CN113146144A - Aluminum pipe surface knurling system and processing method - Google Patents

Abstract

The invention relates to the field of knurling, in particular to a knurling system and a knurling method for the surface of an aluminum tube; the method comprises the following steps: the device is placed at a position where the aluminum pipe is to be processed and is fixed through a base sliding rail; placing the aluminum pipe with larger diameter to be subjected to knurling into a device, and clamping the aluminum pipe according to a diameter adjusting device of the aluminum pipe to be processed so that a knurling roller is tightly attached to the aluminum pipe; knurling the slowly rotating aluminum pipe by adjusting inward micro displacement of the knurling roller; after the processing is finished, the aluminum pipe is taken out by the tightening and loosening device; the aluminum pipe with larger diameter can be conveniently and rapidly subjected to effective knurling; the portable aluminum pipe knurling machine is convenient to carry and transport, and can be used for knurling a large-diameter field aluminum pipe which is inconvenient to transport; the surface knurling processing can be carried out on the aluminum pipe with a complex shape, and the depth of the knurling processing can be conveniently determined.

Description

Aluminum pipe surface knurling system and processing method

Technical Field

The invention belongs to the field of knurling, and particularly relates to a knurling system and a knurling method for the surface of an aluminum tube.

Background

The existing mode for processing the aluminum pipe is to carry out knurling processing by a lathe, but the existing mode is not convenient and practical and is not used for processing the aluminum pipe with larger diameter; the patent number 201810116463.2 discloses a warp yarn inkjet printing device and method with pressure penetration by a pressure roller, which comprises an unwinding unit, a feeding guide assembly and a bearing assembly, wherein the unwinding unit comprises a driving assembly, the feeding guide assembly and the bearing assembly, the driving assembly and the feeding guide assembly are both arranged on the bearing assembly, and the driving assembly is arranged at one end of the feeding guide assembly; the ink-jet printing unit is arranged on the bearing assembly; the drying unit is positioned at one end of the first adjusting assembly of the ink-jet printing unit; according to the invention, the first adjusting component and the second adjusting component are respectively added on two sides of the printing guide component, so that the evenness of the warp yarn sheet can be improved, the position of the warp yarn sheet can be controlled, the permeation rate of ink can be improved under the pressure applying and permeation action of the first adjusting component, and the method is favorable for improving the printing stability and the printing quality; meanwhile, the device is additionally provided with the ink collecting box, so that redundant ink on the warp yarns can be collected conveniently, resources are saved, and the device has important economic and environment-friendly values. However, this device is not effective in knurling an aluminum pipe having a relatively large diameter.

Disclosure of Invention

The invention aims to provide a knurling system and a knurling method for the surface of an aluminum pipe, which have the beneficial effects that the aluminum pipe with larger diameter can be conveniently and quickly knurled effectively.

The purpose of the invention is realized by the following technical scheme:

the invention aims to provide a knurling processing method for the surface of an aluminum pipe, which comprises the following steps:

the method comprises the following steps that firstly, a device is placed at a position where an aluminum pipe is to be processed and is fixed through a base sliding rail;

secondly, placing the aluminum pipe with larger diameter to be subjected to knurling into a device, and clamping the aluminum pipe according to the diameter adjusting device of the aluminum pipe to be processed to enable the knurling roller to be tightly attached to the aluminum pipe;

thirdly, knurling the slowly rotating aluminum pipe by adjusting inward micro displacement of the knurling roller;

and step four, after the machining is finished, the aluminum pipe is taken out by the tightening and loosening device.

The aluminum pipe surface knurling processing method uses an aluminum pipe surface knurling processing system;

a knurling system is pressed from both sides tight annular knurl seat and knurling roller including central arc regulation seat, arc, the both ends of central arc regulation seat slide two arcs respectively and press from both sides tight annular knurl seat, the inner wall that the annular knurl seat is pressed from both sides to the arc passes through bolt fixed connection knurling roller. The form between the arc-shaped clamping knurling seat and the central arc-shaped adjusting seat is changed in a hinged mode, and knurling clamping processing is conveniently carried out on the aluminum pipe with the larger diameter.

The both ends that the seat was adjusted to central arc are provided with two respectively and extend the arc wall, extend and slide in the arc wall to be provided with the arc extension rod that is used for the tight annular knurl seat of articulated arc clamp, and fixedly connected with is used for two pivot seats of the tight annular knurl seat of articulated arc clamp on the arc extension rod of sliding.

The arc-shaped clamping knurled seat is fixedly extended with a manual adjusting screw shaft which is used for sliding and hinging, and the manual adjusting screw shaft is rotatably connected in the two rotating shaft seats.

