FR2978808A1 - Fixation device for use in radiator to fix e.g. resistor at plate-shaped support, has maintenance arms placed opposite to each other and adapted to cross support and to press against opposite surface of support - Google Patents

Abstract

The device (1) has an arc shaped central retaining zone (3) pressed on a tubular element. A pair of maintenance arms (5, 6) is adapted to retain the tubular element between the central zone and a bearing surface of a support. The arms are placed opposite to each other. The arms are adapted to cross the support and to press against an opposite surface of the support. Each arm includes a block placed according to an angle relative to the support, and includes an extension (7) perpendicular to the block. The extension of the arm is directed in a direction opposed to a symmetry axis (A). The device is realized in an elastic material such as steel.

Description

TECHNICAL FIELD OF THE INVENTION The present invention relates to fastening devices for fixing tubular elements to a support. The invention further relates to radiators which use fasteners to fix the resistors. PRIOR ART There are fasteners for attaching tubular members such as, for example, conduits, tubes, tubing and electrical cables to a wall or support. US20100294895 A1 thus discloses a securing device which comprises a cylindrical, central retaining zone which supports a tube or conduit. This fixing device also comprises two holding arms which connect to the surface of a wall or a support by means of nails or screws. DESCRIPTION OF THE INVENTION One of the objects of the present invention is to provide a device for fixing tubular elements as described below. The fixation device according to the invention is used to attach a tubular member to a holder which comprises a bearing surface and an opposing surface, such as a substantially plate-shaped holder. The device comprises a central retaining zone, substantially arc-shaped, which is adapted to be supported on the tubular element. This device comprises on the other hand a first and a second holding arm which are arranged so as to be placed opposite each other. The holding arms are adapted to traverse the support and press against the opposite surface of the support, so that the device is able to retain the tubular element between the central retaining zone and the bearing surface of the support. . 2 According to particular arrangements, possibly combined: - the device is formed of a single piece; the cross section is uniform over the entire length of the device, the cross section preferably being circular; the device is made of an elastic material, steel preferably; each holding arm comprises a block 10 substantially perpendicular to the support; each holding arm comprises a block disposed at an angle with respect to the support; the block of each holding arm comprises at least one bend which connects the block corresponding to the central holding zone; each bend is formed from the curvature, at about 1800, of the corresponding block; - the device is symmetrical; each holding arm comprises an extension 20 substantially perpendicular to the corresponding block; each holding arm comprises an extension which forms an angle with respect to the corresponding block; the extensions of each holding arm are placed opposite each other; The extensions of each holding arm are oriented in the direction of the axis of symmetry of the device; the extensions of each holding arm are oriented in the opposite direction to the axis of symmetry of the device. Another object of the present invention is to provide a radiator comprising the device according to the present invention. The radiator according to the present invention comprises at least one resistor, at least one support, and at least one fixing device according to the invention for fixing the resistance to the support.

With the fixing device according to the invention, it is possible to fix a tubular element to a support in a simple and fast manner without the need to use additional connecting or fixing elements such as, for example, screws or nails, which helps improve parts inventory management. In the same way, the device also allows the tubular element to expand and contract longitudinally, which ensures at all times an adequate contact between the tubular element and the support. With the radiator according to the invention, it is possible for the fixing device to allow the resistance to expand and contract longitudinally, in response to a difference in temperature (contrast between hot and cold), which ensures at all times an adequate contact between the resistor and the support, which thus guarantees good heat transmission, and which contributes to improving the efficiency of the radiator. These and other advantages and features of the present invention will become more apparent upon reading the following figures and detailed description of the invention. DESCRIPTION OF THE FIGURES FIG. 1 illustrates a first view, in elevation, of a first embodiment of the fastening device according to the invention. Figure 2 illustrates a second elevational view of the fastener of Figure 1, with a tubular member and a support. Figure 3 illustrates an elevational view of a second embodiment of the fastener, with a tubular member and a support. Figure 4 illustrates an elevational view of a third embodiment of the fastener, with a tubular member and a support.

DETAILED DESCRIPTION OF THE INVENTION The fastener 1; 1 '; 1 "according to the invention, as illustrated in FIG. 2, is used to fix a tubular element 2, represented by dotted lines, to a substantially plate-shaped support 4 which comprises a surface of support 4a, an opposite surface 4b and at least two orifices 15; 16 which pass through said support 4. Preferably, the bearing surface 4a and the opposite surface 4b are substantially parallel to each other 1.0 The device 1; 1 '1 comprises a central retaining zone 3, in the form of an arc, which is adapted to be supported on the tubular element 2. The fixing device according to the invention further comprises a first and a second holding arm 5 and 6, which are arranged so as to be placed opposite each other. The holding arms 5 and 6 are adapted to pass through the support 4 and press against the opposite surface of the support 4b, so that the device is able to retain the tubular element between the central retaining zone 3 and the support surface of the support 4a. As illustrated in FIGS. 1 to 4, the fixing device 1; 1 '; 1 "according to the invention is formed of a single piece whose cross section is uniform over the entire length of the device 1; 1 '1", the cross section is preferably circular. The device 1 1 '; 1 "is made of a resilient material, preferably steel, and with these properties or features it is possible to attach the tubular element 2 to the support 4 in a simple and fast manner without having to it is necessary to use additional connecting or fastening elements such as screws or nails, which helps to improve the management of the stock of parts, in this way the productivity of the production lines 35 is significantly improved as tasks or operations such as "take screws" and "tighten screws" can be removed.

