JPH0251034B2 - - Google Patents

Description

Detailed Description of the Invention (Object of the Invention) The present invention relates to a coupling device or an oil country tubular chucking device in an oil country pipe tightening machine.
The purpose is to make each dog slightly movable in the radial direction of the inner ring, so that the same chuck can chuck multiple types of couplings or oil country tubular goods having different pipe diameters.

(Prior Art) A coupling or chucking device for oil country tubular goods in a conventional oil country tubular tightening machine has a pair of outer rings facing each other at a predetermined interval, as shown in FIGS. 10 and 11. 41 are fixedly installed and integrated, an inner ring 42 is rotatably fitted into each outer ring 41, and a plurality of dogs 44 each having a chucking claw 43 attached to the tip end are connected to each other. The outer ring 41 and a set of inner rings 42 are arranged at equal intervals in the radial direction of the inner ring 42, and the central part of each dog 44 is connected to a set of inner rings 42 via a cylindrical fulcrum pin 45. A long groove 4 is rotatably connected to the inner ring 42 and provided at the rear end of each dog 44.
A connecting pin 47 was inserted through the connecting pin 47, and the rear end of each dog 44 was connected to the pair of outer rings 41 through the connecting pin 47. In this way, each dog 44 is rotatably connected to each inner ring 42 via a cylindrical fulcrum pin 45, so that a coupling or oil country pipe 48 that can be chucked by a specific chuck can be used.
were limited to specific tube diameters.

Therefore, every time the diameter of the coupling or oil country pipe 48 to be chucked changes, the chuck must be removed and a different chuck installed, which wastes time and requires chucking. There are drawbacks, such as the need to prepare and store a large number of chucks in accordance with the diameters of the couplings or oil country tubular goods 48.

(Structure of the Invention) The present invention has been made in view of the above drawbacks, and
The gist is that the fulcrum pin for rotatably connecting the central part of each dog to a set of inner rings is an eccentric fulcrum pin that is eccentric by a predetermined amount, and the fixed position of the eccentric fulcrum pin with respect to the inner ring is changed. By operating the converting means to change the fixed position of the eccentric fulcrum pin relative to the inner ring, each dog is slightly moved in the radial direction of the inner ring, and the same chuck is used to adjust the pipe diameter. This makes it possible to chuck multiple types of couplings or oil country tubular goods with different characteristics. Hereinafter, embodiments for chucking a coupling will be described in detail with reference to the accompanying drawings.

1 to 3, a headstock 2 is installed at one end of a machine base 1 of an oil country pipe tightening machine A, and is rotatably supported on this headstock 2 via a bearing 3. A coupling chuck C is attached to the tip of the outer spindle 4.

Next, this coupling chuck C will be explained. The annular housing 5 is made up of a pair of outer rings 6 facing each other at a predetermined interval, and the outer peripheries of the outer rings 6 are fixed and integrated, and an inner ring 7 is attached to each outer ring 6 of the annular housing 5. It is fitted so that it can rotate freely.

A chuck claw 10 is attached to the tip of the dog 9 for chucking the outer periphery of the coupling ring 8, and a long groove 11 is formed at the rear end, and an eccentric fulcrum pin (described later) is provided in the center. An eccentric part fitting hole 12 for fitting the eccentric part 13a of No. 13 is provided therethrough. Eccentric fulcrum pin 13
In this example, an eccentric portion 13a having a larger diameter than the other portions is provided in the central portion eccentrically by an eccentric amount e.

