, the mounting rail profile and a profile connecting profile of the profiled rail is formed to face a type capable of moving the interleaved.

关于论证请参阅下述内容,即关于型材的阐述涉及各个横断面(U形,角形,栓形),这些横断面以相同的方式沿着轨道构建。 Refer to the following argument on, i.e., set forth on the respective cross-section profiles involving (U-shaped, angled, pin-shaped), the cross-section constructed in the same way along the track.

利用所述的基本结构可以实现的是,安装型材轨道可以被配置标准长度、例如2.95m或6m,并且通过连接型材轨道可以补偿末端上缺失的部分。 Using the basic structure can be achieved that the mounting profile may be configured to track a standard length, for example, 2.95m or 6m, and can compensate for the missing portion by the connection end of the profile rail. 由于这两种轨道的连接是灵活的,所以可以保证精确的框架尺寸。 Since both the connection rail is flexible, it is possible to ensure accurate frame size. 此刻被描述为成形件的安装型材轨道能够再一次在连接型材轨道上套装或移动,因此,太阳能模块或屋顶的固定可以成系统地进一步进行。 Now is described mounted shaped profile rail member, or can be set once again moved in the connecting profile rails, thus fixing the solar module to the system or roof may be further. 在这种相互关系中重要的是:连接型材轨道与安装型材轨道应像前面提到的那样具有近似或相等的负荷能力。 In this relationship it is important: the profiled rail is connected with the mounting rail profile like that should have approximately equal load capacity or the aforementioned.

为了借助螺栓连接固定成形件上或安装型材轨道上的组件而设置了螺纹滑块,当螺纹滑块被设置在安装型材轨道或成形件的两个隔片之间时,螺纹滑块分别与成形件或安装型材轨道形成形状接合的连接,其中,隔片基本上与螺纹滑块的螺纹孔平行并且彼此间隔设置,隔片在末端拥有弯头,弯头通过螺纹滑块抓扣,从而使得设置的螺纹滑块的移动在上方被侧向限定,螺纹滑块在下方支承在成形体或安装型材轨道的至少两个另外的隔片上,其中的一个隔片形状接合地抓扣到螺纹滑块中并因此阻止了离开隔片的移动。 To connect to the fixed assembly or on the mounting member shaped profile rail by means of a threaded bolt provided with a slider, the slider when the screw is mounted in a profile rail arranged or formed between the two members when the spacer, the screw and the slider are shaped or mounting a connection profile rail engages the shape, wherein, the spacer is substantially parallel to the threaded screw hole of the slider and spaced from each other, the spacer has at the end of the elbow, the elbow by a threaded slide clasp, is provided so that moving the slider to be threaded laterally defined above, the threaded body or slider mounted below the support track into two sections on the other spacer, wherein the spacer is a form-fitting manner into the threaded sliding block clasp least and thus prevented from moving away from the septum.

在一个优选实施例中,来自支承隔片的一个隔片基本上与侧向限定的隔片平行并且在这些侧向限定的隔片之间沿着成形件的纵向或沿着安装型材轨道的纵向延伸,在此期间,其它的作为螺纹滑块支承面的隔片被设为与一个侧向限定的隔片垂直。 In a preferred embodiment, a spacer from the spacer support substantially parallel to the lateral septum and defined along the longitudinal direction or longitudinal profile rail member mounted between the lateral septum defined along the shaping extending, in the meantime, the other as a slider threaded spacer support surface is set to be perpendicular to a lateral septum defined.

螺纹滑块优选拥有L形横断面,其中,螺纹孔贯穿L形横断面的长支脚,短支脚的里面拥有一个凹槽,凹槽用来建立与支承隔片的连接,具体地说是形状接合地建立与其弯头的连接。 A threaded slider preferably has an L-shaped cross section, wherein a screw hole through the long leg of the L-shaped cross section, the short leg of which has a recess, the recess for establishing a connection with the support spacer, particularly the shape of the engagement to establish a connection with their elbows.

