• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Longitudinal cable support device, through a support cable, comprising a carrier tray that is enabled for carrying cables, and characterized by the fact that it comprises at least one support element enabled to support gravity to the carrier tray and to be supported by the support cable. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2774405A1
    申请号:ES201930035
    申请日:2019-01-21
    公开日:2020-07-21
    发明作者:Tobaruela Javier Banuls
    申请人:Basor Electric SA;
    IPC主号:
    专利说明:

    [0002] LONGITUDINAL CABLE SUPPORT DEVICE
    [0004] OBJECT OF THE INVENTION
    [0006] The object of the present invention application is the registration of a longitudinal support device for cables, which incorporates notable innovations and advantages over the techniques used up to now.
    [0008] More specifically, the invention proposes the development of a device for the longitudinal support of cables, which due to its particular arrangement, makes it possible to improve the support conditions of some cables as well as to facilitate the conditions in the execution of the installation.
    [0010] BACKGROUND OF THE INVENTION
    [0012] Different technical solutions are known in the current state of the art in installations that require elements to support a multitude of cables, and that use metal cable trays for their support, although such solutions do so partially.
    [0014] In a preferred, but not restrictive, way, there are a series of installations that require support means for a multitude of cabling and for relevant distances, which makes it necessary to use support means for the same.
    [0016] An example of this type of installation would be a photovoltaic installation. This type of installation requires some means to support a series of wiring throughout the installation, and without it suffering deformations or interferences that could reduce its effectiveness.
    [0018] An option for example would be the one disclosed in patents US9722405 and US 9800028, and which deals with a kind of hangers that are placed supported on a steel cable that is installed and runs longitudinally throughout an installation, providing a means of support for this type of elements, which by their own configuration allow the support of the wiring.
    [0020] However, these solutions known in the state of the art have the additional problem that it is necessary to install a support element as a hanger every very short distance, which implies that the mounting conditions are not optimal and additionally, in the economic order also does not obtain an optimized installation.
    [0022] In addition, at the installation level, this type of elements are not easily manipulated, and therefore, the placement of the same, as well as the insertion of the wiring inside to support it, which reduces the effectiveness conditions that every industrial facility pursues.
    [0024] The present invention contributes to solving and solving the present problem, as it makes it possible to improve the support conditions of some cables as well as to facilitate the conditions in the execution of the installation.
    [0026] DESCRIPTION OF THE INVENTION
    [0028] The present invention has been developed in order to provide a device for longitudinal support of cables, through a support cable, comprising a carrier tray that is enabled for carrying cables, and which is characterized by the fact that it comprises at least one support element enabled to support the carrier tray by gravity and to support itself on the support cable.
    [0030] Preferably, in the longitudinal cable support device, the element has an upper region from which two legs protrude in a lower direction, said upper region being enabled to contact and engage with the support cable in at least one area of the upper slope of said support cable, and at the same time contact and engage with the support cable in at least one area of the lower slope of the same support cable, and the two legs being enabled to support the carrier tray by gravity.
    [0032] In a preferred embodiment of the device according to the invention, the element has a trapezoidal geometry, with an upper base, two non-parallel sides and devoid of a base. bottom, said trapezoidal geometry being in a condition of use defined and contained in a plane that is perpendicular to the support cable, the upper base being comprised in the upper region of the element and the two non-parallel sides being comprised in the legs, the base presenting upper two projections from a region of the upper base close to their ends and their contact with the non-parallel sides, said projections extending from the same upper base in a direction that is parallel to the support cable and in opposite directions with each other , each projection also presenting at its end furthest from the upper base an extension perpendicular to each respective projection and in a direction that is directed towards the support cable itself, and each extension being coplanar with the upper base and the support cable, and resulting said extensions enabled to contact and engage with the support cable in at least one area of the vertical lower entity of said support cable, and at the same time the upper base being enabled to contact and engage with the support cable in at least one area of the upper slope of said support cable.