Moreover, a plurality of dogs 9 (seven in the embodiment) are maintained at equal intervals along the circumferential direction of the inner ring 7 between one set of outer rings 6 and one set of inner rings 7. are arranged radially. The eccentric part 13 of the eccentric fulcrum pin 13 is inserted into the eccentric part fitting hole 12 of each dog 9.
a is rotatably fitted, and this eccentric fulcrum pin 13
Each dog 9 is rotatably connected to a set of inner rings 7 via the eccentric fulcrum pin 13.
A pair of inner rings 7 are connected to each other via. A connecting pin 1 is inserted into the long groove 11 at the rear end of each dog 9.
4 is inserted therethrough, and the rear end portion of each dog 9 is rotatably connected to a set of outer rings 6 via the connecting pin 14. Therefore, when one set of inner rings 7 is fixed and one set of outer rings 6 is rotated in a predetermined direction, each dog 9 is attached to the eccentric fulcrum pin 13.
rotate in the same direction about the eccentric part 13a of the
A chuck claw 10 at the tip protrudes from or retracts from the inner peripheral surface of the inner ring 7.

Further, as is clear from FIG. 3, one end of the eccentric fulcrum pin 13 is inserted into an insertion hole 16 bored at the base end of a bracket 15 constituting a fixed position converting means B, which will be described later. , is fixed to the bracket 15 via a key 17.

Next, the fixing position changing means B for changing the fixing position of the eccentric fulcrum pin 13 with respect to the inner ring 7 will be explained.

Three positioning holes H ₁ on the same circumference centered on the eccentric fulcrum pin 13 in one inner ring 7,
H ₂ and H ₃ are drilled. Each positioning hole H ₁ ,
The positions of H ₂ and H ₃ are shifted by approximately 90° with respect to the eccentric fulcrum pin 13, and the line segment connecting the positioning hole H ₁ and H ₃ is approximately aligned with the radial direction of the inner ring 7. We are doing so. Further, as described above, the eccentric fulcrum pin 13 is fixed to the base end of the bracket 15 via the key 17, and the collar of the positioning pin 19 is inserted into the spring loading hole 18 bored at the tip of the bracket 15. The part 19a is slidably fitted, and the collar part 19a and the spring bullet hole 1 are connected to each other.
A compression spring 20 is elastically mounted between the forming end 18a of the spring 8. Then, when the tip of the positioning pin 19 is fitted into any of the positioning holes H ₁ , H ₂ , H ₃ , the positioning pin 19 comes into elastic contact with the inner ring 7 due to the elasticity of the compression spring 20 and cannot be pulled out. Due to this, the eccentric fulcrum pin 13 is connected to the inner ring 7
is fixed in a non-rotatable manner.

Further, an annular housing 5 is fixed to the tip of the outer spindle 4 via a plurality of bolts 21. Further, the inner ring 7 is provided with a radial groove 22, and the outer spindle 2 is connected to the inner ring 7 via a bearing 23.
A plate-shaped part 25 is provided protrudingly at the tip of the inner ring 7, and this plate-shaped part 25 enters into the groove 22 of the inner ring 7. Therefore, the inner ring 7 cannot rotate relative to the inner spindle 24.

Next, another fixed position converting means B' different from the above embodiment will be explained.

In Figures 8 and 9, eccentric fulcrum pin 1
3' has an eccentric part 13'a with a larger diameter than the other parts.
is provided, and both ends are cut into a square cross section to form a fixing part 13'b.

One inner ring 7 has an eccentric fulcrum pin insertion hole 2.
A long groove 27 is provided in a state that partially faces 6, and a fixing block 28 is fitted into this long groove 27, and the fixing block 2 is fixed with a bolt 29.
8 is fixed to the inner ring 7. Therefore, the eccentric fulcrum pin 13' is fixed to the inner ring 7 in a non-rotatable manner. Then, the fixing block 28 is removed, the eccentric fulcrum pin 13' is rotated 90 degrees, and the fixing block 28 is again fitted into the long groove 27 and fixed to the inner ring 7.
The fixed position of the dog 3' with respect to the inner ring 7 is changed, and the dog 9 is slightly moved in the radial direction of the inner ring 7. Note that 30 indicates a bolt screwed onto the other inner ring 7 in order to prevent the eccentric fulcrum pin 13' from rotating.

