CN214639101U - Stand forming structure of stainless steel pipe machine - Google Patents

Abstract

The utility model discloses a grudging post shaping structure of nonrust steel pipe machine, it includes: the horizontal roller assembly comprises a lifting adjusting driving mechanism, an upper horizontal roller piece and a lower horizontal roller piece, and the lifting adjusting driving mechanism is used for driving the upper horizontal roller piece to move in the up-down direction; the two side roller assemblies are arranged between the upper horizontal roller member and the lower horizontal roller member in a bilateral symmetry mode, each side roller assembly comprises a vertical mold roller, a mounting seat, a translation adjusting and driving mechanism and a locking mechanism, and the translation adjusting and driving mechanisms are used for enabling the vertical mold rollers to translate in the left and right directions. The technology can extrude the tube blank in four directions simultaneously, so that the forming force vertically acts on the tube blank, and the strain and friction of the steel belt to the tube are reduced; the relative distance between the upper horizontal roller and the lower horizontal roller, the relative position between the two vertical die rollers and the lower horizontal roller and the relative distance between the two vertical die rollers can be adjusted according to the forming of pipes with different outer diameters.

Description

Stand forming structure of stainless steel pipe machine

Technical Field

The utility model relates to a nonrust steel pipe production facility technical field, in particular to grudging post shaping structure of nonrust steel pipe machine.

Background

Stainless steel tubular product is because light in weight, firm atress performance of structure are good, is used in numerous fields such as electric power, machinery, building, home decoration widely, because different application occasions require different to the use size, the wall thickness of stainless steel tubular product, so also more and more require on the specification, size, structure of stainless steel tubular product, mould roller specification in stainless steel tubular product production process. The prior stainless steel pipe machine has the following defects and shortcomings in the production process: the forming structure in the existing stainless steel pipe machine can not be universal when forming pipes with different specifications, the specification of the forming structure needs to be frequently replaced, the labor cost is high, the productivity is low, the rejection rate is high, the forming force direction, the sizing pressure forming direction and the die roller stress are unreasonable, the forming resistance is large, the die roller is seriously pulled and abraded, the deformation of parts is large, the damage is fast, the service life is short, the maintenance cost is high, and the automatic production is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a grudging post shaping structure of stainless steel pipe machine to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The technical scheme adopted for solving the technical problems is as follows:

a grudging post shaping structure of stainless steel tubular machine, it includes: the horizontal roller assembly comprises a lifting adjusting driving mechanism, an upper horizontal roller piece and a lower horizontal roller piece, wherein the upper horizontal roller piece and the lower horizontal roller piece are arranged on the frame in an up-down mode, the lower horizontal roller piece is relatively fixedly arranged with the frame, and the lifting adjusting driving mechanism is provided with a lifting driving end which is in transmission connection with the upper horizontal roller piece and enables the upper horizontal roller piece to move in the up-down direction relative to the frame; two the side roller subassembly is bilateral symmetry and sets up between last horizontal roller spare and lower horizontal roller spare, the side roller subassembly includes founding mould roller, mount pad, translation adjustment actuating mechanism, locking mechanism, two relative setting about founding the mould roller is, the mount pad sets up in the frame, the mount pad can for the frame slides in the up-and-down direction, locking mechanism is used for locking fixedly the mount pad with the relative position of frame, translation adjustment actuating mechanism sets up on the mount pad, translation adjustment actuating mechanism be provided with found the mould roller transmission and connect and make found the mould roller for the mount pad is at the translation drive end of left right direction translation.

The utility model has the advantages that: when the pipe blank forming machine is used, the pipe blank is conveyed in the front-back direction and conveyed to positions between the upper horizontal roller part, the lower horizontal roller part and the two vertical die rollers, and the pipe blank is extruded in four directions through the upper horizontal roller part, the lower horizontal roller part and the two vertical die rollers simultaneously, so that the forming processing of the pipe blank is realized, the forming force vertically acts on the pipe blank, the pulling damage and the friction of a steel belt to the pipe blank are reduced, and the maintenance cost is reduced; when pipes with different outer diameters need to be formed, the lifting adjusting driving mechanism drives the upper horizontal roller piece to move in the vertical direction relative to the rack, and the relative distance between the upper horizontal roller piece and the lower horizontal roller piece is adjusted; the relative position between the mounting seat and the rack in the vertical direction is adjusted through locking and unlocking the locking mechanism, the relative position between the two vertical mold rollers and the lower horizontal roller piece is adjusted, the mounting seat is locked through the locking mechanism after the adjustment is finished, and the corresponding vertical mold rollers can be driven by each translation adjusting driving mechanism to translate in the left and right directions relative to the mounting seat so as to adjust the relative distance between the two vertical mold rollers, meet the molding processing of pipes with different specifications, improve the universality of a vertical frame molding structure, reduce the workload of manual debugging, reduce the debugging time of workers and further improve the production efficiency.

Meanwhile, when the pipe is molded, the lower horizontal roller always supports the pipe, so that the pipe is prevented from inclining in the horizontal direction in the molding process, the pipe can be conveyed on a set horizontal plane, and the molding resistance is reduced.

As a further improvement of the technical scheme, the upper horizontal roller part comprises an upper horizontal roller shaft extending left and right, an upper horizontal die roller sleeved on the upper horizontal roller shaft, and two sliding seats respectively arranged at two ends of the upper horizontal roller shaft, the two sliding seats are slidably arranged on the frame up and down, the left end and the right end of the upper horizontal roller shaft are rotatably connected with the two sliding seats respectively, the lifting driving end is in transmission connection with the two sliding seats, at the moment, the lifting adjusting driving mechanism can only drive the two sliding seats to synchronously move up and down so as to drive the upper horizontal die roller to move up and down, the upper horizontal roller shaft is applied with force through the two sliding seats, and the acting force of the upper horizontal die roller on the pipe is ensured to be vertical.

Lower horizontal roll spare is including being about extending the lower horizontal roll axle that sets up, the lower horizontal mould roller of lower horizontal roll epaxial is located to the cover, both ends are rotationally connected with the frame respectively about lower horizontal roll axle. The lower horizontal die roller is rotatably connected with the rack through a lower horizontal roller shaft, so that the bearing capacity of the lower horizontal die roller is improved, and the lower horizontal die roller mainly plays a role in bearing.

This scheme is through last horizontal die roller and lower horizontal die roller carry out extrusion to tubular product from top to bottom side.

As a further improvement of the technical scheme, an upper rotating bearing is arranged between the end part of the upper horizontal roll shaft and the sliding seat, and a lower rotating bearing is also arranged between the end part of the lower horizontal roll shaft and the rack.

The upper rotating bearing and the lower rotating bearing can improve the rotating fluency and the bearing capacity of the upper horizontal roller shaft and the lower horizontal roller shaft.

As a further improvement of the above technical solution, the lifting adjustment driving mechanism includes two lifting screws, a lifting transmission member, and a lifting driving unit, the lifting screws extend up and down, the sliding seat is provided with a lifting threaded hole in threaded transmission connection with the lifting screws, the two lifting screws are in one-to-one threaded transmission connection with the two sliding seats, and the lifting driving unit is in transmission connection with the two lifting screws through the lifting transmission member.

When the upper and lower height of the upper horizontal die roller needs to be adjusted, the two lifting screw rods are synchronously driven to rotate through the lifting driving unit, the two lifting screw rods respectively drive the sliding seat to move up and down relative to the rack, and the lifting threaded holes and the lifting screw rods are in threaded transmission, so that the adjusting precision can be improved, and the acting force on pipe forming is improved.

As a further improvement of the above technical solution, the lifting transmission member includes a transmission shaft and two lifters installed on the frame, the lifter has a transmission end, an output end and an input end, the output end is in one-to-one transmission connection with the lifting screw rods, the transmission ends are connected with each other through the transmission shaft, and the lifting driving unit is connected with one of the input ends of the lifter.

Therefore, one lifting driving unit can drive the two lifting screw rods to synchronously rotate, and the manufacturing cost is reduced.

As a further improvement of the above technical solution, the translation adjustment driving mechanism includes a translation slider and a translation lead screw, the translation slider can slide on the left and right direction relative to the mounting seat, the vertical mold roller is rotatably mounted on the translation slider, the translation lead screw extends left and right, the translation lead screw is rotatably fixed on the mounting seat, and the translation slider is provided with a translation screw hole in threaded transmission connection with the translation lead screw.

When the relative distance of the two vertical die rollers in the left-right direction needs to be adjusted, the two translation screw rods are rotated, and the translation screw rods are in threaded fit with the translation screw holes in the translation slide blocks, so that the translation slide blocks slide in the left-right direction relative to the mounting base, the relative position between the two vertical die rollers can be adjusted, and the upper horizontal roller piece and the lower horizontal roller piece are kept in the middle of the two vertical die rollers together.

As a further improvement of the above technical scheme, the side roller assembly further comprises a height adjusting mechanism, the height adjusting mechanism comprises an adjusting screw rod which is vertically arranged, a fixed block which is fixed on the frame, and a height adjusting block which is fixed on the mounting seat, the adjusting screw rod is in threaded connection with the fixed block, and the upper end of the adjusting screw rod is abutted against the height adjusting block.

When the height of the two vertical die rollers in the vertical direction needs to be adjusted, the locking mechanism is loosened, the adjusting screw rod is rotated to move up and down, the upper end of the adjusting screw rod can push the mounting seat to move up through the height adjusting block, or move down under the action of gravity of the mounting seat, and then the position of the mounting seat is locked and fixed through the locking mechanism.

As a further improvement of the technical scheme, the locking mechanism comprises a locking screw, the locking screw is in threaded connection with the mounting seat, and the inner end of the locking screw is abutted against the side wall of the rack.

This scheme is contradicted through the lateral wall of locking screw and frame and is realized fixing the locking of mount pad, and the inner accessible elasticity piece of locking screw still improves frictional force with the lateral wall butt of frame simultaneously.

As the further improvement of the technical scheme, the frame is including being relative left support body and the right support body that sets up about, connecting the connecting rod between left support body and right support body, two the side roller subassembly sets up respectively on left support body and right support body, it sets up between left support body and right support body to go up horizontal roller spare and lower horizontal roller spare.

The space and the material cost of the left support body and the right support body which are arranged on the left and right sides can be reduced, the assembly is convenient, and the connecting rod can offset the reaction force of the vertical die roller on the pipe forming.

As a further improvement of the technical scheme, sliding grooves are formed in the left support body and the right support body, the mounting seats are connected with the two sliding grooves in a sliding mode, and the upper horizontal roller piece is connected with the two sliding grooves in a sliding mode.

Under the guide effect of the sliding groove, the smoothness and the stability of the up-and-down movement of the mounting seat and the upper horizontal roller piece are improved.

Drawings

The present invention will be further explained with reference to the drawings and examples;

fig. 1 is a schematic structural view of an embodiment of a stand forming structure according to the present invention, wherein two arrows respectively indicate a forward direction and a backward direction, wherein two arrows respectively indicate a downward direction and an upward direction, and wherein two arrows respectively indicate a left direction and a right direction;

fig. 2 is an exploded view of a left side portion of an embodiment of the invention, wherein two arrows respectively indicate a forward direction and a backward direction, wherein two arrows respectively indicate a downward direction and an upward direction, and wherein two arrows respectively indicate a left direction and a right direction;

fig. 3 is an exploded view of an embodiment of a side roller assembly provided by the present invention.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are used, the meaning is one or more, the meaning of a plurality of words is two or more, and the meaning of more than, less than, more than, etc. is understood as not including the number, and the meaning of more than, less than, more than, etc. is understood as including the number.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 3, the following embodiments are made for the stand forming structure in the stainless steel pipe machine of the present invention:

the vertical frame forming structure of this embodiment includes frame 100, horizontal roller assembly, two side roller assemblies 400, wherein frame 100 includes left support body 110 and right support body 120 that is relative setting about being, connects the connecting rod 130 between left support body 110 and right support body 120, and this embodiment sets up two connecting rods 130, two side roller assemblies 400 set up respectively on left support body 110 and right support body 120, and horizontal roller assembly includes lift adjustment actuating mechanism, is upper and lower horizontal roller 200 and the lower horizontal roller 300 of setting in frame 100, upper horizontal roller 200 and lower horizontal roller 300 set up between left support body 110 and right support body 120 all be provided with sliding tray 140 on left support body 110 and the right support body 120, specifically: go up horizontal roller piece 200 including be about extending the last horizontal roller 210 that sets up, overlap and locate last horizontal mold roller 220 on last horizontal roller 210, be provided with two sliding seats 230 at last horizontal roller 210 both ends respectively, two sliding seat 230 installs on two sliding tray 140 with sliding from top to bottom respectively, horizontal roller piece 300 is including being about extending the lower horizontal roller 310 that sets up, overlap and locate the lower horizontal mold roller 320 on the horizontal roller 310 down, both ends are rotationally connected with left support body 110, right support body 120 respectively about horizontal roller 310 down. In order to improve the smoothness of the rotation of the upper horizontal roller shaft 210 and the lower horizontal roller shaft 310 and the bearing capacity of the embodiment, an upper rotating bearing 240 is disposed between the end of the upper horizontal roller shaft 210 and the sliding seat 230, and a lower rotating bearing 330 is also disposed between the end of the lower horizontal roller shaft 310 and the left and right frame bodies 110 and 120.

