KR20060013588A - A chamfering device - Google Patents

Abstract

The present invention relates to a device for chamfering the corners of both ends of the tube, and more particularly, a device for enabling a simple chamfer regardless of the size of the inner diameter of the tube, a pair of transfer screw for rotating the tube located in the lower portion of the tube And a pressurizing rod inserted into the inner side of the tube and downwardly inclined to support the reaction during the chamfering operation while feeding the tube to the chamfering tool, thereby facilitating the chamfering of the tube and at the same time any diameter of the tube. The present invention relates to a tube chamfering device that enables automatic chamfering.

According to the present invention, two feed screws which are installed side by side at a predetermined interval and rotate in place; Is pressed by the pressure rotating shaft, one side is rotated by the pressure cylinder, the other side pressure lever is provided with a rotary stopper; A pressure rod installed on the other side of the pressure lever on which the rotary stopper is installed and inclined downward while being pressed downward, and having a pressure rotating body at an end thereof; A tube chamfering device is provided that includes a chamfering tool installed on a reciprocating feeder.

And, chamfer, feed screw, pressure rod

Description

Tube chamfering device

1 is an overall perspective view of the present invention

2 is a plan view of the present invention

3 is a side view of the present invention

Figure 4 is a state diagram chamfered by the present invention

※ Explanation of codes for main parts of drawing

1: Feeding screw 2: Pressurized rotating shaft

3: pressure cylinder 4: rotation stopper

5: press lever 6: press rotating body

7: pressurized rod 8: feeder

9: chamfering motor 10: chamfering tool

11: tube 12: transfer cylinder

13 transfer tray stopper 14 screw

15: lock nut 16: feed motor

17: guide 18: workbench

100: tube chamfering device

The present invention relates to a device for chamfering the corners of both ends of the tube, and more particularly, a device for enabling a simple chamfer regardless of the size of the inner diameter of the tube, a pair of transfer screw for rotating the tube located in the lower portion of the tube And a pressurizing rod inserted into the inner side of the tube and downwardly inclined to support the reaction during the chamfering operation while feeding the tube to the chamfering tool, thereby facilitating the chamfering of the tube and at the same time any diameter of the tube. The present invention relates to a tube chamfering device that enables automatic chamfering.

Steel pipes are manufactured in a certain length unit and are used to be connected to each other during piping work. The method of jointing is carried out in various ways, such as flange joints, welding joints.

When welding is used as a method for attaching an end of a pipe to another structure, as well as for joining a plurality of pipes together, grooves should be formed in the welded body so that the weld bars are raised to have a strong bonding force.

In the case of pipes, the outer edges of both ends are chamfered to form grooves for welding, or chamfering is also performed to remove sharp parts.

As described above, the method of chamfering the steel pipe is performed by a worker using a tool such as a grinder to cut along the outer diameter of the pipe, or by chamfering the periphery using a tool that is rotated after the pipe is fixed with a vise or the like. The device is used.

In the above, the chamfering device is suitable for a small diameter pipe, and a large diameter pipe has a problem in that it is difficult to install a tool for cutting while returning to the outside thereof and its size must be very large.

And when the worker chamfers using a hand tool such as a grinder, if the chamfer surface is not uniform and the pipe diameter is large, the grinder must also use a large weight of the grinder, which significantly lowers workability and poses a risk of safety accident. There is this.

In particular, the chamfering device is used to carry to various piping work sites such as piping of ships as well as building piping, and should be portable regardless of the size of the pipe used for piping work. There was a problem that can not be carried.

An object of the present invention is to solve the conventional problems as described above, can be manufactured in a small size that can be carried to any place where the piping work, regardless of the diameter of the pipe, so that it can always be evenly chamfered In order to transfer the tube with a constant force so that the chamfer can be automatically performed, a pair of transfer screw rotated on the lower side of the tube to rotate the tube and inserted into the tube to press the tube together with the transfer screw to transfer the tube The present invention provides a tube chamfering device that allows even chamfering while automatically transferring a tube by a pressure bar installed obliquely downward so as to support a reaction caused by the action of the chamfering tool.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

Pipe chamfering device 100 according to the present invention is installed side by side at a predetermined interval two feed screws (1) rotated in place; A pressure lever 5 which is supported by the pressure rotation shaft 2, one side portion is rotated by the pressure cylinder 3, and the other side portion is provided with a rotation stopper 4; A pressurizing rod (7) disposed on the other side of the pressurizing lever (5) on which the rotary stopper (4) is installed and inclined downward while being pressed downward, and having a pressurizing rotating body (6) at an end thereof; It characterized in that it comprises a chamfering tool 10 installed in the chamfering motor (9) fixed to the feeder (8) reciprocating toward the conveying screw (1).