Each support arm 5; 6 of the fixing device 1; 1 '; 1 "according to the invention comprises a block 9; 10; 9 '; 10'; 9"; 10 ", as illustrated in Figures 1, 3 and 4. Each block 9; 10; 9 '; 10'; 9"; 10 "comprises at least one bend 11; 12 which connects the block 9; 10; 9 '; 10'; 9"; 10 "corresponding to the central retaining zone 3. Each bend 11; 12 is formed from the curvature, at approximately 180 °, of the block 9; 10; 9 '; 10'; 9"; 10 "correspondent.

The fixing device 1; 1 '; 1 "is symmetrical about an axis of symmetry which coincides with the central axis A, the latter being substantially vertical, and which passes through the center B of the central retaining zone 3, as illustrated in FIG. holding arm 5; 6 further comprises an extension 7; 8,7 '; 8'; 7 "; 8 'said extensions being placed opposite each other. In a first embodiment of the invention, as illustrated in Figures 1 and 2, each holding arm 5; 6 comprises a block 9; 10 substantially perpendicular to the support 4 and each extension 7; 8 is substantially perpendicular to the block 9; 10 corresponding. Moreover, the extensions 7; 8 of each holding arm 5; 6 are oriented in the direction of the axis of symmetry A. In this first embodiment, each holding arm 5; 6 also includes a bend 13; 14 inverted connecting the elbow 11; 12 at the central holding area. A second embodiment of the invention, which is. illustrated in FIG. 3, differs from the first embodiment in that each holding arm 5; 6 comprises a block 9 '; 10 'disposed at an angle obtus a' relative to the support 4 and in that the extensions 7 '8' form the same angle obtus a 'with respect to the block 9'; Corresponding 10 '. In this case, the extensions 7 '; 8 'of each holding arm 5; 6 are also oriented in the direction of the axis of symmetry A. This embodiment also includes a bend 13; 14 inverted in each holding arm 5; 6. A third embodiment of the invention, which is illustrated in Figure 4, differs from the first embodiment in that each holding arm 5; 6 comprises a block 9 "; 10" also arranged at an obtuse angle α "relative to the support 4 and in that the extensions 7"; 8 ", which form the same obtuse angle 10" relative to the corresponding block 9 ", 10" are oriented in the direction opposite to the axis of symmetry A. This embodiment also comprises a bend 13; 14 inverted in each holding arm 5; 6. The different configurations of the blocks 9; 10; 9 '; 10 '; 9 "; 10" holding arms provide additional advantages when mounting the fastening device 1; 1 '; Depending on the purpose of each case, the size of the tubular element 2, accessibility for mounting, etc., it is possible to design separate tools in order to facilitate For example, in a case where the tubular element 2 'must be fixed in a small space congested by numerous interferences (presence of additional elements near the location where the tubular element is to be fixed). 2), it is possible to design a tool adapted for use in the second embodiment illustrated in FIG. 3, in which said tool, which may have the shape of a ring for example, comes to rest in the angle formed by each block 9 '; 10' 30 of the holding arms and the corresponding extension 7 '; 8', so that the force exerted causes the blocks 9 '; 10' to separate and the extensions 7 '8 'of each holding arm 5; 6 are introduced by the openings 15, 16 of the support 4 in a convenient manner. When the ring-shaped tool is removed, the fixing device 1 'returns to its original shape and the central retaining zone 3 then presses the tubular element 2 against the support while the extensions 7'; 8 'of each holding arm 5; 6 press the opposite surface 4b of the support 4, thereby maintaining the tubular member 2 firmly fixed in position. In the case where the tubular element 2 to be fixed has a very large diameter, it is possible to design a tool adapted for use in the third embodiment illustrated in FIG. 4, in which said tool, which may have Also in the form of a ring, for example, comes to rest in the angle formed by each block 9 "; 10" of the holding arms and the extension 7 "; 8" corresponding, so that the force exerted brings the blocks 9 1 1; 10 "to get closer and that extensions 7"; 8 "of each holding arm 5; 6 are introduced through the orifices 15; 16 of the support 4 in a convenient manner. When the ring-shaped tool is removed, the fixing device 1" returns to its original shape and the central retaining zone 3 then presses the tubular element 2 against the support while the extensions 7 ", 8" of each holding arm 5; 6 press the opposite surface 4b of the support 4, thereby maintaining the tubular member 2 firmly fixed in position. The technical solution of the first embodiment of the invention is suitable for use in confined spaces, for example, regardless of the size of the tubular element 2. It is thus possible to design a tool, which can have him also the shape of a ring that comes to rest in the elbows 11; 12 of each holding arm, so that the force exerted brings the blocks 9; 10 to move away from each other and that the extensions 7; 8 of each holding arm 5; 6 are introduced by the orifices 15; 16 of the support 4 in a convenient manner. When the tool shaped ring