    [0034] Additionally, in the longitudinal support device for cables when the element has a trapezoidal geometry, each of the two sets of projections and their respective extension has a double symmetry with respect to two perpendicular axes of symmetry, resulting in one of the axes of coincident symmetry with the support cable and resulting in the other axis of symmetry coinciding with the upper base of the trapezoidal geometry.
    [0036] Preferably, in the longitudinal cable support device, when the element has a trapezoidal geometry, the element has width in a dimension or projection that is parallel to the support cable.
    [0038] Alternatively, in the longitudinal cable support device, when the element has a trapezoidal geometry, the element is tubular in nature.
    [0040] Additionally, in the longitudinal cable support device, when the element has a trapezoidal geometry, the element has bends at the free ends of each of its legs that are enabled to be crimped onto the carrier tray.
    [0041] Preferably, in the longitudinal cable support device, when the element has a trapezoidal geometry, the element has an isosceles trapezoidal geometry.
    [0043] In another preferred embodiment of the device according to the invention, the element is tubular in nature, and forms an inverted V-like geometry in its path, said geometry being in a condition of use defined and contained in a plane that is perpendicular to the support cable. , the vertex being defined by the same geometry in the form of an inverted V enabled for the support cable to pass through.
    [0045] Additionally, in the longitudinal cable support device, the free ends of the inverted V are provided with folds that are enabled to be crimped on the carrier tray.
    [0047] Preferably, in the longitudinal cable support device, the vertex of the inverted V is formed by a path of the element of a tubular nature in the manner of a serpentine or spiral section.
    [0049] Preferably, in the longitudinal cable support device, the inverted V has an equilateral triangle or isosceles geometry.
    [0051] In a preferred embodiment of the device according to the invention, the element is tubular in nature and with a path that describes a conformation, the same conformation also being arranged so that the element in its path contacts and engages the support cable in at least one area of its lower slope and also in at least one area of its upper slope.
    [0053] Additionally, in the longitudinal cable support device, said conformation visually presents a trapezoidal geometry from a direction that is parallel to the support cable, and also visually presents a rectangular or square geometry from another direction that is horizontal and perpendicular to the support cable.
    [0055] Additionally, in the longitudinal cable support device, when the element is tubular in nature and with a path that describes a conformation, the ends free of the tubular element, they are provided with folds enabled to be crimped on the carrier tray.
    [0057] Additionally, in the longitudinal cable support device, when the element is tubular in nature and with a path that describes a conformation, the element presents a double symmetry with respect to two perpendicular axes, resulting in an axis of symmetry coinciding with the support cable and the other axis of symmetry is horizontal and perpendicular to the support cable.
    [0059] Thanks to the present invention, a technical solution is achieved for the support of cable trays, which provide a continuous plane of support for the wiring throughout the entire installation, with the consequent advantage that this entails, as well as greater ease for placing said wiring, since unlike the devices of the state of the art, in the case of the present invention only the cables must be deposited on the tray itself, which acts as a means of continuous support for the wiring.
    [0061] Other characteristics and advantages of the longitudinal cable support device will be apparent from the description of a preferred, but not exclusive, embodiment that is illustrated by way of non-limiting example in the accompanying drawings, in which:
    [0063] BRIEF DESCRIPTION OF THE DRAWINGS
    [0065] Figure 1.- It is a general perspective view indicating also its use, of a preferred embodiment of the longitudinal cable support device of the present invention.
    [0066] Figure 2.- Is a schematic perspective view of a support element of a preferred embodiment of the device for longitudinal support of cables of the present invention.
    [0067] Figure 3.- It is a schematic perspective view also indicating the use of a support element of a preferred embodiment of the longitudinal cable support device of the present invention.
    [0068] Figures 4 and 5.- They are schematic views also indicating its use, of a support element of a preferred embodiment of the longitudinal cable support device of the present invention.
