CN213299112U - Header part - Google Patents

Abstract

A collecting pipe component comprises a collecting pipe and branch pipes, wherein the pipe diameter of the collecting pipe is more than twice of that of the branch pipes, the collecting pipe comprises at least one steel pipe fitting, the branch pipes comprise at least two copper pipe fittings, each steel pipe fitting comprises a steel pipe joint part and a steel pipe side wall, the steel pipe joint part is arranged in a protruding mode along the radial direction of the copper pipe side wall relative to the outer peripheral wall of the steel pipe side wall, each copper pipe fitting comprises a copper pipe joint part, and the steel pipe joint parts and the copper pipe joint parts are welded; one of the steel pipe joint part and the copper pipe joint part is at least partially positioned in the other joint part; the steel pipe joint part is provided with the boss part, the boss part comprises a base part and a butt joint part integrally extending from the base part, the perimeter of the base part is larger than the perimeter of the periphery of an opening part of the butt joint part, the stretchability of the butt joint part is good, the situation that the opening part is partially sunken is reduced, the welding flux is better covered relatively, the connection between the welding part of the steel pipe fitting and the copper pipe fitting is reliable, and the header pipe part can realize the reliable connection of the two pipe fittings.

Description

Header part

[ technical field ] A method for producing a semiconductor device

The utility model relates to a tube coupling technical field if can relate to the refrigeration field specifically.

[ background of the invention ]

Products in the refrigeration technology field include air conditioners, refrigerators, freezers and the like, generally, copper pipes are used as connecting pipes to connect two components of the systems, and in order to be conveniently connected with the copper pipes, a plurality of components are correspondingly made of copper materials. In order to reduce the consumption of copper materials, one skilled in the art is faced with the technical problem of how to connect components made of different materials by using a part of components of a refrigeration system instead of other non-copper components.

[ Utility model ] content

The utility model provides a connect comparatively reliable header part.

The utility model provides a header part, including header, branch pipe, the pipe diameter of header is greater than more than twice of the pipe diameter of branch pipe, the header includes at least one steel pipe fitting, and the branch pipe includes two at least copper pipe fittings, the steel pipe fitting includes steel pipe joint portion and steel pipe lateral wall, steel pipe joint portion is protruding to stretch the setting along the radial of copper pipe lateral wall for the periphery wall of steel pipe lateral wall, copper pipe fitting includes copper pipe joint portion, steel pipe joint portion with copper pipe joint portion welding sets up; one of the steel pipe joint part and the copper pipe joint part is at least partially positioned in the other joint part; the steel pipe joint part is formed with a boss part including a base part and an abutting part integrally extending from the base part, and the circumference of the base part is larger than the circumference of the opening part of the abutting part.

At least one steel pipe fitting and at least two copper pipe fittings welding settings of the header part of this scheme, steel pipe joint portion and one of copper pipe joint portion partly are located another joint portion at least, wherein steel pipe joint portion takes shape there is boss portion, this boss portion includes the basal portion, from the integrative butt joint portion that extends of basal portion, the girth of basal portion is greater than the opening periphery girth of butt joint portion, but the stretchability of butt joint portion is better, reduce the sunken condition of opening part, cover the solder better relatively, make steel pipe fitting and copper pipe fitting welding position's connection comparatively reliable, this header part can realize the reliable connection of two kinds of pipe fittings.

[ description of the drawings ]

FIG. 1 is a schematic perspective view of a piping connection assembly according to one embodiment of the header assembly of the present solution;

FIG. 2 is a side schematic view of a tube coupling assembly of the header assembly of FIG. 1;

FIG. 3 is an enlarged schematic view of a first portion of the header assembly of FIG. 2;

FIG. 4 is an enlarged schematic view of a second portion of the header assembly of FIG. 2;

FIG. 5 is an enlarged schematic view of a third portion of the header assembly of FIG. 2;

FIG. 6 is an enlarged fourth portion of the header assembly of FIG. 2;

FIG. 7 is a schematic perspective view of another angle of the header assembly of FIG. 1;

FIG. 8 is an enlarged, fragmentary schematic view of the header assembly of FIG. 7;

fig. 9 is an enlarged view of a portion of the copper tubing of fig. 1.

