CN212042139U - Roll bending machine for improving running stability of shaft body - Google Patents

Abstract

The utility model provides an improve axis body operating stability's bending roll machine, which comprises a fixed base, two shaft shafts, roll the cambered axle, two wheel axle beds and the sliding guide body, roll the cambered axle and form isosceles triangle with two shaft shafts and arrange, roll the cambered axle and be located the perpendicular bisector of the axle center line of two shaft shafts, and can follow the perpendicular bisector reciprocating sliding of the axle center line of two shaft shafts, the guide slot of spout and perpendicular to spout has been seted up on the fixing base, two wheel axle beds slide and set up in the spout, the sliding guide body slides and sets up in the guide slot, be equipped with the support frame on the sliding guide body, so that rotationally support the top of rolling the cambered axle, one side that lies in each shaft on the fixing base all is equipped with the auxiliary stand, in order to supply rotationally to support. The utility model discloses roll bender has simple structure, dismouting simple and convenient, can improve operating stability's advantage.

Description

Roll bending machine for improving running stability of shaft body

Technical Field

The utility model relates to a roll bending machine, in particular to improve roll bending machine of axis body operating stability.

Background

The roll bending machine is one of the cold bending machines, and is also called as an arc bending machine, a bending machine or a rounding machine. The bending roll can bend profiles with various sections, and almost all metal profiles and pipes with sections such as aluminum, steel, stainless steel, copper and the like can be bent. The wheel shaft of the roll bending machine is rotatably fixed on the fixed seat, the roll bending shaft is arranged on the guide sliding body, and when a product is machined, the wheel shaft and the roll bending shaft push against the wheel shaft or the shaft body of the roll bending wheel due to reaction force in the rotating process, so that the shaft body shakes, and the roll bending precision of a machined workpiece is affected.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides an improve axis body operating stability's bending roll machine.

The utility model relates to a technical solution:

a roll bending machine for improving the running stability of a shaft body comprises a fixed seat, two wheel shafts and a roll bending shaft, wherein the roll bending shaft and the two wheel shafts form an isosceles triangle arrangement, the roll bending shaft is positioned on a perpendicular bisector of a connecting line of the axes of the two wheel shafts and can slide back and forth along the perpendicular bisector of the connecting line of the axes of the two wheel shafts, the roll bending machine comprises two wheel shaft seats and a guide sliding body, a sliding groove and a guide groove perpendicular to the sliding groove are formed in the fixed seat, the guide groove extends to the sliding groove to divide the sliding groove into two opposite sections, the two wheel shaft seats are respectively locked in the two sliding grooves and can slide along the corresponding sliding groove section after the locking is released so as to adjust the distance between the two wheel shaft seats, the two wheel shafts are respectively arranged on the wheel shaft seats, the guide sliding body is slidably arranged in the guide groove, the roll bending shaft is arranged on the guide sliding body, a support frame is further arranged on the, two auxiliary brackets are further mounted on the fixing seat and respectively support the top end of each wheel shaft, and the wheel shafts are prevented from shaking when rotating.

Furthermore, the support frame includes pole setting and horizontal piece, and the pole setting is established on the sliding guide body, and the horizontal piece is installed perpendicularly in the top of pole setting and extends for the pole setting side direction, and the top of roll bending axle rotationally overlaps on the horizontal piece.

Furthermore, a bearing hole is formed in the extending end of the horizontal block, a supporting bearing is fixed in the bearing hole, and the top end of the roll bending shaft is fixedly sleeved on an inner ring of the supporting bearing.

Further, the auxiliary support comprises a stand column, a horizontal pull rod and clamping nuts, the stand column is vertically arranged on the fixed seat, a groove is formed in the top end of the stand column, a thread is arranged at one end of the horizontal pull rod, a section with the thread is arranged in the groove, one end of the horizontal pull rod with the thread is arranged in the groove, the two clamping nuts are sleeved on the thread section and clamped on two sides of the stand column, and the horizontal pull rod is clamped and fixed.

Furthermore, the other end of the horizontal pull rod is provided with a bearing sleeve, a top end bearing is fixed in the bearing sleeve, and the top end of the wheel shaft is fixedly sleeved on an inner ring of the top end bearing.

The utility model has the advantages that:

through set up the support frame on leading the gliding mass, rotationally support the top of roll bending axle, so can improve the rotatory stability of shaft. Through setting up the auxiliary stand, the top of shaft rotationally connects on the auxiliary stand, can effectively avoid the shaft to take place radially to rock at the rotation in-process, improves the rotatory stability of shaft, is favorable to prolonging the life of roll bender to improve the quality of roll bending processing.

Drawings

Fig. 1 is a first perspective assembly view of the roll bending machine of the present invention;

FIG. 2 is a side view of the roll bending machine of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a perspective assembly view of FIG. 2;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5;

FIG. 7 is a front view of FIG. 4 (with the mold wheel installed);

FIG. 8 is a top view of the roll bending machine of the present invention;

FIG. 9 is an exploded view of the slide adjusting mechanism of the roll bending machine of the present invention;

fig. 10 is a second perspective assembly view of the roll bending machine of the present invention;

fig. 11 is a perspective view of the fixing base of the roll bending machine of the present invention;

fig. 12 is a perspective view of the frame of the roll bending machine of the present invention;

fig. 13 is a perspective view of the anti-twisting support device of the roll bending machine of the present invention.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the scope of the invention.

Referring to fig. 1 to 3, the present invention provides a roll bending machine, which includes a frame 1, a fixing base 2, a wheel axle seat 4, a locking block 5 and a plurality of locking bolts 6.

A fixed seat 2 is fixedly arranged on the frame 1, a sliding groove 21 is arranged on the fixed seat 2, a wheel axle seat 4 is slidably arranged in the sliding groove 21, a wheel axle 3 is arranged on the wheel axle seat 4, the wheel axle seat 4 comprises a seat body 41 and a bottom plate 42, the seat body 41 is T-shaped, the lower end of the seat body 41 is arranged in the sliding groove 21 in a penetrating way, the upper end of the seat body 2 at two sides of the sliding groove 21 is propped against the top surface of the fixed seat 2, the bottom plate 42 is attached to the bottom surface of the fixed seat 2 and is fixedly connected to the bottom end of the seat body 41, if a screw hole is arranged at the bottom end of the bottom plate 42 and the bottom end of the seat body 41, the bottom plate 42 is fixedly connected to the bottom end of the seat body 41 through a bolt, when the disassembly is needed, the bolt is disassembled, the bottom plate 42 and the upper end of the seat body 41 clamp the fixed seat 2, one side, the locking bolt 6 penetrates through the adjusting hole 52 and is screwed in the screw hole 420, the inner diameter of the adjusting hole 52 is larger than that of the screw hole 420, so that the adjusting locking block 5 is tightly attached to and abutted against the bottom surface of the fixing seat 2 and then locks the seat body 41 on the fixing seat 2, the axle seat 4 is fixed and locked in the sliding groove 21, and when the position of the axle seat 4 needs to be adjusted, the locking of the locking bolt 6 is released.

Through adopting the latch segment 5 that has inclined plane 51 to lock the bottom plate 42 that has slope 421, because the internal diameter of regulation hole 52 is bigger than the internal diameter of screw 420, be convenient for adjust the latch segment 5 when locking and support and hold in fixing base 2 bottom surfaces, so design simple structure, the dismouting is convenient, can eliminate the running clearance of bottom plate 42 and fixing base 2 bottom surfaces, avoid rocking of operation in-process shaft 3, the stability of mechanical operation has been improved, be favorable to improving the quality of processing product.

Referring to fig. 4 to 6, the base body 41 is a T-shaped sleeve structure having a central axial hole, and includes a rod 411 and an end block 412 integrally formed at the top end of the rod 411, the rod 411 and the end block 412 are both rectangular structures, two sides of the end block 412 extend out from two sides of the rod 411 to form a T-shaped sliding structure, side extending portions of the end block 412 are disposed on sliding rails at two sides of the sliding groove 21, and the axle 3 is sleeved in the central axial hole of the base body 41.

The rod 411 has a shaft sleeve hole 4111, the end block 412 has a through hole 4121, the diameter of the through hole 4121 is larger than that of the shaft sleeve hole 4111, the shaft sleeve hole 4111 is communicated with the through hole 4121 to form a T-shaped central shaft hole of the base body 41, two ends of the central shaft hole are respectively provided with a step hole in the hole, the end of the shaft sleeve hole 4111 is provided with a first step hole, and the through hole 4121 is provided with a second step hole. It is understood that the first stepped hole and the second stepped hole may be multi-step stepped holes, and in this embodiment, referring to fig. 6, both the first stepped hole and the second stepped hole are two-step stepped holes (extending from the opening end to form two steps in sequence and then communicating to the corresponding boss hole 4111 or the through hole 4121).

The outer peripheral one side of arbor wheel 3 stretches and is formed with bulge loop 31, shaft 3 installs behind the central shaft hole, first bearing 4112 holds in first ladder is downthehole, second bearing 4122 holds in second stage downthehole, the outer lane of first bearing 4112 one terminal surface upwards presses the bottom of propping first ladder, the inner circle of another terminal surface upwards presses the fastening for the cover establishes a spacing ring 32 on shaft 3, with the spacing prevention drunkenness of first bearing 4112, the outer lane of a second bearing 4122 terminal surface downwards presses the bottom of propping second ladder, the inner circle of another terminal surface is the bulge loop 31 and downwards presses and supports, with the spacing prevention drunkenness of second bearing 4122. Therefore, the axle 3 can be prevented from moving up and down in the rotating process under the limiting action of the convex ring 31 and the limiting ring 32. It can be understood that, in the assembly, the second bearing 4122 is installed into the second stepped hole, the outer ring of the lower end surface of the second bearing 4122 presses against the bottom of the second stepped hole, then the wheel shaft 3 is sleeved downwards, and the convex ring 31 of the wheel shaft 3 presses against the inner ring of the upper end surface of the second bearing 4122, so that the second bearing 4122 is limited; then, the first bearing 4112 is sleeved into the wheel shaft 3, the first bearing 4112 is sleeved into the first stepped hole, the outer ring of the upper end surface of the first bearing 4112 abuts against the bottom of the first stepped hole, and finally, the limiting ring 32 is sleeved on the wheel shaft 3, so that the limiting ring 32 abuts against the inner ring of the first bearing 4112 upwards, and the limiting ring 32 is fixed on the wheel shaft 3, thus limiting the first bearing 4112.

In addition, a section of the wheel shaft 3 between the first bearing 4112 and the second bearing 4122 is a tapered section 33, and the outer diameter of the tapered section 33 gradually decreases from the second bearing 4122 to the first bearing 4112. It can play a role in reducing the weight of the wheel axle 3.

Further, a seal ring 4123 is arranged between the inner wall of the through hole 4121 and the wheel shaft 3 and above the second bearing 4122, namely, a gap between the seal ring and the wheel shaft 3 is reserved corresponding to the opening end of the second-stage stepped hole, so that the seal ring can be accommodated, external moisture, dust and the like can be prevented from entering the second bearing 4122, and the service life is prolonged. Preferably, the first bearing 4112 and the second bearing 4122 both use tapered roller bearings, as shown in fig. 6, in which the upper tapered roller bearing has a downward tapered end for bearing a downward axial load, and the lower tapered roller bearing has an upward tapered end for bearing an upward axial load, so as to further limit the vertical play of the axle 3.

The wheel axle 3 is installed at the central shaft hole of the seat body 41 and the wheel axle 3 protrudes downward through the through hole 421 of the bottom plate 42. The bottom plate 42 is fixedly provided with a mounting seat 422 (see fig. 5), the mounting seat 422 is fixedly provided with a first motor 423, an output shaft of the first motor 423 faces upward vertically, and the output shaft of the first motor 423 is connected with a lower section extending end of the wheel shaft 3 through a coupling 424.

Referring to fig. 7, the mounting seat 422 includes a horizontal plate 4221, a vertical plate 4222 and a reinforcing rib plate 4223, the vertical plate 4222 is vertically fixed below one end of the horizontal plate 4221, and the reinforcing rib plate 4223 is fixedly connected in a right angle formed by the horizontal plate 4221 and the vertical plate 4222. Horizontal plate 4221 is fixedly connected to the lower surface of bottom plate 42 through bolts, vertical plate 4222 faces downward vertically, and vertical plate 4222 and first motor 423 are fixed through bolts. Preferably, the reinforcing rib plate 4223 is a triangular plate. The adoption sets up mount pad 422 at bottom plate 42 lower surface, and mount pad 422 adopts horizontal plate 4221, vertical board 4222 to on the structure of being connected deep floor plate 4223 between horizontal plate 4221 and vertical board 4222 can realize being fixed in the vertical board 4222 of mount pad 422 with first motor 423 steadily, simple structure, compactness, the dismouting is convenient, can avoid first motor 423 operation in-process to take place the wrench movement, improves mechanical operation's stability and reliability.

