TR201808459T4 - Piping element for a heat exchanger means. - Google Patents

Abstract

The present invention relates to a tubing element 10, 10 'for a heat exchanger means 100, 100', said tubing element 10, 10 'to at least one first end 20 and at least one second end. 30) and an at least partially rigid elongated heat exchanger tube having a first side wall (40) and a second side wall (50), the first side wall (40) and the second side wall (50) being substantially interconnected. arranged in parallel, and the distance d between the first side wall 40 and the second side wall 50 is considerably smaller than the width W of the first side wall 40 and the second side wall 50, which means connecting walls on both sides. 45, 55 forms a substantially generally flat tubing structure, the tubing member 10, 10 'being at least one of the outer surfaces 42, 52 of the first side wall 40 and / or the second side wall 50. a plurality of fins (60, 60 ') on which the fins (60) are 60, and an identification angle ca surrounded by a connecting wall 45, 55, a heat exchanger means of the present invention, the use of a piping element 10, 10 ', the use of a heat exchanger means 100, 100'. and, at least in part, a method for producing a tubing element 10, 10 'to produce a heat exchanger means 100, 100' (FIG. 1).

Description

DESCRIPTION PIPING ELEMENT FOR A HEAT EXCHANGER VEHICLE The present invention is a piping element for a water heat exchanger, with a DsE heat exchanger and a piping elementEnjn production method such as evaporators, condensers, radiators and coolers In the technical field of dsj exchangers, compact and energy many attempts to provide efficient lsd heat exchangers has been found. A 333 heat exchanger generally has, for example, water and / or with a primary medium such as a refrigerant, eg air an exchange of thermal energy between a second medium such as It is known for saglamasEyla. For example, EP 1840 494 A2 describes a JsU heat exchanger, here said HSM heat exchanger is a system with several channels and two straight pipes. Includes profile and pipes, a bar'vasEtasjyla.baglanjr. Profile, It is a one-piece profile and made of aluminum or aluminum alloy. may occur. an aluminum or aluminum alloy profile that can be used for hungers. This profile is to a* central channel. and this central channel it has several other channels arranged around it.

DE 2 209 325 is a helical structure for ESD heat exchangers. opens the pipe. Also, DE 2 209 329, on the inside of the pipe and at the bottom Opens Usi heat exchanger pipes with threads on the side.

In addition, GB 1 390 782 from wall sections of the piping system piping system that hooks into the piping system and interleaved metal extending longitudinally from the Opens an ESD exchange pipe with fins.

AyrEca, EP 0640 803 A1, while the first part is straight, the second part of the tube where the piece is wrapped around the first piece of the pipe and then the first of the tube to define the shape of an entire coil. The first and second parts of the pipe are created and the part internal to force close contact with each other. Internally dimensioned by basting Moreover, DE 38 15 647 A1 is in gaps in different layers. to a circular llsll heat exchanger with a 'flat tube' containing teeth* is changing.

AyrEca US 3 662 582 A has a rectangular peripheral wall and describe an Esü exchange pipe with internal segments on the wall it does. Henibu latest document henide DE 3815 647 the introduction of claim 1 kjsmünj explains. However, in the field of DsE heat exchangers It is still desirable to develop already known technical solutions. is being done.

Therefore, an object of this invention is to use an ESC heat exchanger vasjtasE. piping elementDnEn, a DsE heat exchanger, at least partially an Exponent a piping element for producing the heat exchanger vasEtasjn A JsJ exchanger is used to replace LsJnJn. A report on the production of a piping element and a piping element is used. improvement of the method, especially the efficiency of ESD exchange ArtTypeDiamond and piping elementEnDn general structure development and development of Dsj exchanger and simplification and a more compact structure of a JsLlecenter is to allow.

Yukaera object has the features of claim 1 according to the present invention. a piping element for an Is] heat exchanger. This a piping element for a Jsj heat exchanger according to provided, this piping elementE has at least one first end and having at least one second end and a first sidewall and a second an at least partially rigid, elongated Hsl heat exchanger tube, first sidewall and second sidewall arranged substantially generally parallel to each other and the distance between the first side wall and the second side wall rather than the width between the sidewall and the second sidewall. small, which is the one with connecting walls on both sides largely leads to a generally straight piping, piping element of the first sidewall and/or the second sidewall multiple fins on at least one of the dEs surfaces wherein the winglets, fins and a connection] to a definition angle (Y) defined by the wall has.