Further, in FIG. 1, a carriage 31 is mounted on the machine base 1 facing the headstock 2 so as to be movable in the axial direction of the outer spindle 4. An oil country tubular goods chuck C' having the same structure as the coupling chuck C is mounted opposite the coupling chuck C.

In addition, in FIG. 1, 32 is an oil country pipe, M is a D/C motor for rotating the outer spindle 4,
R indicates a speed reducer for slowing down the rotation of the D/C motor M.

(Action of invention) Next, the operation of the present invention will be explained.

First, a case will be described in which the coupling 8 having a pipe diameter D is screwed into one end of the oil country pipe 32 and tightened.

In FIGS. 1 to 3, the positioning pin 19
While fitting the tip of the into the positioning hole _H1 ,
Each dog is positioned as shown by the two-dot chain line in FIG. 2, and the chuck claw 10 at the tip is retracted into a set of inner rings 7.

Next, a coupling ring 8 with a pipe diameter D is positioned in the center hole of a pair of inner rings 7, and while a brake is applied to the inner spindle 24 to prevent rotation, the D/C motor M is started. When the annular housing 5 is rotated by a predetermined number of rotations, the annular housing 5
is a set of inner rings 7 fixed unrotatably.
The coupling chuck C rotates by a predetermined angle counterclockwise when viewed from the end surface of the coupling chuck C, and then stops. Therefore, each dog 9 has its own eccentric fulcrum pin 1.
3 begins to rotate in the same counterclockwise direction using the eccentric portion 13a of No. 3 as a fulcrum, and with the chuck claw 10 at the tip of each dog 9, the diameter D of the pipe located in the center hole of a pair of inner rings 7 is adjusted. The outer periphery of the coupling ring 8 is firmly chucked.

Next, release the brake of the inner spindle 24,
When the D/C motor M is started again in this state and rotated by a predetermined number of rotations, the outer spindle 4 and the inner spindle 24 begin to rotate as one. For this reason, the annular housing 5 of the coupling chuck C and the set of inner rings 7 rotate together, and the coupling 8 chucked by each dog 9 rotates. The coupling ring 8 is screwed and tightened into one end of the oil country pipe 32, which is chucked at one end with a .

Next, while applying the brake to the inner spindle 24 again to prevent its rotation, the D/C motor M is rotated in the opposite direction by a predetermined number of rotations. Inner ring 7
The annular housing 5 rotates clockwise by a predetermined angle and then stops. Therefore, each dog 9 is rotated clockwise again using the eccentric portion 13a of each eccentric fulcrum pin 13 as a fulcrum to the position shown by the two-dot chain line in FIG. Chatking is released.

Next, the pipe diameter is approximately 2e smaller than the pipe diameter D.
The case of chucking the coupling 8' of D' will be explained.

When the positioning pin 19 of the fixed position changing means B is pulled against the elasticity of the compression spring 20 and the bracket 15 is rotated approximately 90 degrees counterclockwise to release the positioning pin 19, the positioning pin 19 is released as shown in FIGS. 4 and 5. As shown in , the tip of the positioning pin 19 is fitted into the new positioning hole _H2 , and the eccentric fulcrum pin 13, which is integrated with the bracket 15, is rotated approximately 90 degrees and fixed at the new position. will be redone. Since the eccentric portion 13a of the eccentric fulcrum pin 13 is fitted into the eccentric portion fitting hole 12 in the center of the dog 9, each dog 9 is moved in the radial direction of the inner ring 7 by rotation of the eccentric fulcrum pin 13. The fulcrum moves slightly, and the fulcrum approaches the center of the inner ring 7 by approximately the amount of eccentricity e of the eccentric fulcrum pin 13. Therefore, by performing the same operation as above, the same coupling chuck C
Therefore, it becomes possible to chuck a coupling 8' having a pipe diameter D' smaller than the pipe diameter D by approximately 2e.