8 is removed, the fixing device 1 returns to its original shape and the central retaining zone 3 then presses the tubular element 2 against the support 4 while the extensions 7; 8 of each holding arm 5; 6 press the opposite surface 4b of the support 4, thereby maintaining the tubular member 2 firmly fixed in position. When the tubular element 2 is a resistance, it is subjected to longitudinal expansions due to its heating and cooling, so that the resistance is deformed longitudinally. If the resistance is firmly attached to the support, without any play to be deformed and thus prevented, the resistance tends to flare, which makes it lose all contact with the medium intermittently. The fixing device 1; 1 '; 1 "according to the invention is rotatable relative to an axis (not shown in the figures) which passes through the extensions 7, 8, 7 ', 8', 7", 8 "of each holding arm 5; In other words, the device 1; 1 '; 1 "is able to absorb said longitudinal expansions, thereby allowing the resistance to expand or contract longitudinally, and ensures adequate contact between the resistor 2 and support 4 at any time.

The radiator according to the invention (not shown in the figures) comprises a resistor 2, substantially U-shaped, rectangle, serpentine or zigzag, a support 4, preferably aluminum and a plurality of fasteners 1; 1 '; 1 "to fix the resistance 2 to the support 4. As described in the preceding paragraph, when the resistor 2 is fixed with the fixing devices 1; 1 '; 1", the resistor 2 can expand or contract longitudinally under the effect of expansion, so that, at any time, adequate contact is guaranteed with the support 4, on the one hand because the device 1; 1 '; 1 "exerts a continuous pressure of the resistor 2 against the support 4 and, secondly, because, since the resistor 2 does not flambe under the effect of the expansions, it does not lose the contact with the support 4 at the level of places where there is no fastener 1; 1 '; 1 ". Under these conditions, the heat transfer is improved, which therefore contributes to improving the efficiency of the radiator.

Claims (15)

REVENDICATIONS1. Fixing device for fixing a tubular element (2) to a substantially plate-shaped support (4), comprising: a substantially arcuate central retaining zone (3) adapted to be supported on said element (2) ); and a first holding arm (5) and a second holding arm (6), adapted to retain the element (2) between the central holding area (3) and a support surface (4a) of the support (4). ), the two holding arms (5, 6) being placed opposite each other, characterized in that the holding arms (5, 6) are adapted to pass through the support (4) and to pressure against the opposite surface (4b) of the support (4). 2. Device according to the preceding claim, wherein the device (1; 1 '; 1 ") is formed in one piece. 3. Device according to claim 1 or 2, wherein the cross section is uniform over the entire length of the device (1; 1 '; 1 "), the cross section preferably being circular. 4. Device according to any one of the preceding claims, wherein the device (1; 25 1 '; 1 ") is made of an elastic material, preferably steel. 5. Device according to any one of the preceding claims, wherein each holding arm (5) comprises a block (9, 10) substantially perpendicular to the support (4). 6. Device according to any one of claims 1 to 4, wherein each holding arm (5, 6) comprises a block (9 ', 10', 9 ", 10") arranged at an angle (a ', a ") relative to the support (4). 7. Device according to claims 5 or 6, wherein the block (9, 10, 9 ', 10', 9 ", 10") of each holding arm (5, 6) comprises at least one elbow (11, 12) which connects the block (9, 10, 9 ', 10', 9 ", 10") corresponding to the central retaining zone (3). 8. Device according to claim 7, wherein each elbow (11, 12) is formed from the curvature, about 180 °, of the block (9, 10, 9 ', 10', 9 ", 10") corresponding . 9. Device according to any one of the preceding claims, wherein the device (1; 10 1 '; 1 ") is symmetrical. 10. Device according to any one of claims 5 to 9, wherein each holding arm (5, 6) comprises an extension (7, 8) substantially perpendicular to the block (9, 10) corresponding. 15 11. Device according to any one of claims 5 to 9, wherein each holding arm (5, 6) comprises an extension (7 ', 8', 7 ", 8") which forms an angle (a ', a ") relative to the corresponding block (9 ', 10', 9", 10 "). 12. Device according to claims 10 or 11, wherein the extensions (7, 8, 7 ', 8', 7 ", 8") of each holding arm (5, 6) are placed opposite one another. 'other. 13. Device according to claim 12, in which the extensions (7, 8, 7 ', 8') of each holding arm (5, 6) are oriented in the direction of the axis of symmetry (A) of the device. (1; 1 '; 1 "). 14. Device according to claim 12, wherein the extensions (7 ", 8") of each holding arm (5, 6) are oriented in the direction opposite to the axis of symmetry (A) of the device (1; 1 '; 1 "). 15. Radiator comprising at least one resistor (2), at least one support (4) and at least one attachment device (1; 1 '; 1 ") according to any one of the preceding claims for setting the resistance (2 ) to the support (4).