From the dHs surfaces of the first sidewall and/or the second sidewall piping having multiple fins on at least one elementE, said second medium such as air and SSS heat exchanger means piping element for a better ESU exchange between increases its surface.

The tanjmlama surrounded by Kanatç Eklar~veküiîbaglantEJwall] angularH (Y), second medium and first sidewallHn and/or second on at least one of the dEs surfaces of the sidewall DsE between the surface of the piping element having the fin Expands the receive data path. Numerous fins, A better airway through fins and piping elements creates. The blades can affect the direction of the air flow.

Too much on at least one of the outer surfaces of the piping element Due to the directing of the fins, the DSE heat exchanger Air flow can be controlled through the pipe element in the vehicle.

Such a piping element for an ESD heat exchanger is an extended an LsU heat exchanger can be a microchannel tube. This type of extension The Hs louver microchannel tube has a first and a second opening end. may have. Microchannel with generally flat surfaces relatively large parallel karsDlelD sidewalls of the pipe may be, these are the relatively small space between the side walls. combined with the side walls. These side walls are convex may be curved. tube and from one end of the microchannel tube to the other can flow to the end. The term microchannel is also referred to as microport. The second medium mentioned, eg air, is the lowest level of the piping element. It can flow around the sides and through the heated pipe. It can be removed or vice versa.

From the flat surfaces of the first sidewall and/or the second sidewall DsE with a large number of wings on at least one the surface of the heat exchanger is increased. In this way, the :su exchanger efficiency can also be improved significantly.

Moreover, one sidewall and the second sidewallEntwidth of the first approx. R from the distance between the sidewall and the second sidewall at least 10 times larger and/or the first side wall and the second side wallA rounded connection wall with the sErasj It is possible to connect on both sides by In addition, the piping elementE is at least partially bent or it is at least partially bent and curved and has a spiral at least partially spirally coiled and/or twisted, so preferably helical structure E] has a general cylindrical structure and/or The helical structure is formed in a cylindrical shape.

A piping element with a bent orientation also sidewallJn and/or second sidewallJn dJs surfaces at least a bent orientation of the fins placed on one also creates.

Piping elementEnJn helical structureDsE only radius (r), a angleDsE and ß awEsE. Radius (r), piping elementLnLn center with the center of the UsU heat exchanger vehicleJnun longitudinally Defines the distance between the axis (X). a opened piping They define the slope of the element and the center of the lsH exchanger tool longitudinal axis (X) and central axis (Z) of the piping element lie between If ß angleExD denotes the slope of the piping element. Central longitudinal axis (X) of grain and heat exchanger vehicle and the central horizontal axis (Y) of the piping element.

Therefore, due to the inclined orientation of the piping element, tsH The heat exchanger is almost never on the piping elements inside the vehicle. There is no horizontal surface. Natural condensate caused by air humidity the substance is curved and inertly twisted and/or twisted disappears very quickly due to the piping element. Weather natural condensate caused by moisture, piping elements from its inclined orientation to the low surface of the heat exchanger vehicle disappears. Thus, each of the said pipe elements of the condensed substance caused by the air humidity between freezing can be minimized. Compared to the previous technique, ElastErEldEgEnda, at least partially will form at least part of an inclined and spiral structure at least partially coiled in such a way that bent piping elementE more efficient with less material is happening. In addition, the 333 heat exchanger is equipped with compact piping. elements needs a small volume. This is the ESD heat exchanger ndnimum It provides a high reinforcement solution with its volumetric footprint.

In addition, it is at least partially inclined and spiral structure. at least partially, at least partially coiled and/or twisted piping element, The piping element is mentioned like air, thanks to its tilted orientation. better communication between the second medium and the surface of the piping element. creates interaction.

Moreover, the piping element, both the first side wall and the second side the wall has a large number of fins on djs surfaces possible. Lower both the first side wall and the second side wall. Since a large number of fins are provided on their surfaces, very easy increase of the surface and piping element used for to the advantage of not greatly increasing the volume needed for accessible.

Also, the most basic explanation of the fins with a discharge plateD be coated as: and/or monobloc It is possible to have blades.

Blades, dJs of the first sidewall and/or the second sidewall substantially perpendicular to at least one of its surfaces editable.

Alternatively, the fins can be used on the first sidewall3core//or the second inclined over at least one of the lower surfaces of the sidewall edited by this way is selected within a range of approximately 15° to 85°.

In addition, the fins only have the first sidewall and/or the second across the entire width of at least one of the dEs surfaces of the sidewall extendDr and/or curved.

