CN203541737U

CN203541737U - Inward-rotating type pipe beveling machine

Info

Publication number: CN203541737U
Application number: CN201320546862.5U
Authority: CN
Inventors: 窦长林
Original assignee: RUIYIN STAINLESS STEEL PRODUCTS Co Ltd
Current assignee: RUIYIN STAINLESS STEEL PRODUCTS Co Ltd
Priority date: 2013-09-04
Filing date: 2013-09-04
Publication date: 2014-04-16
Anticipated expiration: 2023-09-04

Abstract

The utility model discloses an inward-rotating type pipe beveling machine, comprising a clamping device, a support device, a base, a length adjusting mechanism and a bevel rotary cut mechanism, wherein the length adjusting mechanism is connected between the base and the bevel rotary cut mechanism for adjusting the length of a pipe to be processed, the clamping cushion at the inner side of the clamping device is provided with antiskid felt, the tightening device of the clamping device is connected with a lower fixture ring, a clamping driving device is connected with the tightening device and drives the same, a cut power device is connected with a disc and a rotating shaft and drives the same, a set of parallel sliding rails are fixed on the disc, the two ends of the parallel sliding rails are respectively connected with a cutter and a guide wheel, the cut power device drives the rotating shaft to feed axially and drives the cutter to cut a pipe bevel, and the guide wheel feed radically; the inward-rotating type pipe beveling machine integrates the clamping device and the bevel cutting device, is simple in structure, convenient to operate, small in size and saving in space, and improves the processing quality and efficiency of the pipe bevels.

Description

A kind of inner-rotary type pipeline beveling machine

Technical field

The utility model relates to pipeline slope cutting machine field, relates in particular to a kind of inner-rotary type pipeline beveling machine.

Background technology

At present, the method of pipe grooving machine generally adopts lathe grinding processing or oxyacetylene metal-cutting and hand operated grinding wheel grinding, the former bulky, Heavy Weight, only be applicable to fixed location processing, for Large Diameter Pipeline steel pipe, be only adapted at fixed location processing, but its processing surface quality poor, effect is low, and workpiece to be machined be heated after metal lattice can change.Corresponding material internal soundness changes, and causes that workpiece heatproof, withstand voltage properties reduce.

Utility model content

The purpose of this utility model is the deficiency existing in order to solve above-mentioned background technology, provide a kind of simple in structure, operating efficiency is high, machined surface quality, the pipe cutting groove machine of processing can be conveniently installed, can carry out cut processing and cut-out to large diameter steel pipe.

The technical scheme that the utility model adopts is: a kind of inner-rotary type pipeline beveling machine, and described beveling machine includes clamping device, bracing or strutting arrangement, base, described clamping device, bracing or strutting arrangement is linked in sequence respectively on base, and described beveling machine also includes length adjustment mechanism, groove rotary cutting body, described length adjustment mechanism is connected between base and groove rotary cutting body, and described length adjustment mechanism regulates required process pipeline length, and described clamping device includes driving clamping device, upper fixture circle, lower clamping ring, clamp pad, slipmat, tightening device, described lower clamp circle is fixed on base, described upper fixture circle is connected with lower clamp circle and at pipeline described in the fastening of when work, described clamp pad is fixed on fixture circle and lower clamp circle inner side, anti-skidding felt is set in described clamp pad, described tightening device is connected on lower clamp circle, and described driving clamping device connects and drives tightening device, and described groove rotary cutting body includes cutting propelling plant, rotating shaft, parallel sliding track, cutter, directive wheel, disk, described cutting propelling plant connects and driver plate and rotating shaft, on described disk, be fixed with one group of parallel sliding track, described parallel sliding track two ends are connected with respectively cutter and directive wheel, described cutting propelling plant drive shaft axial feed also drives cutter to cut described tube groove, described directive wheel radial feed.

Described length adjustment mechanism includes length adjustment motor, sliding support, and described length adjustment motor connects and drives sliding support, described sliding support to be connected between the slide rail of base and the slide rail of groove rotary cutting body and slides.

Described cutter comprises vertical cutter, horizontal cutter, tool holder, and described vertical cutter is two, and described horizontal cutter is a slice.