The conveying screw (1) is to rotate the tube (11) is a main role, and to perform the role of conveying the tube 11 in addition to the pressure rod (7), the frictional force with the tube (11) In order to increase the screw thread is formed on the outside, it can be carried out in various ways, such as a triangular screw or square screw.

The conveying stand 8 is conveyed by the conveying cylinder 12, the conveying end point is adjusted by the conveying stand stopper 13, the conveying stand stopper 13 is a screw 14 and the screw 14 The lock nut 15 for fastening the) is fastened to determine the distance that the carriage 8 hits by the protruding length of the screw 14, thereby determining the end point of the carriage 8.

The rotary stopper 4 and the pressure rotating body 6 can be variously implemented, such as a roller, a bearing, each of which has a structure in which one or two or more are installed and rotated.

The transfer screw 1 is a structure that is rotated by the transfer motor 16 and the belt or chain fastened thereto, the pressure cylinder 3 and the transfer cylinder 12 may be implemented in various ways, such as hydraulic pressure, pneumatic.

And the transfer table 8 is installed to reciprocate in a predetermined direction by one or more guides 17 installed on the lower side of the transfer table (8).

The present invention having the above structure is shown in FIG. 1 is an overall perspective view, a structure for transporting the tube 11 is shown in FIGS. 2 and 3, the state chamfering the end of the tube 11 in FIG. Is shown.

First, the present invention has a structure in which the tube 11 is placed on the upper side of two transfer screws 1 and the pressure rod 7 is installed inside the tube 11, thereby chamfering the tube 11. It is characterized by a structure that automatically transfers the work to).

Therefore, when chamfering, two feed screws 1 supporting the lower part of the pipe 11 and a pressure rod 7 for pressing the inner surface of the pipe 11 by the operation of the pressure lever 5. As the pipe 11 is mounted, and as the feed screw 1 is rotated, a part of the dispersed force of the screw direction of the feed screw 1 and the force of the downwardly inclined pressure rod 7 chamfers the pipe 11. To the tool 10.

That is, when the pressure rotating body (6) installed at the end of the pressure bar (7) by the operation of the pressure lever (5) begins to contact the inner surface of the tube 11, the pressure bar (7) is inclined downward Since the downward movement of the pressure rod (7) has the effect of attracting the tube 11 inward.

By the action of such a force, the pipe 1 is easily transferred to the chamfering tool 10, and does not recede back even in reaction during the chamfering operation, thereby making accurate chamfering.

Such a series of processes will be described in detail with reference to the drawings.

A tube 11 to be chamfered is sandwiched between the pressurizing rod 7 and the transfer screw 1 as shown in FIG. 1, and the pressurizing rod 7 is operated to be installed at the end of the pressurizing rod 7. The pressure rotating body 6 is pressed against the inner surface of the tube 11.

The pressurizing rod 7 is fixed to the other side of the press lever 5 supported by the pressurizing rotation shaft 2, and when the one end of the press lever 5 is raised, the other end is lowered. 6 presses the tube 11.

One end of the pressure lever 5 is a structure that is elevated by the operation of the pressure cylinder (3), the pressure cylinder (3) may be implemented in a variety of ways, such as hydraulic pressure, pneumatic.

As described above, the pressure rotating body 6 installed at the end of the pressure rod 7 is pressed down from the inside of the tube 11, and in particular, the installation angle of the pressure rod 7 is largely inclined downward. That is, the pressure bar 7 is not installed in parallel with the feed screw 1, and has a structure inclined downward so that only the pressure rotating body 6 can press the inner surface of the pipe 11.

As such, when the pressure rotating body 6 of the pressure rod 7 is pushed down and the tube 11 is pressed, the tube 11 is pulled by the downwardly inclined structure. 11 is conveyed to the chamfering tool 10.

Then, the conveying screw 1 receives a rotational force through a conveying motor 16, a belt, a chain connected to the conveying motor 16, and a related device such as a pulley and a sprocket. When the conveying screw 1 is rotated, The tube 11 mounted on the top thereof is rotated.

Since the screw is formed on the outer surface of the conveying screw 1, not only plays a main role of rotating the tube 11, but also assists to convey the tube 11 to the chamfering tool 10 by the action of the screw. It also plays a role.

Therefore, the tube 11 mounted on the upper portion is rotated toward the chamfering tool 10 by the rotation of the pressure rod 7, the pressure rotating body 6, and the transfer screw 1.

And the conveying force of the tube 11 as described above when the operation is performed by the chamfering tool 10 to support the transfer of the chamfering tool 10 and the resistance during the operation can be normal chamfering.