    [0069] Figures 6 and 7.- They are schematic views also indicating its use, of a support element of a preferred embodiment of the longitudinal cable support device of the present invention.
    [0071] DESCRIPTION OF A PREFERRED EMBODIMENT
    [0073] As shown schematically in figure 1, the longitudinal cable support device of the proposed invention is enabled to be supported in turn on a support cable 1 along its longitudinal dimension.
    [0075] According to the invention itself, the longitudinal cable support device comprises a carrier tray 2 of longitudinal configuration, which is in turn enabled to carry cables arranged and extended longitudinally in the carrier tray 2 itself.
    [0077] Furthermore, the same longitudinal cable support device of the invention comprises a plurality of support elements 3 enabled to support the carrier tray 2 by gravity and at the same time to be supported on the support cable 1.
    [0079] As can be seen schematically in figure 2, element 3 has an upper region 31 from which two legs 32 protrude in a lower direction.
    [0081] Said upper region 31 is enabled to contact and engage with the support cable 1 (represented in dashes in Figure 2) in at least one area of the upper slope of said support cable 1, and at the same time contact and engage with the same cable Support 1 in at least one area of the lower slope of the same support cable 1, and the two legs 32 being enabled to support the carrier tray 2 by gravity, as can also be seen in Figure 3.
    [0083] More particularly, element 3 has a trapezoidal geometry, specifically an isosceles trapezoid, with an upper base 4, two non-parallel sides 5 and devoid of a lower base. Furthermore, said trapezoidal geometry is defined and contained in a plane that is perpendicular to the support cable 1.
    [0084] The upper base 4 is included in the upper region 31 of the element 3, and the two non-parallel sides 5 are included in the legs 32.
    [0086] On the other hand, the upper base 4 has two projections 41 from a region of the upper base 4 close to its ends and to its contact with the non-parallel sides 5.
    [0088] Said projections 41 are extended from the same upper base 4 in a direction that is parallel to the support cable 1 and in opposite directions to each other. Furthermore, each projection 41 has at its end furthest from the upper base 4 an extension 42 perpendicular to each respective projection 41 and in a direction that is directed towards the support cable 1 itself, and each extension 42 being coplanar with the upper base 4 and support cable 1.
    [0090] Said extensions 42 turn out to be enabled to contact and engage with the support cable 1 in at least one area of the lower slope of said support cable 1, and at the same time the upper base 4 turns out to be enabled to contact and engage with the support cable 1 in at least one area of the upper slope of said support cable 1, as can be seen in Figure 2.
    [0092] The arrangement explained above assumes that each of the two projection assemblies 41 and their respective extension 42 presents a double symmetry with respect to two perpendicular symmetry axes, with one of the symmetry axes coinciding with the support cable 1 and the other axis resulting of symmetry coincident with the upper base 4 of the trapezoidal geometry.
    [0094] As can be seen above all in Figure 3, element 3 has at the free ends of each of its legs 32 bends 33 that are enabled to engage the carrier tray 2, and thus allow its support by gravity.
    [0096] As can be seen in Figures 2 and 3, element 3 has width in a dimension or projection that is parallel to the support cable 1, although in other preferred embodiments, element 3 can also be tubular in nature and with the same details as described above.
    [0097] In another preferred embodiment of the longitudinal cable support device of the invention represented schematically in Figures 4 and 5, element 3, in addition to being tubular in nature, forms an inverted V-shaped geometry along its path, which is defined and contained in a plane that turns out to be perpendicular to the support cable 1, and the vertex 34 defined by the geometry in the form of an inverted V enabled for the support cable 1 to pass through it, as shown in the figure Four.
    [0099] At the same time, the free ends of the inverted V are provided with folds 35 that are enabled to be crimped onto the carrier tray 2 and held by gravity.
    [0101] As can also be seen in Figures 4 and 5, the vertex 34 of the inverted V is formed by a path of the element 3 of a tubular nature as a section 36 of a serpentine or spiral, which allows the supporting cable 1 (represented in dashes in Figures 4 and 5) passes through.
