CN214719663U - Movable metal round pipe rolling bulging mechanism - Google Patents

Abstract

The utility model discloses a portable metal pipe roll bulging mechanism, it is including bulging module and roll module, and the roll module passes through the connecting axle and installs on the bulging module. After the mechanism is transported to a metal round pipe needing bulging through other devices, the rolling module supports and positions the metal round pipe and drives the bulging module to rotate, and meanwhile, the bulging mechanism in the bulging module slowly stretches out to achieve the purpose of rolling bulging. The device does not receive the influence of ordinary bulging device space restriction, and accessible conveyer sends into the interior than deep position of metal pipe and carries out work, has promoted the convenience of metal pipe bulging, and the wheel that expands simultaneously can optimize the selection according to the bulging ripple shape, has reached different ripple shape requirements.

Description

Movable metal round pipe rolling bulging mechanism

Technical Field

The utility model relates to a pipe fitting roll extrusion bulging mechanism, concretely relates to portable metal pipe roll bulging mechanism.

Background

The metal corrugated pipe is used as an elastic element, is mainly used for manufacturing compensators, flexible connecting pieces, heat exchangers and the like, and is widely applied to the industries of aerospace, electric instruments, petrochemical industry, automobiles, ships and the like. At present, the bulging of the thin-walled tube is mainly performed by hydraulic bulging, but the corrugated shape of the hydraulic forming is limited to a certain extent, the shape with higher height is difficult to form, the hydraulic bulging process is complex, a plurality of factors influencing the hydraulic bulging quality of the corrugated tube are provided, if the condition is unreasonable controlled, the forming quality of the corrugated tube is seriously influenced, and the failure of the corrugated tube, such as the defects of cracking, buckling, wrinkling and the like, can be possibly caused. The mechanical bulging method can improve the problems to a certain extent, but part of the existing mechanical bulging structures are complex and low in efficiency, and are limited by the processing space of the device.

SUMMERY OF THE UTILITY MODEL

To the problem that metal pipe hydraulic bulging exists, the utility model provides a portable metal pipe roll bulging mechanism, concrete technical scheme is as follows:

a movable metal round pipe rolling bulging mechanism comprises a bulging module and a rolling module which are coaxially connected;

the bulging module comprises an accommodating and supporting shell, a bulging wheel mechanism and a bulging wheel driving mechanism; the bulging wheel driving mechanism is arranged in the accommodating support shell, and a plurality of bulging wheel mechanisms extend out of the accommodating support shell, are connected with the bulging wheel driving mechanism and are driven by the bulging wheel driving mechanism to move along the radial direction;

the rolling module comprises a rolling module box body, a rolling support mechanism, a rolling module motor, a second coupler, a rolling connecting shaft and a plurality of wheel leg mechanisms, wherein the wheel leg mechanisms are uniformly arranged on the outer side of the rolling module box body; the other end of the rolling connecting shaft is connected with the accommodating and supporting shell of the bulging module;

the rolling support mechanism and the wheel leg mechanisms are used for supporting the whole rolling bulging mechanism in a metal round pipe, the rolling module motor drives the second coupler to rotate so as to drive the rolling connecting shaft and the bulging module to rotate, and then the bulging wheel mechanisms rotate and are driven to move along the radial direction by the bulging wheel drive mechanism, so that the metal round pipe is bulged.

Furthermore, the accommodating and supporting shell of the bulging module comprises a bottom cover, a box body, a bearing cover, a bearing, an end cover and a motor support, the bulging wheel driving mechanism comprises a motor and a lead screw nut mechanism, a plurality of bulging wheel mechanisms are uniformly arranged on the bottom cover, the lead screw nut mechanism is also arranged on the bottom cover, meanwhile, the lead screw nut mechanism is also connected with the plurality of bulging wheel mechanisms, one end of the box body is arranged on the bottom cover, the motor support is arranged on the other end of the box body, and the motor is arranged on the motor support and is connected with the lead screw nut mechanism; one side of the end cover is also fixed on the other end of the box body and is used for accommodating the motor; the bearing cover fixes the bearing on the end cover; the motor, the lead screw nut mechanism and the bottom cover are coaxial in axis.

