CN218800230U - Auxiliary welding jig for mold temperature controller - Google Patents

Abstract

The utility model relates to the technical field of auxiliary welding jigs, in particular to an auxiliary welding jig for a mold temperature controller, which comprises a base, a main body stabilizing component, a welded pipe supporting component and a welded pipe stabilizing component; the main body stabilizing assembly is provided with a main body stabilizing baffle and a main body movable plate, and the main body movable plate is abutted against the welding main body to stabilize the welding main body between the main body stabilizing baffle and the main body movable plate; the welded pipe stabilizing assembly is provided with a welded pipe stabilizing baffle and a welded pipe movable plate, and the welded pipe movable plate abuts against the pipe to be welded to enable the pipe to be welded to be stabilized between the welded pipe stabilizing baffle and the welded pipe movable plate. Through setting up adjustable subassembly to the realization is fixed a position and is stabilized the metal pipe fitting of different pipe diameters. And use the screw rod to adjust, both laborsaving, also quick, what the spiral drive screw rod of taking self-locking function more can be firm stabilizes metal pipe spare in required position, when convenient the welding, prevents that metal pipe spare from producing unnecessary and rocking when the welding, also avoids producing accident.

Description

Welding auxiliary jig for mold temperature controller

Technical Field

The utility model belongs to the technical field of the supplementary tool of welding technique and specifically relates to a mould temperature machine welding assists tool is related to.

Background

In the use of the mold temperature controller, the mold temperature controller needs to be customized because many production environments are inconsistent and products are different. In the process of customizing the mold temperature controller, generally all need weld the inside metal pipe fitting of mold temperature controller, especially during the metal pipe fitting welding of some different pipe diameters, need guarantee welding position's accuracy and stability, consequently need carry out bed hedgehopping to the less metal pipe fitting of pipe diameter contrast, then will stabilize metal pipe fitting, welding that just can be better.

The traditional fixing mode is to weld small pieces of metal at a welding site at corresponding positions on a base by using the small pieces of metal, so as to position or fix the welded pipe fitting. Metal sheets can also be used to elevate small diameter metal pipes. All carry out on-the-spot welding position and stabilize according to the metal pipe fitting of producing at that time, although utilized some current metal leftover bits, convenient to use, when producing the metal pipe fitting of different pipe diameters at every turn, all need follow new welding position piece and firm piece, also relatively waste time and energy.

Therefore, an auxiliary jig which is simple to use and convenient to adjust needs to be designed to match with the welding of the metal pipe fitting, so that the time and the energy for positioning and stabilizing during the welding of the metal pipe fittings with different pipe diameters are reduced, and the production efficiency is improved.

In addition, the application utilizes the prior technologies, such as: screw drive, also known as lead screw drive, is a mechanism that converts rotation into linear motion, and is widely used in mechanical devices such as machine tools and jacks. In a screw drive, it is required that the screw cannot be driven by any axial force acting on the nut, no matter how great this force is. The characteristic, called self-locking, can ensure that the screw transmission mechanism can realize positioning and supporting functions depending on the self structure, and the screw rod can not move due to the change of load. When the lead angle is smaller than the equivalent friction angle between the tooth surfaces, the screw transmission has a self-locking characteristic and can only convert rotation into axial movement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

A welding auxiliary jig of a mold temperature controller comprises a base, a main body stabilizing assembly, a welded pipe supporting assembly and a welded pipe stabilizing assembly, wherein the main body stabilizing assembly and the welded pipe supporting assembly are arranged on the base; the main body stabilizing assembly is provided with a main body stabilizing baffle fixedly connected to the base and a main body movable plate movably connected to the base, and the main body movable plate is abutted against the welding main body to stabilize the welding main body between the main body stabilizing baffle and the main body movable plate; the welded pipe stabilizing assembly is provided with a welded pipe stabilizing baffle fixedly connected to the welded pipe supporting assembly and a welded pipe movable plate movably connected to the welded pipe supporting assembly, and the welded pipe movable plate abuts against the to-be-welded pipe to enable the to-be-welded pipe to be stabilized between the welded pipe stabilizing baffle and the welded pipe movable plate.