The aluminum pipe surface knurling processing method further comprises an arc extension adjusting seat used for extending the arc clamping knurling seat, wherein the arc extension adjusting seat is fixedly connected to the middle end of the central arc adjusting seat, and two ends of the arc extension adjusting seat are respectively and fixedly connected to the arc clamping knurling seat.

The device is movably placed at the position of an aluminum pipe or an aluminum pipe elbow with a larger diameter to be processed, the aluminum pipe is rotated or reciprocated and displaced in the device according to the actual situation of the aluminum pipe, and the whole device is attached to the aluminum pipe and clamped by adjusting the device; knurling the rotary aluminum pipe with a large diameter; meanwhile, when knurling is to be performed on the aluminum pipe elbow, knurling for attaching can be performed on the aluminum pipe elbow by rotating the adjusting device to form a shape which is attached to the aluminum pipe elbow and driving the aluminum pipe elbow to move according to a specified track; conveniently turn to simultaneously, it is practical and also can accord with the regulation of environment fixedly according to the actual processing environment of difference with processing the aluminum pipe of complex construction.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects that the aluminum pipe with larger diameter can be conveniently and quickly subjected to effective knurling; the portable aluminum pipe knurling machine is convenient to carry and transport, and can be used for knurling a large-diameter field aluminum pipe which is inconvenient to transport; the surface knurling processing can be carried out on the aluminum pipe with a complex shape, and the depth of the knurling processing can be conveniently determined.

Drawings

FIG. 1 is a first schematic structural view of a central arcuate adjustment block and arcuate clamping knurl block of the present invention;

FIG. 2 is a second schematic structural view of the central arcuate adjustment block and the arcuate clamping knurl block of the present invention;

FIG. 3 is a schematic view of the central arcuate adjustment block of the present invention;

FIG. 4 is a schematic view of the construction of the arcuate clamping knurl seat of the present invention;

FIG. 5 is a partial structural schematic of the present invention;

FIG. 6 is a schematic view of the arcuate elongated adjustment block of the present invention;

FIG. 7 is a schematic view of the combination locking socket of the present invention;

FIG. 8 is a first general structural view of the present invention;

FIG. 9 is a second overall configuration of the present invention;

FIG. 10 is a schematic view of the steering drive and clamp configuration of the present invention;

FIG. 11 is a schematic view of the construction of the steering drive of the present invention;

fig. 12 is a schematic view of the structure of the clamping adjustment of the present invention.

In the figure: a central arc-shaped adjusting seat 1; two arc clamping knurling seats 2; a knurling roller 3; an extension arc-shaped slot 4; two spindle bases 5; an arc-shaped extension rod 6; a manual adjusting screw shaft 7; an arc-shaped extension adjusting seat 8; a central adjusting table 8-1; an extension adjustment shaft 8-2; two extending arc-shaped hinge rods 8-3; the arc-shaped rod is connected with the table 8-5; a combined locking seat 9; extending the locking slipway 9-1; two locking slide bars 9-2; two locking tooth tables 9-3; a gear shaft 10; two slide adjusting tables 11; two racks 12; two L-shaped sliding bars 13; a steering driver 14; a base table 15 and a rotation adjustment gear shaft 16.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The device is movably placed at the position of an aluminum pipe or an aluminum pipe elbow with a larger diameter to be processed, the aluminum pipe is rotated or reciprocated and displaced in the device according to the actual situation of the aluminum pipe, and the whole device is attached to the aluminum pipe and clamped by adjusting the device; knurling the rotary aluminum pipe with a large diameter; meanwhile, when knurling is to be performed on the aluminum pipe elbow, knurling for attaching can be performed on the aluminum pipe elbow by rotating the adjusting device to form a shape which is attached to the aluminum pipe elbow and driving the aluminum pipe elbow to move according to a specified track; conveniently turn to simultaneously, it is practical and also can accord with the regulation of environment fixedly according to the actual processing environment of difference with processing the aluminum pipe of complex construction.

As shown in the embodiment shown here, the working process according to an example of the aluminum pipe surface knurling system shown in FIGS. 1 and 2 is:

the arc-shaped clamping knurling seats 2 are hinged and adjusted on the central arc-shaped adjusting seats 1, so that the arc-shaped clamping knurling seats 2 are adjusted in position on the central arc-shaped adjusting seats 1, the arc-shaped clamping knurling seats 2 and the central arc-shaped adjusting seats 1 form bases capable of attaching to an aluminum pipe, after the bases are fixed, knurling rollers 3 can be attached to the outer wall of the aluminum pipe conveniently, and when the aluminum pipe rotates, knurling is conducted on the outer wall of the aluminum pipe conveniently through the closely attached knurling rollers 3; simultaneously, knurling rollers 3 with different patterns can be assembled and disassembled on the arc-shaped clamping knurling base 2 according to the knurling with different patterns to be processed.