Furthermore, the screw nut mechanism comprises a first coupler, a screw nut, a screw and a plurality of connecting rods, one end of the first coupler is connected with one end of the screw, the other end of the first coupler is connected with the motor, and the other end of the screw is arranged on the bottom cover; the screw nut is arranged on the screw, and the connecting rods are uniformly arranged around the screw nut.

Furthermore, one end face of the bottom cover is provided with a screw hole, a fixing hole of the box body and a plurality of T-shaped guide rails which are uniformly distributed along the radial direction, and the other end face of the bottom cover is provided with a bottom cover connecting hole for connecting the rolling connecting shaft and a fastening hole for fixing the rolling connecting shaft; the bulging wheel mechanism comprises a bulging wheel and a sliding rod, wherein a T-shaped groove is formed in the sliding rod and used for being matched with the T-shaped guide rail on the bottom cover, and therefore the bulging wheel mechanism can move along the T-shaped guide rail in the radial direction.

Furthermore, the rolling support mechanism comprises a support motor, a support tray frame, two support racks, a shell and a gear, wherein the support motor is installed on the support tray frame, the gear is installed on the support motor, the shell is installed on the other side of the support tray frame, the two support racks are installed on the shell and are respectively meshed with the gear, and the two support racks can move in opposite directions along the radial direction under the drive of the support motor, so that the metal round pipe is supported.

Further, the bulging wheel mechanism comprises a screw, a first bulging wheel, a deep groove ball bearing, a sliding rod, a second bulging wheel and a nut, the deep groove ball bearing is installed in a bearing hole of the sliding rod, the first bulging wheel is installed on the deep groove ball bearing and located on one side of the sliding rod, the second bulging wheel is installed on the other side of the sliding rod, and the screw and the nut fix the first bulging wheel and the second bulging wheel together.

The utility model has the advantages as follows:

(1) in the movable metal round pipe rolling bulging mechanism, the driving module and the rolling module are coaxial, the rolling module and the bulging module can be placed at the position needing bulging in the metal round pipe, the movable metal round pipe rolling bulging mechanism is not limited by the length of the metal round pipe, and the movable metal round pipe rolling bulging mechanism can meet the bulging requirement of a longer metal pipe;

(2) in the movable metal round tube rolling bulging mechanism, a rolling module motor drives a bulging module to rotate, and meanwhile, a bulging wheel mechanism of the bulging module is slowly pushed out through a lead screw nut mechanism, so that the tube wall is rolled and bulged, the metal round tube is continuously subjected to plastic deformation, and the bulging requirement is finally met;

(3) in this portable metal pipe roll bulging mechanism, first bulging wheel and second bulging wheel in its bulging module can be changed according to actual bulging outward appearance requirement, can realize different bulging requirements.

(4) In the movable metal round pipe rolling bulging mechanism, the wheel leg mechanism on the rolling module and the driving wheel leg structure on the driving module can be adjusted according to the inner diameter of the metal round pipe, and rolling bulging work can be performed in the metal round pipes with different diameters.

(5) In the movable metal round pipe rolling bulging mechanism, the supporting mechanism of the rolling module plays a role in supporting and positioning, and the power transmission of the rolling module becomes more stable.

