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DE-102024132619-A1 - Enclosure, treatment and/or processing station, and treatment and/or processing system

DE102024132619A1DE 102024132619 A1DE102024132619 A1DE 102024132619A1DE-102024132619-A1

Abstract

The present invention relates to an enclosure comprising at least one interior space, in particular for at least one industrial workplace, for a treatment station and/or for a processing station for the treatment and/or processing of workpieces, in particular vehicle bodies, and a support frame structure for delimiting the at least one interior space, wherein the support frame structure comprises several support frame modules, wherein each support frame module comprises at least two support struts and at least one cross strut which connects the at least two support struts to each other along a transverse axis of the enclosure, wherein the several support frame modules are arranged successively along a longitudinal axis of the enclosure and are each connected to each other by means of at least one longitudinal strut. Furthermore, the present invention relates to a treatment station and/or a processing station comprising such an enclosure. Furthermore, the present invention relates to a treatment and/or processing plant for the treatment and/or processing of workpieces, in particular vehicle bodies, comprising one or more such treatment stations and/or processing stations.

Inventors

  • Nico Stutznäcker
  • Heiko Dieter
  • Patrick Jones

Assignees

  • DÜRR SYSTEMS AG

Dates

Publication Date
20260513
Application Date
20241108

Claims (20)

  1. An enclosure (100) comprising at least one interior space (102), in particular for at least one industrial workstation (104), for a treatment station (106) and/or for a processing station (108) for the treatment and/or processing of workpieces (110), in particular vehicle bodies (112), and a support frame structure (114) for delimiting the at least one interior space (102), wherein the support frame structure (114) comprises several support frame modules (116), wherein each support frame module (116) comprises at least two support struts (118, 132, 134) and at least one cross strut (120) which connects the at least two support struts (118, 132, 134) along a transverse axis (122) of the enclosure (100), wherein the several support frame modules (116) are arranged successively along a longitudinal axis (124) of the enclosure (100) and each is connected by means of at least one longitudinal strut (126) are connected to each other.
  2. Enclosure (100) according to Claim 1 , characterized in that each support frame module (116) comprises at least three support struts (118, 132, 134), wherein adjacent support struts (118, 132, 134) of the at least three support struts (118, 132, 134) are connected to each other along the transverse axis (122) by means of at least one transverse strut (120).
  3. Enclosure (100) according to Claim 2 , characterized in that the enclosure (100) comprises at least one second interior space (128), in particular for at least one second industrial workplace (130), wherein each support frame module (116) comprises two outer support struts (132) and at least one intermediate support strut (134) arranged along the transverse axis (122) to define a first interior space (102) and the at least one second interior space (128) which is arranged along the transverse axis (122) adjacent to the first interior space (102), wherein in particular the outer support struts (132) are structurally identical, and wherein in particular the at least one intermediate support strut (134) is structurally different from the two outer support struts (132).
  4. Enclosure (100) according to one of the preceding claims, characterized in that the at least two support struts (118, 132, 134) and/or the at least one transverse strut (120) and/or the at least one longitudinal strut (126) are designed as profile components, wherein in particular the profile components have an H-section profile.
  5. Enclosure (100) according to Claim 4 , characterized in that the at least one intermediate support strut (134) per support frame module (116) has a first inner side (136) facing the first interior space (102) and a second inner side (138) facing the at least one second interior space (128), wherein the first and second inner sides (136, 138) are mirror-symmetrical to a, preferably first, intermediate plane (140) of the at least one intermediate support strut (134).
  6. Enclosure (100) according to Claim 5 , characterized in that the first and second inner interior (136, 138) each have a receiving channel (142), in particular separate from each other, in which one or more illuminating elements (144) are received for illuminating the first interior (102) and the at least one second interior (128).
  7. Enclosure (100) according to one of the Claims 3 until 6 , characterized in that the at least one intermediate support strut (134) per support frame module (116) has a first mounting side (146) and a second mounting side (148) which are mirror-symmetrical to a second intermediate plane (150) which is preferably oriented perpendicular to the first intermediate plane (140).
  8. Enclosure (100) according to Claim 7 , characterized in that the first and second mounting side (146, 148) each have a further, in particular separate, receiving channel (152) in which one or more power supply lines (154) and/or media lines (156) for the electrical supply and/or media supply of the first interior space (102) and/or the at least one second interior space (128) are received.
  9. Enclosure (100) according to Claim 7 or Claim 8 , characterized in that the first and second mounting sides (146, 148) each have a first, preferably flat, mounting surface (158) and/or each have a second, preferably flat, mounting surface (160), which are each aligned parallel to the second central plane (150), wherein fixing interfaces (162) are preferably arranged on the first and/or second mounting surfaces (158, 160), in particular regularly spaced.