Moreover, the fins form the first sidewall and/or the second side. across the entire width of at least one of the wall's dEs surfaces arranged and/or curved along an extending curve, whereby a gap between fins arranged along a curve and/or a space.

Blade AttachmentsWide and/or blade AttachmentsThe curve and connection at least one of the walls will cover each other in an angle are possible to be arranged. This angleE is substantially steep it could be. Alternatively, angle E is about 15° to about 60 can be selected between It is selected in a range of °. Fins or fins The approximation between the arc and at least one of the connecting walls An angle of 45° is particularly suitable for such a piping element, for example. which may be in contact with a DsE heat exchanger vehicle containing or with fans or the like that can be used with it largely neutral as a neutral arrangement for interaction It is considered.

The fins and/or the curvature of the fins are slightly concave or dEs can be formed as concave. In particular, these fins slightly concave or dJs concave shape, of the central part of the winglet an offset of the center arm and/or the fins to the endpoints the curvature of the fins and/or the fins approx. 0.5 mm to about 5 mm, preferably about 1 mm to about 2 mm within a range, most preferably about 1.5 mm It can be obtained with fins.

The winglet, the middle flowing against the fins, is the interior of this winglet. flowing against a curved section arrangement is preferred.

Blades, approximately 0.5 mm to approximately 5.0 mm, preferably with a selected height from a gap of approximately 2-3 mm it could be.

In addition, winglets should be arranged in several rows, preferably large in substantially parallel sdras and/or preferably piping elementEnArranging along at least part of its length possible.

The piping member may include at least one microchannel. Preferably, several micro-channels with a round or circular cross-section and / or several microchannels with an angular cross-section, for example, a triangular with several microchannels and/or quadrangular sections several micro channels are provided.

At least one kjsmu of the micro channels, a distance relative to each other can be arranged with, so that all microchannels are interconnected, for example. regulated by a distance.

This distance is within the first sidewall and/or the second sidewall. may result in several grooves and/or cavities.

Moreover, the piping element: one at its first end and at its second end, make the width of the first sidewall and the second sidewall smaller. may include an aggregation section that reduces to one width.

AyrEca is a DsE with the features of the present invention claim 9 is related to the heat exchanger vehicle. provided, any one of claims 1 to 8 through this IsH heat exchanger has at least one piping element relative to one.

Additional largely formed as a generally cylindrical structure may contain several piping elementsL and these piping elementsJ the central longitudinal axis is spirally curved around and arallklHdlr in yapt. It can be a condensateDrEcE or a vaporlastDrEcE.

Moreover, a piping having the properties of existing.invention desired. It relates to a method of generating elementLnLn. Accordingly, a piping element | according to any one of claims 1 to 8 is produced, in this way, for example, a Hsl transfer with piping element material is extruded using an extrusion process, this In this case, preferably extrusion process technique: extrusion process.

Moreover, preferably the heat exchanger material is at least partially cut off. of aluminum or copper or an alloy thereof.

Further details of the present invention are hereinafter referred to in the figures. it will be revealed by finding: Figure 1: A piping element in accordance with the present invention a perspective view in a first embodiment; Figure 2: A first embodiment of the present invention A perspective view of a piping element relative to; Figure 3: Openings for the slope and inclination of the piping element showing, The piping elementJnJn shown in Figure 2 is another perspective view; Figure 4: The perspective view shown in Figure 3 more detailed Figure 5: According to the present invention and with connecting elements in Figure 2 shown together perspective view of a piping element such as; Figure 6: Piping elements as shown in Figures 2 to 5 is a side elevation view; Figure 7: Containing many piping elements perspective view of an Hsl exchanger; Figure 8: A piping elementInDn according to the present invention, is a perspective view in the second embodiment; Figure 9: Detail of the arrangement shown in Figure 8 is a perspective view; Figure 10a, b: A discharge plate and associated pipe element perspective view and Figure 11: Discharge plate and piping according to Figures 10a, b containing elementE perspective of another embodiment of an exchanger is a view.

Figure 1 shows a first embodiment of the piping element 10 perspective view of fins (60) and fins (60') it shows without.

The piping element] (10) has a first end (20) and a second end (30) It is a rigid, extendElmus water heat exchanger pipe. Here, relatively large parallel reciprocals with usually flat surfaces side walls (40 and 50). The opposite of the piping element, sidewalls (40, 50) arranged in parallel, roundedElmDs.link3 relatively small opposite side wallsE with walls (45, 55) (45, 55). The piping element (10) is partially it is inclined and inclined, and furthermore, at least one part of a helical structure It is helically coiled and twisted to form a part.