    [0103] In the representation in plan and elevation of figure 5, it can be seen how the inverted V formed by element 3 presents an equilateral or isosceles triangle geometry.
    [0105] In another preferred embodiment of the longitudinal cable support device of the proposed invention, represented schematically in Figures 6 and 7, element 3, in addition to being tubular in nature, has a path that describes a conformation, also being the same conformation arranged so that the element 3 in its path contacts and couples to the support cable 1 (shown in dashes in figure 6) in at least one area of its lower slope and also in at least one area of its upper slope.
    [0107] In addition, said conformation visually presents a trapezoidal geometry from a direction that is parallel to the support cable 1, as can be seen in figure 7, where the support cable 1 appears contacted and coupled by the element 3 of a tubular nature in its lower slope and its upper slope.
    [0109] Similarly, the same conformation visually presents a rectangular or square geometry from another direction that is horizontal and is perpendicular to the support cable 1.
    [0110] As can also be seen in figure 6, the free ends of element 3 are provided with bends 37 enabled to be crimped onto the carrier tray 2.
    [0112] The conformation resulting from the path of element 3 presents a double symmetry with respect to two perpendicular axes. One of the lines of symmetry coincides with the support cable 1, and the other axis of symmetry is horizontal and is perpendicular to the same support cable 1.
    [0114] Thanks to the longitudinal cable support device of the proposed invention, and for assembly optimization purposes, the number of support elements 3 that must be positioned in the case of the present invention are substantially lower than the number of support elements of other solutions of the state of the art.
    [0116] Specifically, in the state of the art, a support element must be placed every 30-40 cm, while in the case of the proposed invention, only one support element 3 would be required every 150-200 cm approximately.
    [0118] The details, shapes, dimensions and other accessory elements, as well as the materials used in the manufacture of the device for longitudinal support of cables of the invention, may be conveniently replaced by others that are technically equivalent and do not deviate from the essentiality of the invention or the scope defined by the claims that follow.
    权利要求:
    Claims (16)
    [1]
    1. Longitudinal support device for cables, through a support cable (1), which comprises a carrier tray (2) that is enabled to carry cables, and which is characterized by the fact that it comprises at least one element (3) of support enabled to support the carrier tray (2) by gravity and to be supported on the support cable (1).
    [2]
    2. Longitudinal support device for cables according to claim 1, characterized in that the element (3) has an upper region (31) from which two legs (32) protrude towards a lower direction, said upper region ( 31) enabled to contact and engage with the support cable (1) in at least one area of the upper slope of said support cable (1), and at the same time contact and engage with the support cable (1) in at least one area from the lower slope of the same support cable (1), and the two legs (32) being enabled for gravity support of the carrier tray (2).
    [3]
    3. Longitudinal support device for cables according to claim 2, characterized in that the element (3) has a trapezoidal geometry, with an upper base (4), two non-parallel sides (5) and devoid of a lower base, said trapezoidal geometry being in a condition of use defined and contained in a plane that is perpendicular to the support cable (1), the upper base (4) being comprised in the upper region (31) of the element and the two sides (5) being non-parallel included in the legs (32), the upper base (4) presenting two projections (41) from a region of the upper base (4) close to its ends and its contact with the non-parallel sides (5), said projections (41) extended from the same upper base (4) in a direction that is parallel to the support cable (1) and in opposite directions with each other, also presenting each projection (41) at its end furthest from the base upper (4) an extension (42) perp It is attached to each respective projection (41) and in a direction that is directed towards the support cable (1) itself, and each extension (42) is coplanar with the upper base (4) and the support cable (1), and resulting enabled said extensions (42) to contact and engage with the support cable (1) in at least one area of the lower slope of said support cable (1), and at the same time resulting in the upper base (4) enabled to contact and engage with the support cable (1) in at least one area of the upper slope of said support cable (1).