The lifting adjustment driving mechanism in this embodiment is mainly used for driving the upper horizontal roller 200 to move in the up-down direction relative to the rack 100, specifically: the lifting adjusting driving mechanism comprises two lifting screw rods 500, a lifting transmission member, a lifting driving unit and two lifting screw rods 500 respectively extend from top to bottom and are arranged on the left support body 110 and the right support body 120, the sliding seats 230 are provided with lifting threaded holes connected with the lifting screw rods 500 in a threaded transmission manner, the two lifting screw rods 500 are connected with the two sliding seats 230 in a one-to-one threaded transmission manner, the lifting transmission member comprises a transmission shaft 600 and two lifters 610 respectively installed on the left support body 110 and the right support body 120, each lifter 610 is provided with a transmission end, an output end and an input end, the output ends are connected with the lifting screw rods 500 in a one-to-one transmission manner and are two, the transmission ends are connected with each other through the transmission shaft 600, the lifting driving unit of the embodiment is a lifting motor, and the lifting motor is one of the lifting screw rods 500 and the input end of the lifter 610 is connected.

The two lifting screw rods 500 can be driven to synchronously rotate through one lifting motor, the sliding seats 230 are respectively driven to move up and down relative to the rack 100 under the synchronous rotation of the two lifting screw rods 500, the upper horizontal die roller 220 can be driven to move in the up-and-down direction, force is applied to the upper horizontal roller shaft 210 through the two sliding seats 230, and the acting force of the upper horizontal die roller 220 on the pipe is ensured to be in the vertical direction.

Two side roller assemblies 400 in this embodiment are symmetrically arranged between the upper horizontal roller 200 and the lower horizontal roller 300, specifically, each side roller assembly 400 includes a vertical mold roller 410, a mounting seat 420, a translational adjustment driving mechanism, and a locking mechanism, two vertical mold rollers 410 are oppositely arranged from left to right, two mounting seats 420 are slidably mounted on two sliding grooves 140, respectively, and the locking mechanism is used for locking and fixing the relative positions of the mounting seat 420 and the frame 100, specifically: the locking mechanism in this embodiment includes locking screw 480, locking screw 480 threaded connection is on mount pad 420, the inner of locking screw 480 and the lateral wall butt of frame 100, contradict through the lateral wall of locking screw 480 and frame 100 and realize the locking fixed to mount pad 420, and the inner of locking screw 480 still can improve frictional force through the lateral wall butt of elasticity piece and frame 100 simultaneously.

The translation adjustment driving mechanism of the present embodiment is configured to translate the vertical mold roller 410 in the left-right direction with respect to the mounting seat 420, specifically: the translation adjustment driving mechanism includes a translation slider 430 and a translation screw 440 provided on the mount 420, the translator slider 430 is slidable in a left-right direction with respect to the mount 420, the vertical mold roller 410 is rotatably mounted on the translation sliding block 430 through a vertical shaft, the translation screw rod 440 extends left and right, the translation screw rod 440 is rotatably fixed on the mounting seat 420, the translation sliding block 430 is provided with a translation screw hole in threaded transmission connection with the translation screw rod 440, when the relative distance of the two vertical mold rollers 410 in the left-right direction needs to be adjusted, by rotating the two translation screw rods 440, under the threaded fit of the translation screw rod 440 and the translation screw hole on the translation slider 430, the translation slider 430 is made to slide in the left-right direction with respect to the mount 420, thereby adjusting the relative position between the two vertical mold rolls 410 and maintaining the upper horizontal roll member 200 and the lower horizontal roll member 300 together in the middle between the two vertical mold rolls 410.

