CN211192258U - Steel pipe both ends flush device - Google Patents

Abstract

The utility model discloses a steel pipe both ends aligning device, which relates to the technical field of steel pipe processing equipment and comprises an aligning machine and a transmission mechanism arranged on the feeding side of the aligning machine, wherein the transmission mechanism comprises a frame, a horizontal transmission component arranged on the frame and used for supporting and driving the steel pipe to move axially and a material supporting plate horizontally arranged at the inner side of the horizontal transmission component, and the material supporting plate is movably arranged in the vertical direction; the rack is provided with a lifting driving piece for driving the retainer plate to move up and down and a rotary driving piece for driving the retainer plate to rotate; the lowest position of the retainer plate is lower than the erection position of the steel pipe on the horizontal conveying component, and the highest position of the retainer plate is higher than the erection position of the steel pipe on the horizontal conveying component. The utility model provides a job stabilization, the simple operation can realize the continuous flush operation in steel pipe both ends, can indirectly improve steel pipe both ends flush device of steel pipe machining efficiency.

Description

Steel pipe both ends flush device

Technical Field

The utility model relates to a steel pipe machining equipment technical field especially relates to a steel pipe both ends flush device.

Background

After the steel pipe is machined and formed, the end part of the steel pipe is usually not smooth enough or has more burrs; before the steel pipe leaves the factory, a manufacturer needs to process the end part of the steel pipe, and the end part of the steel pipe is ensured to be flat and free of burrs.

The utility model discloses a current grant bulletin number is CN 202447748U's utility model discloses a flush machine of galvanized steel pipe, including support, motor, main cutting axle, main cutting shaft support, guide cylinder mount, cylinder mount, at the parallel left and right guide cylinder support of adorning in support mesa upper portion interval, left and right guide cylinder support is coaxial setting, wherein adorns a main cutting shaft support in the left guide cylinder support outside admittedly, adorns a cylinder mount in the right guide cylinder support outside admittedly, horizontal sliding installation guide cylinder between two guide cylinder supports, coaxial arrangement main cutting axle in this guide cylinder.

When the technical scheme is adopted for steel pipe flush operation, a steel pipe is placed on the upper portion of the steel pipe supporting block, the wrench is pushed forwards, the blocking piece is lifted, the cylinder is opened by the switch valve, the piston of the cylinder descends, the square fixing block is pressed on the steel pipe to be fixed, meanwhile, the cutter moves forwards, the end portion of the steel pipe is cut, and the end portion of the steel pipe is leveled. However, when the flush machine is used for performing the flush operation on the steel pipe, after the leveling operation of one end of the steel pipe is finished, a worker is required to manually turn the steel pipe by 180 degrees, and then the flush operation can be performed on the other end of the steel pipe, so that the operation is inconvenient, and the production efficiency of the steel pipe is indirectly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel pipe both ends flush device utilizes the automatic switch-over that holds in the palm flitch, lifting drive spare and rotary driving spare realization steel pipe steel both ends, and then realizes the continuous flush operation at steel pipe both ends, improves the convenience of operation greatly, improves the production efficiency of steel pipe indirectly.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a steel pipe two-end aligning device comprises an aligning machine and a conveying mechanism which is arranged on the feeding side of the aligning machine and used for feeding the aligning machine, wherein the conveying mechanism comprises a rack, a horizontal conveying assembly which is arranged on the rack and used for supporting and driving a steel pipe to move axially and a material supporting plate which is horizontally erected on the inner side of the horizontal conveying assembly, and the material supporting plate is movably arranged in the vertical direction; the rack is provided with a lifting driving piece for driving the retainer plate to move up and down and a rotary driving piece for driving the retainer plate to rotate; the lowest position of the retainer plate is lower than the erection position of the steel pipe on the horizontal conveying component, and the highest position of the retainer plate is higher than the erection position of the steel pipe on the horizontal conveying component.

The utility model discloses further set up to: a mounting frame is arranged below the retainer plate, and a supporting shaft with the upper end fixedly connected with the retainer plate is arranged on a vertical rotating frame on the mounting frame; the rotary driving part is a servo motor fixedly arranged on the mounting rack, and an output shaft of the servo motor is coaxially fixed with the lower end of the supporting shaft.