Referring to fig. 5, 8 and 9, in order to adjust the position of the movable axle seat 4, the roll bending machine includes a sliding adjusting mechanism 7, the sliding adjusting mechanism 7 includes a screw rod seat 71, a screw rod 72 and a fixing sleeve 73, the screw rod seat 71 is fixed on an end surface of the axle seat 4, each end wall of the sliding groove 21 on the fixing seat 2 is provided with an axle hole, the screw rod 72 rotatably passes through the axle hole and is screwed on the screw rod seat 71, one end of the screw rod 72 extending outward from the axle hole is sleeved with the fixing sleeve 73, the screw rod 72 rotatably passes through the fixing sleeve 73, and the fixing sleeve 73 is fixed on the end wall of the sliding groove 21 by bolts to axially limit the screw rod 72. Through rotating the screw rod 72, because the screw rod 72 can not move axially under the limiting action of the fixed sleeve 73, the screw rod seat 71 moves axially relative to the screw rod 72, and then the wheel axle seats 4 are driven to slide along the sliding groove 21, so that the distance between the two wheel axle seats 4 can be conveniently adjusted, and the roll bending machine is suitable for roll bending processing of profiles with different curvatures.

In order to facilitate accurate adjustment of the distance between the two axle seats 4, a size scale 23 is arranged on one side of the fixed seat 2, which is located on the sliding groove 21, and corresponds to each axle seat 4.

In order to facilitate manual adjustment of the distance between the two axle seats 4, a hand wheel 74 is fixed at the extending end of the screw rod 72.

The screw seat 71 includes a flange 711 and a threaded sleeve 712 fixed to the flange 711, the flange 711 is fixed to one end surface of the axle seat 4, and the screw 72 is screwed into the threaded sleeve 712. Preferably, a limiting hole 40 matched with the flange 711 is formed in one end face of the axle seat 4, and the flange 711 is fixed in the limiting hole 40 through a bolt. The flange 711 is provided with a central hole communicated with the threaded hole of the threaded sleeve 712, and the axle seat 4 is provided with a containing hole concentric with the limiting hole 40 for containing one end of the screw rod 72 penetrating out of the central hole.

In order to reduce the friction coefficient of the screw 72 during the movement process and ensure the rotation precision of the screw 72, the sliding adjustment mechanism 7 further includes a screw bearing 75, a stepped hole 730 is formed on the fixing sleeve 73, the screw bearing 75 is fixed in the stepped hole 730, one end surface of the screw bearing 75 abuts against the stepped surface in the stepped hole 730, and the other end surface of the screw bearing 75 is flush with the end surface of the fixing sleeve 73, so that the two axial ends of the screw bearing 75 are limited in the stepped hole 730 after the fixing sleeve 73 is fixed on the end wall of the fixing base 2.

Referring to fig. 1 again, the two wheel shafts 3 are correspondingly disposed on the two wheel shaft seats 4, the two wheel shaft seats 4 are slidably disposed in the sliding groove 21, each wheel shaft 3 is connected with the mold wheel 30 by a key, the roll bending machine includes a roll bending shaft 81 disposed on the fixing base 2 and located at one side of the sliding groove 21, the roll bending shaft 81 is sleeved with a roll bending wheel 82, the roll bending wheel 82 and the mold wheel 30 are at the same plane and at the same height, the roll bending shaft 81 and the two wheel shafts 3 form an isosceles triangle arrangement, specifically, the roll bending shaft 81 is located on a perpendicular bisector of a line connecting the axes of the two wheel shafts 3 and can slide back and forth along the perpendicular bisector of the line connecting the axes of the two wheel shafts 3, so that the section to be processed is rolled and bent by the roll bending wheel 82 in the process of transferring the two mold wheels 30.