As a further aspect of the present invention: the main part subassembly that stabilizes is provided with the main part steady seat of fixed connection on the base, the main part bearing of fixed connection on the steady seat of main part, and swing joint main part movable rod on the main part bearing, and the one end fixed connection of main part movable rod is on the main part fly leaf, and the other end of main part movable rod passes the main part bearing and moves in the axial direction of main part bearing.

As a further aspect of the present invention: the main part subassembly that stabilizes is provided with main part screw rod base and the main part adjusting screw of swing joint on the main part screw rod base of fixed connection on the seat is stabilized to the main part, and main part adjusting screw's one end is equipped with main part screw rod tailstock and fixed connection on the main part fly leaf, and main part adjusting screw's the other end is provided with the main part screw rod handle, and the main part screw rod handle drives main part adjusting screw and at main part screw rod base internal screw drive to drive the main part fly leaf and produce the ascending displacement motion of main part adjusting screw axial.

As a further aspect of the present invention: the welded pipe supporting assembly is provided with a supporting column fixedly connected to the base, a supporting bearing movably connected to the supporting column and a supporting platform fixedly connected to the supporting bearing, and the supporting platform moves in the axial direction of the supporting column through the supporting bearing.

As a further aspect of the present invention: the welded pipe supporting assembly is provided with a supporting screw rod base fixedly connected to the supporting platform and a supporting adjusting screw rod movably connected to the supporting screw rod base, one end of the supporting adjusting screw rod is provided with a supporting screw rod tailstock and fixedly connected to the base, the other end of the supporting adjusting screw rod is provided with a supporting screw rod handle, the supporting screw rod handle drives the supporting adjusting screw rod to conduct spiral transmission in the supporting screw rod base, and therefore the supporting platform is driven to generate axial displacement motion of the supporting adjusting screw rod.

As a further aspect of the present invention: the welded pipe stabilizing assembly is provided with a welded pipe stabilizing seat fixedly connected to the supporting platform, a welded pipe bearing fixedly connected to the welded pipe stabilizing seat, and a welded pipe movable rod movably connected to the welded pipe bearing, one end of the welded pipe movable rod is fixedly connected to the welded pipe movable plate, and the other end of the welded pipe movable rod penetrates through the welded pipe bearing and moves in the axial direction of the welded pipe bearing.

As a further aspect of the present invention: the welded pipe stabilizing assembly is provided with a welded pipe screw rod base fixedly connected to the welded pipe stabilizing base and a welded pipe adjusting screw rod movably connected to the welded pipe screw rod base, one end of the welded pipe adjusting screw rod is provided with a welded pipe screw rod tailstock and fixedly connected to the welded pipe movable plate, the other end of the welded pipe adjusting screw rod is provided with a welded pipe screw rod handle, and the welded pipe screw rod handle drives the welded pipe adjusting screw rod to conduct spiral transmission in the welded pipe screw rod base so as to drive the welded pipe movable plate to produce displacement motion in the axial direction of the welded pipe adjusting screw rod.

As a further aspect of the present invention: the base is provided with a butt joint limiting table fixedly connected to the base and a butt joint limiting column fixedly connected to the butt joint limiting table, the butt joint limiting column penetrates through a through hole of the butt joint head, and the butt joint head and the butt joint limiting table are matched with each other to enable the welding main body to be in a preset position.

As a further aspect of the present invention: be provided with a plurality of welded tube supporting component and a plurality of welded tube subassembly that stabilizes on the base, welded tube supporting component and welded tube subassembly that stabilizes mutually support, and it is firm to treat the welded tube spare a plurality of.