上述情况表明,L形横断面的长支脚在螺纹孔区域内被加强,从而使得在负荷之下螺纹的脱落得以避免。 The foregoing demonstrates, L-shaped cross section of the longer leg is reinforced in the region of the threaded bore, so that the load falling below the thread is avoided.

另外一种优选实施例做了下述设置,即其中一个支承隔片在指向螺纹孔轴线的侧面上拥有凸起型面,凸起型面啮合到可以被拧入螺纹孔的螺栓的螺纹中并且伴随螺栓的拧入发生轻微的变形。 Further preferred embodiments outlined below embodiments is provided, in which a support spacer profile has projections on the side pointing to the threaded bore axis, the projection engages the threaded profile bolt may be screwed into the threaded hole and in accompanied by slight deformation of the bolt screwed occur. 这使得螺纹滑块能够被很快固定。 This can be fixed such that the threaded slide quickly.

为了实现让这种固定功能既能用于太阳能模板也能用于屋顶或房屋正面的固定,在另外一种优选实施例中做了如下设置,即以同样的方式将第一型面设为再一次偏转或旋转优选90°以便容纳一个或其它的螺纹滑块。 To make this securing function to achieve both mask is also used for fixing the solar roofs or facades, the examples provided below do another preferred embodiment, i.e., in the same manner to the first profile and then preferably one or rotated 90 ° deflection to accommodate a slide or other thread. 从而接着将屋顶或房屋正面的固定元件旋紧。 Whereby roof or front of the house and then fixing member screwed.

附图说明 BRIEF DESCRIPTION

利用一个实施例描述本发明。 With one embodiment of the present invention is described.

图1:安装型材轨道;图2:连接型材轨道;图3:安装示图;图4:一个螺纹滑块;图5:在安装型材轨道中的螺纹滑块的设置。 Figure 1: Profile rail mounted; FIG. 2: the profiled connecting rail; FIG. 3: a diagram of the installation; Fig 4: a threaded slider; FIG. 5: threaded mounting section in the slider track.

具体实施方式 Detailed ways

图1示出的是一根安装型材轨道1,其具有支座2、接口3以及侧向设置的型面4、5、6,其中,支座2限定型材高度7,位于支座2下面的接口3用于屋顶的固定,型面4、5、6被用于连接型材轨道11的型面8、9、10;其中,在连接到一起之后,在型面4、5、6与型面8、9、10之间,至少在两个点上形成形状配合连接并可以产生力封闭的连接12。 FIG. 1 is shown a mounting profile rail 1, which has an abutment 2, 3, and the interface laterally disposed 4,5,6 profile, wherein the height of the support 2 defining the profile 7, is located below the support 2 Interface 3 is fixed, a roof profile for the profiled rails 5, 6 are used to connect the profiles 8, 9, 11; wherein, after connecting together the profile and the profile 4,5,6 8,9,10 between at least two points on a shape mating connector and may generate a force closure connection 12. 型面4、5、6与8、9、10在所示实施例中可以交错移动。 4,5,6 and 8,9,10 profile embodiment illustrated embodiment may be staggered move.

图2中示出的是连接型材轨道11。 FIG. 2 shows a profiled connecting rail 11. 其中,可以交错移动的型面对4、8各自由一个U形型面形成,型面对4、8的支脚向内以及向外弯曲优选90°。 Wherein the movable type may be staggered 4,8 face each consisting of a U-shaped profile is formed, the face-type legs bent outwardly and inwardly 4,8 preferably 90 °.

安装型材轨道1的型面6以及连接轨道11的型面10由一个角(型面6)以及与其相配的另外一个显出销子型面(10)的型面形成,其中,移动轨道11同样形成能够交错移动的型面对。 Mounting profile of the rail profile 1 and profile 6 connected to a track 11 by a 10 angle (profile 6) and a cooperating pin showing a further surface (10) of the profile is formed, wherein the movable rail 11 likewise type face can form a staggered movement.

此外,安装型材轨道1的型面5以及连接型材轨道11的型面9各自形成外部平坦的支承面19,它们在安装之后互相重叠。 Further, the mounting of the profiled rail profile 5 is a profile rail 11 and the connecting profile 9 each outer flat support surface 19 is formed, which overlap each other after installation.

安装型材轨道1与连接型材轨道11之间的力封闭的连接12通过一个螺栓得以建立,通过连接型材轨道11可以在型面8的区域内引导该螺栓,该螺栓被压向安装型材轨道1。 Mounting profile rail 1 is connected to the closure force between the profiled rail 11 is connected through a bolt 12 is established, the bolt 11 may be in the region of the guide profile by a connecting profile rail 8, the bolt is pressed against the mounting profile rail 1. 在连接型材轨道11中设有螺纹。 In the threaded connection profile rail 11. 当连接型材轨道1在其它区域中被设为箱式型材或空心型材时,为了达到相符的强度特性,将连接型材轨道1在型面8的区域中坚固地设置。 When the connection is set to a profiled rail or a hollow profile box-like profile in the other regions, in order to achieve consistent strength characteristics, the profile rail is connected firmly disposed in the region of one profile 8. 与此同时,连接型材轨道11的机械负荷能力近似或等同于安装型材轨道1的机械负荷能力。 At the same time, the mechanical load connected to the profile rail is approximately equal to the capacity of 11 or mechanical loading capacity of the profiled rail 1 is mounted.

此外具有优点的是,连接型材轨道11在形状配合连接建立之后以安装型材轨道1的型材高度7在上面闭合。 Also it has the advantage that the connecting profiled rail 11 after installation to establish a form-fit connection profile height profile rail 1 in the above 7 is closed. 这会增大支承面。 This increases the support surface.

图3以透视图示出利用连接型材轨道11而延长了的安装型材轨道1。 Figure 3 illustrates in perspective view the mounting section 11 by the connection of the profiled rail 1 extended track. 安装型材轨道1(这里为成形件13)的其中一段被推向连接型材轨道11并被力封闭地固定。 Mounting profile rail 1 (here, the molding member 13), wherein the connecting section of the profiled rail 11 is pushed and fixed to the closure force. 带有安装型材轨道1的安装系统因此能够毫无问题地在连接型材轨道11的区域内被继续引导、并且在最精确地与太阳能模块相配的情况下保证对应的强度特性。 With a mounting profile rail mounting system 1 can be connected without problems continue to be guided in the region of the profile rail 11, and to ensure a corresponding strength characteristics in the case where the most accurate matching of the solar module.

图4示出的是一个被形状接合地置入安装型材轨道1或成形件13之中的螺纹滑块14。 FIG 4 is shown to be a form-fitting manner into the threaded slider 14 is mounted in the profiled rail member 131 or the shaping. 螺纹滑块14被设置在成形件13或安装型材轨道1的两个隔片15、16之间,两个隔片15、16与螺纹孔18基本上平行并且彼此间隔设置,其中,隔片15在末端拥有一个弯头21,弯头21通过被装入的螺纹滑块14抓扣,从而使得设置的螺纹滑块14的移动从上方被侧向限定。 Thread 14 is disposed between the slider 15 and 16, two spacer sheets 15, 16 with the threaded hole 18 arranged substantially in parallel and spaced from one another forming two spacer member 13 or mounting profile rail 1, wherein the spacer 15 at the end it has a bend 21, an elbow 21 threaded through the slider 14 is loaded clasps, so that the movement of the threaded slider 14 disposed laterally from above defined.

在下面,置入的螺纹滑块14支承在安装型材轨道1的另外两个隔片17、20上,属于这两个隔片17、20的隔片17以其弯头22形状接合地夹入螺纹滑块14之中并因此而阻止离开隔片17的移动。 In the following, the threaded into the slider 14 is supported on the other two spacers 17, 20 mounted in a profile rail, belonging to the two spacers 17, 20 of the spacer 17 the shape of the knee-joint 22 in its clamped into among the threaded slider 14 and thus prevented from leaving the separator 17 is moved. 其中,隔片17平行于隔片15、16并在这两者之间延伸。 Wherein, parallel to the spacer 17 and the spacer 15, 16 extending therebetween.