Further optimization in conjunction with the above examples:

further working process according to an example of the aluminum pipe surface knurling system shown in fig. 3 and 4 is as follows:

two through adjusting 1 both ends at central arc extend arc wall 4, and then inject the slip of arc extension rod 6 in extending arc wall 4, and then make two pivot seats 5 on arc extension rod 6 and the arc extension rod 6 can be through the injecing in extending arc wall 4, it slides to carry out the arc, and then can make the arc press from both sides tight annular knurl seat 2 and carry out the arc extension at the both ends that seat 1 was adjusted to central arc, the increase carries out the tight laminating area of clamp of annular knurl processing to the aluminum pipe, ensure to carry out the efficiency of annular knurl processing to the aluminum pipe surface, and then conveniently be applied to carry out the surface annular knurl processing to the great aluminum pipe of the diameter that the lathe is unsuitable to process.

Further optimization in conjunction with the above examples:

further working process according to an example of the aluminum pipe surface knurling system shown in fig. 3 and 4 is as follows:

through the rotation of the manual adjusting screw shaft 7 between the two rotating shaft seats 5 and the manual rotation of the manual adjusting screw shaft 7, the arc-shaped clamping knurled seat 2 can be driven to rotate by taking the manual adjusting screw shaft 7 as the center of a circle, so that the arc-shaped clamping knurled seat 2 is subjected to angle rotation adjustment on the central arc-shaped adjusting seat 1, the processing fixing direction of the whole knurling roller 3 is changed, and the knurling processing of the aluminum pipe is facilitated, and the processing of different forms, such as surface knurling of an elbow or a threaded aluminum pipe, is coped with; the processing mode of diversity is presented in the condition of coping with various different processing aluminum pipes, and the processing of the various types of the device is convenient.

Further optimization in conjunction with the above examples:

further according to the working process of an example of the aluminum pipe surface knurling system shown in fig. 5 and 6, the following is carried out:

adjust seat 8 through adjusting the arc extension, make the arc extension adjust seat 8 press from both sides tight annular knurl seat 2 through the drive arc and extend on central arc adjusts seat 1, make the arc press from both sides the extending direction who presss from both sides tight annular knurl seat 2 through arc extension rod 6 and has injectd to the fixed of extension, the convenient matching carries out the clamp of annular knurl processing to the aluminum pipe tightly and laminates.

Further optimization in conjunction with the above examples:

further according to the working process of an example of the aluminum pipe surface knurling system shown in fig. 5 and 7, the following is carried out:

through operation combination locking seat 9, make combination locking seat 9 to the manual screw shaft 7 that can rotate meshing mutually, inject and fix the rotation of manual screw shaft 7 through the meshing, and then the central arc that turns to the laminating aluminum pipe angle that rotatory manual screw shaft 7 confirmed adjusts seat 1 and the tight annular knurl seat 2 of arc clamp and fix, and then make knurling roller 3 can carry out inseparable laminating with the aluminum pipe that will carry out processing, make things convenient for the processing of annular knurl.

Further optimization in conjunction with the above examples:

further working process according to an example of the aluminum pipe surface knurling system shown in fig. 8 and 9 is:

the rotation of gear shaft 10 is driven through the slip of rack 12, and then the tight annular knurl seat 2 of drive center arc regulation seat 1 and arc clamp turns to, and then make the knurling roller 3 take place to turn to, through the change of extension and angle, cooperation knurling roller 3 turns to, and then make whole device change the interpolation direction of aluminum pipe, and then the condition that the processing will be carried out to the condition and the aluminum pipe pattern of cooperation actual processing scene, conveniently carry out the aluminum pipe interpolation and the processing of different interpolation orientations of practical use, the convenience is to the practical application at actual processing scene, when making whole device portable, and is more practical.

Further optimization in conjunction with the above examples:

further working process according to an example of the aluminum pipe surface knurling system shown in FIGS. 10, 11 and 12 is:

connect the electricity through turning to driver 14, and then drive two L shape slide bars 13 and slide in sliding adjusting platform 11, and then make rack 12 drive gear shaft 10 rotatory, and then realize that central arc adjusts seat 1 and the tight annular knurl seat 2 automatic drive of arc clamp and turn to, the while operation that conveniently turns to, through electric control, make the central arc of both sides adjust seat 1 and the tight annular knurl seat 2 synchronous steering of arc clamp, avoid appearing the skew in the annular knurl course of working, cause the error.