Described groove rotary cutting body also includes bearing, axle sleeve, disk reinforcement, described bearing) bottom surface leaves chute, described sliding support is slidable adjustment duct length in this chute, on described bearing, cutting propelling plant is installed, described axle sleeve connects bearing and disk, pullover rotating shaft in described axle sleeve, described disk reinforcement connecting bushing and disk, described disk reinforcement is strengthened disk intensity.

Described groove rotary cutting body also includes directive wheel bearing, directive wheel adjusting bolt, described directive wheel bearing connects and supporting guide wheel, described directive wheel adjusting bolt connects directive wheel bearing, and described directive wheel adjusting bolt regulates the axial feed size of directive wheel.

Described groove rotary cutting body also includes screw mandrel, screw mandrel bearing, clamping bearing, tool holder, described screw mandrel is fixed on disk by screw mandrel bearing, described screw mandrel be positioned at parallel sliding track center and which is provided with two with the supporting clamping bearing of its screw thread, described clamping bearing is equipped with respectively directive wheel bearing and tool holder.

Along the circumferential direction uniformly in described clamping device set up 4 anti-skidding felts, described anti-skidding felt is flexible material and compressible, and described anti-skidding felt is bonded in clamp pad.

The upper fixture circle of described clamping device is connected by rotating shaft with lower clamp circle, the folding around the shaft of described lower clamp circle.

Described tightening device comprises bush support, push rod, gear, described top stem casing is in bush support, described gear is connected on fixture circle and lower clamp circle, and described driving clamping device drives push rod, and described push rod engages with gear and drives upper fixture circle to clamp or unclamp described pipeline.

Described bracing or strutting arrangement comprises sloped footing and strut, and described strut is connected in sloped footing both ends of the surface, and described sloped footing is two vertex of a cone contact symmetrical fixed supports, and described sloped footing supports process pipeline, described strut auxiliary clamp pipeline.

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

1. collection clamping device and cut slope and be installed on one, has realized the automation of steel pipe punching press beveling machine;

2. apparatus structure is simple, easy to operate, the disposable cutting that completes steel pipe internal groove and outer groove;

3. device volume is little, takies processing space little, has saved space;

4. steel pipe cut crudy and efficiency have been improved.

Accompanying drawing explanation

Fig. 1 is that a kind of axle that waits of inner-rotary type pipeline beveling machine is surveyed view;

Fig. 2 is a kind of front view of inner-rotary type pipeline beveling machine;

Fig. 3 is a kind of top view of inner-rotary type pipeline beveling machine;

Fig. 4 is a kind of rotating circular disk sectional view of inner-rotary type pipeline beveling machine.

The specific embodiment

In order to deepen, to understanding of the present utility model, below in conjunction with drawings and Examples, the utility model to be further illustrated, this embodiment, only for explaining the utility model, does not form and limits protection domain of the present utility model.

As Figure 1-4, the utility model is a kind of inner-rotary type pipeline beveling machine, described beveling machine includes clamping device C, bracing or strutting arrangement D, base 21, described clamping device C, bracing or strutting arrangement D is linked in sequence respectively on base 21, described beveling machine also includes length adjustment mechanism A, groove rotary cutting body B, described length adjustment mechanism A is connected between base 21 and groove rotary cutting body B, described length adjustment mechanism A regulates required process pipeline length, described clamping device C includes driving clamping device 20, upper fixture circle 13, lower clamping ring 13a, clamp pad 15, slipmat 14, tightening device 18a, described lower clamp circle 13a is fixed on base 21, described upper fixture circle 13 is connected with lower clamp circle 13a and at pipeline described in the fastening of when work, described clamp pad 15 is fixed on fixture circle 13 and lower clamp circle 13a inner side, anti-skidding felt 14 is set in described clamp pad 15, described tightening device 18a is connected on lower clamp circle 13a, described driving clamping device 20 connects and drives tightening device 18a, described groove rotary cutting body B includes cutting propelling plant 3, rotating shaft 5d, parallel sliding track 6, cutter 9a, directive wheel 12, disk 5, described cutting propelling plant 3 connects and driver plate 5a and rotating shaft 5d, on described disk 5, be fixed with one group of parallel sliding track 6, described parallel sliding track 6 two ends are connected with respectively cutter 8 and directive wheel 12, described cutting propelling plant 3 drive shaft 5d axial feeds also drive cutter 6 to cut described tube groove, described directive wheel 12 radial feeds.