作为被置入的螺纹滑块14的支承面的隔片20被垂直于隔片15设置并在隔片15一侧延伸。 As the separator is placed into the bearing surface of the thread 20 of the slider 14 is disposed perpendicular to the septum 15 and septum extension 15 side.

此外,隔片17在指向螺纹孔18轴线的侧面上拥有一个凸起型面24,凸起型面24可以啮合到转入螺纹孔18的螺栓的螺纹之中并在螺栓向内偏转的时候轻微地变形。 Further, the spacer 17 has a convex profile 24 on the side directed threaded bore axis 18, the projection 24 may engage the profile in the threaded bolt into a threaded hole 18 and is slightly deflected inwardly when the bolt deformed. 因此可以在螺栓转动之后就可以阻止螺纹滑块14的移动。 Therefore can prevent movement of the slider 14 of the threaded bolt after rotation.

在所示实施例中,螺纹滑块14拥有L形横断面。 In the illustrated embodiment, the threaded slider 14 has an L-shaped cross section.

螺纹孔18被设置在L形横断面的长支脚中,短支脚的内部拥有一个凹槽23以用来建立与隔片17、具体地说是建立与其弯头22的形状接合的连接。 Threaded hole 18 is provided in the longer leg of the L-shaped cross section, the inner short leg has a recess 23 for establishing contact with the spacers 17, shape of the connection establishment specifically elbow 22 engaged therewith.

L形横断面的长支脚在螺纹孔18的区域内被强化,从而避免在负荷下螺纹的脱落。 L-shaped cross section of the longer leg is reinforced in the region of the threaded bore 18, so as to avoid falling off of the thread under load.

为了安装而将螺栓转入螺纹滑块14。 To install the bolts 14 into the threaded slider. 然后从上面倾斜地在隔片15弯头21与隔片20之间实施螺纹滑块14的置入,接着在隔片17与16之间推移螺纹滑块14的较短的L支脚。 Then obliquely from above in the separator 14 into the screw 15 of the slider elbow embodiment 21 and the spacer 20, followed by passage of the shorter L leg 14 is threaded between the slider 17 and the spacer 16. 利用隔片15方向上的轻微推移可以在隔片的弯头22与螺纹滑块14的L形支脚的凹槽23之间建立形状配合连接或用于形状配合连接的位置。 Using a slight transition direction of the diaphragm 15 may be used to establish a form-fit connection or a positive connection position between the L-shaped groove of the spacer leg 22 of the elbow 23 and the slider 14 thread.

通过将螺栓转入螺纹孔18使得螺纹啮合到凸起型面24上,螺纹滑块14为后来的张紧得以固定。 As the bolt into the threaded hole 18 so that the projection onto the threaded engagement profile 24, the slider 14 is then threaded tensioning fixed. 图中表明,在施工现场条件下可以毫无问题并准确地将螺纹滑块14装入支承型材1。 FIG indicated, no problem and accurately threaded slider 14 fitted into the supporting profile 1 at the construction site conditions. 通过预先转入螺栓可以很好地操作螺纹滑块14而并不需要在现场将螺栓“穿入”螺纹孔18。 Advance into the threaded bolt can be well operated slider 14 in the field without requiring bolts "penetration" threaded hole 18.

此外,螺纹滑块14是一个能够被简单地制造的、被挤压并然后被切断的成形件,其事先设有螺纹孔18。 Further, the slider 14 is a screw which can be easily manufactured, and is then extruded and cut shaped member, which is provided with a threaded hole 18 in advance.

图5示出的是放置在支承型材1中的螺纹滑块14。 FIG. 5 shows a profile 1 is placed in the support 14 of the threaded slider. 支承型材1一方面在上方被设为用于固定太阳能模块,另一方面则作为型材侧向旋转90°以用来安排固定屋顶或房屋正面。 1 is an aspect of the support profile is provided for fixing the solar module at the top, on the other hand, as the profile 90 ° lateral rotation to a fixed schedule for roofs or facades.