Compared with the prior art, the beneficial effects of the utility model are that:

through setting up adjustable subassembly to the realization is fixed a position and is stabilized the metal pipe fitting of different pipe diameters. And the screw rod is used for adjusting, so that the labor is saved, the screw rod is quick and convenient, the spiral transmission screw rod with the self-locking function can stabilize the metal pipe fitting in a required position, the welding is convenient, meanwhile, the metal pipe fitting is prevented from unnecessarily shaking during welding, and accidents are avoided. The jig can reduce the time and the energy for positioning and stabilizing during welding of metal pipe fittings with different pipe diameters, thereby improving the production efficiency.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall exploded structure of the present invention;

FIG. 3 is a schematic structural view of the main body stabilizing assembly of the present invention;

FIG. 4 is a schematic structural view of the welded pipe supporting assembly of the present invention;

fig. 5 is a schematic structural view of the welded pipe fixing assembly of the present invention.

The reference numerals and names in the figures are as follows:

10, a base; 11 welding the main body; 12 a pipe fitting to be welded; 13 butt joint pipe heads; 14, butting a limit table; 15 butting the limiting columns; 20 a body stabilizing assembly; 21 a main body stabilizing baffle; 22 a main body stabilizing base; 23 a main body movable plate; 24 a main body movable bar; 25 a main body bearing; 26 a main body adjusting screw; 27 a body screw base; 28 body screw tail seat; 29 body screw handle; 30 a welded tube support assembly; 31 a support column; 32 support the bearing; 33 supporting the platform; 34 supporting the adjusting screw; 35 supporting the screw base; 36 supporting the screw rod tailstock; 37 supporting the screw handle; 40 welding a pipe stabilizing component; 41 welding pipe stabilizing baffle; 42 welding the tube movable plate; 43 welding tube stabilizing base; 44 welded tube bearings; 45 welding a tube movable rod; 46 welding pipe screw rod base; 47 welding pipe adjusting screw rods; 48 welding pipe screw rod tailstock; 49 welding pipe screw handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, an auxiliary welding jig for a mold temperature controller includes a base 10, a main body stabilizing assembly 20 and a welded tube supporting assembly 30 mounted on the base 10, and a welded tube stabilizing assembly 40 fixedly connected to the welded tube supporting assembly 30, wherein the main body stabilizing assembly 20 is provided with a main body stabilizing baffle 21 fixedly connected to the base 10 and a main body movable plate 23 movably connected to the base 10, and the main body movable plate 23 abuts against a welded main body 11 to stabilize the welded main body 11 between the main body stabilizing baffle 21 and the main body movable plate 23; the tube-fixing assembly 40 is provided with a tube-fixing baffle 41 fixedly connected to the tube-supporting assembly 30 and a tube-moving plate 42 movably connected to the tube-supporting assembly 30, and the tube 12 to be welded is fixed between the tube-fixing baffle 41 and the tube-moving plate 42 after the tube-moving plate 42 abuts against the tube 12 to be welded.

The main body stabilizing component 20 is provided with a main body stabilizing seat 22 fixedly connected to the base 10, a main body bearing 25 and a main body screw rod base 27 fixedly connected to the main body stabilizing seat 22, a main body adjusting screw rod 26 movably connected to the main body screw rod base 27, and a main body movable rod 24 movably connected to the main body bearing 25, one end of the main body movable rod 24 is fixedly connected to the main body movable plate 23, one end of the main body adjusting screw rod 26 is provided with a main body screw rod tail seat 28 and is fixedly connected to the main body movable plate 23, the other end of the main body adjusting screw rod 26 is provided with a main body screw rod handle 29, the main body screw rod handle 29 drives the main body adjusting screw rod 26 to perform screw transmission in the main body screw rod base 27, and therefore the main body movable plate 23 is driven to generate displacement motion of the main body adjusting screw rod 26 in the axial direction.

Specifically, the main body movable rod 24 and the main body bearing 25 are linear transmission systems matched with each other, so that the main body movable plate 23 can move more stably and smoothly, one end of the main body movable rod 24 is fixedly connected to the main body movable plate 23, and the other end of the main body movable rod passes through the main body bearing 25 and can slide in the main body bearing 25, that is, the main body movable rod 24 can be driven by the main body movable plate 23 to move in the main body bearing 25. The main body adjusting screw 26 and the main body screw base 27 are mutually matched screw transmission systems and have a self-locking function, so that the main body movable plate 23 is abutted against the welding main body 11 after the main body adjusting screw 26 rotates for a certain angle, and the main body adjusting screw 26 is locked by utilizing the self-locking function, so that the main body movable plate 23 cannot shake.