The utility model discloses further set up to: the mounting frame is movably arranged up and down on the rack; the lifting driving piece is a lifting driving oil cylinder, the lifting driving oil cylinder is fixedly arranged on the rack and located under the mounting rack, and the end part of a piston rod of the lifting driving oil cylinder is fixedly connected with the lower side of the mounting rack.

The utility model discloses further set up to: the upper side of the material supporting plate is concavely formed with a plurality of limiting grooves which are arranged in parallel at intervals, and each limiting groove extends along the axial direction of the steel pipe.

The utility model discloses further set up to: and the inner wall of the limiting groove is fixedly attached with a magnetic absorption layer.

The utility model discloses further set up to: the horizontal conveying assembly comprises a plurality of supporting rollers which are horizontally and rotatably erected on the rack, and the supporting rollers are arranged in parallel at intervals in the axial direction of the steel pipe; still be equipped with horizontal transport motor and drive assembly in the frame, horizontal transport motor passes through drive assembly and is connected with each backing roll transmission.

The utility model discloses further set up to: the fixed cover is equipped with the antiskid cover that is used for the butt steel pipe on the backing roll.

The utility model discloses further set up to: and a plurality of annular grooves which are continuously distributed along the axial direction of the corresponding supporting roll are formed on the outer surface of the anti-slip sleeve.

To sum up, the utility model discloses a beneficial technological effect does:

(1) when the lifting driving piece is used for driving the material supporting plate to ascend and supporting the steel pipe, the rotating driving piece is used for driving the material supporting plate and the steel pipe to integrally rotate by 180 degrees, so that automatic switching of two ends of the steel pipe is realized, continuous flush operation of two ends of the steel pipe is conveniently realized, convenience of field operation is greatly improved, and the machining efficiency of the steel pipe is indirectly improved;

(2) through set up the spacing groove on holding in the palm the flitch to the laminating sets up the magnetic layer of inhaling on spacing inslot wall, the cooperation sets up the antiskid cover that has the ring channel on the backing roll lateral wall, places the steel pipe and drops from transport mechanism, improves the stability of steel pipe processing operation greatly.

Drawings

Fig. 1 is an axial view of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a back-up roll in an embodiment of the invention;

fig. 3 is a schematic structural diagram of an embodiment of the present invention, which is mainly used for embodying the installation manner of the retainer plate.

Reference numerals: 1. a head aligning machine; 2. a frame; 3. a support roller; 31. an anti-slip sleeve; 311. an annular groove; 4. a horizontal conveying motor; 5. a sprocket mechanism; 6. a material supporting plate; 61. a limiting groove; 611. a magnetic absorption layer; 7. mounting a plate; 71. a slide bar; 8. a mounting frame; 9. a lifting drive oil cylinder; 10. a support shaft; 11. a servo motor; 12. a gear mechanism.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to the attached figure 1, the device for aligning two ends of the steel pipe comprises a head aligner 1 and a conveying mechanism arranged on the feeding side of the head aligner 1; the conveying mechanism is mainly used for feeding the head aligning machine 1, and the head aligning machine 1 is used for finishing head aligning operation of the end portion of the steel pipe. Specifically, the heading machine 1 may adopt the existing heading machine 1 provided in the background art, and the specific structure thereof may refer to a reference document cited in the background art, which is not described herein for further details.

Referring to the attached drawing 1, the conveying mechanism comprises a frame 2 arranged on the feeding side of the head aligner 1, and a horizontal conveying assembly is arranged on the frame 2, supports the steel pipes and can drive the steel pipes to feed towards the head aligner 1. Specifically, horizontal transfer subassembly includes that a plurality of levels erect the backing roll 3 in frame 2, and the both ends of arbitrary backing roll 3 all are rotated through bearing and frame 2 and are connected, and each backing roll 3 is parallel interval setting on the steel pipe axial direction. Meanwhile, the horizontal conveying assembly also comprises a horizontal conveying motor 4 fixedly arranged on the rack 2 and a transmission assembly connected with the horizontal conveying motor 4; the transmission component can adopt a chain wheel mechanism 5, and a horizontal conveying motor 4 is in transmission connection with the supporting rollers 3 through the chain wheel mechanism 5. In operation, the horizontal conveying motor 4 can drive the supporting rollers 3 to synchronously rotate through the chain wheel mechanism 5.