Reference numerals:

the header member 100, the header 1, the header 101, the steel pipe 10, the first gap 102, the weld 103, the steel pipe joint 11, the base 110, the butt 1101, the first joint side wall 1102, the second joint side wall 1103, the steel pipe joint inner wall 111, the reducer section 112, the steel pipe side wall 12, the first end 13, the second end 14, the branch pipe 2, the copper pipe 20, the copper pipe joint 21, the connection port 210, the copper pipe joint outer wall 211, the groove 212, the projection 214, the throat 215, the first connection pipe 30, and the second connection pipe 40

[ detailed description ] embodiments

The invention will be further described with reference to the following drawings and specific embodiments:

referring to fig. 1-3, the present disclosure provides a header part and a pipeline connection assembly of the header part, which are mainly used for connecting parts of an air conditioning system, the header part 100 includes a header 1 and branch pipes 2, the header and the branch pipes are connected by welding, at least two reducing structures are processed on a pipe wall of the header, the reducing structures are used as pipe joint portions of the header, correspondingly, the pipe joint portions of the branch pipes 2 are butted with the pipe joint portions of the header, and welding is performed in a brazing apparatus by welding materials. Wherein the main part of the header part 100 comprises a pipe connection assembly comprising at least one steel pipe 10 and at least two copper pipes 20. The steel pipe 10 includes a steel pipe joint portion 11, the copper pipe 20 includes a copper pipe joint portion 21, the steel pipe joint portion 11 and the copper pipe joint portion 21 are welded, for example, the steel pipe is steel, the copper pipe is copper, and the copper includes copper metal or copper alloy material with copper as a main component; the steel pipe fitting can be a stainless steel pipe fitting or a carbon steel pipe fitting, and when the steel pipe fitting is the carbon steel pipe fitting, a coating can be added to protect the carbon steel pipe fitting during welding of the carbon steel pipe fitting.

The contact potential difference between the steel pipe 10 and the copper pipe 20 is small, and corrosion is not easy to occur, and here, the contact potential difference corrosion refers to the potential difference corrosion generated when two pipes are in direct contact or the potential difference corrosion generated after the two pipes are welded through a solder. Under the same or similar conditions, for example, in an acidic or alkaline environment, or in an environment that can cause contact potential difference corrosion, for example, in a sea wind environment, the contact potential difference between the steel pipe 10 and the copper pipe 20 is comparatively smaller than the contact potential difference between copper and other materials, for example, aluminum, so that in a slightly acidic or slightly alkaline environment, or in an environment that can cause contact potential difference corrosion, the contact potential difference between the steel pipe 10 and the copper pipe 20 provided by the present embodiment is smaller, corrosion is not likely to occur, when the present invention is applied to an outdoor atmospheric environment of an air conditioning system, such as an air conditioner outdoor unit, etc., the change of air humidity and acid-base value has a smaller influence on the connection of the pipe, and the present invention is favorable for improving the reliability of the pipe connection.

The steel pipe joint 11 is a pipe segment to be engaged when the steel pipe 10 and the copper pipe 20 are welded, and includes a portion where the steel pipe 10 and the copper pipe 20 are welded and a portion in the vicinity of the welded portion; the copper pipe joint portion 21 is a pipe segment to which the copper pipe 20 is fitted when welded to the steel pipe 10, and includes a portion where the copper pipe 20 is welded to the steel pipe 10 and a portion near the portion where the copper pipe 20 is welded to the steel pipe 10.

The steel pipe fitting 10 comprises a steel pipe joint part 11 and a steel pipe side wall 12, wherein the steel pipe joint part 11 is arranged to protrude outwards relative to the steel pipe side wall 12, specifically, an opening part is arranged on the steel pipe circumferential side wall, the opening part is opened towards a radial direction, the opening part has an oval transverse section or a similar oval transverse section, a boss part is outwards stretched to form the steel pipe joint part 11, the boss part comprises a base part 110 and a butt joint part 1101 integrally extending from the base part, the perimeter C1 of the base part 110 is larger than the perimeter C2 of the opening part of the butt joint part 1101, the base part 110 of the boss part extends for a longer length, so that more material can be stretched upwards in the boss part, the stretchability of the butt joint part is better, the condition of partial recess of the opening part is reduced, the top end part of the formed boss part is smoother, the solder is less exposed after a subsequent welding ring is melted, the solder is relatively better, the welding connection strength of the copper pipe inserted into the steel pipe fitting is improved. The connection between the welding parts of the steel pipe fitting and the copper pipe fitting is reliable, and the header pipe component can realize the reliable connection of two pipe fittings.

The steel pipe joint part 11 comprises a first joint side wall 1102 and a second joint side wall 1103 which are integrally connected, wherein the first joint side wall protrudes outwards from the steel pipe side wall 12, the second joint side wall protrudes outwards from the steel pipe side wall 12, and the height of the first joint side wall 1102 is greater than that of the second joint side wall 1103 along the vertical direction of the axial direction of the steel pipe joint part. Specifically, the second joint side wall has a first outer side portion, the second joint side wall has a second outer side portion, and the height of the first outer side portion is greater than the height of the second outer side portion in the vertical direction of the axial direction of the steel pipe joint portion. The connection between the steel pipe joint part and the steel pipe side wall is in the structure, the planeness of the top end part of the stretched boss part is higher, the integrity of the cladding solder is better, the corrosion prone phenomenon possibly caused by the exposure of part of the solder is reduced, and the reliable welding connection of the two different material pipe fittings is facilitated.

Referring to fig. 3 to 5, the inner wall portion of the steel pipe side wall 12 includes an edge portion having an opening portion, and the end of the copper pipe joint portion 21 exceeds the opening portion of the edge portion, and the steel pipe 10 includes a collecting chamber 101 communicating with a connection port 210 of the copper pipe joint portion 21; specifically, when at least part of the copper pipe joint part 21 is located in the steel pipe joint part 11, the extending length of the copper pipe joint part 21 refers to the length of the copper pipe joint part 21 extending into the steel pipe along the axial direction of the copper pipe joint part 21, the extending length of the copper pipe joint part 21 is more than or equal to three times of the wall thickness of the steel pipe joint part 11 or the copper pipe joint part 21, and/or the extending length of the copper pipe joint part 21 is more than or equal to 60% of the equivalent diameter of the steel pipe joint part 11 or the copper pipe joint part 21, and is relatively large, so that the strength of mutual abutting connection of the pipe fittings is relatively better, the connection is relatively more reliable compared with the insertion, compared with the case that the copper pipe fitting is inserted into the steel pipe too deeply, the refrigerant flow resistance of the extending part of the copper pipe fitting to the steel pipe fitting can be reduced, and the fluid can normally flow between.

The scheme also provides a header part, which comprises the pipeline connecting assembly, and as shown in fig. 5, 6 and 7, the pipe diameter of the header is more than twice of that of the branch pipe, the header part further comprises a first connecting pipe 30, the first connecting pipe 30 is welded with the first end part 13 of the steel pipe 10, the header part further comprises a second connecting pipe 40, and the second connecting pipe 40 is welded with the second end part 14 of the steel pipe 10. The first connecting pipe 30 is formed by a copper pipe member and the second connecting pipe 40 is formed by another copper pipe member, and welding can be performed by the built-in welding ring. Of course, in other embodiments, the second end of the steel pipe 10 may be welded to a steel cap, and the steel cap includes a cap portion that is sealed to the second end of the steel pipe 10, so that the second end is closed and sealed to the outside.