Similarly, the pipe diameter is approximately 4e smaller than the pipe diameter D.
To check the D″ coupling 8″,
The tip of the positioning pin 19 of the fixed position converting means B is fitted into the positioning hole _H3 . Now, as shown in FIGS. 6 and 7, each dog 9 further moves slightly in the radial direction of the inner ring 7, and its fulcrum moves approximately to the center of the inner ring 7 by the eccentric amount e of the eccentric fulcrum pin 13. Get even closer. Therefore, with the same coupling chuck C, it is possible to chuck a coupling 8'' having a tube diameter D'' smaller than the tube diameter D by approximately 4e.

Incidentally, the eccentricity e of the eccentric portion 13a of the eccentric fulcrum pin 13 and the fixed position of the eccentric fulcrum pin 13 with respect to the inner ring 7 are determined according to the respective pipe diameters of the plurality of types of coupling rings 8 to be chucked.

(Effects of the Invention) According to the present invention, it is possible to chuck multiple types of couplings with different pipe diameters using the same coupling chuck, so there is no need to replace the chuck each time the coupling chuck has a different pipe diameter. disappears.

Therefore, time for replacing the coupling chuck can be saved, and work efficiency can be improved. Additionally, it is no longer necessary to manufacture and prepare in advance a large number of coupling chucks for chucking couplings of specific pipe diameters, and the number of coupling chucks that must be prepared is now smaller than in the past. This can significantly reduce the amount of effort and space required to store the coupling chucks.

[Brief explanation of the drawing]

FIG. 1 is a front view of an oil country pipe tightening machine A, FIG. 2 is a front view of a state in which a coupling chuck C according to the present invention is chucking a coupling 8 having a pipe diameter D, and FIG. , FIG. 4 is a front view of the state in which the coupling chuck C is chucking a coupling 8' having a pipe diameter D', and FIG. 5 is a sectional view taken along the line V-V in FIG. W-W of
A line sectional view, FIG. 6 is a front view of a state in which a coupling 8'' with a pipe diameter D'' is being chucked by the coupling chuck C, and FIG. 7 is a sectional view taken along the line FIG. 8 is a front view showing a part of the coupling chuck C provided with another fixed position converting means B', FIG. 9 is a sectional view taken along the line Y--Y in FIG. 8, and FIG. A front view of a conventional coupling chuck, FIG. 11, is a sectional view taken along the line Z--Z in FIG. 10. (Explanation of symbols of main parts), 5... Annular housing, 6... Outer ring, 7... Inner ring, 8...
Cup ring, 9...Dog, 10...Dog's chucking claw, 11...Long groove of dog, 13...
... Eccentric fulcrum pin, 13a... Eccentric part of eccentric fulcrum pin, 14... Connection pin, A... Oil country pipe tightening machine,
B, B'... Fixed position conversion means, C... Coupling chuck, e... Eccentricity of the eccentric portion of the eccentric fulcrum pin.

Claims (1)

[Scope of Claims] 1. An inner ring is rotatably fitted into a set of outer rings constituting an annular housing, and a plurality of dogs are provided between the set of outer rings and the set of inner rings. are arranged at equal intervals in the radial direction of the inner ring, the center of each dog is rotatably connected to the set of inner rings via a fulcrum pin, and the rear end of each dog is A coupling in an oil country pipe tightening machine or an oil well in which a connecting pin is inserted into a long groove provided, and the rear end of each dog is rotatably connected to the set of outer rings via the insertion pin. In the pipe chucking device, the fulcrum pin is an eccentric fulcrum pin eccentric by a predetermined amount, and a fixing position changing means for changing the fixing position of the eccentric fulcrum pin with respect to the inner ring is provided, the converting means By changing the fixed position of the eccentric fulcrum pin with respect to the inner ring, each dog can be moved slightly in the radial direction of the inner ring, making it possible to chuck multiple types of couplings or oil country tubular goods with different pipe diameters using the same chuck. A coupling or chucking device for oil country tubular goods in an oil country tubular tightening machine, characterized in that: