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CN-121992966-A - Fence, processing station and/or processing station, and processing apparatus and/or processing apparatus

CN121992966ACN 121992966 ACN121992966 ACN 121992966ACN-121992966-A

Abstract

The invention relates to a fence comprising at least one interior space, in particular for at least one industrial workplace, a treatment station and/or a processing station for treating and/or processing workpieces, in particular vehicle bodies, and a support structure for delimiting the at least one interior space, the support structure comprising a plurality of support modules, each support module comprising at least two support beams and at least one cross beam connecting the at least two support beams to each other along a transverse axis of the fence, the plurality of support modules being arranged in sequence along a longitudinal axis of the fence and being connected to each other by means of at least one longitudinal beam, respectively. The invention also relates to a treatment station and/or a processing station comprising a fence of this type. The invention further relates to a processing and/or machining device for processing and/or machining workpieces, in particular vehicle bodies, comprising one or more processing stations and/or machining stations of this type.

Inventors

  • N. Stutznak
  • P. JONES
  • H. DIETER

Assignees

  • 杜尔系统股份公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (20)

  1. 1. Fence (100) comprising at least one interior space (102), in particular for at least one industrial workplace (104), a processing station (106) and/or a processing station (108) for processing and/or processing a workpiece (110), in particular a vehicle body (112), and comprising a support structure (114) for defining at least one of the interior spaces (102), wherein the support structure (114) comprises a plurality of support modules (116), wherein each support module (116) comprises at least two support beams (118, 132, 134) and at least one cross beam (120) connecting at least two of the support beams (118, 132, 134) to each other along a transverse axis (122) of the fence (100), wherein A plurality of the support modules (116) are arranged in sequence along a longitudinal axis (124) of the rail (100) and are each connected to one another by means of at least one longitudinal beam (126).
  2. 2. The pen (100) of claim 1, It is characterized in that the method comprises the steps of, Each bracket module (116) comprises at least three support beams (118, 132, 134), wherein adjacent support beams (118, 132, 134) of the at least three support beams (118, 132, 134) are each connected to one another along the transverse axis (122) by means of at least one transverse beam (120).
  3. 3. The pen (100) of claim 2, It is characterized in that the method comprises the steps of, The fence (100) comprises at least one second interior space (128), in particular for at least one second industrial workplace (130), wherein Each rack module (116) comprises two outer support beams (132) along the transverse axis (122) and at least one intermediate support beam (134) arranged therebetween for defining a first interior space (102) and at least one of the second interior spaces (128) arranged adjacent to the first interior space (102) along the transverse axis (122), wherein In particular, the outer support beams (132) are correspondingly identical in design, and wherein In particular at least one of the intermediate support beams (134) is structurally designed differently from the two outer support beams (132).
  4. 4. The pen (100) according to any one of the preceding claims, It is characterized in that the method comprises the steps of, At least two of the support beams (118, 132, 134) and/or at least one of the transverse beams (120) and/or at least one of the longitudinal beams (126) are designed as profile elements, wherein In particular the profile member has an H-shaped cross-sectional profile.
  5. 5. The pen (100) of claim 4, It is characterized in that the method comprises the steps of, At least one of the intermediate support beams (134) of each bracket module (116) has a first inner side (136) facing the first interior space (102) and a second inner side (138) facing at least one of the second interior spaces (128), wherein The first inner side (136) and the second inner side (138) are shaped to be mirror symmetrical with respect to a preferred first center plane (140) of at least one of the intermediate support beams (134).
  6. 6. The pen (100) of claim 5, It is characterized in that the method comprises the steps of, The first inner side (136) and the second inner side (138) each have a receiving channel (142), in particular independent of one another, in which one or more light-emitting elements (144) are respectively received for illuminating the first interior space (102) and at least one of the second interior spaces (128).
  7. 7. The pen (100) according to any one of claims 3 to 6, It is characterized in that the method comprises the steps of, At least one of the intermediate support beams (134) of each bracket module (116) has a first mounting side (146) and a second mounting side (148) that are shaped to be mirror symmetrical with respect to a second central plane (150), which is preferably oriented perpendicular to the first central plane (140).
  8. 8. The pen (100) of claim 7, It is characterized in that the method comprises the steps of, The first mounting side (146) and the second mounting side (148) each have further, in particular independent, receiving channels (152) in which one or more supply lines (154) and/or medium lines (156) are respectively received for supplying power and/or medium to the first interior (102) and/or to the at least one second interior (128).
  9. 9. The pen (100) of claim 7 or claim 8, It is characterized in that the method comprises the steps of, The first mounting side (146) and the second mounting side (148) have a respective preferably flat first mounting surface (158) and/or a respective preferably flat second mounting surface (160), which are each oriented parallel to the second center plane (150), wherein Preferably, fastening openings (162) are arranged, in particular at regular intervals, on the first mounting surface (158) and/or the second mounting surface (160).