The equivalent inner diameter of the steel pipe joint part 11 can be larger or smaller than the outer diameter of the copper pipe joint part 21, for example, the inner diameter of the steel pipe joint part is larger than the outer diameter of the copper pipe joint part, the size is easy to control in the process of processing and forming the stretching boss part, the inner diameter of the steel pipe joint part is adjusted according to the selected outer diameter of the copper pipe, and the operation is relatively easy;

further, as shown in fig. 8 and 9, the equivalent inner diameter of the steel pipe joint portion 11 is larger than the equivalent inner diameter of the copper pipe joint portion 21, so that at least a portion of the copper pipe joint portion 21 is located at the steel pipe joint portion 11 to form a butt joint relationship for facilitating subsequent welding. Specifically, when the equivalent inner diameter of the steel pipe joint portion 11 is smaller than the equivalent outer diameter of the copper pipe joint portion 21, the steel pipe joint portion 11 and the copper pipe joint portion 21 form an interference fit, if the equivalent inner diameter of the steel pipe joint portion 11 is slightly smaller than the equivalent outer diameter of the copper pipe joint portion 21, the steel pipe joint portion 11 and the copper pipe joint portion 21 form an over-fit, and if the equivalent inner diameter of the steel pipe joint portion 11 is slightly larger than the equivalent outer diameter of the copper pipe joint portion 21, the steel pipe joint portion 11 and the copper pipe joint portion 21 form a clearance fit; specifically, the copper pipe joint portion 21 includes a copper pipe joint outer wall 211, the copper pipe joint outer wall 211 has a plurality of grooves 212 and a plurality of protrusions 214, that is, the outer wall of the steel pipe member has a plurality of grooves 212, the grooves 212 are recessed toward the center of the copper pipe member 20 with respect to the protrusions 214 in the radial direction of the copper pipe member 20, at least a part of the grooves 212 extends in the axial direction of the copper pipe joint portion 21, the grooves 212 are spaced apart in the axial direction of the copper pipe joint portion 21, or at least a part of the grooves 212 extends in the axial direction of the copper pipe joint portion 21.

When the steel pipe 10 and the copper pipe 20 are welded, an external welding ring may be used for welding, in this case, for the welding strength between the steel pipe 10 and the copper pipe 20 or for the solder to more easily flow between the copper pipe 20 and the steel pipe 10, the groove 212 has a length L1 along the axial direction of the copper joint portion 21, the copper joint portion 21 and the steel pipe joint portion 11 have a fitting length where only the guiding length of the copper joint portion is ignored or the guiding length of the copper joint portion near the copper port without a groove is ignored), the length of the groove 212 is greater than the fitting length of the copper joint portion 21 and the steel pipe joint portion 11, and thus, in the assembly before the steel pipe 10 and the copper pipe 20 are welded, the welding ring is firstly sleeved on the periphery of the copper pipe 20, and the position corresponding to the welding ring is provided with a groove 212, so that the welding ring is favorably melted to form a welding seam part 103 when the steel pipe fitting 10 is welded with the copper pipe fitting 20.

Of course, the welding may be performed by using a built-in welding ring, the inner wall 111 of the steel pipe joint is formed with the reducing section 112, the boss portion is formed with the reducing section 112, the placing region formed by the reducing section can position the welding ring for welding in a limited manner, and the welding ring can be melted and circulated to fill the space between the groove 212 and the inner wall 111 of the steel pipe joint after the steel pipe 10 and the copper pipe 20 are welded in a furnace, for example, a tunnel furnace, so as to form a part of the weld portion 103.