Drawings

Fig. 1 is a schematic view of the overall structure of the movable metal round pipe rolling bulging mechanism of the present invention;

FIG. 2 is a schematic diagram of the expansion module of FIG. 1;

FIG. 3 is a schematic diagram of the internal structure of the expansion module of FIG. 2;

FIG. 4 is an exploded view of the expander mechanism of FIG. 2;

FIG. 5 is a schematic cross-sectional view of particular components of the first expander wheel of FIG. 4;

FIG. 6 is a schematic view of the slide bar of FIG. 4 with details;

FIG. 7 is a schematic cross-sectional view of particular components of the second expander wheel of FIG. 4;

FIG. 8 is a schematic view of the detailed parts of the motor mount of FIG. 2;

FIG. 9 is a schematic detail view of the end cap of FIG. 2;

FIG. 10 is a schematic view of the detailed parts of the bottom cover of FIG. 2;

FIG. 11 is a schematic structural view of the screw-nut mechanism of FIG. 2;

FIG. 12 is a schematic view of the detail of the screw nut of FIG. 11

FIG. 13 is a schematic detail view of the lead screw of FIG. 11;

FIG. 14 is a schematic detail view of the connecting rod of FIG. 11;

FIG. 15 is a schematic diagram of the structure of the scrolling module of FIG. 1;

FIG. 16 is a schematic structural view of the wheel leg mechanism of FIG. 15;

FIG. 17 is a schematic view showing the structure of the rolling support mechanism of FIG. 15;

FIG. 18 is a schematic detail view of the support rack of FIG. 17;

FIG. 19 is a schematic detail view of the housing of FIG. 17;

in fig. 1 to 19, the bulging module 1, the rolling module 2, the bulging wheel mechanism 11, the screw 111, the first bulging wheel 112, the shaft surface 1121, the shaft shoulder 1122, the first ring groove 1123, the first concave platform 1124, the first bulging curved surface 1125, the deep groove ball bearing 113, the sliding rod 114, the bearing hole 1141, the T-shaped groove 1142, the limiting surface 1143, the adaptor shaft hole 1144, the second bulging wheel 115, the second bulging curved surface 1151, the second concave platform 1152, the second ring groove 1153, the nut 116, the bottom cover 12, the threaded rod hole 121, the T-shaped guide rail 122, the bottom cover fixing hole 123, the fastening hole 124, the bottom cover connecting hole 125, the box body 13, the bearing cover 14, the bearing 15, the end cover 16, the end cover bearing hole 161, the end cover 192162, the motor bracket 17, the first abdicating groove 171, the fixing hole 172, the motor 18, the screw nut mechanism 19, the first fixing end 191, the screw nut 192, the first thread 1921, the second thread connecting hole 1922, the screw nut mechanism 19, the first coupling, The lead screw 193, the connecting rod 194, the first connecting hole 1941, the first shaft segment 1931, the second thread 1932, the second shaft segment 1933, the wheel-leg mechanism 21, the transverse fixing block 211, the vertical fixing block 212, the wheel-leg rod 213, the set screw 214, the wheel-leg slider 215, the slider supporting rod 216, the rolling wheel shaft 217, the rolling wheel 218, the rolling module box 22, the rolling supporting mechanism 23, the supporting motor 231, the supporting disk frame 232, the supporting rack 233, the housing 234, the gear 235, the rack 2331, the L-shaped slider 2332, the limiting block 2333, the supporting block 2334, the rubber point 2335, the L-shaped sliding rail 2341, the second avoiding groove 2342, the rolling module motor 24, the second coupling 25 and the rolling connecting shaft 26.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and preferred embodiments, and the objects and effects of the present invention will become more apparent, and it should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.

As shown in figure 1, the utility model discloses a portable metal pipe roll bulging mechanism, including bulging module 1 and roll module 2, roll module 2 and install the one side at bulging module 1.

