RU2000127354A - SUPPORT HOLDER FOR EXTENDED BRANCHED HEAT EXCHANGER PIPELINE AND METHOD OF INSTALLATION - Google Patents

Claims (30)

1. A support holder for an elongated branched pipe of a heat exchanger, wherein the branched pipe has a longitudinal axis and an outer surface perceiving the support holder, and occupying a small longitudinal portion of the length of the branched pipe, including a base receiving the branched pipe made of a separate piece of material, including a supporting eye, having a shape intended for attaching the support holder to a different structural unit than a branched pipeline, and ervuyu and second opposed arcs forming the opening, covering the manifold, the aperture has a shape corresponding to the outer surface of the nominally which receives a reference holder; the first arc is longitudinally separated from the second arc of the holder, supported by a branched pipeline; the first arc forms the first part of the opening, the second arc forms the second part of the opening, the opposite of the first part; the first and second arc, each of which has a first end segment, separated by a gap from the second end segment; the first segment jumper connecting the first end segments of the first and second arcs, and the second segment jumper connecting the second end segments of the first and second arcs, the base, in the first position capable of perceiving residual deformation, the mentioned arcs are able to accept with a sliding fit an external surface receiving the support holder in an opening covering a branched pipeline by sliding fit; and in the second position of the arc should clamp the outer surface, perceiving the support holder in the opening of the branched pipeline opening.  2. The support holder according to claim 1, wherein the outer surface receiving the support holder has a cross section of an almost circular shape, and the opening surrounding the branched pipeline in said first position has an almost circular shape.  3. The support holder according to claim 1, in which the base includes at least one protrusion, a mating hole in at least one of the first and second arcs; at least one of said openings has a shape corresponding to a protrusion formed on the outer surface receiving the support holder.  4. The support holder according to claim 1, in which the base includes a third arc, which is longitudinally separated by a gap from the second arc on the side opposite the first arc of the holder, supported by a branched pipeline; the third arc has a shape similar to that of the first arc, and has corresponding first and second end segments, respectively connected to the first and second end segments of the second arc using additional first and second segment jumpers.  5. The support holder according to claim 1, in which the support eye includes a third and fourth opposite arcs forming a second opening having a shape nominally corresponding to the surface receiving the support eye on a different design than said branched pipeline; the third arc is longitudinally separated by a gap from the fourth arc of the holder, resting on a branched pipeline; the third arc forms the first part of the second opening, the fourth arc forms the second part of the second opening, the opposite of the first part formed by the third arc; each third and fourth arc has a first end segment separated by a gap from the second end segment, a third segment jumper connects the first end segments of the third and fourth arcs, and a fourth segment jumper connects the second end segments of the third and fourth arcs, the base is able to perceive residual deformation in the third position, in which the third and fourth arcs take and with a sliding fit said surface receiving the abutment in said second opening with a sliding second fitting; and in the fourth position, the third and fourth arcs should clamp the surface perceiving the supporting eye in the second opening.  6. The support holder according to claim 5, in which the support eye includes a fifth arc, which is longitudinally separated by a gap from the fourth arc from the side opposite to the third arc of the holder, supported by a branched pipeline; the fourth arc has a shape similar to that of the third arc, and has corresponding first and second end segments, respectively connected to the first and second end segments of the fourth arc using additional first and second segment jumpers.  7. A support holder for an elongated branched pipe of a heat exchanger, wherein the branched pipe has a longitudinal axis and an outer surface perceiving the support holder, on a longitudinal part of the length of the branched pipe, including a base receiving the branched pipe made of a separate piece of material, including: a supporting eye having a form designed to attach the support holder to a different design than a branched pipeline, and the first, second and third arcs, gaping coaxial openings spanning a branched pipeline, openings have a shape nominally corresponding to the outer surface receiving the support holder; the first and third arcs are separated by a longitudinal gap from the second arc on opposite sides from the second arc of the support holder, supported by a branched pipeline; the first and second arcs form the first opening, the second and third arcs form the second of the aforementioned openings, longitudinally separated by a gap from the first opening; the first, second and third arcs, each of which has a first end segment, separated by a gap from the second end segment; the first segment jumper connecting the first end segments of the first and second arcs, the second segment jumper connecting the second end segments of the first and second arcs, the third segment jumper connecting the first end segments of the third and second arcs, the fourth segment jumper connecting the second end segments and arcs, base, in the first position capable of perceiving permanent deformation, the mentioned arcs are able to accept with a sliding fit an external surface perceiving a support holder b, in the opening covering the branched pipeline by sliding fit; and in the second position, the arcs should clamp the outer surface perceiving the support holder in the opening covering the branched pipeline.  