Further, side roller assembly 400 still includes high adjustment mechanism, high adjustment mechanism is including the accommodate the lead screw 450 that is vertical setting, be fixed in fixed block 460 on frame 100, be fixed in the height adjustment piece 470 on mount pad 420, accommodate the lead screw 450 with fixed block 460 threaded connection, accommodate the lead screw 450 the upper end with height adjustment piece 470 contradicts, when needs adjust two founding mould roller 410 high-time of direction from top to bottom, loosens locking mechanism, reciprocates through rotating accommodate the lead screw 450 for accommodate the lead screw 450 the upper end accessible height adjustment piece 470 promotes mount pad 420 and up moves, perhaps down moves under the action of gravity of mount pad 420 self again, later rethread locking mechanism locking the position of good mount pad 420 of fixed.

The process of the pipe forming process of the stand forming structure of the embodiment is as follows: the tube blank is conveyed in the front-rear direction and conveyed to positions among the upper horizontal die roller 220, the lower horizontal die roller 320 and the two vertical die rollers 410, and the tube blank can be extruded in four directions through the upper horizontal die roller 220, the lower horizontal die roller 320 and the two vertical die rollers 410 at the same time, so that the forming processing of the tube blank is realized, the forming force vertically acts on the tube blank, the pulling damage and the friction of a steel belt to the tube blank are reduced, and the maintenance cost is reduced; when pipes with different outer diameters need to be formed, the lifting motor is started to drive the two lifting screw rods 500 to synchronously rotate, the two lifting screw rods 500 respectively drive the sliding seat 230 to move up and down relative to the rack 100, and the relative distance between the upper horizontal mold roller 220 and the lower horizontal mold roller 320 is adjusted; and loosening the locking mechanism, adjusting the relative position of the mounting seat 420 and the rack 100 in the vertical direction by rotating the adjusting screw rod 450 to move up and down, namely adjusting the relative position between the two vertical mold rollers 410 and the lower horizontal roller 300, locking the mounting seat 420 through the locking mechanism after the adjustment is finished, and also adjusting the relative position between the two vertical mold rollers 410 by rotating the two translation screw rods 440, so that the translation slide block 430 slides in the left and right direction relative to the mounting seat 420 under the threaded fit of the translation screw holes on the translation screw rods 440 and the translation slide block 430, thereby being capable of adjusting the relative position between the two vertical mold rollers 410, further meeting the molding processing of pipes with different specifications, improving the universality of the vertical frame molding structure, reducing the manual debugging workload, reducing the debugging time of workers and improving the production efficiency.

When the pipe is molded, the lower horizontal roller 300 always supports the pipe, so that the pipe is prevented from inclining in the horizontal direction in the molding process, the pipe can be kept on the set horizontal plane to be conveyed, the molding resistance is reduced, scratches caused when the steel belt is molded by the compression roller are prevented, and the quality of the high-stainless steel pipe is improved.

In some embodiments, the elevation adjustment drive mechanism, the translation adjustment drive mechanism, and the height adjustment mechanism may take other configurations, and may be, for example, hydraulically driven, electrically driven, or the like. The embodiment further improves the adjusting precision and the bearing capacity through the transmission of the screw rod.

In some embodiments, lower horizontal die roll 320, upper horizontal die roll 220, and vertical die roll 410 may employ different sized press rolls according to different requirements.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (10)

1. The utility model provides a grudging post shaping structure of stainless steel pipe machine which characterized in that: it includes:

a frame (100);

the horizontal roller assembly comprises a lifting adjusting driving mechanism, an upper horizontal roller (200) and a lower horizontal roller (300), wherein the upper horizontal roller (200) and the lower horizontal roller (300) are vertically arranged on a rack (100), the lower horizontal roller (300) is relatively fixedly arranged with the rack (100), and the lifting adjusting driving mechanism is provided with a lifting driving end which is in transmission connection with the upper horizontal roller (200) and enables the upper horizontal roller (200) to move in the vertical direction relative to the rack (100);

two side roller assemblies (400) are arranged, the two side roller assemblies (400) are arranged between the upper horizontal roller piece (200) and the lower horizontal roller piece (300) in a bilateral symmetry manner, the side roller assembly (400) comprises vertical mold rollers (410), a mounting seat (420), a translation adjusting and driving mechanism and a locking mechanism, wherein the two vertical mold rollers (410) are arranged oppositely left and right, the mounting seat (420) is arranged on the machine frame (100), the mounting seat (420) can slide in the up-and-down direction relative to the machine frame (100), the locking mechanism is used for locking and fixing the relative position of the mounting seat (420) and the frame (100), the translation adjusting and driving mechanism is arranged on an installation seat (420), and is provided with a translation driving end which is in transmission connection with the vertical mold roller (410) and enables the vertical mold roller (410) to translate in the left-right direction relative to the installation seat (420).