  10. 10. The pen (100) according to any one of claims 7 to 9, It is characterized in that the method comprises the steps of, A through opening (164) is introduced into the first mounting side (146) and the second mounting side (148), respectively, which extends between the respective first mounting surface (158) and the second mounting surface (160) and opens into the respective further receiving channel (152).
  11. 11. The pen (100) of claim 10, It is characterized in that the method comprises the steps of, The respective through opening (164) has a securing region (166) for securing a covering element (168) for covering the respective through opening (164) and/or the respective further receiving channel (152), wherein Preferably, the cover element (168) can be fastened to the respective fastening region (166) by means of a locking connection (170).
  12. 12. The pen (100) according to any one of the preceding claims, It is characterized in that the method comprises the steps of, One or more auxiliary profile elements (172) are or can be secured at least one carrier module (116) and/or at least one of the stringers (126), for securing additional built-in elements into the rail (100) and/or externally securing expansion elements (174) to the rail (100), wherein In particular, one or more of said auxiliary profile members (172) have a C-shaped cross-sectional profile.
  13. 13. The pen (100) of claim 12, It is characterized in that the method comprises the steps of, One or more of the auxiliary profile elements (172) each have two fastening sides (176) and an additional receiving channel (178), in each of which one or more supply lines (154) and/or medium lines (156) are received, wherein The inlet opening (180) is correspondingly introduced into one of the fastening sides (176) and opens into a corresponding additional receiving channel (178).
  14. 14. The pen (100) according to any one of the preceding claims, It is characterized in that the method comprises the steps of, The pen (100) includes one or more top elements (182), wherein -Securing a first securing means (184) and a second securing means (186) at one or more cross members (120) and/or one or more stringers (126), respectively, for securing one or more of said top elements (182), and wherein One or more of the top elements (182) include a first securing mechanism (188) complementary to the first securing mechanism (184) and a second securing mechanism (190) complementary to the second securing mechanism (186).
  15. 15. The pen (100) of claim 14, It is characterized in that the method comprises the steps of, One or more of the top elements (182) are formed of a breathable and/or textile material, wherein The complementary first securing means (188) comprises one or more welts (192), and the first securing means (184) comprises one or more welt tracks (194) for securing one or more of the welts (192), and/or wherein The complementary second securing mechanism (190) includes one or more hook and loop fastener elements (196), and the second securing mechanism (186) includes one or more other hook and loop fastener elements (198) for detachably engaging one or more of the hook and loop fastener elements (196).
  16. 16. The pen (100) of claim 14 or claim 15, It is characterized in that the method comprises the steps of, One or more of the top elements (182) have the same length as the stringers (126) or a length of N times the stringers (126) to cover a partial or complete plane of the top region (260) of the pen (100), and/or wherein One or more of the top elements (182) have the same length as the cross beam (120) or a length of the cross beam (120) that is N times greater to cover a partial or complete plane of the top region (260) of the pen (100).
  17. 17. The pen (100) according to any one of the preceding claims, It is characterized in that the method comprises the steps of, A suspended conveyor (200) for conveying workpieces (110) is or can be fastened to the support structure (114), in particular in the region of the longitudinal beams (126) and/or the transverse beams (120), wherein one or more transverse beams (120) and/or longitudinal beams (126) are interrupted for fastening the suspended conveyor.
  18. 18. The pen (100) according to any one of claims 3 to 17, It is characterized in that the method comprises the steps of, The rail (100) comprises a first switch cabinet (202) in the first interior space (102), in which first switch cabinet electrical and/or electronic components for the rail (100) are integrated, and at least one second interior space (128) comprises a second switch cabinet (204), in which second switch cabinet further electrical and/or electronic components for the rail (100) are integrated, wherein The first and second switch cabinets (202, 204) are arranged at respective identical positions in the first and at least one second interior space (102, 128).
  19. 19. The pen (100) according to any one of the preceding claims, It is characterized in that the method comprises the steps of, The rail (100) comprises at least one adapter element (206) having a beam-side mounting surface (208) for mounting at least one external support beam (132), wherein The mounting surface (208) of the beam side geometrically adapts to the surface contour (210) of the mounting side (176) of at least one of the outer support beams (132), wherein In particular, at least one of the adapter elements (206) comprises a further, preferably planar, fastening surface (212) for fastening a component of the rail (100) to be fastened there.
  20. 20. A processing station (106) and/or a machining station (108) for processing and/or machining a workpiece (110), in particular a vehicle body (112), comprising: -at least one rail (100) according to any of the preceding claims, and -A bottom structure (214) on which at least one of said pens (100) is placed and/or in which at least one of said pens (100) is regionally integrated, wherein The substructure (214) comprises a through-going recess (216) along the longitudinal axis (124) of the rail (100), through which an autonomously movable transport unit (218), in particular an unmanned transport vehicle (FTF), can be moved for transporting a workpiece (110) through the processing station (106) and/or the processing station (108).

