JP2011126463A - One piece lock ring, mounting or removing method therefor and wheel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide one piece lock ring which has little plastic deformation in increasing its width, maintains a spring effect and improves the reliability and durability of the lock ring, and to provide a mounting or removing method for the same and a wheel. <P>SOLUTION: The one piece lock ring 4 is used for a wheel 200 of a multi-piece rim, made of a heat-treated iron material having an elastic limit of 260 to 400 N/mm<SP>2</SP>and having one radial slit 4s in the circumferential direction. The wheel of the multi-piece rim includes a rim base 1 having a gutter band part 11 in at least one of end parts, side rings 2 arranged at both end parts of the rim base and a bead sheet band 3 for supporting the side rings from outer sides of the rim base in the axial direction on the gutter band part. The lock ring is fitted to a groove 11a formed in the gutter band part so as to support the bead sheet band from the outer side of the rim base in the axial direction. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a one-piece lock ring used for a multi-piece rim wheel attached to a large tire such as a construction machine or a mining machine, a method for mounting or removing the ring, and a wheel.

A large tire for a large construction machine or mining machine is different in rigidity from a tire for a passenger car, and therefore a single-piece rim often does not contain a tire. Therefore, so-called multi-piece rim wheels are used as wheels attached to such large tires.
In this multi-piece rim wheel, the side ring located at the end of the rim base is supported by the bead seat band from the axial end side of the rim base, and the lock ring is inserted into the lock ring groove of the rim base and fixed in the axial direction. By doing so, the bead seat band is supported from the axial direction end side, and the bead of the tire is securely held. Then, by removing the lock ring, the bead seat band and the side ring are moved to remove the tire.

As this lock ring, a one-piece lock ring (Patent Document 1) in which one radial cut is provided at one place in the circumferential direction, or a split ring divided into a plurality of parts in the circumferential direction (Patent Document) 2) is known. The split ring is easier to detach than the one-piece lock ring, but since the ring itself does not have a spring effect, it must be securely fixed by retainer parts in order to ensure that it is attached to the rim base. There is a problem in reliability of safety, and the work becomes complicated.
On the other hand, since the one-piece lock ring has a spring effect, once the lock ring is mounted, there is an advantage that it is reliably mounted to the rim base by the spring effect and has high reliability. This one-piece lock ring is closed (or overlapped) at both ends of the cut when there is no load, and when installed, the one-piece lock ring is extended in the axial direction of the rim base while widening both ends against the spring force. The work to put in is necessary.

However, since the one-piece lock ring weighs about 50kg and the diameter is usually as large as 50 inches or more, the spring force is large and a large force is required to widen and attach the one-piece lock ring to the rim base. is there. Further, even if the one-piece lock ring is widened, it does not become a perfect circle but tends to widen to an elliptical shape in which the portion including the cut becomes an ellipse. If the ellipse is widened, it is necessary to widen the oval part more than necessary in order to pass through the rim base, so that the ring may be plastically deformed and the spring effect may be lost. In addition, when the plastic deformation increases, the one-piece lock ring must be replaced.
Therefore, in Patent Document 1 described above, each of a set of two jigs is attached to both ends of the lock ring, and the set of jigs is advanced and retracted with screw bolts to widen the gap between the jigs. A technique for widening the lock ring is disclosed. Furthermore, Patent Document 1 describes a jig whose angle with respect to a screw bolt can be changed so that the lock ring is widened to a substantially perfect circle.

JP 2009-62040 A (Claim 1, paragraphs 0058 to 0063, FIGS. 35 to 38) JP 2008-222207 A

However, it has been found that even when the jig described in Patent Document 1 described above is used, the lock ring is plastically deformed beyond the elastic limit due to widening, and the spring effect is lost.
Therefore, the present invention provides a one-piece lock ring that has less plastic deformation due to widening, maintains the spring effect, and improves the reliability and durability of the lock ring, a method for mounting and removing the same, and a wheel. Objective.

In order to solve the above problems, a one-piece lock ring according to the present invention is used in a wheel of a multi-piece rim, and is a lock ring in which one radial cut is provided at one circumferential position. The wheel of the single rim includes a rim base having a gutter band portion provided on at least one of the end portions, side rings disposed at both ends of the rim base, and the side ring on the gutter band portion at the axial end of the rim base. A bead seat band that is supported from the side of the part, and the lock ring is fitted into a groove formed in the gutter band part, and the bead seat band can be supported from the axial end surface side of the rim base, and has an elastic limit. It consists of a heat-treated iron-based material of 260 to 320 N / mm ² .
In this way, plastic deformation due to widening is small, and the spring effect can be maintained and the reliability and durability of the lock ring can be improved.