2. The vertical frame forming structure of the stainless steel pipe machine according to claim 1, wherein:

the upper horizontal roller part (200) comprises an upper horizontal roller shaft (210) which extends left and right, an upper horizontal die roller (220) sleeved on the upper horizontal roller shaft (210), and two sliding seats (230) which are respectively provided with two ends of the upper horizontal roller shaft (210), wherein the two sliding seats (230) can be installed on the rack (100) in a vertically sliding manner, the left end and the right end of the upper horizontal roller shaft (210) are respectively rotatably connected with the two sliding seats (230), and the lifting driving end is in transmission connection with the two sliding seats (230);

lower horizontal roller spare (300) are including being lower horizontal roller axle (310), the lower horizontal mould roller (320) of cover on locating lower horizontal roller axle (310) that extend about and set up, both ends are rotationally connected with frame (100) respectively about lower horizontal roller axle (310).

3. The vertical frame forming structure of the stainless steel pipe machine according to claim 2, wherein:

an upper rotating bearing (240) is arranged between the end part of the upper horizontal roll shaft (210) and the sliding seat (230), and a lower rotating bearing (330) is also arranged between the end part of the lower horizontal roll shaft (310) and the frame (100).

4. The vertical frame forming structure of the stainless steel pipe machine according to claim 2, wherein:

the lifting adjusting driving mechanism comprises two lifting screw rods (500), a lifting transmission member and a lifting driving unit, wherein the lifting screw rods (500) extend upwards and downwards, the sliding seats (230) are provided with lifting threaded holes connected with the lifting screw rods (500) in a threaded transmission manner, the two lifting screw rods (500) are connected with the two sliding seats (230) in a one-to-one threaded transmission manner, and the lifting driving unit is connected with the two lifting screw rods (500) in a transmission manner through the lifting transmission member.

5. The vertical frame forming structure of the stainless steel pipe machine according to claim 4, wherein:

the lift drive component includes transmission shaft (600), installs two lift (610) in frame (100), lift (610) have transmission end, output, input, the output is connected with lift lead screw (500) one-to-one transmission, two transmission end passes through transmission shaft (600) interconnect, lift drive unit and one of them the input of lift (610) is connected.

6. The vertical frame forming structure of the stainless steel pipe machine according to claim 1, wherein:

translation adjustment actuating mechanism is including setting up translation slider (430) and translation lead screw (440) on mount pad (420), translation slider (430) can for mount pad (420) is in the upper and lower side slip, upright mould roller (410) are rotationally installed on translation slider (430), extension setting about translation lead screw (440) is, translation lead screw (440) rotationally is fixed in on mount pad (420), translation slider (430) be provided with the translation screw that translation lead screw (440) screw transmission is connected.

7. The vertical frame forming structure of the stainless steel pipe machine according to claim 1, wherein:

side roller subassembly (400) still include high adjustment mechanism, high adjustment mechanism including be vertical setting accommodate the lead screw (450), be fixed in fixed block (460) on frame (100), be fixed in height adjustment piece (470) on mount pad (420), accommodate the lead screw (450) with fixed block (460) threaded connection, the upper end of accommodate the lead screw (450) with height adjustment piece (470) are contradicted.

8. The vertical frame forming structure of the stainless steel pipe machine according to claim 1, wherein:

the locking mechanism comprises a locking screw (480), the locking screw (480) is in threaded connection with the mounting seat (420), and the inner end of the locking screw (480) is abutted against the side wall of the rack (100).

9. The vertical stand forming structure of a stainless steel pipe machine according to any one of claims 1 to 8, wherein:

frame (100) including be about relative left support body (110) and right support body (120) that set up, connect connecting rod (130) between left support body (110) and right support body (120), two side roller subassembly (400) sets up respectively on left support body (110) and right support body (120), it sets up between left support body (110) and right support body (120) to go up horizontal roller spare (200) and lower horizontal roller spare (300).

10. The vertical frame forming structure of the stainless steel pipe machine according to claim 9, wherein:

all be provided with sliding tray (140) on left side support body (110) and right support body (120), two mount pad (420) respectively with two sliding tray (140) sliding connection, go up horizontal roller spare (200) and two sliding tray (140) sliding connection.

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