As shown in FIGS. 2 and 3, the bulging module 1 comprises a plurality of bulging wheel mechanisms 11, a bottom cover 12, a box body 13, a bearing cover 14, a bearing 15, an end cover 16, a motor bracket 17, a motor 18 and a lead screw nut mechanism 19, wherein the plurality of bulging wheel mechanisms 11 are uniformly arranged on the bottom cover 12. as shown in FIG. 4, the bulging wheel mechanisms 11 comprise screws 111, first bulging wheels 112, deep groove ball bearings 113, sliding rods 114, second bulging wheels 115 and nuts 116. As shown in fig. 6, the sliding rod 114 is provided with a bearing hole 1141, a T-shaped groove 1142, a limiting surface 1143 and an adapter shaft hole 1144. The deep groove ball bearing 113 is arranged in the bearing hole 1141, the T-shaped groove 1142 is connected with the T-shaped guide rail 122 of the bottom cover 12, the limiting surface 1143 prevents the first bulging wheel 112 and the second bulging wheel 115 from contacting the box body 13, and the adapting shaft hole 1144 is connected with the first connecting hole 1941 (shown in fig. 14) of the connecting rod 194. As shown in fig. 5, the first bulging wheel 112 is provided with a shaft surface 1121, a shaft shoulder 1122, a first ring groove 1123, a first concave base 1124 and a first bulging curved surface 1125, the shaft surface 1121 is installed in an inner hole of the deep groove ball bearing 113, the shaft shoulder 1122 is used for axial positioning, the first ring groove 1123 is arranged at the connecting rod 114 in a yielding manner, the first concave base 1124 is used for installing the screw 111 to prevent the screw 111 from exceeding the first bulging curved surface 1125 to influence bulging quality, and the first bulging curved surface 1125 can be adjusted according to a required bulging shape. As shown in fig. 10, the bottom cover 12 is provided with a screw hole 121, a T-shaped rail 122, a bottom cover fixing hole 123, a fastening hole 124, and a bottom cover coupling hole 125. As shown in fig. 7, the second expanding wheel 115 is mounted on the lower side of the sliding rod 114 and is mounted together with the first expanding wheel 112 through a screw 111 and a nut 116, and is provided with a second expanding curved surface 1151, a second concave platform 1152 and a second annular groove 1153, the second expanding curved surface 1151 can also be adjusted according to the required expanding shape, the second concave platform 1152 is used for mounting the nut 116 to prevent the nut 116 from exceeding the second expanding curved surface 1151 and affecting the expanding quality, and the second annular groove 1153 is arranged in the connecting rod 114 to prevent the nut 116 from touching the second expanding curved surface and the second expanding curved surface. As shown in fig. 9, the end cap 16 has an end cap bearing hole 161, and an end cap fixing end 162, wherein the end cap bearing hole 161 is used for mounting the bearing 15, and the end cap fixing end 162 is used for connecting with the box 13. As shown in fig. 8, the motor bracket 17 is provided with a first yielding groove 171 and a fixing hole 172, the first yielding groove 171 is used for yielding the end cover fixing end 162, and the fixing hole 172 is used for connecting with the box body 13. The motor 18 is mounted on the motor bracket 17 and is connected to the lead screw nut mechanism 19. As shown in fig. 11, the screw nut mechanism 19 includes a first coupling 191, a screw nut 192, a screw 193, and a plurality of links 194, wherein one end of the first coupling 191 is connected to the motor 18. As shown in fig. 13, the lead screw 193 is provided with a first shaft section 1931, a second thread 1932, and a second shaft section 1933, wherein the first shaft section 1931 is installed in the screw hole 121 of the bottom cover 12, and the second shaft section 1933 is installed in the first coupling 191. As shown in fig. 12, the lead screw nut 192 has a first thread 1921 and a plurality of second connection holes 1922, the first thread 1921 and the second thread 1932 are matched to allow the lead screw nut 192 to slide on the lead screw 193, and the second connection holes 1922 are connected to the plurality of connection rods 194.