  10. Enclosure (100) according to one of the Claims 7 until 9 , characterized in that a through-opening (164) is provided in each of the first and second mounting sides (146, 148), which extends between the respective first and second mounting surfaces (158, 160) and opens into the respective further receiving channel (152).
  11. Enclosure (100) according to Claim 10 , characterized in that the respective through-opening (164) has a fixing area (166) for fixing a cover 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 fixed to the respective fixing area (166) by means of a snap connection (170).
  12. Enclosure (100) according to one of the preceding claims, characterized in that one or more auxiliary profile components (172) can be fixed or are fixed to at least one support frame module (116) and/or to the respective at least one longitudinal strut (126) for fixing additional installation elements into the enclosure (100) and/or attachment elements (174) to the outside of the enclosure (100), wherein in particular the one or more auxiliary profile components (172) has/have a C-section profile.
  13. Enclosure (100) according to Claim 12 , characterized in that the one or more auxiliary profile components (172) each have two fixing sides (176) and an additional receiving channel (178) in which one or more power supply lines (154) and/or media lines (156) are received, wherein an access opening (180) is provided in one of the fixing sides (176) and opens into the respective additional receiving channel (178).
  14. Enclosure (100) according to one of the preceding claims, characterized in that the enclosure (100) comprises one or more ceiling elements (182), wherein a first fixing device (184) and a second fixing device (186) for fixing the one or more ceiling elements (182) are fixed on one or more transverse struts (120) and/or on one or more longitudinal struts (126), and wherein the one or more ceiling elements (182) comprises a first fixing device (188) complementary to the first fixing device (184) and a second fixing device (190) complementary to the second fixing device (186).
  15. Enclosure (100) according to Claim 14 , characterized in that the one or more ceiling elements (182) are formed from an air-permeable material and/or from a woven material, wherein the complementary first fixing device (188) comprises one or more keders (192) and the first fixing device (184) comprises one or more keder rails (194) for fixing the one or more keders (192), and/or wherein the complementary second fixing device (190) comprises one or more hook and loop fastener elements (196) and the second fixing device (186) comprises one or more further hook and loop fastener elements (198) for releasably engaging in the one or more hook and loop fastener elements (196).
  16. Enclosure (100) according to Claim 14 or Claim 15 , characterized in that the one or more ceiling elements (182) have the same length as a longitudinal strut (126) or an N multiple of a length of the longitudinal strut (126) for partial or full coverage of a ceiling area (260) of the enclosure (100), and/or wherein the one or more ceiling elements (182) have the same length as a transverse strut (120) or an N multiple of a length of the transverse strut (120) for partial or full coverage of the ceiling area (260) of the enclosure (100).
  17. Enclosure (100) according to one of the preceding claims, characterized in that a suspended conveyor device (200) for conveying workpieces (110) can be fixed or is fixed to the support frame structure (114), in particular in the area of the longitudinal struts (126) and/or the transverse struts (120), wherein one or more transverse struts (120) and/or longitudinal struts (126) are interrupted to fix the suspended conveyor device.
  18. Enclosure (100) according to one of the Claims 3 until 17 , characterized in that the enclosure (100) comprises in the first interior space (102) a first control cabinet (202) in which electrical and/or electronic components for the enclosure (100) are integrated, and in which at least one second interior space (128) comprises a second control cabinet (204) in which further electrical and/or electronic components for the enclosure (100) are integrated, wherein the first and the second control cabinet (202, 204) are arranged at the same positions in the first interior space (102) and in the at least one second interior space (128).
  19. Enclosure (100) according to one of the preceding claims, characterized in that the enclosure (100) comprises at least one adapter element (206) which has a strut-side fixing surface (208) for fixing to at least one outer support strut (132), wherein the strut-side fixing surface (208) is geometrically adapted to a surface contour (210) of a fixing side (176) of the at least one outer support strut (132), wherein in particular the at least one adapter element (206) comprises a further, preferably planar, fixing surface (212) for fixing various components of the enclosure (100) to be fixed thereto.
  20. Treatment station (106) and/or processing station (108) for treating and/or processing workpieces (110), in particular vehicle bodies (112), comprising: - at least one enclosure (100) according to one of the preceding claims, and - a floor structure (214) on which the at least one enclosure (100) is mounted and/or in which the at least one enclosure (100) is partially integrated, wherein the floor structure (214) comprises a continuous recess (216) along the longitudinal axis (124) of the enclosure (100), through which an autonomously movable conveying unit (218), in particular an automated guided vehicle (AGV), can be moved for conveying workpieces (110) through the treatment station (106) and/or the processing station (108).