Referring to fig. 4 and 5, the roll bending machine further includes a sliding guide body 83, a sliding driving member 84, a fixing plate 85 and a second motor 86, the fixing base 2 is provided with a guide slot 22 perpendicular to the sliding slot 21, the sliding slot 21 and the guide slot 22 form a T-shape on the surface of the fixing base 2, the sliding guide body 83 is slidably disposed in the guide slot 22, the sliding driving member 84 is fixed on the fixing base 2 and is located on an end wall of the guide slot 22 far from one end of the sliding slot 21, the sliding driving member 84 adopts a hydraulic cylinder driving structure, and a piston rod of the sliding driving member 84 penetrates through the guide slot 22 and is connected with the sliding guide body 83 so as to drive the sliding guide body 83 to. The fixing plate 85 is vertically fixed on the bottom surface of the sliding guide body 83 downwards, the second motor 86 is fixed on the fixing plate 85, the output shaft of the second motor 86 is vertically upwards, the driving gear 87 is fixed on the output shaft of the second motor 86, the lower end of the roll bending shaft 81 penetrates through the sliding guide body 83 and extends downwards, a driven gear 88 is fixed on one end of the extending part and is meshed with the driving gear 87, the second motor 86 is started, and the driving gear 87 drives the driven gear 88 to rotate so as to drive the roll bending shaft 81 to rotate around the axis line of the roll bending shaft. It is understood that the gear transmission of the second motor 86 and the roller bending shaft 81 can also be a belt pulley transmission or a chain sprocket transmission. The rolling bending shaft 81 and the sliding guide body 83 can be connected by the rotation of the wheel axle 3 and the wheel axle seat 4, which is not described in detail herein.

In order to improve the stability of the rotation of the roll bending shaft 81, the slide guide 83 is provided with a support frame 89 supported on the top end of the roll bending shaft 81. Support frame 89 includes pole setting 891 and horizontal block 892, and pole setting 891's fixed establishment is on leading smooth body 83, and the one end level of horizontal block 892 is fixed in the top of pole setting 891, and the dead eye has been seted up to the horizontal block 892 other end, and the dead eye is fixed with support bearing 893, and support bearing 893's inner circle is located to the fixed cover in top of roll bending axle 81. Referring to fig. 10, in order to improve the rotation stability of the wheel shafts 3, an auxiliary bracket 36 is disposed on one side of each wheel shaft 3 of the fixing base 2 for supporting the top end of each wheel shaft 3. The auxiliary bracket 36 includes an upright 361, a horizontal pull rod 362, a bearing sleeve 363, a top end bearing 364 and a clamping nut 365, the upright 361 is vertically erected on the fixed seat 2, a groove 366 is formed at the top end of the upright 361, a thread is formed at one end of the horizontal pull rod 362, the section with the thread is arranged in the groove 366, the two clamping nuts 365 are sleeved on the thread section and clamped at two sides of the upright 361, and one end of the horizontal pull rod 362 is fixed in the groove 366 at the top end of the upright 361. The other end of the horizontal pull rod 362 is formed with the bearing sleeve 363, a top end bearing 364 is fixed in the bearing sleeve 363, and the top end of the wheel shaft 3 is fixed on the inner ring of the top end bearing 364. Through setting up auxiliary stand 36, the top of shaft 3 rotationally connects in auxiliary stand 36's bearing housing 363, can effectively avoid shaft 3 to take place radial rocking at the rotation in-process, improves the rotatory stability of shaft 3, improves the quality of roll bending processing. It will be appreciated that the tip bearing 364 may be omitted and the tip of the wheel shaft 3 may be directly rotatably mounted in the bearing housing 363.

Referring to fig. 7, in order to adjust the heights of the mold wheel 30 and the roll bending wheel 82, the middle sections of the wheel shaft 3 and the roll bending shaft 81 are provided with screw thread sections, the screw thread section 301 of the wheel shaft 3 and the screw thread section of the roll bending shaft 81 are respectively screwed with the lifting nut 80, the bottom surface of the mold wheel 30 abuts against the upper surface of the lifting nut 80 of the wheel shaft 3, and the bottom surface of the roll bending wheel 82 abuts against the upper surface of the lifting nut 80 of the roll bending shaft 81. By rotating the lifting nut 80, the lifting nut 80 can move up and down along the wheel shaft 3 or the bending roll 81, so that the heights of the die wheel 30 and the bending roll 82 can be accurately adjusted, the two die wheels 30 and the bending roll 82 are ensured to be positioned on the same horizontal plane, and the bending quality of the processed section is improved.