As shown in fig. 15, the rolling module 2 includes a plurality of wheel leg mechanisms 21, a rolling module box 22, a rolling support mechanism 23, a rolling module motor 24, a second coupling 25, and a rolling connection shaft 26. As shown in fig. 16, the wheel leg mechanism 21 includes a horizontal fixing block 211, a vertical fixing block 212, a wheel leg rod 213, a set screw 214, a wheel leg slider 215, a slider support rod 216, a rolling wheel shaft 217, and two rolling wheels 218, wherein the horizontal fixing block 211 and the vertical fixing block 212 are installed outside the rolling module box 22, one end of the wheel leg rod 213 is installed on the vertical fixing block 212, the two rolling wheels 218 are installed at the other end of the wheel leg rod 213 through the rolling wheel shaft 217, one end of the slider support rod 216 is installed on the horizontal fixing block 211, the other end is connected with the wheel leg slider 215, and the wheel leg slider 215 slides on the wheel leg rod 213 and is fixed at a desired position through the set screw 214. As shown in fig. 17, the rolling support mechanism 23 includes a support motor 231, a support frame 232, two support racks 233, a housing 234, and a gear 235, wherein the support motor 231 is mounted on the support frame 232, and the gear 235 is mounted on the support motor 231. As shown in fig. 18, the supporting rack 233 is provided with a rack 2331, an L-shaped slider 2332, a stopper 2333, a supporting block 2334 and a rubber point 2335, the L-shaped slider 2332 slides on an L-shaped sliding rail 2341 of the housing 234, the rack 2331 is engaged with the gear 235, the stopper 2333 is contacted with the outer side of the housing 234 to limit the movable position of the supporting rack 233, the rubber point 2335 on the supporting block 2334 is contacted with a metal pipe to increase friction to play a role in supporting and positioning, the housing 234 is mounted at the other side of the supporting tray 232, as shown in fig. 19, the L-shaped sliding rail 2341 and a second avoiding groove 2342 are provided, and the second avoiding groove 2342 is used for supporting the movement of the rack 233. The rolling module motor 24 is arranged at the top end inside the rolling module box body 22, the rolling support mechanism 23 is arranged at the tail part of the rolling module box body 22, the second coupler 25 is arranged on the rolling module motor 24, the rolling connecting shaft 26 is arranged at the other end of the second coupler 25, and the axes of the rolling module motor 24, the second coupler 25 and the rolling connecting shaft 26 are collinear.

The following is the installation process of the device of the present invention.

When the mounting is performed, the expanding wheel mechanism 11 of the expanding module 1 is firstly mounted, the bearing 113 is mounted on the sliding rod 114, and then the first expanding wheel 112 and the second expanding wheel 115 are mounted on both sides of the sliding rod 114 through the screw 111 and the nut 116. Several expanding wheel mechanisms 11 are then mounted on the bottom cover 12. Next, the screw nut mechanism 19 is assembled by first attaching the first coupling 191 to one end of the screw 193, then attaching the screw nut 192 to the screw 193, then connecting one ends of the plurality of connecting rods 194 to the outside of the screw nut 192, then attaching the other end of the screw 193 to the screw hole 121 of the bottom cover 12, and connecting the other ends of the plurality of connecting rods 194 to the plurality of through-hole holes 1144 of the slide rods 114. One end of the case 13 is then attached to the bottom cover 12, the motor bracket 17 is then attached to the other end of the case 13, the motor 18 is then attached to the motor bracket 17, and the end cover 16 is also attached to the case 13. The bearing 15 is then mounted in the end cap bearing hole 161 of the end cap 16 through the bearing cap 14.