The welded tube supporting assembly 30 is provided with a supporting column 31 fixedly connected to the base 10, a supporting bearing 32 movably connected to the supporting column 31, a supporting platform 33 fixedly connected to the supporting bearing 32, a supporting screw base 35 fixedly connected to the supporting platform 33, and a supporting adjusting screw 34 movably connected to the supporting screw base 35, one end of the supporting adjusting screw 34 is provided with a supporting screw tail base 36 and is fixedly connected to the base 10, the other end of the supporting adjusting screw 34 is provided with a supporting screw handle 37, the supporting screw handle 37 drives the supporting adjusting screw 34 to perform screw transmission in the supporting screw base 35, and therefore the supporting platform 33 is driven to generate axial displacement motion of the supporting adjusting screw 34.

Specifically, after the supporting and adjusting screw 34 rotates, the supporting screw base 35 can move up and down, so as to drive the supporting platform 33 fixedly connected to the supporting screw base 35 to move up and down synchronously, thereby adjusting the height of the supporting platform 33. The supporting column 31 and the supporting bearing 32 are linear transmission systems which are matched with each other, so that the up-and-down movement of the supporting platform 33 can be more stable and smooth, one end of the supporting column 31 is fixedly connected to the base 10, and the other end of the supporting column 31 passes through the supporting bearing 32 and can slide in the supporting bearing 32, i.e. the supporting platform 33 can move synchronously in the supporting bearing 32 along with the supporting column 31. The supporting adjusting screw 34 and the supporting screw base 35 are mutually matched screw transmission systems and have a self-locking function, so that the supporting adjusting screw 34 can change the vertical height of the supporting platform 33 after rotating for a certain angle, the height of the supporting platform 33 can be adjusted, the supporting adjusting screw 34 is locked and supported by utilizing the self-locking function, and the supporting platform 33 cannot shake.

The welded pipe stabilizing assembly 40 is provided with a welded pipe stabilizing seat 43 fixedly connected to the supporting platform 33, a welded pipe bearing 44 fixedly connected to the welded pipe stabilizing seat 43, a welded pipe movable rod 45 movably connected to the welded pipe bearing 44, a welded pipe screw rod base 46 fixedly connected to the welded pipe stabilizing seat 43, and a welded pipe adjusting screw rod 47 movably connected to the welded pipe screw rod base 46, wherein one end of the welded pipe movable rod 45 is fixedly connected to the welded pipe movable plate 42; one end of the welding pipe adjusting screw 47 is provided with a welding pipe screw tail seat 48 and is fixedly connected to the welding pipe movable plate 42, the other end of the welding pipe adjusting screw 47 is provided with a welding pipe screw handle 49, and the welding pipe screw handle 49 drives the welding pipe adjusting screw 47 to perform spiral transmission in the welding pipe screw base 46, so that the welding pipe movable plate 42 is driven to perform axial displacement motion of the welding pipe adjusting screw 47.

Specifically, the weld pipe moving rod 45 and the weld pipe bearing 44 are linear transmission systems that are matched with each other, so that the movement of the weld pipe moving plate 42 is more stable and smooth, one end of the weld pipe moving rod 45 is fixedly connected to the weld pipe moving plate 42, and the other end thereof passes through the weld pipe bearing 44 and can slide in the weld pipe bearing 44. The welding tube adjusting screw 47 and the welding tube screw base 46 are mutually matched screw transmission systems and have a self-locking function, so that after the welding tube adjusting screw 47 rotates for a certain angle, the welding tube movable plate 42 is abutted against the pipe fitting 12 to be welded, and the self-locking function is utilized to lock the welding tube adjusting screw 47, so that the welding tube movable plate 42 cannot shake.

The base 10 is provided with a butt joint limit table 14 fixedly connected to the base 10 and a butt joint limit column 15 fixedly connected to the butt joint limit table 14, and the butt joint limit column 15 penetrates through a through hole of the butt joint head 13, so that the butt joint head 13 and the butt joint limit table 14 are located at a preset matching position, and the welding main body 11 is located at a preset position.