附图标记1安装型材轨道2支座3用来固定屋顶的接口4构成U形型面并具有向内弯曲的支脚的型面5形成支承面的型面6具有角的型面7型材高度8构成U形型面并具有向外弯曲的支脚的型面9形成支承面的型面10具有销子的型面11连接型材轨道12力封闭的连接13成形件14螺纹滑块15隔片16隔片17隔片18螺纹孔19支承面20隔片21隔片15或16上的弯头22隔片17上的弯头23螺纹滑块的凹槽24凸起型面 Reference numeral 1 profile mounting profile rails 2 support 3 for fixing the roof profile interface 4 constitutes a U-shaped profile having inwardly curved foot support surface 5 is formed having an angular profile 6 7 8 profile height 11 force closed profile rail 12 is connected to the slider 14 thread 13 shaped profile member 10 having a pin configuration profile having a U-shaped profile and the supporting surface 9 is formed outwardly curved profile connecting leg 16 spacer 15 spacer spacer sheet 17 bearing surface 18 a threaded hole 19 spacer 20 spacer 21 on the elbow 16 of the spacer 15 or 22 recess 24 projection 23 bends the thread profile of the slider on the sheet 17

Claims (16)

1.一种用来固定太阳能模块的安装系统,具有至少两条间隔设置的安装型材轨道(1),该轨道各自拥有限定型材高度(7)的支座(2)以及位于支座(2)下面的、用于屋顶固定的接口(3),其中为了以螺栓连接固定太阳能模块以及屋顶而使用了螺纹滑块(14),螺纹滑块(14)被形状接合地啮合到安装型材轨道(1)中,在安装型材轨道(1)的侧面或在侧面以及底部设有型面(4,5,6),该型面(4,5,6)用于连接型材轨道(11)的型面(8,9,10),其中,在连接到一起之后,在型面(4,5,6)和型面(8,9,10)之间,形成至少在两个点上的形状配合连接并可以产生力封闭的连接(12),其中,连接型材轨道(11)的机械负荷能力近似或等同于安装型材轨道(1)的机械负荷能力,并且现在显示为成形件(13)的安装型材轨道(1)的至少一段能够通过其型面(4,5,6)与连接型材轨道(11)的型面(8,9,10)连接并且 1. A method for fixing the solar module mounting system, having at least two spaced mounting profiled rails (1), each of the track profile has a defined height (7) of the support (2) and is located in the support (2) below, an interface for fixing the roof (3), wherein the screw connection for fixing the solar module to the roof and used threaded slide (14), a threaded slider (14) is mounted form-fitting manner to the profiled rail engages (1 ), the side mounting profile rail (1) or profile provided on the side surface and the bottom (4,5,6), the profile (4,5,6) for connecting the profile rail (11) of the profile (8,9,10), wherein, after connecting together between the profile (4,5,6) and the profile (8,9,10), are formed in the shape of at least two points on the mating connector and may generate a force closure connection (12), wherein the mechanical load capacity of the profiled connecting rail (11) is similar or identical to the mounting of the profiled rail (1) mechanical load capacity, and now displayed as a molded part (13) of the installation profile track (1) through at least a section of its profile (4,5,6) is connected with the profile rail (11) of the profile (8, 9) and is connected 定。 Set.
2.按照权利要求1所述的安装系统,其中,连接型材轨道(11)按照产生的形状配合连接以安装型材轨道(1)的型材高度(7)在上面闭合。 2. The mounting system according to claim 1, wherein the profiled connecting rail (11) produced according to the shape of the mating connector for mounting profiled rails (1) of the profile height (7) is closed at the top.
3.按照权利要求1或2所述的安装系统,其中,安装型材轨道(1)的型面(4)与连接型材轨道(11)的型面(8)形成一个能够交错移动的型面对。 3. The mounting system as claimed in claim 1 or claim 2 wherein the mounting profile rail (1) of the profile (4) and the connecting rail profile (11) of the profile (8) can be formed in a staggered type movable face .