8. The support holder according to claim 7, where the outer surface perceiving the support holder has a cross section of a nominally round shape, and the openings covering the branched pipeline in the first position have a nominally circular shape.  9. The support holder according to claim 7, where the base includes at least one protruding hole in the second arc, at least one hole has a shape corresponding to the protrusion made on the outer surface perceiving the support holder.  10. The supporting holder according to claim 7, wherein the supporting eye includes a fourth and fifth opposite arcs forming a third opening having a shape nominally corresponding to the surface receiving the supporting eye on a different design than a branched pipeline; the fourth arc is longitudinally separated from the fifth arc of the holder, resting on a branched pipeline; the fourth arc forms the first part of the third opening; the fifth arc forms the second part of the third opening, opposite to the first part formed by the fourth arc, each, fourth and fifth, arcs have a first end segment separated from the second end segment; a fifth segment jumper connecting the first end segments of the fourth and fifth arcs; a sixth segment jumper connecting the second end segments of the fourth and fifth arcs, the base, with the presence of permanent deformation in comparison with the third position, in which the fourth and fifth arcs take with a sliding fit the perceptive abutment surface in the third opening with a slippery fit; and the fourth position, in which the fourth and fifth arcs will clamp the surface receiving the supporting eye in the third opening by means of a fixed landing.  11. The support holder according to claim 10, where the support eye includes a sixth arc, which is longitudinally separated from the fifth arc from the side opposite to the fourth arc of the holder, resting on a branched pipeline; the sixth arc has a shape similar to that of the fourth arc, and has first and second end segments respectively connected to the first and second end segments of the fifth arc by means of an additional seventh and eighth segment jumpers.  12. The method of mounting the support holder on an elongated branched pipe of the heat exchanger, which consists in the fact that the elongated branched pipe of the heat exchanger has a longitudinal axis and an external surface perceiving the support holder, stretching at least one heat exchanger pipe in fluid interaction with an internal cavity of a branched pipeline; and a support holder comprising: a base receiving a branched conduit molded from a separate piece of material; the base includes: a supporting eye having a shape intended for attaching the supporting holder to other structures than a branched pipeline; the first and second opposite arcs, forming an opening covering a branched pipeline, having a shape that first provides reception with a slippery fit and then clamps the outer surface perceiving the support holder; the first arc is longitudinally separated by a gap from the second arc on a holder resting on a branched pipeline; the first arc engages the first part of the outer surface perceiving the support holder, the second arc engages the second part of the outer surface perceiving the support holder opposite to the first part; the first and second arcs, each of which has a first end segment separated by a gap from the second end segment, a first segment jumper connecting the first end segments of the first and second arcs, a second segment jumper connecting the second end segments of the first and second arcs.  13. The mounting method according to p. 12, in which at least one of the arcs engages with the outer surface perceiving the support holder.  14. The mounting method according to p. 12, in which the outer surface perceiving the support holder has a cross section of a nominally round shape; and the opening covering the branched pipeline has a nominally circular shape.  15. The support holder according to claim 12, where the base includes at least one hole corresponding to a protrusion in at least one of the arcs, the first or second; at least one of said openings has a shape corresponding to a protrusion formed on the outer surface receiving the support holder.  16. The support holder according to claim 15, where the branched pipeline has a pipe slot form corresponding to the pipe of the heat exchanger; and the pipe gap and said protrusion are located on almost opposite sides of the branched pipeline, in almost the same longitudinal position on the branched pipeline.  