The steel pipe joint part 11 is provided with a steel pipe joint inner wall 111, at least part of the bulge part 214 of the copper pipe joint outer wall is in interference fit or abutting joint with the steel pipe joint inner wall 111, and for the requirement of interference, the copper pipe fitting 20 and the steel pipe fitting 10 are in interference fit in the assembling process, or the radial peripheral side formed by the part of the bulge part 214 contacting the steel pipe fitting 10 is in interference fit with the steel pipe fitting 10; the term "contact" means that after the fitting 20 and the steel pipe 10 are assembled, the projecting portion 214 is at least partially in contact with the steel pipe joint inner wall 111, or the projecting portion 214 is at least partially in contact with the steel pipe joint inner wall 111. After the assembly is completed, the interference or the butt is shown as butt or is shown as having a small gap, and by the arrangement, after the copper pipe fitting 20 is assembled with the steel pipe fitting 10 and welded through furnace welding, the copper pipe fitting 20 before welding and the steel pipe fitting 10 are relatively fixed without other tools or tools.

The outer wall of the groove 212 and the inner wall 111 of the steel pipe joint are arranged in a clearance fit mode, a first clearance 102 is formed between the outer wall 211 of the copper pipe joint and the inner wall 111 of the steel pipe joint, the first clearance 102 serves as a solder filling part when the copper pipe joint part 21 and the steel pipe joint part 11 are welded, the pipeline connecting component is filled with solder in the first clearance 102, and at least part of a welding seam part 103 is formed after the solder is welded.

In the process of welding the copper pipe joint portion 21 to the steel pipe joint portion 11, a small amount of gap is partially present between the protrusion 214 and the steel pipe joint inner wall 111 so that the solder is filled, or, as it is, the first gap 102 includes, in some cases, a gap between the bottom wall of the groove 212 and the steel pipe joint inner wall 111 and a small amount of gap between the protrusion 214 and the steel pipe joint inner wall 111. The presence of the first gap 102 or the groove 212 enables the solder to siphon (wick) when melted, thereby forming at least part of the above-mentioned weld joint, and further facilitating the increase of the welding strength between the steel pipe 10 and the copper pipe 20.

In other embodiments, at least a portion of the steel pipe joint 11 extends into and is located on the copper pipe joint 21 (not shown), the outer wall of the steel pipe joint includes a plurality of grooves and a plurality of protrusions, that is, the outer wall of the steel pipe has a plurality of grooves, the grooves are recessed from the protrusions toward the center of the steel pipe joint along the radial direction of the steel pipe joint, at least a portion of the grooves extend along the axial direction of the steel pipe joint, and the grooves are spaced apart from each other along the axial direction of the steel pipe joint, or the grooves extend along the axial direction of the steel pipe joint. The first gap is formed between the inner wall of the copper pipe joint part and the outer wall of the steel pipe joint part, the first gap becomes a solder filling part when the copper pipe joint part and the steel pipe joint part are welded, the pipeline connecting assembly is filled with solder in the first gap, the solder forms at least partial weld joint part after welding, and when the steel pipe fitting and the copper pipe fitting are welded, the siphon (capillary) phenomenon occurs when the solder is melted by the groove or the first gap, so that the welding strength of the steel pipe fitting and the copper pipe fitting is increased.

To ensure weld strength or to ensure weld thickness, the depth of the groove 212 is between about 0.05 mm and about 0.15mm, and the depth of the groove 212 is defined as the maximum distance that the groove 212 is recessed from the projection 214 or the projection height of the projection 214 is between about 0.05 mm and about 0.15mm in the radial direction of the copper coupling portion. The grooves 212, the protrusions 214 may be formed by machining, specifically, such as a wire drawing process, an extrusion process, a punching process, and the like. In order to achieve a better roundness of the copper coupling portion 21 after the formation of the grooves 212/protrusions 214, or to facilitate the uniformity of the weld joint 103, or to facilitate the welding strength of the copper fitting 20 to the steel fitting 10, the grooves 212/protrusions 214 equally divide the outer peripheral wall of the copper coupling portion 21 or the equal spacing between adjacent grooves 212/protrusions 214, or the uniform or nearly uniform distribution of at least some of the adjacent grooves 212/protrusions 214 allows for some tolerance.

In order to facilitate the matching between the copper pipe fitting 20 and the steel pipe fitting 10, the copper pipe fitting 21 is subjected to necking, the copper pipe fitting 21 includes a necking portion 215, and the necking angle is less than or equal to 5 degrees, more specifically, the necking angle is less than or equal to 3 degrees, such as 2.9 degrees, 2.5 degrees, 2.0 degrees, 1.8 degrees, 1.5 degrees, 1 degree, 0.8 degrees, and the like, so when the copper pipe fitting 21 is assembled with the steel pipe fitting 11, the copper pipe fitting 21 has a guiding effect due to the necking. In the production process, the necking of the groove 212 and the copper joint portion 21 may be performed simultaneously or after the groove 212 is obtained by a machining process, the copper joint portion 21 may be subjected to necking. The welding method of the copper pipe 20 and the steel pipe 10 can be furnace welding, the solder is bronze solder, and the melting temperature of the solder is more than 980 ℃, for example, more than 980 ℃, 980 and 1000 ℃, more than 1000 ℃, about 1000 ℃ or about 1030 ℃.

The refrigerating system where the header part is located further comprises a copper pipe connected with the branch pipe in a welding mode, and the melting temperature of the welding flux used for welding the copper pipe fitting 20 and the copper pipe is lower than that of the welding flux used for welding the copper pipe fitting and the steel pipe fitting.

It should be noted that: the above embodiments are only used for illustrating the present invention and not for limiting the technical solutions described in the present invention, and although the present invention has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that the technical solutions and modifications thereof without departing from the spirit and scope of the present invention can be modified or replaced by other technical solutions and modifications by those skilled in the art.

Claims (10)

1. A header assembly, characterized by: the pipe diameter of the collecting pipe is more than two times of that of the branch pipe, the collecting pipe comprises at least one steel pipe (10), the branch pipe (2) comprises at least two copper pipe fittings (20), each steel pipe fitting comprises a steel pipe joint part (11) and a steel pipe side wall (12), the steel pipe joint part (11) is arranged in a protruding mode along the radial direction of the copper pipe side wall relative to the outer peripheral wall of the steel pipe side wall (12), each copper pipe fitting comprises a copper pipe joint part (21), and the steel pipe joint part and the copper pipe joint part are welded; one of the steel pipe joint part (11) and the copper pipe joint part (21) is at least partially positioned in the other joint part;

the steel pipe joint part (11) is formed with a boss part including a base part (110) and an abutting part (1101) integrally extending from the base part, and the circumference of the base part is larger than the circumference of the opening part of the abutting part.

2. A header unit according to claim 1, wherein said header unit has a header chamber communicating with the connection port of said copper pipe joint portion (21); the steel pipe joint part (11) comprises a first joint side wall (1102) and a second joint side wall (1103), the first joint side wall (1102) and the second joint side wall (1103) are integrally connected, the first joint side wall protrudes outwards from the steel pipe side wall (12), the second joint side wall protrudes outwards from the steel pipe side wall (12), and the height of the first joint side wall (1102) is greater than that of the second joint side wall (1103) along the vertical direction of the axial direction of the steel pipe joint part.

3. A header part according to claim 2, wherein said second joint side wall has a first outer side portion, said second joint side wall has a second outer side portion, and a height of said first outer side portion is larger than a height of said second outer side portion in a vertical direction in an axial direction of said steel pipe joint portion.

4. A header part according to claim 2, further comprising a first connection pipe (30), the first connection pipe (30) being welded to the first end portion (13) of the steel pipe member (10); and/or the header component comprises a second connecting pipe (40), the second connecting pipe (40) is welded with the second end part (14) of the steel pipe (10), or the second end part (14) of the steel pipe (10) is welded with a steel cover body of the header component, the steel cover body comprises a cover body part, and the cover body part is hermetically arranged with the second end part (14) of the steel pipe (10).