4.按照权利要求3所述的安装系统,其中,交错移动的型面对由U形型面形成,U形型面的支脚一个向内一个向外弯曲优选90°。 4. The mounting system according to claim 3, wherein the staggered movable type face is formed by a U-shaped profile, the legs of a U-shaped profile is bent inwardly outwardly a preferred 90 °.
5.按照权利要求1至4之一所述的安装系统,其中,安装型材轨道(1)的型面(6)与连接型材轨道(11)的型面(10)形成一个能够交错移动的型面对,其中的一个型面,优选为型面(6)由一个角形成,其它型面由销子型面(10)形成。 5. A mounting system according to claim 1 to 4, wherein the mounting profile rail (1) of the profile (6) and the connecting rail profile (11) of the profile (10) capable of forming a staggered movable type face, wherein a profile, preferably a profile (6) is formed by a corner, the other surface is formed by a pin-type profile (10).
6.按照权利要求1至5之一所述的安装系统,其中,安装型材轨道(1)的型面(5)与连接型材轨道(11)的型面(9)均是外部平坦的支承面(19),支承面(19)在安装之后相互重叠。 6. A mounting system according to claim 1 to 5, wherein the mounting profile rail (1) of the profile (5) and the connecting rail profile (11) of the profile (9) are external flat bearing surface (19), bearing surface (19) overlap each other after installation.
7.按照权利要求1至6之一所述的安装系统,其中,在安装型材轨道(1)与连接型材轨道(2)之间通过螺栓形成力封闭的连接(12),螺栓通过连接型材轨道(11)而在型面(8)区域内引导并被压向安装型材轨道(1)。 7. The mounting system of claim 1 to 6, wherein the force closure connection (12) is formed by a bolt between the mounting profile rail (1) and the connecting rail profile (2), connected to the profile rail by screws (11) (8) in the region of the guide profile and is pressed against the mounting profile rail (1).
8.按照权利要求7所述的安装系统,其中,连接型材轨道(11)在到达一个区域之前被设为箱式型材或空心型材,力封闭的连接(12)以螺栓的形式贯穿在所述区域中。 8. The mounting system according to claim 7, wherein the profiled connecting rail (11) is set to box profiles or hollow profiles before reaching a region, force closure connection (12) in the form of a bolt through area.
9.按照权利要求7或8所述的安装系统,其中,为了形成力封闭的连接(12),连接型材轨道(11)在该区域中拥有一个带有螺纹的圆孔。 9. The mounting system as claimed in claim 7 or 8, wherein, in order to form a closed force connector (12), the profiled connecting rail (11) has a circular hole in the threaded area.
10.按照权利要求1所述的安装系统,其中,为了借助螺栓连接固定成形件(13)和/或安装型材轨道(1)上的组件而设有螺纹滑块(14),当螺纹滑块(14)被设置在安装型材轨道(1)和/或成形件(13)的两个隔片(15,16)之间和/或被设置在两个属于成形件(13)的隔片(15,16)之间时,螺纹滑块(14)与成形件(13)和/或安装型材轨道(1)形成形状接合的连接,其中,隔片(15,16)基本上与螺纹孔(18)平行并且彼此间隔设置,隔片(15或16)在末端拥有弯头(21),弯头(21)通过螺纹滑块抓扣,从而使得设置的螺纹滑块(14)的移动被从上方侧向限定,螺纹滑块(14)在下方支承在成形体(13)和/或安装型材轨道(1)的至少两个另外的隔片(17,20)上,其中的一个隔片(17)形状接合地抓扣到螺纹滑块(14)中并因此阻止离开隔片(17)的移动。 10. The mounting system according to claim 1, wherein, in order to connect the fixed profile (13) and / or the mounting profile rail (1) by means of a bolt assembly provided with a threaded slide (14), when the slider thread (14) is arranged between two spacers (15, 16) mounting the profile rail (1) and / or forming element (13) and / or arranged two spacers belonging to profile (13) ( 15, 16) is between the threaded slide (14) the forming member (13) and / or the mounting profile rail (1) formed in the shape of connecting engagement, wherein the spacer (15, 16) substantially with a threaded hole ( 18) parallel to and spaced from each other, the spacer (15 or 16) has a bend (21), the elbow (21) by screwing at the end of the slide clasp, so that the set screw slider (14) is moved from laterally defined above, the threaded slider (14) supported from below on the at least two further spacer (17, 20) in the shaped body (13) and / or the mounting profile rail (1), wherein a spacer ( 17) form-fitting manner into the threaded slide clasp (14) and thus prevented from leaving the moving web (17).
