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KR-20260067264-A - MOVABLE MOUNTING ARRANGEMENT FOR PHOTOVOLTAIC INSTALLATIONS

KR20260067264AKR 20260067264 AKR20260067264 AKR 20260067264AKR-20260067264-A

Abstract

Mobile mounting device for photovoltaic equipment. The object of the present invention is to provide a mounting device for movable frames designed to support photovoltaic panels, provided for attachment between two adjacent frames in particular through a hinged attachment system, so that the frames can be attached between them at a variable angle in a minimum amount of space.

Inventors

  • 주르뎅 드 티율로이, 로랑, 장-바티스트, 마리, 브루노

Assignees

  • 노마드 솔라 에너지, 에스.엘.

Dates

Publication Date
20260512
Application Date
20241219
Priority Date
20241105

Claims (11)

  1. A movable mounting device for a photovoltaic facility, provided for attachment between two adjacent frames, each configured to support at least one photovoltaic panel (1) through a hinged attachment system, A first fixed segment (2) linked to the first frame; A second fixed segment (3) linked to a second frame adjacent to a first frame, wherein the first and second fixed segments are connected to each other through a shaft (4), and one end of the shaft is coupled to a moving element; and Restriction means provided to limit the unfolding angle defined by two frames; including, A mounting device comprising a shaft (4) made of a single elongated piece having a plurality of segments of different diameters, and, in order from the outer part to the inner part, a first segment (40) configured for coupling the moving element, a second segment (41) having a larger diameter than the first segment configured to act as a stop for the hinged attachment system and the moving element, a third segment (42) having a different diameter from the first segment (40) provided for coupling to the first and second fixed segments of the hinged attachment system, and a fourth segment (43) having a screw area configured for coupling the screw stop element.
  2. In claim 1, A mounting device characterized in that the above moving element is made of a wheel (5).
  3. In claim 1, A mounting device characterized in that the above-mentioned limiting means is composed of a tension member (7) capable of changing length, and each of the two ends is fixed to an attachment member linked to the shaft.
  4. In claim 3, A mounting device characterized in that the attachment member comprises an elongated body having a first central region provided to be coupled to the shaft (4) and two attachment regions at the ends, each of the attachment regions having a hook-shaped end defined by a grooved portion, so that the tension member can be coupled to the grooved portion of the hook-shaped end in a releaseable manner.
  5. In claim 4, A mounting device characterized in that the elongated body forming the attachment member has a center segment having an offset segment located in a plane parallel to the rest of the body when viewed in a profile view.
  6. In claim 3, A mounting device characterized in that the above tension member is a chain having a plurality of links.
  7. In claim 1, A mounting device characterized by including an anchoring means that can be linked to the shaft and configured to keep the wheel from moving on a support surface or ground.
  8. In claim 7, A mounting device characterized in that the above anchoring means is configured with a bar (9) that can be fixed at one end to the shaft (4) to which the wheel (5) is coupled, while the opposite end is attached to the plate (12).
  9. In claim 8, A mounting device characterized in that the above plate (12) has a flat surface and a hole (120) is formed on the surface.
  10. In claim 1, A mounting device characterized in that the above-mentioned screw-type stop element is a nut.
  11. In claim 1, A mounting device characterized in that the above frames are each formed by a rectangular frame-like scaffold.

Description

Mobile Mounting Arrangement for Photovoltaic Installations The present invention aims to provide a mounting device for movable frames designed to support photovoltaic panels, particularly for attachment between two adjacent frames via a hinged attachment system, so that the frames can be attached between them at a variable angle in a minimum amount of space. Arrangements of deployment systems for photovoltaic panels on terrain that facilitate the installation, removal, and transportation of the aforementioned panels are well known today in the field of renewable energy, particularly in the field of photovoltaic energy. However, such systems can be expensive and may have greater limitations regarding the number of photovoltaic panels to be installed, as they may be more expensive to manufacture because they have a specific number of photovoltaic panels and previously defined structures from a constructive perspective, can be bulky in a folded state, and require guiding means such as rails or tracks for deployment. To this end, there is still a need to find a device with an attachment system that is easy to manufacture and therefore also economically less expensive. Furthermore, the applicant is not currently aware of any invention having all the features described in this specification. The present invention was developed with the purpose of providing a mounting device for a photovoltaic facility that is novelly configured within the field of application, solves the aforementioned disadvantages, and also contributes to another additional advantage that will become apparent from the following description. Therefore, the object of the present invention is to provide a movable mounting device for a photovoltaic installation, provided for attachment between two adjacent frames, each configured to support at least one photovoltaic panel through a hinged attachment system, wherein: A first fixed segment linked to the frame of the first photovoltaic panel; A second fixed segment linked to the frame of an adjacent second photovoltaic panel, wherein the first and second fixed segments are connected to each other via a shaft, and the end of the shaft is coupled to a mobility element; and It includes a limiting means provided to limit the unfolding angle defined by two frames. In particular, the present invention is characterized in that the shaft is formed as a single oblong piece having a plurality of segments of different diameters, and, in order from the outer part to the inner part, a first segment configured for coupling a moving element, a second segment having a diameter larger than the first segment configured to act as a stop for a hinged attachment system and a moving element, a third segment having a diameter different from the first segment provided for coupling to the first and second fixed segments of the hinged attachment system, and a fourth segment having a screw area configured for coupling a screw stop element. Preferably, the moving element is made of a wheel. According to the present invention, the aforementioned limiting means is composed of a tensioning member capable of changing its length, and each of its two ends is fixed to an attachment member linked to a shaft. Preferably, the attachment member, which is part of the device of the present invention, is made of a body having an elongated shape along the longitudinal axis and has a first central region provided for coupling to a shaft, and two attachment regions at the ends, each of which has a hook-shaped end defined by a grooved portion, so that the tension member can be coupled in a manner that is releaseable at the grooved portion. According to the present invention, an elongated body forming an attachment member has a center segment having an offset segment located in a plane parallel to the rest of the body when viewed in a profile view. Preferably, the tension member is a chain having a number of links, but other tension members, such as a metal cable having high mechanical strength, may also be used. Additionally, the device may include an anchoring means that can be linked to a shaft, which is configured to keep the wheel from moving on a support surface or ground. Preferably, the anchoring means comprises a bar that can be fixed at one end to the aforementioned shaft to which the wheel is coupled, while the opposite end is attached to a plate. According to the present invention, the screw-type stop element present on the shaft may be a conventional nut, thereby simplifying the mounting process. As a result of this mounting system, not only is the portability and arrangement of photovoltaic panels at a variable angle of inclination with respect to the horizontal plane of the ground, e.g. 15 to 20°, advantageous for optimizing energy efficiency, but this is also accomplished by a system that is easy to manufacture and can be easily mounted by workers. In this way, frame deployment is facilitated, and the time required to deploy the fr