Preferably, the axle 3 and the roll bending axle 81 are further sleeved with a shaft sleeve 34, the bottom end of the shaft sleeve 34 abuts against the upper surface of the mold wheel 30 or the roll bending wheel 82, the top ends of the axle 3 and the roll bending axle 81 are screwed with a fastening nut 35, the lower surface of the fastening nut 35 abuts against the top end surface of the shaft sleeve 34, the mold wheel 30 is clamped and fixed on the axle 3 through a lifting nut 80 in cooperation with the shaft sleeve 34 and the fastening nut 35, and the roll bending wheel 82 is clamped and fixed on the roll bending axle 81 through the lifting nut 80 in cooperation with the shaft sleeve 34 and the fastening nut 35. Simple structure, the dismouting is convenient, can realize firmly locking mould wheel 30 or roll bending wheel 82, effectively avoids mould wheel 30 or roll bending wheel 82 not hard up and cause the processing section bar to scrap in the course of working, further improves section bar roll bending processingquality.

Referring to fig. 1, in order to better support the two ends of the profile to be processed, the fixed base 2 is provided with support mechanisms 9 capable of being adjusted up and down on the two sides of the guide groove 22, respectively, for installing support roller devices (not shown) for rolling and supporting the profile to be processed. Supporting mechanism 9 includes elevator 91, lift driving piece and guiding mechanism, and 2 tops of fixing base are located to elevator 91, and the lift driving piece is installed in frame 1, and the piston rod of lift driving piece upwards passes fixing base 2 and is connected with elevator 91, and guiding mechanism includes guide shaft 93 and guide pin bushing, has seted up guide hole 24 on the fixing base 2, and guide hole 24 internal fixation has the guide pin bushing, guide shaft 93 liftable wear to locate in the guide pin bushing, the top and the elevator 91 of guide shaft 93 are connected. The lifting block 91 is provided with a plurality of threaded fixing holes 910 for screwing and fixing the supporting roller device.

Referring to fig. 11, two sides of the fixing base 2 located in the guide groove 22 are hollow structures, each hollow structure includes a base bottom wall 25, a mounting sleeve 26 integrally connected to the base bottom wall 25, an arc-shaped wall 27 integrally connected to the outer side of the base bottom wall 25, and a reinforcing rib 28 integrally connected to the base bottom wall 25 and located between the mounting sleeve 26 and the inner side of the peripheral wall of the fixing base 2, and a piston rod of the lifting driving element upwardly passes through the mounting sleeve 26. The fixing seat 2 has a weight reduction effect by adopting a hollow structure, and can reduce unnecessary occupied space, thereby being beneficial to the layout of the whole structure.

Referring to fig. 1, the sliding driving member 84 and the lifting driving member are hydraulic cylinders, the servo hydraulic pump 10 and the oil tank 11 are mounted at the bottom of the frame 1, the oil tank 11 is connected to an input end of the servo hydraulic pump 10 through a pipeline, and an output end of the servo hydraulic pump 10 is connected to the hydraulic cylinders through a pipeline to provide a power source for the hydraulic cylinders.

Referring to fig. 1 and 12, the rack 1 includes a bottom frame 12, support columns 13 and a top plate 14, the support columns 13 are fixed at four corners of the bottom frame 12, the top plate 14 is fixed at the top ends of the four support columns 13, a first mounting groove 141 is formed in one side of the top plate 14, and the first mounting groove 141 is located right below the sliding groove 21 of the fixing base 2. The middle of the top plate 14 is provided with a second mounting groove 142 vertically communicated with the first mounting groove 141, the first mounting groove 141 and the second mounting groove 142 form a T-shaped groove structure, and the position of the second mounting groove 142 vertically corresponds to the position of the guide groove 22 of the fixing base 2. Mounting holes 143 are formed on the top plate 14 at both sides of the second mounting groove 142 for the lifting driving member to pass through.

In order to further reinforce the supporting strength of the top plate 14, the periphery of the lower surface of the top plate 14 is provided with a connecting rod 15 fixed with the supporting column 13.