Further optimization in conjunction with the above examples:

further working process according to an example of the aluminum pipe surface knurling system shown in FIGS. 10, 11 and 12 is:

the whole device is convenient to carry and use by installing, fixing and disassembling the base table 15, when knurling is required, the device can be fixed through foundation bolts by fixedly connecting the base table 15 to a sliding rail which transversely displaces or the ground according to the environment to be processed and conveniently driving the displacement and rotation of an aluminum pipe; when the aluminum pipe to be processed can only rotate and cannot realize displacement, the device needs to be fixed on a sliding rail, so that the device can be conveniently transversely displaced, and knurling processing can be conveniently carried out on the surface of the whole aluminum pipe.

Further optimization in conjunction with the above examples:

further working process according to an example of the aluminum pipe surface knurling system shown in FIGS. 10 and 12 is:

the two sliding adjusting tables 11 synchronously move inwards or outwards on the base table 15 by rotating the adjusting gear shaft 16, and then the central arc adjusting seat 1 and the arc clamping knurled seat 2 are driven to move inwards or outwards by the gear shaft 10, so that after the shape and the style of the aluminum pipe to be clamped are determined, the positioned knurled roller 3 is fixed by rotating the adjusting gear shaft 16; the rotary adjusting gear shaft 16 is fixed through a centre; the depth of knurling is adjusted by rotating the adjusting gear shaft 16.

Further optimization in conjunction with the above examples:

further, the arc-shaped extension adjusting seat 8 comprises a center adjusting platform 8-1, an extension adjusting shaft 8-2, two extension arc-shaped hinged rods 8-3 and an arc-shaped rod connecting platform 8-5, the center adjusting platform 8-1 is fixedly connected to the outer wall of the center arc-shaped adjusting seat 1, the extension adjusting shaft 8-2 is rotatably connected to the inner wall of the center adjusting platform 8-1 and drives the two extension arc-shaped hinged rods 8-3 through gear engagement, the two extension arc-shaped hinged rods 8-3 are connected with each other in a sliding mode, the two extension arc-shaped hinged rods 8-3 are respectively and fixedly connected with the arc-shaped rod connecting platform 8-5, and the arc-shaped rod connecting platform 8-5 is fixedly connected to the arc-shaped clamping knurled seat 2.

This section works according to an example of a knurling system for the surface of an aluminum pipe shown in FIG. 6:

lead to rotation regulation extension regulating spindle 8-2, and then make two take place the arc displacement between extending arc articulated mast 8-3 through gear engagement, and then make arc mast connection platform 8-5 drive two arcs and press from both sides tight annular knurl seat 2 and extend, realize the arc and extend, conveniently carry out effectual parcel and carry out effective quick annular knurl processing to the processing aluminum pipe.

Further optimization in conjunction with the above examples:

the combined locking seat 9 further comprises an extension locking sliding table 9-1, two locking sliding rods 9-2 and two locking tooth platforms 9-3, the extension locking sliding table 9-1 is connected to the central arc-shaped adjusting seat 1 through a limiting sliding block in a sliding manner, the extension locking sliding table 9-1 is hinged to the two locking tooth platforms 9-3 through the two locking sliding rods 9-2, and the two locking tooth platforms 9-3 are connected to the central arc-shaped adjusting seat 1 through arc-shaped limiting sliding blocks in a sliding manner; the two locking tooth platforms 9-3 are respectively meshed with the two manual adjusting screw shafts 7.

This section works according to an example of a knurling system for the surface of an aluminum pipe shown in FIG. 7:

the locking sliding table 9-1 slides on the central arc-shaped adjusting seat 1 through operation, and then the two locking tooth tables 9-3 are driven to slide on the central arc-shaped adjusting seat 1 in an arc shape through the two locking sliding rods 9-2, so that the manual adjusting screw shaft 7 after angle adjustment is locked in a meshing manner, and the phenomenon that offset occurs in the machining process and the knurling machining effect is influenced is avoided.

Further optimization in conjunction with the above examples:

the extension arc-shaped hinge rod 8-3 is further formed by hinging two arc-shaped rods.

This section works according to an example of a knurling system for the surface of an aluminum pipe shown in FIG. 6:

through extending two arc pole articulated links on the arc articulated link 8-3, and then make central arc adjust seat 1 and the tight annular knurl seat 2 of arc clamp adjust turning to of the tight annular knurl seat 2 of arc clamp after the process of extension, avoid appearing the phenomenon of interfering through extending two arc pole articulated links on the arc articulated link 8-3, make things convenient for the different use of whole device to aluminum pipe annular knurl processing.