5. A header part according to claim 1, 2 or 3, wherein said copper pipe joint portion comprises a copper pipe joint outer wall, said steel pipe joint portion comprises a steel pipe joint inner wall, said copper pipe joint outer wall has a plurality of projections (214), at least a part of said projections being interference fitted or abutted with an inner wall (111) of said steel pipe joint portion (11);

or the inner wall of the steel pipe joint part is provided with a plurality of protruding parts, and at least part of the protruding parts are in interference fit or abut against the outer wall of the copper pipe joint.

6. A header part according to claim 1, 2 or 3, wherein the inner wall portion of said steel pipe side wall (12) comprises an edge portion having an opening portion beyond which the distal end of said copper pipe joint portion (21) protrudes, and said steel pipe member comprises a header chamber communicating with the connection port of said copper pipe joint portion (21).

7. A header part according to claim 5, wherein the inner wall portion of said steel pipe side wall (12) comprises an edge portion having an opening portion, the end of said copper pipe joint portion (21) exceeds the opening portion of said edge portion, and said steel pipe member comprises a header chamber communicating with the connection port of said copper pipe joint portion (21).

8. A header part according to claim 6, wherein at least a part of said copper pipe joint portion (21) is located inside the steel pipe joint portion (11), and the protruding length of the copper pipe joint portion (21) is equal to or greater than 3 times the wall thickness of the steel pipe joint portion (11) or the copper pipe joint portion (21);

and/or the protruding length of the copper pipe joint part (21) is more than or equal to 60% of the equivalent diameter of the copper pipe joint part (21).

9. A header part according to claim 5, wherein said copper pipe joint portion (21) is located on an outer peripheral side of said steel pipe joint portion (11) with a first gap between an inner wall of said copper pipe joint and an outer wall of said steel pipe joint, said header part comprising a pipe connecting assembly having a solder, said first gap becoming a solder filling portion when said steel pipe joint portion and said copper pipe joint portion are welded, said pipe connecting assembly further comprising a weld portion located at said solder filling portion;

or, the steel pipe joint part (11) is positioned on the outer peripheral side of the copper pipe joint part (21), a first gap is formed between the inner wall (111) of the steel pipe joint and the outer wall (211) of the copper pipe joint, the pipeline connecting component is provided with solder, the first gap is a solder filling part when the steel pipe joint part and the copper pipe joint part are welded, and the pipeline connecting component further comprises a welding seam part (103) positioned in the solder filling part.

10. A header part according to claim 9, wherein at least a part of the copper pipe joint portion (21) protrudes into the steel pipe joint portion (11), the steel pipe member (10) is a stainless steel pipe member or a carbon steel pipe member, the copper pipe joint outer wall has a plurality of grooves (212) and a plurality of projections (214), the grooves (212) are recessed toward a center of the copper pipe joint portion with respect to the projections (214) in a radial direction of the copper pipe joint portion, the projections (214) are at least partially interfered or abutted with the steel pipe joint inner wall, the copper pipe joint outer wall (211) has a first gap with the steel pipe joint inner wall, and at least a part of the grooves extends in an axial direction of the copper pipe joint portion; the copper pipe joint part (21) comprises a necking part (215), the necking angle of the copper pipe joint part is less than or equal to 5 degrees, the groove (212) has length along the axial direction of the copper pipe joint part, the copper pipe joint part (21) and the steel pipe joint part (11) have matching length, and the length of the groove (212) is greater than the matching length of the copper pipe joint part (21) and the steel pipe joint part (11);

the convex part (214) is a machine-formed convex part or an extrusion process-formed convex structure, the convex part is circumferentially equally divided on the peripheral surface where the convex part is located, or the groove (212) is a machine-formed groove, the depth of the groove is 0.05-0.15mm, or the height of the convex part is 0.05-0.15 mm; the peripheral surface where the grooves/bulges are located or the intervals between adjacent bulges are equal or at least part of the intervals between adjacent grooves/bulges are equal.

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