Length adjustment mechanism A comprises length adjustment power 1, sliding support 2, and described length adjustment power 1 connects and drives sliding support 2, described sliding support 2 to be connected between the slide rail of base 21 and the slide rail of groove rotary cutting body B and slides.

Cutter 8 comprises vertical cutter 9, horizontal cutter 10, tool holder 8a, and described vertical cutter 9 is two, and described horizontal cutter 10 is a slice.

Groove rotary cutting body B also includes bearing 4, axle sleeve 5a, disk reinforcement 5e, chute is left in described bearing 4 bottom surfaces, described sliding support 2 slidable adjustment duct length in this chute, on described bearing 4, cutting propelling plant 3 is installed, described axle sleeve 5a connects bearing 4 and disk 5, pullover rotating shaft 5d in described axle sleeve 5a, described disk reinforcement 5e connecting bushing 5a and disk 5, described disk reinforcement 5e strengthens disk 5 intensity.

Groove rotary cutting body B also includes directive wheel bearing 11, directive wheel adjusting bolt 5f, described directive wheel bearing 11 connects and supporting guide wheel 12, described directive wheel adjusting bolt 5f connects directive wheel bearing 11, and described directive wheel adjusting bolt 5f regulates the axial feed size of directive wheel 12.

Groove rotary cutting body B also includes screw mandrel 5b, screw mandrel bearing 5c, clamping bearing 7, tool holder 8, described screw mandrel 5b is fixed on disk 5 by screw mandrel bearing 5c, described screw mandrel 5b be positioned at parallel sliding track 6 centers and which is provided with two with the supporting clamping bearing 7 of its screw thread, described clamping bearing 7 is equipped with respectively directive wheel bearing 11 and tool holder 8a.

Along the circumferential direction uniformly in clamping device C set up 4 anti-skidding felts 14, described anti-skidding felt 14 is flexible material and compressible, described anti-skidding felt 14 is bonded in clamp pad 15, and the upper fixture circle 13 of clamping device C is connected by rotating shaft 16 with lower clamp circle 13a, described lower clamp circle 13a 16 foldings around the shaft.

Tightening device 18a comprises bush support 18, push rod 19, gear 17, described push rod 19 is enclosed within bush support 18, described gear 17 is connected on fixture circle 13 and lower clamp circle 13a, described driving clamping device 20 drives push rod 19, and described push rod 19 engages with gear 17 and drives upper fixture circle 13 to clamp or unclamp described pipeline.

Bracing or strutting arrangement D comprises sloped footing 22 and strut 23, described strut 23 is connected in sloped footing 22 both ends of the surface, described sloped footing 22 is two vertex of a cone contact symmetrical fixed supports, and described sloped footing 22 supports process pipeline, described strut 23 auxiliary clamp pipelines.

Beveling machine before use, directive wheel 12 regulates location by directive wheel adjusting bolt 5f, and use length adjustment power 1 to drive length adjustment mechanism A to adapt to pipeline clamping length, and clamping device C is driven in its tightening device 18a realization fixture circle 13 closures or is covered by its startup or electronic driving clamping device 20, with clamping pipe and to its processing.

During beveling machine work, use directive wheel 12 to guide machine direction, utilize cutting propelling plant 3 to drive groove rotary cutting body B carry out axial feed and cut tube groove the pipeline of processing.

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

3. device volume is little, takies processing space little, has saved space;

4. steel pipe cut crudy and efficiency have been improved.

What embodiment of the present utility model announced is preferred embodiment; but be not limited to this; those of ordinary skill in the art; very easily according to above-described embodiment; understand spirit of the present utility model; and make different amplifications and variation, but only otherwise depart from spirit of the present utility model, all in protection domain of the present utility model.