Further optimization in conjunction with the above examples:

further, the number of the L-shaped sliding rods 13 is two, the two L-shaped sliding rods 13 are connected in a sliding mode, and the two L-shaped sliding rods 13 are connected in the two sliding adjusting tables 11 in a sliding mode through sliding blocks.

This section works according to an example of a knurling system for the surface of an aluminum pipe shown in FIG. 11:

through the mutual sliding between the two extending arc-shaped hinged rods 8-3, the phenomenon that the two sliding adjusting tables 11 interfere is avoided when the aluminum pipe is tightly clamped by locking while the two extending arc-shaped hinged rods 8-3 are synchronously driven, and the device is convenient to use in the actual adjusting process.

Claims (10)

1. A knurling processing method for the surface of an aluminum pipe is characterized in that: the method comprises the following steps:

the method comprises the following steps that firstly, a device is placed at a position where an aluminum pipe is to be processed and is fixed through a base sliding rail;

secondly, placing the aluminum pipe to be subjected to knurling into a device, and clamping the aluminum pipe according to a diameter adjusting device of the aluminum pipe to be processed to enable the knurling roller to be tightly attached to the aluminum pipe;

thirdly, knurling the slowly rotating aluminum pipe by adjusting inward micro displacement of the knurling roller;

and step four, after the machining is finished, the aluminum pipe is taken out by the tightening and loosening device.

2. The aluminum pipe surface knurling processing method as claimed in claim 1, wherein the aluminum pipe surface knurling processing method uses an aluminum pipe surface knurling processing system;

the aluminum pipe surface knurling system comprises a central arc adjusting seat (1), arc clamping knurling seats (2) and knurling rollers (3), wherein the two ends of the central arc adjusting seat (1) are respectively hinged with the two arc clamping knurling seats (2) in a sliding mode, and the inner walls of the arc clamping knurling seats (2) are fixedly connected with the knurling rollers (3) through bolts.

3. An aluminum pipe surface knurling processing method according to claim 2 wherein two extending arc grooves (4) are respectively arranged at two ends of the central arc adjusting seat (1), an arc extending rod (6) for sliding and hinging the arc clamping knurling seat (2) is arranged in the extending arc grooves (4), and two rotating shaft seats (5) for sliding and hinging the arc clamping knurling seat (2) are fixedly connected to the arc extending rod (6).

4. A process for knurling an aluminum pipe surface as defined in claim 3 wherein said arcuate clamping knurled base (2) has a manually adjustable screw shaft (7) extending therefrom for sliding articulation, said manually adjustable screw shaft (7) being rotatably connected within two rotatable shaft bases (5).

5. An aluminum pipe surface knurling processing method according to claim 2 further comprising an arc extension adjusting seat (8) for extending the arc clamping knurling seat (2), wherein said arc extension adjusting seat (8) is fixedly connected to the middle end of the central arc adjusting seat (1), and both ends of the arc extension adjusting seat (8) are respectively fixedly connected to the arc clamping knurling seat (2).

6. An aluminum pipe surface knurling processing method according to claim 5 further comprising a combined locking seat (9) for locking and fixing the arc-shaped clamping knurling seat (2), wherein said combined locking seat (9) is transversely slidably connected to the central arc-shaped adjusting seat (1), and both ends of the combined locking seat (9) are engaged with the hand-adjusting screw shaft (7).

7. A knurling process on the surface of an aluminum pipe according to claim 2 wherein the outer end of said central arcuate adjustment seat (1) is fixedly connected to a gear shaft (10) for steering, the gear shaft (10) is engaged with a rack (12) for engaging and driving the steering, and the gear shaft (10) is rotatably connected to a slide adjustment table (11) for clamping the central arcuate adjustment seat (1).

8. An aluminum pipe surface knurling processing method according to claim 7 wherein said rack bar (12) is slidably connected in the slide adjusting table (11) by a limit slider, the rack bar (12) is fixedly connected to an L-shaped slide bar (13) for driving engagement with the driving gear shaft (10), and the L-shaped slide bar (13) drives a steering driver (14) for driving steering of the central arc adjusting seat (1) by rack and pinion engagement.

9. An aluminum pipe surface knurling process according to claim 8 wherein said slide adjusting table (11) is slidably attached to a base table (15) for fixing means by a stopper slider.

10. A knurling machining method for an aluminum pipe surface according to claim 9 wherein a rotation adjusting gear shaft (16) for adjusting the clamping of the aluminum pipe is rotatably provided on said base table (15), and both ends of the rotation adjusting gear shaft (16) are connected to the two slide adjusting tables (11) by a rack and pinion engagement transmission.

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