Distance between first side wall (40) and second side wall (50) (d) is quite large compared to the width (W) of the side walls (40, 50). Here, relatively large parallelepipeds with generally flat surfaces KarsDlEle has side walls (40 and 50). Piping element opposite, parallel arranged side walls (40, 50) relatively small with rounded walls (45, 55) It is combined with opposite side walls (45, 55). Piping element E (10) is partially inclined and curved and also has a helical helically to form at least one.part of the buildJnD windelDr and twists. (40 and 50), general parallel in helix inside tube (10) are placed oppositely in planes, where oppositely an oil formed between the placed side walls (40, 50) There may also be more media axle channels. A JSU transfer steamÜ or water or oil like va_Jor freezer, Us_Jesanjörü.micro channel tube (10) and from one end of the microchannel tube (10). (20) flows to the other end (30). Preferably, 10 of the microchannel tube the resulting helix is formed in a cylindrical shape.

Figure 2 is of a first embodiment of the piping element (10) Shows a perspective view. both first side dJs surfaces (42, 52) of the wall (40) and the second side wall (50) several fins (60) are arranged on it.

The fins 60 may be monobloc fins and the first side with respect to the flat surface (42, 52) of the wall (40) and the second side wall (50) arranged inclined. Winglets and djs surface (42, 52) The angle between is 22.5 degrees in this example. Blades (60) only first sidewallHn (40) and second sidewallHn (50) dHs extends across the entire width of its surfaces 42, 52. For example, as can be seen in Figures 5 and 6, the fins are slightly it is inclined.

Figure 3, tanEmlayEcPlasticsJ, that is, the angle describing a slope (take) and displays a slant defining angle (ßl). Moreover, Figure 3 tanEmlayEcD shows the axes X, Y, and Z, as well as the radius (r). can be twisted into a longitudinal spiral. This axis (X) Figure 3 and the spiral is general and virtual cylindrical. is the central axis of the shape (X).

As can be seen in Figure 3, the inclination and inclination of the fins (60) follows.

The angle (al) describing the slope is the angle (al) between the X and Z axis. tanEmlanEr. The angle defining the curvature (ßl) is the angle between the X and Y axis. tanjmlanjr as ajj. As can be seen in Figure 3, radius X piping element with open wings from its axis to the center of DnEn (10) and / or the distance from the point of intersection of the Y-axis and Z-axis.

As can be seen from Aerca Figure 4, the fins (60) are It has the definition angle (Y and 5). Overhead, also Figures 2, and 8, the fins (60) and link Angle enclosed by walls (45, 55). ö openEsJ, winglet (60) and first sidewall (40) or second sidewallEn (50) djs surface (42, 52) is angled.

As can be seen from the other details shown in Figure 4, the neighboring the first distance (a) between the two fins (60), this neighbor The blades (60) are larger than a second distance (b).

The first distance (a2) is defined by the two adjacent blades (60). a DsE flowing over the fins, in the entrance part of the cavity. It is used in a section for the introduction of the transfer medium. This Therefore, the fins 60 are substantially parallel.

Fins 60 in accordance with the arrangement shown in Figures 2 to 6, dEs surfaces of the first sidewall (40) and the second sidewall (50) according to the angles between 22.5 and 45.

However, this is not mandatory. Alternatively, the fins (60) dls of the first sidewall (40) and/or the second sidewall (50) inclined over at least one of its surfaces (42, 52) can be edited so, for example, ailerons (60) and djs surface The angle between (42 or 52) is approximately between 15° and 85° can be selected.

The fins (60) only cover the first side wall (40) and/or the second across the entire width of the djs surfaces 42, 52 of the sidewall 50 reachHr and lightly kHvrllHr.

In addition, fins (60) along the entire length of the tube element (10) arranged in a large number of parallel greenhouses.

Blades (60) and connection wallsD (45, 55) they are arranged to cover an angleEyE (y).