Description

The present invention relates to an enclosure that can be used, in particular, for at least one industrial workstation. The enclosure can additionally or alternatively be used for a treatment station and/or a processing station for the treatment and/or processing of workpieces, especially vehicle bodies. Furthermore, the present invention relates to a treatment station and/or a processing station for the treatment and/or processing of workpieces, in particular vehicle bodies, comprising at least one enclosure as described above. Furthermore, the present invention relates to a treatment plant and/or a processing plant comprising at least one such treatment station and/or processing station. Such processing stations can advantageously be painting stations. Such processing stations can advantageously be corresponding manual or automatic control stations of, for example, painting stations. Accordingly, such enclosures can be used at these manual workstations, painting stations and/or control stations of painting systems. Enclosures of this type are already known from the prior art. For example, from the DE 10 2019 206 752 A1 A species-appropriate enclosure is known. The present invention is therefore based on the objective of providing an enclosure that is easy to assemble and flexible in its use. This problem is solved according to the invention by the features of independent claim 1. Advantageous embodiments of the invention are described in the dependent claims. Accordingly, an enclosure according to the invention comprises at least one interior space, in particular for at least one industrial workplace, and a support frame structure for limiting the at least one interior space. The support frame structure preferably comprises several support frame modules, each support frame module comprising at least two support struts and at least one cross strut, which advantageously connects the at least two support struts along a transverse axis of the enclosure. Furthermore, it can be advantageous if the several support frame modules are arranged successively along a longitudinal axis of the enclosure and are each connected to each other by means of at least one longitudinal strut. The supporting struts of the enclosure are preferably oriented substantially vertically when assembled. Similarly, the longitudinal struts along the longitudinal axis and/or the transverse struts along the transverse axis are preferably oriented horizontally when assembled. In particular, the enclosure is essentially cuboid in shape, with the supporting struts and the longitudinal or transverse struts preferably forming an angle of at least approximately 90° to each other in the assembled state. The support frame modules are preferably arranged consecutively along the longitudinal axis and/or spaced apart from each other in a predetermined grid. The grid is preferably achieved by having a uniform length of the longitudinal struts. Preferably, the length of the longitudinal struts and/or the spacing of the support frame modules is at least approximately 1.50 m, for example at least approximately 2 m. The respective support struts extend vertically, preferably over the entire height of the enclosure. The cross braces extend along the transverse axis preferably over the entire width of at least one interior space of the enclosure. Preferably, the longitudinal struts extend only between two support frame modules. The enclosure preferably comprises several identically designed support frame modules. In particular, the enclosure comprises several identically designed support struts and/or several identically designed cross struts and/or several identically designed longitudinal struts. Each support frame module can advantageously comprise at least three support struts, wherein adjacent support struts of the at least three support struts are connected to each other along the transverse axis by means of at least one cross strut. Since the cross braces preferably extend along the transverse axis over the entire width of the at least one interior space of the enclosure, at least one second interior space can advantageously be provided by means of the at least three support braces and the at least two cross braces per support frame module. Consequently, the enclosure preferably includes at least one second interior space, in particular for at least one second industrial workplace. Each support frame module can include two external support struts along the transverse axis and at least one intermediate support strut arranged between them to define a first interior space and at least one second interior space. Therefore, at least one second interior space is advantageously arranged adjacent to the first interior space along the transverse axis. The adjacent arrangement can be advantageous in that the at least one intermediate support strut per support frame module can serve as a support strut for both the first and the second interior space. This elimina