Next, the rolling module 2 is mounted, the rolling module motor 24 is first mounted inside the rolling module case 22, and then the rolling support mechanism 23 is mounted. The support motor 231 is first mounted on the support tray 232, the gear 235 is then mounted on the support motor 231, then the two support racks 233 are mounted on the housing 234, and then the housing 234 is mounted on the other side of the support tray 232 and the two support racks 233 are engaged with the gear 235. The rolling support module 23 is then mounted to the bottom end of the rolling module case 22, the second coupling 25 is then mounted to the rolling module motor 24, and the rolling connection shaft 26 is then also mounted to the other end of the second coupling 25. Next, the leg mechanism 21 is assembled by first attaching one end of the leg rod 213 to the vertical fixing block 212, sliding the leg slider 215 onto the leg rod 213, attaching the set screw 214 to the leg slider 215, and attaching the two rolling wheels 218 to the other end of the leg rod 213 via the rolling wheel shaft 217. The slide support rod 216 is then attached at one end to the wheel leg slider 211 and at the other end to the wheel leg slider 215. And then a plurality of assembled wheel leg mechanisms 21 are respectively fixed on the outer side of the rolling module box body 22 through a vertical fixing block 212 and a transverse fixing block 211. And then the rolling module 2 is coupled to the bottom cover 12 of the expansion module 1 by the rolling coupling shaft 26, thereby completing the installation.

The working process of the device of the present invention is described below.

When the device is used, the wheel leg mechanism 21 of the rolling module 2 is firstly adjusted to the size which is consistent with the inner diameter of the metal round pipe, so that the whole device is conveniently placed into the metal round pipe. Then the mechanism is put into a metal round pipe which needs to be rolled and expanded, then the supporting motor 231 of the rolling module 2 is started, the two supporting racks 233 extend out to be contacted with the metal round pipe to play a supporting role, then the rolling module motor 24 is started to drive the expanding module 1 to rotate, then the motor 18 of the expanding module 1 is started to drive the lead screw 193 to rotate, so that the lead screw nut mechanism 192 slides towards the bottom end, a plurality of expanding wheel mechanisms 11 are slowly pushed out through the connecting rod 194, and the rolling and expanding are carried out on the pipe wall of the metal round pipe until the pipe wall is in the needed shape. And then the motor 18 rotates reversely to make the expanding wheel mechanism 11 withdraw, then the rotation of the rolling module motor 24 is stopped, after the expanding wheel mechanism 11 completely withdraws, the supporting motor 231 is started to withdraw the supporting rack 233 to complete the rolling expanding, and finally the mechanism is taken out.

It will be understood by those skilled in the art that the foregoing is only a preferred embodiment of the present invention and is not intended to limit the invention, and although the present invention has been described in detail with reference to the foregoing examples, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof. All modifications and equivalents made within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (6)

1. A movable metal round pipe rolling bulging mechanism is characterized by comprising a bulging module (1) and a rolling module (2) which are coaxially connected;

the bulging module (1) comprises an accommodating and supporting shell, a bulging wheel mechanism (11) and a bulging wheel driving mechanism; the bulging wheel driving mechanism is arranged in the accommodating support shell, and a plurality of bulging wheel mechanisms (11) extend out of the accommodating support shell, are connected with the bulging wheel driving mechanism and are driven by the bulging wheel driving mechanism to move along the radial direction;

the rolling module (2) comprises a rolling module box body (22), a rolling support mechanism (23), a rolling module motor (24), a second coupler (25), a rolling connecting shaft (26) and a plurality of wheel leg mechanisms (21), wherein the wheel leg mechanisms (21) are uniformly arranged on the outer side of the rolling module box body (22), the rolling module motor (24) is arranged at the top end inside the rolling module box body (22), the rolling support mechanism (23) is arranged at the tail part of the rolling module box body (22), two ends of the second coupler (25) are respectively connected with the rolling module motor (24) and the rolling connecting shaft (26), and the rolling module motor, the rolling support mechanism, the rolling module motor and the rolling connecting shaft are coaxial; the other end of the rolling connecting shaft (26) is connected with the accommodating and supporting shell of the bulging module (1);

the rolling support mechanism (23) and the wheel leg mechanisms (21) are used for supporting the whole rolling bulging mechanism in a metal round pipe, the rolling module motor (24) drives the second coupler (25) to rotate, so that the rolling connecting shaft (26) and the bulging module (1) are driven to rotate, the bulging wheel mechanisms (11) rotate at one side, and the bulging wheel mechanisms drive the bulging wheel mechanisms to move along the radial direction at the other side, and therefore bulging of the metal round pipe is achieved.