To facilitate the arrangement of the pipes connected to the sliding driving member 84, a pipe hole 144 is opened at an end of the second installation groove 142 away from the first installation groove 141 for the pipe of the sliding driving member 84 to pass through.

In order to reinforce the supporting strength of the connection portion between the first and second mounting grooves 141 and 142 of the top plate 14, two reinforcing posts 16 are disposed at the boundary position between the first and second mounting grooves 141 and 142 of the top plate 14, and the bottom ends of the reinforcing posts 16 are fixed to the cross member of the bottom frame 12.

A partition 17 is fixed to the base frame 12 to mount the hydraulic pump 10 and the oil tank 11. The bottom frame 12 is provided with heat dissipation holes 18 corresponding to the positions of the first motor 423 and the second motor 86 for dissipating heat generated by the first motor 423 and the second motor 86 during operation. Among four side faces of the rack 1 formed by the four supporting columns 13, three side faces are provided with protecting plates 131, and the other side face is an opening side for installing an electric cabinet. The bottom four corners of the bottom frame 12 are provided with lifting adjustable supporting feet 19.

Referring to fig. 10 and 13, in order to further improve the quality of the roll bending process, the roll bending machine further includes an anti-twisting support device 20, and the anti-twisting support device 20 is disposed on one side of the fixed base 2, which is located between the two axles 3 and opposite to the roll bending shaft 81. The anti-twisting support device 20 comprises a base 201, a sliding support 202, a rotating shaft 203, a support wheel 204 and a position adjusting assembly 205, wherein the base 201 is fixed on the fixing seat 2, the sliding support 202 is slidably arranged on the base 201, the rotating shaft 203 is vertically arranged on the sliding support 202, the support wheel 204 is rotatably arranged on the rotating shaft 203, and the position adjusting assembly 205 is used for adjusting the sliding support 202 to move on the base 201 so that the support wheel 204 and the roll bending wheel 82 respectively abut against two sides of the section to be bent. Therefore, the bending quality of the product can be ensured by avoiding the torsion deformation of the section to be bent in the roll bending process.

In order to adjust the height of the supporting wheel 204, a supporting nut 206 is screwed on the rotating shaft 203 below the supporting wheel 204, the supporting wheel 204 is supported on the supporting nut 206, and the supporting wheel 204 is driven to lift by rotating the supporting nut 206. In order to limit the axial sliding of the support wheel 204 along the rotating shaft 203, a limit sleeve 207 and a limit nut 208 are arranged on the rotating shaft 203 above the support wheel 204, and the limit nut 208 is screwed on the rotating shaft 203 at the top end of the limit sleeve 207.

The sliding support 202 includes a sliding bottom plate 2021, an upright plate 2022 and a top end block 2023, the bottom surface of the sliding bottom plate 2021 has a guide portion protruding downward, a guide groove 2011 sliding-fitted with the guide portion is formed on the base 201, the sliding bottom plate 2021 is slidably disposed in the guide groove 2011 of the base 201 through the guide portion, the upright plate 2022 is erected on the sliding bottom plate 2021, the top end block 2023 is disposed parallel to the sliding bottom plate 2021, one end of the top end block 2023 is fixed at the top end of the upright plate 2022, a space for installing the rotating shaft 203 is formed between the other end of the top end block 2023 and the sliding bottom plate 2021, and two ends of the rotating shaft 203 are respectively rotatably mounted on the top end block 2023 and the.

Position control subassembly 205 is including adjusting seat 2051 and screw rod 2052, adjust on seat 2051 is fixed in base 201, set up threaded hole on the regulation seat 2051, screw rod 2052 spiro union is in the threaded hole of adjusting seat 2051, the one end of screw rod 2052 rotationally connects on the riser 2022 of sliding support 202, its other end is handheld rotating part, drive sliding support 202 reciprocating slide through rotatory screw rod 2052, thereby adjust the supporting wheel 204 position on the sliding support 202, so that adapt to the section bar bending process of different curvatures.