As such, when the tube 11 is transferred by the two conveying screws 1 and the pressure rotating body 6, one end of the tube 11 to be chamfered is provided with a rotary stopper 4 provided at the other side of the pressure lever 5. Move to) and stop. However, the rotation of the feed screw 1 continues until the chamfer is completed. Therefore, the tube 11 and the pressure rotating body 6 are also continuously rotated. At this time, the other end of the pressure lever 5 is reduced to reduce the friction between the chamfered end of the tube 11 and the other side of the pressure lever 5. The rotary stopper 4 is provided. That is, while the tube 11 rotates, the rotation stopper 4 serves to allow the tube 11 to rotate smoothly. Therefore, the rotary stopper 4 may have a structure in which one bearing or a plurality of bearings are continuously installed, or a structure in which one or more cylindrical rollers are continuously installed.

When the chamfering is prepared as described above, the chamfering tool 10 is rotated to chamfer the end of the tube 11. In the present invention, the transfer table 8 is transferred to the tube 11 to chamfer. Of course, the chamfering tool 10 may be rotated in place and may convey the tube 11.

The chamfering tool 10 is installed on the rotating shaft of the chamfering motor 9 and rotated, and the conveying stand 8 is conveyed in the direction in which the pipe 11 is placed by the operation of the conveying cylinder 12. That is, the transfer table 8 is a structure that is smoothly reciprocated by the guide 17 installed in the lower portion, and is transferred by the transfer cylinder 12 that operates in various ways such as pneumatic or hydraulic pressure.

The transfer table 8 is to be properly adjusted according to the chamfer size, if the chamfer size is large, the transfer distance should be large as shown in FIG. As such, the end point of the transfer table 8 determines the size of the chamfer, so that the present invention is provided with a transfer stopper 13 to adjust the end position of the transfer table 8.

That is, the transfer stopper 13 is composed of a screw 14 with a handle and a lock nut 15 fastened to the screw 14, the screw 14 is a work table 18, etc. to which the present invention is installed. Is installed. Therefore, the position of the chamfering tool 10 according to the chamfering size is determined by the length of the screw 14, and when the length is determined, the lock nut 15 fastened to the screw 14 is fixed to fix the screw 14. Tighten tightly to the worktable 18, etc., the chamfer size is determined.

When the chamfer size is determined by the transfer stopper 13 as described above, the chamfering tool 10 is rotated to approach the pipe 11 while transferring the transfer table 8 by the operation of the transfer cylinder 12.

As shown in FIG. 4, the chamfering tool 10 carries out the chamfering while approaching the pipe 11, and the chamfering tool 10 continues to chamfer until the feeder 8 is stopped by the feeder stopper 13. Will be done.

In the process of chamfering, the direction in which the chamfering tool 10 proceeds and the direction in which the tube 11 is to be progressed are opposite to each other, and the conveying force of the tube 11 is greater than the conveying force of the chamfering tool 10 to be chamfered. . Therefore, the present invention is installed in the inclined downward downward pressure rod 7 for pressing the tube 11 in the interior of the tube 11 to achieve an ideal chamfer, the screw is formed on the outer peripheral surface of the transfer screw 1, the pressure rod ( The force exerted on the tube 11 by the pressure rotating body 6 provided at the end of 7) acts to act to push the tube 11 in the direction of the chamfering tool 10.

Therefore, the present invention is precisely chamfered even if a large force acts on the chamfering, it becomes possible to chamfer while automatically transporting the tube 11 irrespective of the size of the tube 11, the tube 11 of any size work Since it can be made in a small size, it can be carried and used for all piping work. In addition, wheels may be attached to the work table 18 to facilitate portability.

As described above, the present invention provides a pressurizing rod 7 and a pressurized rotating body 6 to press the tube 11 to give a feed force and to support reaction by the action of the chamfering tool 10 so that even chamfering is made. Is composed of a pair of transfer screws 1 which assist to rotate the tube 11 to chamfer and transfer the tube 11 towards the chamfering tool 10, regardless of the size of the tube 11. By uniformly conveying the force and applying force to overcome the chamfering resistance, it is possible to automatically perform even chamfering.

Claims (2)

Two conveying screws 1 installed side by side at a predetermined interval and rotated in place; A pressure lever 5 which is supported by the pressure rotation shaft 2, one side portion is rotated by the pressure cylinder 3, and the other side portion is provided with a rotation stopper 4; A pressurizing rod (7) disposed on the other side of the pressurizing lever (5) on which the rotary stopper (4) is installed and inclined downward while being pressed downward, and having a pressurizing rotating body (6) at an end thereof; Tube chamfering device, characterized in that it comprises a chamfering tool (10) installed on the transfer table (8) reciprocated. The pipe chamfering device according to claim 1, wherein the conveying stand (8) is adjusted by the conveying stopper (13) installed on the working table (18).

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