Claims

1. an inner-rotary type pipeline beveling machine, described beveling machine includes clamping device (C), bracing or strutting arrangement (D), base (21), described clamping device (C), bracing or strutting arrangement (D) is linked in sequence respectively on base (21), it is characterized in that: described beveling machine also includes length adjustment mechanism (A), groove rotary cutting body (B), described length adjustment mechanism (A) is connected between base (21) and groove rotary cutting body (B), described length adjustment mechanism (A) regulates required process pipeline length, described clamping device (C) includes driving clamping device (20), upper fixture circle (13), lower clamping ring (13a), clamp pad (15), slipmat (14), tightening device (18a), described lower clamp circle (13a) is fixed on base (21), described upper fixture circle (13) is connected with lower clamp circle (13a) and at pipeline described in the fastening of when work, described clamp pad (15) is fixed on fixture circle (13) and lower clamp circle (13a) inner side, anti-skidding felt (14) is set in described clamp pad (15), described tightening device (18a) is connected on lower clamp circle (13a), described driving clamping device (20) connects and drives tightening device (18a), described groove rotary cutting body (B) includes cutting propelling plant (3), rotating shaft (5d), parallel sliding track (6), cutter (9a), directive wheel (12), disk (5), described cutting propelling plant (3) connects and driver plate (5a) and rotating shaft (5d), on described disk (5), be fixed with one group of parallel sliding track (6), described parallel sliding track (6) two ends are connected with respectively cutter (8) and directive wheel (12), described cutting propelling plant (3) drive shaft (5d) axial feed also drives cutter (6) to cut described tube groove, described directive wheel (12) radial feed.

2. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: described length adjustment mechanism (A) includes length adjustment motor (1), sliding support (2), described length adjustment motor (1) connects and drives sliding support (2), described sliding support (2) to be connected between the slide rail of base (21) and the slide rail of groove rotary cutting body (B) and slides.

3. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: described cutter (8) comprises vertical cutter (9), horizontal cutter (10), tool holder (8a), described vertical cutter (9) is two, and described horizontal cutter (10) is a slice.

4. a kind of inner-rotary type pipeline beveling machine according to claim 2, it is characterized in that: described groove rotary cutting body (B) also includes bearing (4), axle sleeve (5a), disk reinforcement (5e), chute is left in described bearing (4) bottom surface, described sliding support (2) slidable adjustment duct length in this chute, cutting propelling plant (3) is installed on described bearing (4), described axle sleeve (5a) connects bearing (4) and disk (5), pullover rotating shaft (5d) in described axle sleeve (5a), described disk reinforcement (5e) connecting bushing (5a) and disk (5), described disk reinforcement (5e) is strengthened disk (5) intensity.

5. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: described groove rotary cutting body (B) also includes directive wheel bearing (11), directive wheel adjusting bolt (5f), described directive wheel bearing (11) connects and supporting guide wheel (12), described directive wheel adjusting bolt (5f) connects directive wheel bearing (11), and described directive wheel adjusting bolt (5f) regulates the axial feed size of directive wheel (12).

6. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: described groove rotary cutting body (B) also includes screw mandrel (5b), screw mandrel bearing (5c), clamping bearing (7), tool holder (8), described screw mandrel (5b) is fixed on disk (5) by screw mandrel bearing (5c), described screw mandrel (5b) be positioned at parallel sliding track (6) center and which is provided with two with the supporting clamping bearing (7) of its screw thread, described clamping bearing (7) is equipped with respectively directive wheel bearing (11) and tool holder (8a).

7. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: uniform 4 anti-skidding felts (14) of setting up along the circumferential direction in described clamping device (C), described anti-skidding felt (14) is flexible material and compressible, and described anti-skidding felt (14) is bonded in clamp pad (15).

8. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: the upper fixture circle (13) of described clamping device (C) is connected by rotating shaft (16) with lower clamp circle (13a), and described lower clamp circle (13a) is (16) folding around the shaft.

9. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: described tightening device (18a) comprises bush support (18), push rod (19), gear (17), described push rod (19) is enclosed within bush support (18), described gear (17) is connected on fixture circle (13) and lower clamp circle (13a), described driving clamping device (20) drives push rod (19), and described push rod (19) engages with gear (17) and drives upper fixture circle (13) to clamp or unclamp described pipeline.

10. a kind of inner-rotary type pipeline beveling machine according to claim 1, it is characterized in that: described bracing or strutting arrangement (D) comprises sloped footing (22) and strut (23), described strut (23) is connected in sloped footing (22) both ends of the surface, described sloped footing (22) is two vertex of a cone contact symmetrical fixed supports, described sloped footing (22) supports process pipeline, described strut (23) auxiliary clamp pipeline.