17. The mounting method according to p. 12, where the aforementioned base includes a third arc, which is longitudinally separated by a gap from the second arc from the side of the base, opposite the first arc on the support holder, supported by a branched pipeline; the third arc has a shape similar to that of the first arc; and the corresponding first and second end segments are respectively connected to the first and second end segments of the second arc by means of additional first and second segment jumpers.  18. A method of mounting a support holder on a branched pipe of a heat exchanger, comprising an elongated branched pipe for a heat exchanger; wherein the branched pipeline has a longitudinal axis and an external surface perceiving the support holder located on a small longitudinal part of the length of the branched pipeline, and a protrusion located outside on the outer surface receiving the support holder; and at least one heat exchanger tube in fluid interaction with the internal cavity of the branched pipeline; and a support holder, including: a base receiving a branched pipe and made of a separate piece of material, including: a supporting eye having a shape designed to attach the supporting holder to a different design than a branched pipe; the first and second opposite arcs, forming an opening covering a branched pipeline, having a shape corresponding to the outer surface receiving the support holder; the first arc is longitudinally separated by a gap from the second arc of the holder, resting on a branched pipeline; the first arc forms the first part of the opening covering the branched pipeline, the second arc forms the second part of the opening opposite the first part of the opening covering the branched pipeline; first and second arcs, each of which has a first end segment separated by a gap from the second end segment, a first segment jumper connecting the first end segments of the first and second arcs, a second bridge jumper connecting the second end segments of the first and second arcs, at least one an opening in at least one of said first and second arcs; at least one of said openings corresponds to said protrusion formed on said outer surface receiving the support holder.  19. The mounting method according to claim 18, where said arcs engage said outer surface receiving the support holder by clamping the outer surface receiving the support holder in an opening enclosing a branched pipeline.  20. The mounting method according to claim 18, where at least one of the arcs is coupled to an external surface receiving the support holder.  21. The mounting method according to claim 18, where the outer surface perceiving the support holder has a cross section of a nominally round shape; and said opening covering a branched pipeline has a nominally circular shape.  22. The support holder according to claim 18, where the branched pipeline includes a pipe gap having a shape corresponding to a heat exchanger pipe; and the pipe gap and said protrusion are located on practically opposite sides of the branched pipeline, in practically the same longitudinal position on the branched pipeline.  23. The mounting method according to claim 18, where said base includes a third arc, which is longitudinally separated by a gap from the second arc, from the side of the base, opposite the first arc of the holder, resting on a branched pipeline; the third arc has a shape similar to that of the first arc, and has corresponding first and second end segments, respectively connected to the first and second end segments of the second arc using additional first and second segment jumpers. 24. A method of mounting a support holder on an elongated branched pipeline of a heat exchanger, comprising the following steps:
a) placing a branched pipeline in the opening formed by the first and second opposite arcs of the supporting holder:
b) deformation with residual deformation of the support holder to reduce the size of the opening to bring the first and second arcs into engaging contact with a branched pipeline;
c) deformation with residual deformation of the branched pipeline to create a protrusion that engages in the hole in one of the opposite arcs, the first or second.  25. The mounting method according to claim 24, where step (c) includes inserting a punch through a pipe July into said branched pipeline.  26. The installation method according to claim 24, where steps (b) and (c) are performed almost simultaneously.  27. The mounting method according to claim 26, where steps (b) and (c) are performed using a stamping device that deforms the branched pipe and holder with permanent deformation.  28. The mounting method according to claim 27, wherein said punching device is a punch carrier, step (b) includes engaging at least one of the opposing arcs, first or second, using a punching device: and step (c) includes inserting the punch through a pipe gap in a branched pipeline. 29. A method of mounting a support holder on an elongated branched pipeline of a heat exchanger, comprising the following steps:
a) placing a branched pipeline in the opening formed by the first and second opposite arcs of the support holder;
b) deformation with permanent deformation of the support holder to reduce the size of the opening to bring the arcs into contact with a branched pipeline;
c) snapping at least one of the arcs to the branched pipeline after step (b).  30. The installation method according to claim 29, further comprising a step of deformation with permanent deformation of the branched pipeline to create a protrusion that engages in the hole on one of the opposite arcs, the first or second, before performing step (c).