Combine figure 2, for avoiding the steel pipe to skid on backing roll 3, 3 outside covers of backing roll are equipped with antiskid cover 31, and the material of antiskid cover 31 can adopt rubber, and can set antiskid cover 31 and backing roll 3 into joint complex structural style, prevents that antiskid cover 31 from taking place to become flexible on backing roll 3. Meanwhile, a plurality of annular grooves 311 which are continuously distributed along the axial direction of the supporting roller 3 are uniformly formed on the outer surface of the anti-slip sleeve 31, and each annular groove 311 corresponds to a steel pipe; the depth of the annular groove 311 is not too deep, the specific depth needs to be determined according to the diameter of the steel pipe, and the steel pipe is ensured not to move axially along the supporting roller 3.

Referring to fig. 3, a material supporting plate 6 is horizontally disposed on the inner side of the frame 2, and a lifting driving member for driving the material supporting plate 6 to move up and down and a rotating driving member for driving the material supporting plate 6 to rotate in the horizontal plane are disposed below the material supporting plate 6. In the work, the lifting driving piece can drive the retainer plate 6 to ascend and lift the steel pipes from the supporting rollers 3, and the rotary driving piece can drive the retainer plate 6 and the steel pipes to integrally rotate 180 degrees, so that the automatic switching of the two ends of the steel pipes is completed.

Specifically, in order to ensure the stability of the steel pipes on the retainer plate 6, a plurality of limiting grooves 61 for embedding the steel pipes are concavely formed on the upper side of the retainer plate 6, and each limiting groove 61 extends along the axial direction of the steel pipe; meanwhile, a magnetic attraction layer 611 is further attached to the inner wall of the limiting groove 61, and the magnetic attraction layer 611 can be made of a strong magnet.

A mounting plate 7 which is horizontally arranged is welded and fixed on the lower side of each supporting roller 3 of the frame 2; four sliding rods 71 are vertically fixed on the upper side of the mounting plate 7, and the projection of each sliding rod 71 on the mounting plate 7 is enclosed into a rectangular or square structure. A mounting frame 8 is also arranged above the mounting plate 7; the sliding rods 71 vertically penetrate through the bottom plate of the mounting frame 8 and are in sliding fit with the bottom plate, so that the mounting frame 8 can be lifted vertically along the sliding rods 71. The lifting driving piece can be a lifting driving oil cylinder 9, the lifting driving oil cylinder 9 is vertically fixed on the mounting plate 7 through a bolt, and a piston rod of the lifting driving oil cylinder vertically penetrates through the mounting plate 7 upwards and is fixed with a bottom plate of the mounting frame 8; in operation, the lifting driving oil cylinder 9 can drive the mounting frame 8 to vertically lift.

Meanwhile, a supporting shaft 10 is vertically erected on the mounting frame 8, the lower side of the supporting shaft 10 is rotatably connected with the mounting frame 8 through a bearing, and the upper end of the supporting shaft can be fixedly connected with the middle position of the lower side of the retainer plate 6 through a flange. The rotary driving member can be a servo motor 11, the servo motor 11 is fixedly arranged on the mounting frame 8 through a bolt, and an output shaft of the servo motor is in transmission connection with the lower end of the supporting shaft 10 through a gear mechanism 12. In operation, the servo motor 11 can drive the retainer plate 6 to rotate synchronously through the gear mechanism 12 and the supporting shaft 10.

In operation, the lifting driving cylinder 9 can indirectly drive the retainer plate 6 to vertically lift, and the servo motor 11 can drive the retainer plate 6 to rotate. In this process, it should be ensured that: the lowest position of the retainer plate 6 is lower than the erection position of the steel pipes on each support roller 3, and the actual height difference is determined according to the actual size of the steel pipes; the highest position of the retainer plate 6 is higher than the erection position of the steel pipes on each supporting roller 3, so that the retainer plate 6 can completely support each steel pipe from the supporting rollers 3.