11.按照权利要求10所述的安装系统,其中,隔片(17)基本上与隔片(15,16)平行并且在这些隔片之间沿着成形件的纵向或沿着安装型材轨道的纵向延伸,而隔片(20)作为螺纹滑块(14)的支承面垂直于隔片(15或16)延伸。 11. The mounting system according to claim 10, wherein the spacer (17) substantially with the spacers (15, 16) parallel to and between the spacers in the longitudinal direction or along a mounting profile rail shaped member a longitudinally extending, and the spacer (20) as the threaded bearing surface of the slider (14) perpendicular to the spacer (15 or 16) extends.
12.按照权利要求10或11所述的安装系统,其中,安装型材轨道(1)和/或成形件(13)利用隔片(15,16,17)再一次以同样的方式偏转或旋转优选90°以便容纳一个或其它螺纹滑块(14)。 12. The mounting system as claimed in claim 10 or claim 11, wherein the mounting profile rail (1) and / or forming element (13) using the spacers (16, 17) again in the same manner as the rotary deflector or preferably 90 ° for receiving a screw or other slide (14).
13.按照权利要求10至12之一所述的安装系统,其中,螺纹滑块(14)拥有L形横断面。 13. The mounting system of claim 10 to 12 to one, wherein the threaded slider (14) has an L-shaped cross section.
14.按照权利要求13所述的安装系统,其中,螺纹孔(18)贯穿L形横断面的长支脚,短支脚的里面拥有一个凹槽(23),凹槽(23)用来建立与隔片(17)的连接,特别是形状接合地建立与其弯头(22)的连接。 14. The mounting system according to claim 13, wherein the threaded bore (18) through the long leg of the L-shaped cross section, the short leg of which has a recess (23), the recess (23) to establish the compartment connection piece (17), in particular form-fitting manner to establish its elbow (22) is connected.
15.按照权利要求13或14所述的安装系统,其中,L形横断面的长支脚在螺纹孔(18)的区域内被强化,从而避免在负荷下的螺纹的脱落。 15. The mounting system of claim 13 or claim 14, wherein, L-shaped cross section of the longer leg is reinforced in the region of the threaded bore (18), so as to avoid falling off of the thread under load.
16.按照权利要求10至15之一所述的安装系统,其中,隔片(17或20)在指向螺纹孔(18)轴线的侧面上拥有凸起型面(24),凸起型面(24)啮合到被拧入螺纹孔(18)的螺栓的螺纹中并且伴随螺栓的拧入发生轻微的变形。 16. The mounting system of claim 10 to 15 to one, wherein the spacer (17 or 20) has a convex profile on the side directed threaded bore (18) axis (24), the raised profile ( 24) engages the threaded bolt is screwed into the threaded hole (18) and a slight deformation of the bolt screwed into the associated occurrence.
CN2005800458555A 2005-01-10 2005-12-23 Threaded slider mounting system CN101095017B (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
DE102005001654A DE102005001654B3 (en) 2005-01-10 2005-01-10 Support profile for attachment of components has thread stone, which can be brought into positive connection with support profile whereby thread stone is arranged between two parallel to thread drilling and at distance arranged bars
DE102005001654.5 2005-01-10
DE102005001653A DE102005001653B3 (en) 2005-01-10 2005-01-10 Mounting system for fixing solar modules and roofing holders includes aluminum profiles while using threaded sliders inserted into the profiles
DE102005001653.7 2005-01-10
PCT/DE2005/002331 WO2006072230A1 (en) 2005-01-10 2005-12-23 Threaded slider mounting system

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CN101095017B CN101095017B (en) 2011-06-29

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