However, this angleE(y) can be substantially perpendicular. Alternative In general, this angle (y) ranges from about 15° to about 60°. can be selected and preferably between about 20° and about 25° can be selected. Fins (60) and connecting walls Endan (45, 55) an angle (y) of approximately 45 between at least one as neutral, especially for example, such a piping elementJnD (10) connected to, or in conjunction with, a JsU exchanger vehicle containing neutral with respect to the interaction with the fans and the like used Blades (60) slightly concave or dEs concave created, which is not mandatory. In particular, the fins (60) slightly concave or dUs concave shape, about 0.5 mm to about 5 mm, preferably about 1 mm to about 2 mm within the range, most preferably about 1.5 mm finsAttachmentsWide (60) endpointsMiddle of fins (60) relative to width can be obtained by an offset of the center portion of the section. Shape In the arrangement shown in Fig. 2, the endpoints of the fins 60 Ena offset of the center fins (60) of the middle section of the fins (60) relative to is about 1 mm.

The fins (60), the environment against the fins, the interior of this winglet curved Moreover, according to the arrangement shown in Figure 2, the blades (60) It has a height of approximately 2.5 mm. Generally, fins (60) about 0.5 mm to about 5.0 mm, preferably with a height selected from a gap of about 2-3 mm it could be.

The ends of the piping element (10) Enda (20, 30) collection elementsE (25, 35) are supplied, which will extend the width of the piping element (10). pipe of a larger diameter, i.e. circular sections (27, 37) shaped connection reduces the diameter of the ElarjnDn.

Figure 7, the first group of many interlaced inclined helix curved and bent adjacent to micro-channel piping elements (10) similarly helically formed piping elements (10) and the corresponding second group (S1) in the first group (S1) is a perspective view of an IS] heat exchanger vehicle (100).

With an artturElmDs surface for ESD exchange with its vasEtasj together a compact structure is obtained.

Figure 8 is the second of the piping element according to the present invention. It is a perspective view of the arrangement. Piping element (10') with the second embodiment shown in Figures 2 to 6 . is almost the same. However, different types of fins, eg fins (60') are used. Fins (60'), sidewall (40) and at least one of the dHs surfaces (42, 52) of the sidewall (50) along a curve that extends substantially across its entire width (W) can be arranged and along a curve as can be seen from Figure 9 A space is provided between each arranged fin (60').

Blades (60'), multiple eras arranged in parallel arranged in.

The blades 60' are first in the arrangement shown in Figure 8 . dEs surfaces (42, 52) Arranged at a 22.5 degree angle.

Alternatively, the fins 60' can form the first sidewall 40 and / or at least from the dUs surfaces (42, 52) of the second sidewall (50) can be placed inclined on one of them, so that for example The angle between the fins 60' and the blade surface is substantially steep.

Moreover, the fins 60' are formed by the first sidewall 40 and/or the second the entire width (W) of the dEs surfaces (42, 52) of the side wall (50) It is arranged along a curve that runs along and, at the same time, klermlldHrlar, so along a curve. arranged There is a space 62 between the fins 60'.

Curve and connection of blades (60') and blades (60') walls(45, 55) will occupy an angle (y) relative to each other are possible to be arranged.

However, this angleE(y) can be substantially perpendicular. Alternative In general, this angle (y) ranges from about 15° to about 60°. can be selected and preferably between about 20° and about 25° can be selected. An angle of approximately 45° between the fins (60) (y) to a large extent, in particular, for example, such a force connected to an ESD heat exchanger vehicle containing element EnE (10), or interact with fans and the like considered a neutral arrangement.

Slightly inward the fins (60') and the curvature of the fins (60'). formed as a curve. Specifically, the finsAttachment (60') light interior concave shape, about 0.5 mm to about 5 mm, preferably about approx. Within a range of 1 mm to approximately 2 mm, most preferably The end points of the fins (60') of approximately 1.5 mm are Ena and These fins (60') and The central kHsmlnHn of the middle part of the curvature of the ailerons (60') obtained with the offset.

The fins (60'), the medium flowing against the fins (60'), this A part formed as a concave wing will flow against arranged in a row.

Further, the fins according to the arrangement shown in Figure 8 (60') has a height of approximately 3 mm. Generally, Blades (60') approx. 0.5mm to approx. 5.01mm, preferably having a height shape selected from a range of approx. $3<2-3mm it could be.

The fin Lklaan (60') curves are very much along the piping elementJ. arranged in substantially parallel rows on the page.

Figure 9, with wings (60') as shown in Figure 8 and having a plurality of micro-channels (70) with a square cross-section. shows a detailed arrangement of the tube 10'.

Figure 10a is spirally wound as shown in Figure lb. bent so that the heat exchanger can be connected to the micro-channel pipe (10) and a helically coiled discharge plate(80) perspective shows as.