Description

Fence, processing station and/or processing station, and processing apparatus and/or processing apparatus Technical Field The present invention relates to a fence, in particular for at least one industrial workplace. The rail can additionally or alternatively be used in a treatment station and/or a machining station for treating and/or machining workpieces, in particular vehicle bodies. The invention further relates to a treatment and/or processing station for treating and/or processing workpieces, in particular vehicle bodies, comprising at least one rail as described above. The invention further relates to a treatment and/or processing plant comprising at least one treatment and/or processing station of this type. Background A treatment station of this type may advantageously be a painting station. A processing station of this type may advantageously be a corresponding manual or automatic inspection station, for example a painting station. Correspondingly, this type of fence can be used for these manual workplaces, painting stations and/or inspection stations of painting equipment. Such pens are known from the prior art. Such a rail is known, for example, from DE 10 2019 206 752 A1. Disclosure of Invention It is therefore an object of the present invention to provide a fence which can be simply constructed and which can be flexibly used. According to the invention, this object is achieved by the features of the following claims. In the following, advantageous refinements of the invention are given. Correspondingly, the rail according to the invention comprises at least one interior space, in particular for at least one industrial workplace, and comprises a support structure for defining the interior space. The rack structure preferably comprises a plurality of rack modules, wherein each rack module may comprise at least two support beams and at least one cross beam, which advantageously connects the at least two support beams to each other along the transverse axis of the rail. It may also be advantageous if a plurality of bracket modules are arranged one after the other along the longitudinal axis of the rail and are each connected to one another by means of at least one longitudinal beam. The support beam of the rail is preferably oriented substantially vertically in its installed state. Correspondingly, the longitudinal beams along the longitudinal axis and/or the transverse beams along the transverse axis are oriented in the installed state, in particular substantially horizontally. In particular, the rail is essentially square in shape, wherein the support beams and the stringers or beams, respectively, preferably enclose an angle of at least approximately 90 ° with respect to each other in the installed state. The stent modules are preferably arranged one after the other along the longitudinal axis and/or spaced apart from each other by a predetermined grid. Preferably, the grid is obtained by equal stringer lengths. Preferably, the length of the stringers and/or the spacing of the stent modules is at least about 1.50m, for example at least about 2m. The respective support beams preferably extend in a vertical direction over the entire height of the rail. The cross beam preferably extends along the transverse axis over the entire width of the at least one interior space of the rail. Preferably, the longitudinal beams extend only between the two respective carrier modules. Preferably, the pen comprises a plurality of identically configured rack modules. In particular, the rail comprises a plurality of identically configured support beams and/or a plurality of identically configured cross beams and/or a plurality of identically configured stringers. Each carrier module may advantageously comprise at least three support beams, wherein adjacent support beams of the at least three support beams are each connected to one another along a transverse axis by means of at least one transverse beam. Since the cross beams extend along the transverse axis preferably over the entire width of the at least one interior space of the rail, at least one second interior space can advantageously be provided for each rack module by means of at least three support beams and at least two cross beams. Thus, the rail preferably comprises at least one second interior space, in particular for at least one second industrial workplace. Each rack module may include two outer support beams and at least one intermediate support beam disposed therebetween along the transverse axis for defining a first interior space and at least one second interior space. Thus, the at least one second interior space is arranged advantageously adjacent to the first interior space along the transverse axis. The adjacent arrangement may be advantageous for the reason that at least one intermediate support beam of each carrier module may serve as support beam for both the first interior space and the second interior space. The support beam for two adjace