Specifically, the arrangement of the butt joint limit table 14 and the butt joint limit column 15 mainly utilizes the butt joint head 13 of the welding main body 11 and the through hole on the butt joint head 13, so that the position of the welding main body 11 can be limited and positioned, and the welding main body 11 can be placed more conveniently and quickly.

The base 10 is provided with a plurality of welded pipe supporting assemblies 30 and a plurality of welded pipe stabilizing assemblies 40, and the welded pipe supporting assemblies 30 and the welded pipe stabilizing assemblies 40 are matched with each other to stabilize a plurality of pipe fittings 12 to be welded. Specifically, can set up a plurality of welded tube supporting component 30 and a plurality of welded tube subassembly 40 that stabilizes according to the needs of production to treat welded pipe fitting 12 to a plurality of needs welded and fix, convenient welding.

When in use, the base 10 is arranged at a proper position of a factory, namely, the welding main body 11 and the pipe fitting 12 to be welded are conveniently placed, and the access and the operation of welding equipment are also convenient. The welding body 11 is first placed on the base 10 and brought close to the body securing stop 21. Then, the butt joint 13 of the welding body 11 is aligned with the butt limit table 14 on the base 10, and the through hole on the butt joint 13 passes through the butt limit column 15 on the butt limit table 14, so as to position and limit the position of the welding body 11. Then, the main body screw handle 29 is shaken to rotate the main body adjusting screw 26, so as to drive the main body movable plate 23 to abut against the welding main body 11, and at this time, a certain rotating force is applied to the main body screw handle 29, so that the main body adjusting screw 26 is locked in the main body screw base 27 through a self-locking effect, so that the main body movable plate 23 abuts against the welding main body 11, and the welding main body 11 is stabilized. Then, the pipe 12 to be welded is fixed in the pipe fixing assembly 40 by the same method, and the adjusting screw 34 is supported in a rotating manner, so that the height of the supporting platform 33 is adjusted, the height of the main shaft of the pipe 12 to be welded placed on the pipe fixing assembly 40 is consistent with the height of the main shaft of the welding main body 11, that is, the positions of the pipe 12 to be welded and the welding main body 11 are in the positions required by production, and the next welding is facilitated.

After all the pipe fittings 12 to be welded are welded, the pipe adjusting screw 47 and the main body adjusting screw 26 are shaken to ensure that the pipe movable plate 42 and the main body movable plate 23 are not abutted to the pipe fittings 12 to be welded and the welding main body 11, so that a finished product after the welding is finished can be taken down, and the position is left for the next placement and welding.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (9)

1. A welding auxiliary jig of a mold temperature controller comprises a base (10), a main body stabilizing component (20) and a welded pipe supporting component (30) which are arranged on the base (10), and a welded pipe stabilizing component (40) which is fixedly connected to the welded pipe supporting component (30); the welding device is characterized in that the main body stabilizing assembly (20) is provided with a main body stabilizing baffle (21) fixedly connected to the base (10) and a main body movable plate (23) movably connected to the base (10), and the main body movable plate (23) is abutted against the welding main body (11) to stabilize the welding main body (11) between the main body stabilizing baffle (21) and the main body movable plate (23); the welded pipe stabilizing assembly (40) is provided with a welded pipe stabilizing baffle (41) fixedly connected to the welded pipe supporting assembly (30) and a welded pipe movable plate (42) movably connected to the welded pipe supporting assembly (30), and the welded pipe movable plate (42) is abutted against the to-be-welded pipe (12) to enable the to-be-welded pipe (12) to be stabilized between the welded pipe stabilizing baffle (41) and the welded pipe movable plate (42).

2. The auxiliary welding jig for the mold temperature controller according to claim 1, wherein the main body stabilizing assembly (20) is provided with a main body stabilizing base (22) fixedly connected to the base (10), a main body bearing (25) fixedly connected to the main body stabilizing base (22), and a main body movable rod (24) movably connected to the main body bearing (25), one end of the main body movable rod (24) is fixedly connected to the main body movable plate (23), and the other end of the main body movable rod (24) passes through the main body bearing (25) and moves in the axial direction of the main body bearing (25).