The working principle of the embodiment is as follows: in the work, each supporting roller 3 drives each steel pipe to move to the head aligning machine 1 under the action of the horizontal conveying motor 4 and the chain wheel mechanism 5, and the head aligning machine 1 can complete head aligning operation on one end of each steel pipe; then, the horizontal conveying device drives the steel pipes to be pushed out of the head aligning machine 1, and the lifting driving oil cylinder 9 pushes the mounting frame 8, the supporting shaft 10 and the material supporting plate 6 to integrally ascend until the steel pipes are completely separated from the supporting rollers 3; then, the servo motor 11 drives the material supporting plate 6 to rotate 180 degrees through the supporting shaft 10, so that the unprocessed end of the steel pipe faces the head aligning machine 1; next, the lifting driving oil cylinder 9 drives the mounting frame 8, the supporting shaft 10 and the retainer plate 6 to reset, so that each steel pipe falls on each supporting roller 3 again; and finally, the horizontal conveying device drives the steel pipes to move to the designated position towards the head aligning machine 1, and the head aligning machine 1 finishes head aligning operation on the unprocessed end parts of the steel pipes. Thus, a work cycle is completed. Through the mode, the automatic switching of the two ends of the steel pipe is realized, the continuous flush operation of the two ends of the steel pipe is convenient to realize, the convenience of field operation is greatly improved, and the machining efficiency of the steel pipe is indirectly improved.

The spiral spline shaft rises, and the spiral spline shaft drives the retainer plate 6 to synchronously rotate while rising. At this time, the steel pipes are respectively embedded in the limit grooves 61, and the retainer plate 6 drives the steel pipes to be separated from the support rollers 3 and start to synchronously rotate until the steel pipes rotate by 180 degrees

The above, only do the preferred embodiment of the present invention, not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a steel pipe both ends flush head device, includes flush head machine (1) and sets up in flush head machine (1) feeding one side and be used for the transport mechanism for flush head machine (1) pay-off, its characterized in that: the conveying mechanism comprises a rack (2), a horizontal conveying assembly and a material supporting plate (6), wherein the horizontal conveying assembly is arranged on the rack (2) and used for supporting and driving the steel pipe to move axially, the material supporting plate (6) is horizontally erected on the inner side of the horizontal conveying assembly, and the material supporting plate (6) is movably arranged in the vertical direction; the rack (2) is provided with a lifting driving piece for driving the retainer plate (6) to move up and down and a rotary driving piece for driving the retainer plate (6) to rotate; the lowest position of the retainer plate (6) is lower than the erection position of the steel pipe on the horizontal conveying component, and the highest position of the retainer plate is higher than the erection position of the steel pipe on the horizontal conveying component.

2. The two-end flush joint device for the steel pipe as claimed in claim 1, wherein: a mounting rack (8) is arranged below the material supporting plate (6), and a supporting shaft (10) with the upper end fixedly connected with the material supporting plate (6) is arranged on a vertical rotating rack on the mounting rack (8); the rotary driving piece is a servo motor (11) fixedly arranged on the mounting rack (8), and an output shaft of the servo motor (11) is coaxially fixed with the lower end of the supporting shaft (10).

3. The two-end flush joint device for the steel pipe as claimed in claim 2, wherein: the mounting rack (8) is movably arranged up and down on the rack (2); the lifting driving piece is a lifting driving oil cylinder (9), the lifting driving oil cylinder (9) is fixedly arranged on the rack (2) and is positioned under the mounting rack (8), and the end part of a piston rod of the lifting driving oil cylinder (9) is fixedly connected with the lower side of the mounting rack (8).

4. The two-end flush joint device for the steel pipe as claimed in claim 1, wherein: the upper side of the material supporting plate (6) is concavely formed with a plurality of limiting grooves (61) which are arranged in parallel at intervals, and each limiting groove (61) extends along the axial direction of the steel pipe.

5. The steel pipe both ends flush joint device of claim 4, characterized in that: and a magnetic absorption layer (611) is fixedly attached to the inner wall of the limiting groove (61).

6. The two-end flush joint device for the steel pipe as claimed in claim 1, wherein: the horizontal conveying assembly comprises a plurality of supporting rollers (3) which are horizontally and rotatably erected on the rack (2), and the supporting rollers (3) are arranged in parallel at intervals in the axial direction of the steel pipe; still be equipped with horizontal transport motor (4) and drive assembly on frame (2), horizontal transport motor (4) are connected with each backing roll (3) transmission through drive assembly.

7. The steel pipe both ends flush joint device of claim 6, characterized in that: the supporting roller (3) is fixedly sleeved with an anti-slip sleeve (31) used for being abutted to the steel pipe.

8. The device for aligning the two ends of the steel pipe according to claim 7, wherein: and a plurality of annular grooves (311) which are continuously distributed along the axial direction of the corresponding supporting roller (3) are formed on the outer surface of the anti-slip sleeve (31).

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