    [4]
    Longitudinal support device for cables according to claim 3, characterized in that each of the two sets of projections (41) and their respective extension (42) has a double symmetry with respect to two perpendicular axes of symmetry, resulting in one of the symmetry axes coinciding with the support cable (1) and the other symmetry axis coinciding with the upper base (4) of the trapezoidal geometry.
    [5]
    5. Device for longitudinal support of cables according to claim 3 or 4, characterized in that the element (3) has width in a dimension or projection that is parallel to the support cable (3).
    [6]
    Longitudinal support device for cables according to claim 3 or 4, characterized in that the element (3) is tubular in nature.
    [7]
    7. Device for longitudinal support of cables according to any of claims 2 to 6, characterized in that the element (3) has at the free ends of each of its legs (32) some folds (33) that are enabled to crimp onto the carrier tray (2).
    [8]
    8. Longitudinal support device for cables according to claim 3, characterized in that the element (3) has an isosceles trapezoid geometry.
    [9]
    9. Longitudinal support device for cables according to claim 1, characterized in that the element (3) is tubular in nature, and forms an inverted V-like geometry in its path, said geometry being in a condition of use defined and contained in a plane that is perpendicular to the support cable (1), the vertex (34) being defined by the same geometry as an inverted V enabled for the support cable (1) to pass through.
    [10]
    10. Longitudinal support device for cables according to claim 9, characterized in that the free ends of the inverted V are provided with folds (35) that are enabled to be crimped on the carrier tray (2).
    [11]
    Device for longitudinal support of cables according to claim 9 or 10, characterized in that the vertex (34) of the inverted V is formed by a path of the element (3) of a tubular nature as a section (36) coil or coil.
    [12]
    12. Longitudinal support device for cables according to claim 9 or 10 or 11, characterized in that the inverted V has an equilateral or isosceles triangle geometry.
    [13]
    13. Longitudinal support device for cables according to claim 1, characterized in that the element (3) is tubular in nature and with a path that describes a conformation, the same conformation also being arranged so that the element (3) ) in its course contacts and engages the support cable (1) in at least one area of its lower slope and also in at least one area of its upper slope.
    [14]
    Device for longitudinal support of cables according to claim 13, characterized in that said conformation visually presents a trapezoidal geometry from a direction that is parallel to the support cable (1), and also visually presents a rectangular or square geometry from another direction that is horizontal and perpendicular to the support cable (1).
    [15]
    15. Longitudinal cable support device according to claim 13 or 14, characterized in that the free ends of the element (3) are provided with folds (37) enabled to be crimped on the carrier tray (2).
    [16]
    16. Longitudinal support device for cables according to claim 13 or 14 or 15, characterized in that the element (3) has a double symmetry with respect to two perpendicular axes, resulting in an axis of symmetry coinciding with the support cable (1 ) and the other axis of symmetry is horizontal and perpendicular to the support cable (1).
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    同族专利:
    公开号 | 公开日
    ES2774405B2|2021-12-07|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US810004A|1905-02-06|1906-01-16|Thomas R Fowler|Cable-hanger.|
    US20050087662A1|2004-10-29|2005-04-28|Boone Supply Company|Collapsible hangers|
    GB2447429A|2007-03-09|2008-09-17|Craven & Co Ltd|Cable tray bracket|
    US20120175470A1|2011-01-06|2012-07-12|Roger Jette|Cable management system|
    US9800028B1|2014-11-29|2017-10-24|Cambria County Association For The Blind And Handicapped|Gripping cable hanger and method of using|GB2590050A|2019-08-16|2021-06-23|Lee Duffy Simon|Cable clip and cable assembly|
    法律状态:
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    ES201930035A|ES2774405B2|2019-01-21|2019-01-21|LONGITUDINAL CABLE SUPPORT DEVICE|ES201930035A| ES2774405B2|2019-01-21|2019-01-21|LONGITUDINAL CABLE SUPPORT DEVICE|
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