3. The auxiliary welding jig of the mold temperature controller according to claim 2, wherein the main body stabilizing assembly (20) comprises a main body screw base (27) fixedly connected to the main body stabilizing base (22) and a main body adjusting screw (26) movably connected to the main body screw base (27), one end of the main body adjusting screw (26) comprises a main body screw tail seat (28) and is fixedly connected to the main body movable plate (23), the other end of the main body adjusting screw (26) comprises a main body screw handle (29), and the main body adjusting screw (26) is driven by the main body screw handle (29) to be in screw transmission in the main body screw base (27), so as to drive the main body movable plate (23) to generate the axial displacement motion of the main body adjusting screw (26).

4. The auxiliary welding jig of the mold temperature controller according to claim 1, wherein the welding pipe supporting assembly (30) is provided with a supporting column (31) fixedly connected to the base (10), a supporting bearing (32) movably connected to the supporting column (31), and a supporting platform fixedly connected to the supporting bearing (32), and the supporting platform moves in the axial direction of the supporting column (31) through the supporting bearing (32).

5. The auxiliary welding jig for the mold temperature controllers according to claim 4, wherein the welding tube supporting assembly (30) is provided with a supporting screw base (35) fixedly connected to the supporting platform and a supporting adjusting screw (34) movably connected to the supporting screw base (35), one end of the supporting adjusting screw (34) is provided with a supporting screw tail seat (36) and fixedly connected to the base (10), the other end of the supporting adjusting screw (34) is provided with a supporting screw handle (37), and the supporting screw handle (37) drives the supporting adjusting screw (34) to perform screw transmission on the supporting screw base (35), so as to drive the supporting platform to perform axial displacement motion of the supporting adjusting screw (34).

6. The auxiliary welding jig of the mold temperature controller according to claim 4, wherein the welded tube stabilizing assembly (40) is provided with a welded tube stabilizing base (43) fixedly connected to the supporting platform, a welded tube bearing (44) fixedly connected to the welded tube stabilizing base (43), and a welded tube movable rod (45) movably connected to the welded tube bearing (44), one end of the welded tube movable rod (45) is fixedly connected to the welded tube movable plate (42), and the other end of the welded tube movable rod (45) penetrates through the welded tube bearing (44) and moves in the axial direction of the welded tube bearing (44).

7. The auxiliary welding jig of the mold temperature controller as claimed in claim 6, wherein the weld tube stabilizing assembly (40) is provided with a weld tube screw base (46) fixedly connected to the weld tube stabilizing base (43) and a weld tube adjusting screw (47) movably connected to the weld tube screw base (46), one end of the weld tube adjusting screw (47) is provided with a weld tube screw tail base (48) and fixedly connected to the weld tube movable plate (42), the other end of the weld tube adjusting screw (47) is provided with a weld tube screw handle (49), and the weld tube screw handle (49) drives the weld tube adjusting screw (47) to perform a screw transmission in the weld tube screw base (46), so as to drive the weld tube movable plate (42) to generate a displacement motion of the weld tube adjusting screw (47) in the axial direction.

8. The auxiliary welding jig for the mold temperature controller according to claim 1, wherein the base (10) is provided with a butt joint limiting table (14) fixedly connected to the base (10) and a butt joint limiting column (15) fixedly connected to the butt joint limiting table (14), the butt joint limiting column (15) penetrates through a through hole of the butt joint pipe head (13), and the butt joint pipe head (13) and the butt joint limiting table (14) are matched with each other to enable the welding main body (11) to be in a preset position.

9. The auxiliary welding jig of the mold temperature controller according to claim 1, wherein the base (10) is provided with a plurality of welded pipe supporting assemblies (30) and a plurality of welded pipe stabilizing assemblies (40), and the welded pipe supporting assemblies (30) and the welded pipe stabilizing assemblies (40) are matched with each other to stabilize a plurality of pipes (12) to be welded.

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