2. The movable metal round tube rolling expansion mechanism of claim 1, the accommodating and supporting shell of the bulging module (1) comprises a bottom cover (12), a box body (13), a bearing cover (14), a bearing (15), an end cover (16) and a motor bracket (17), the bulging wheel driving mechanism comprises a motor (18) and a lead screw nut mechanism (19), a plurality of bulging wheel mechanisms (11) are uniformly arranged on the bottom cover (12), the lead screw nut mechanism (19) is also arranged on the bottom cover (12), meanwhile, the lead screw nut mechanism (19) is also connected with a plurality of bulging wheel mechanisms (11), one end of the box body (13) is arranged on the bottom cover (12), the motor bracket (17) is arranged on the other end of the box body (13), the motor (18) is arranged on the motor bracket (17) and is connected with the screw-nut mechanism (19); one side of the end cover (16) is also fixed on the other end of the box body (13) and is used for accommodating the motor (18); the bearing cover (14) fixes the bearing (15) on the end cover (16); the motor (18), the lead screw nut mechanism (19) and the bottom cover (12) are coaxial in axis.

3. The movable metal round tube rolling bulging mechanism according to claim 2, characterized in that the lead screw nut mechanism (19) comprises a first coupling (191), a lead screw nut (192), a lead screw (193) and a plurality of connecting rods (194), one end of the first coupling (191) is connected with one end of the lead screw (193), the other end of the first coupling is connected with the motor (18), and the other end of the lead screw (193) is mounted on the bottom cover (12); the lead screw nut (192) is installed on the lead screw (193), and the connecting rods (194) are evenly installed around the lead screw nut (192).

4. The movable metal round tube rolling and expanding mechanism as claimed in claim 3, wherein one end face of the bottom cover (12) is provided with a screw hole (121), a fixing hole (123) of the box body (13) and a plurality of T-shaped guide rails (122) which are uniformly distributed and along the radial direction, and the other end face of the bottom cover (12) is provided with a bottom cover connecting hole (125) for connecting the rolling connecting shaft (26) and a fastening hole (124) for fixing the rolling connecting shaft (26); the bulging wheel mechanism (11) comprises a bulging wheel and a sliding rod (114), wherein a T-shaped groove (1142) is formed in the sliding rod (114) and used for being matched with a T-shaped guide rail (122) on the bottom cover (12), so that the bulging wheel mechanism (11) can move along the radial direction of the T-shaped guide rail (122).

5. The movable metal round pipe rolling and bulging mechanism according to claim 1, wherein the rolling support mechanism (23) comprises a support motor (231), a support tray frame (232), two support racks (233), a housing (234) and a gear (235), the support motor (231) is mounted on the support tray frame (232), the gear (235) is mounted on the support motor (231), the housing (234) is mounted on the other side of the support tray frame (232), and the two support racks (233) are mounted on the housing (234) and respectively engaged with the gear (235) and can be driven by the support motor (231) to move radially towards each other so as to support the metal round pipe.

6. The movable metal round pipe rolling and expanding mechanism as claimed in claim 1, wherein the expanding wheel mechanism (11) comprises a screw (111), a first expanding wheel (112), a deep groove ball bearing (113), a sliding rod (114), a second expanding wheel (115) and a nut (116), the deep groove ball bearing (113) is installed in a bearing hole (1141) of the sliding rod (114), the first expanding wheel (112) is installed on the deep groove ball bearing (113) and located on one side of the sliding rod (114), the second expanding wheel (115) is installed on the other side of the sliding rod (114), and the screw (111) and the nut (116) fix the first expanding wheel (112) and the second expanding wheel (115) together.

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