The roll bending machine performs roll bending with different radii by using the principle of three-point circle, and the technical principle thereof is well known to those skilled in the art and is only briefly described here. When a plate or a section is subjected to roll bending processing by using a roll bending machine, the first motor 42 drives the die wheel 30 to rotate through the wheel shaft 3, the second motor 86 drives the roll bending wheel 82 to rotate through the roll bending shaft 81, a workpiece to be roll bent is fed from the die wheel 30 at one side and sequentially passes through the die wheel 30 at one side, the roll bending wheel 82 and the die wheel 30 at the other side, one side of the workpiece to be roll bent is abutted against the two die wheels 30, the other side of the workpiece to be roll bent is abutted against the roll bending wheel 82, the roll bending wheel 82 is equivalent to one tangent point in a circle, the two die wheels 30 are equivalent to two tangent points outside the circle according to a three-point circle principle, and the workpiece to be roll bent is bent and formed under the roll bending wheel 82 and the roll bending action of the two die wheels 30. Due to the rotation of the die wheel 30 and the roll bending wheel 82, and the pressure and friction force generated by the die wheel 30 and the roll bending wheel 82 and the two sides of the workpiece to be roll bent respectively, the workpiece to be roll bent is driven to move and automatically fed for continuous rolling, so that the workpiece to be roll bent is formed into a required bent shape.

The embodiments in the above embodiments can be further combined or replaced, and the embodiments are only described in the preferred embodiments of the present invention, which are not limited to the concept and scope of the present invention, and various changes and modifications made by the technical solutions of the present invention by those skilled in the art without departing from the design concept of the present invention all belong to the protection scope of the present invention.

Claims (5)

1. The utility model provides an improve axis body operating stability's bending roll machine, includes fixing base (2), two shaft (3) and rolls cambered axle (81), rolls cambered axle (81) and forms isosceles triangle with two shaft (3) and arranges, rolls cambered axle (81) and is located the perpendicular bisector of the axle center line of two shaft (3), and can follow the perpendicular bisector reciprocating sliding of the axle center line of two shaft (3), its characterized in that: the roll bending machine comprises two wheel axle seats (4) and a guide sliding body (83), a sliding groove (21) and a guide groove (22) perpendicular to the sliding groove (21) are formed in a fixed seat (2), the guide groove (22) extends to the sliding groove to divide the sliding groove (21) into two opposite sections, the two wheel axle seats (4) are respectively locked in the two sliding grooves (21) and can slide along the corresponding sliding groove sections after the locking is released so as to adjust the distance between the two wheel axle seats (4), two wheel axles (3) are respectively arranged on the wheel axle seats (4), the guide sliding body (83) is slidably arranged in the guide groove (22), a roll bending shaft (81) is arranged on the guide sliding body (83), a support frame (89) is further arranged on the guide sliding body (83) and used for supporting the top end of the roll bending shaft (81) to prevent the roll bending shaft (81) from swinging during rotation, and two auxiliary supports (36) are further arranged on the fixed seat (2), the top end of each wheel shaft (3) is respectively supported, so that the wheel shafts (3) are prevented from shaking when rotating.

2. The roll bending machine according to claim 1, wherein the supporting frame (89) comprises an upright (891) and a horizontal block (892), the upright (891) being established on the sliding guide (83), the horizontal block (892) being vertically mounted at a top end of the upright (891) to extend laterally with respect to the upright (891), and a top end of the roll bending shaft (81) being rotatably fitted over the horizontal block (892).

3. The roll bending machine according to claim 2, characterized in that the protruding end of the horizontal block (892) is provided with a bearing hole, a support bearing (893) is fixed in the bearing hole, and the top end of the roll bending shaft (81) is fixedly sleeved on the inner ring of the support bearing (893).

4. The roll bending machine according to claim 1, characterized in that the auxiliary support (36) comprises an upright column (361), a horizontal pull rod (362) and clamping nuts (365), wherein the upright column (361) is vertically arranged on the fixed base (2), a groove (366) is formed in the top end of the upright column (361), a thread is arranged at one end of the horizontal pull rod (362), a section with the thread is arranged in the groove (366), one end of the horizontal pull rod (362) with the thread is arranged in the groove (366), and the two clamping nuts (365) are sleeved on the thread section and clamped at two sides of the upright column (361) to clamp and fix the horizontal pull rod (362).

5. The roll bending machine according to claim 4, characterized in that the other end of the horizontal pull rod (362) is provided with a bearing sleeve (363), a top end bearing (364) is fixed in the bearing sleeve (363), and the top end of the wheel shaft (3) is fixedly sleeved on the inner ring of the top end bearing (364).

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