As can also be seen from Figure II, several discharge plates (80) and ESD heat exchanger pipes (10) with a large number of spaced slopes and obliquely wound micro-channel piping elements (10) and adjacent pairs of piping element (10) for (100) plates (an LsH heat exchanger vehicle (80)) editable.

The discharge platesDnEn (80) are one of the DsE heat exchanger means (100). It is preferred to be used in cases where vaporlastDrEcE is available.

Claims (13)

REQUESTS 1. The piping member (10, 10') has at least one first end (20) and at least one second end (30), and at least partially having a first side wall (40) and a second side wall (50) The first side wall (40) and the second side wall (50) are arranged substantially parallel to each other, and a distance (d) between the first side wall (40) and the second side wall (50) is the first side wall (40). Significantly smaller than the width (W) of the sidewall (40) and the second sidewall (50), resulting in a substantially straight piping structure with connecting walls (45, 55) on both sides, where the piping element (10, 10') the first sidewall (40) and/or the second sidewall (50) have a plurality of fins (60, 60') on at least one of the djs surfaces 42, 52, wherein the piping element ( 10, 10') is at least partially inclined or at least partially inclined and oblique and from the most partly partly spirally It is a piping element (10) for sarEldEgE and/or a heat exchanger vehicle (100) to which it is bent, and its feature is; The fins 60, 60' are arranged and curved along a curve extending across the entire width W of at least one of the dHs surfaces 42, 52 of the first sidewall 40 and/or the second sidewall 50, so that a There is no gap and/or space between the fins (60, 60') arranged along the curve, and the fins (60, 60') are arranged in multiple perimeters, where the fins (60, 60') are connected by the connecting walls (45, 55'). ), a first distance (a) in the inlet section of the gap defined by two adjacent fins (60, 60') is greater than a second distance (b), wherein the fins (60, 60'), fins (60') , 60') and a connecting wall] (45, 55). It is a piping element (10, 10') according to 2.Istenil, and its feature is; the width (W) of the first sidewall (40) and the second sidewall (50) is at least 10 times greater than the distance (d) between the first sidewall (40) and the second sidewall (50) and/or the first It is characterized by the fact that the side wall (40) and the second side wall (50) are connected on both sides by a continuous rounded connection wall (45, 55). 3. Piping element according to Istenil] is (10, 10'), its feature is; The helical structure is characterized by having a general cylindrical structure and/or forming the helical structure in a cylindrical shape. 4. It is a piping element (10, 10') according to any one of the previous claims, and its feature is; The piping element (10, 10') is characterized by having a large number of fins (60, 60') on both the vertical surfaces (42, 52) of the first side wall (40) and the second side wall (50). 5. Piping element according to any one of the previous claims: (10, 10') and its feature is; It is characterized by the fact that the fins (60, 60') are at least partially covered with flaking plate (80). A piping element (10, 10') according to any one of the preceding claims, and its feature is; It is characterized by the fact that the blades (60, 60') are monoblock blades. 7. Piping element (10, 10') according to any one of claims 1 to 6, its feature is; the fins 60, 60' are arranged inclined on at least one of the outer surfaces 42, 52 of the first side wall 40 and/or the second side wall 50 so that the fins 60, 60' and the dHS surface (42, 52). 8. It is a piping element (10, 10') according to any of the previous claims, and its feature is; The piping element (10, 10'), at its first end (20) and at its second end (30), includes a collecting section (25, 35) that reduces the first side wall (40) and the second side wall (50) to a smaller width. is to be done. 9. At least one piping according to any one of the preceding claims. 10. It is a relative slide exchanger (100, 100') according to isten9, and its feature is; several piping elements (10, 10') form a generally substantially cylindrical structure with a central longitudinal axis (X) and the piping elements (10, 10') are spirally coiled around the central longitudinal axis (X) and spaced for structure. ] is characterized by sD. 11. It is ÄsH heat exchanger vehicle (100, 100') according to claim 9 or lû, its feature is; The ESC heat exchanger is characterized in that the vehicle (100, 100') is a condenser DrEcD or an evaporator DrEcE or a radiator or a cooler. 12. A piping elementLnLn production method according to any one of claims 1 to 8, its feature is; thus, the piping element 10, 10' does not remain using an extrusion process of a heat transfer material, whereas the extrusion process is preferably a single extrusion process. 13. It is a production method of a piping element (10, 10') according to claim 12, and its feature is; It is characterized by the LsU transfer material being at least partially aluminum or copper or an alloy of these.