The rim nominal diameter of the rim base is 51, 57, or 63 inches, and the distance between the both ends of the lock ring due to plastic deformation after widening 200 to 300 mm is 50 mm or less when the rim diameter is 51 inches. In the case of 57 inches, it is preferably 20 mm or less, and in the case of rim diameter 63 inches, it is preferably 10 mm or less.
In this way, the lock ring can be securely fixed to the lock ring groove of the rim base, and can be used safely for a multi-piece rim wheel attached to a large tire such as a construction machine or a mining machine. Can do.

The mounting method of the lock ring of the present invention is a mounting method of the lock ring, wherein a jig mounting step for mounting a mounting / dismounting jig on each end of the lock ring, and an interval between the mounting / dismounting jigs are increased. A perfect circle widening step for widening both ends of the lock ring in a substantially perfect circle shape, and the lock ring widened by the perfect circle widening step is moved in the axial direction of the rim base, and the gutter band portion of the wheel of the multi-piece rim A fitting method for a lock ring having a fitting step for fitting into a groove formed in the groove, wherein as the attachment / detachment jig, an interval between the attachment / detachment jigs is widened, and the gap is positioned radially outward from the lock ring. A thing provided with an elastic member is used.
In this case, the plastic deformation due to the widening can be further reduced by the synergistic effect of the lock ring that is difficult to plastically deform and the attachment / detachment jig that can widen the lock ring in a substantially circular shape.

In the wheel of the present invention, the lock ring is attached to a wheel of a multi-piece rim, and the wheel of the multi-piece rim has a rim base in which a gutter band portion is provided on at least one end, and both ends of the rim base. A disposed side ring; and a bead seat band that supports the side ring from the axial end side of the rim base on the gutter band portion;
The lock ring is fitted into a groove formed in the gutter band portion, and supports the bead seat band from the axial end portion side of the rim base.

The attachment / detachment jig according to the present invention is used for a wheel of a multi-piece rim and is attached to both ends of a lock ring provided with one radial cut in the circumferential direction. A space expansion / contraction member that expands / contracts the space, and a fixing member that fixes the mounting portion to both ends of the lock ring, and the mounting portion includes a contact surface that is in contact with an outer surface of the lock ring, and stands from the contact surface. A ring mounting piece that contacts the side surface of the lock ring while descending, and is coupled to the space expansion / contraction member by a swing mechanism capable of changing an angle with respect to the expansion / contraction direction of the space expansion / contraction member. While the outer surface is in contact with the ring mounting piece in contact with the side surface of the lock ring, the fixing member fixes the mounting portion and the lock ring, and the contact surface Et length to the end edge of the ring mounting piece is not more than the width extending from the outer surface to the inner surface of the lock ring.
In this way, even when the lock ring is fitted in the groove of the gutter band portion, the ring mounting piece can be arranged on the side surface of the lock ring without interfering with the surface of the gutter band portion. 20 (that is, removal of the lock ring) is facilitated.

  According to the present invention, there can be obtained a lock ring in which plastic deformation due to widening is small and the reliability and durability of the lock ring are improved while maintaining the spring effect.

It is an external view which shows the lock ring which concerns on embodiment of this invention. It is a perspective view which shows the state which fits a lock ring in the groove | channel of a gutter band part. It is sectional drawing which shows the structure of the wheel of the multi-piece rim | limb in which a lock ring is used. It is sectional drawing which shows another structure of the wheel of the multi-piece rim | limb in which a lock ring is used. It is an external view which shows an example of a structure of an attachment / detachment jig. It is a perspective view which shows the structure of the attaching part of an attachment / detachment jig. It is a figure which shows the aspect which attaches an attaching part to a lock ring. It is a figure which shows the relationship between the amount of widening and the amount of plastic deformation when a lock ring is widened. It is another figure which shows the relationship between the amount of widening and the amount of plastic deformation when a lock ring is widened. It is sectional drawing of a lock ring.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 is an external view showing a lock ring 4 according to an embodiment of the present invention. The lock ring 4 is provided with one radial cut 4s at one circumferential position, and in an unloaded state (not attached to the rim), both ends 4a and 4b are closed by its own elastic repulsive force. (Or overlap). In order to improve the safety of the wheel of the multi-piece rim to which the lock ring 4 is attached, it is required that both ends of the lock ring 4 are wrapped (overlapped) when no load is applied. About 30 mm is typical for the stage.
On the other hand, when the lock ring 4 is attached to or removed from the gutter band 11 at the end of the rim base 1, both ends 4a and 4b must be widened to be larger than the outer diameter of the rim base 1, and in this case, the direction of the arrow R (in the radial direction) Elastic repulsive force acting in the direction of contraction occurs. Then, an elastic repulsion force that contracts in the radial direction (R direction) acts, whereby the lock ring 4 is fitted and held in the groove 11a of the gutter band portion. If the lock ring 4 is excessively widened and the lock ring 4 is plastically deformed and does not have a sufficient amount of elastic repulsion, the lock ring 4 may protrude from the groove 11a (see FIG. 2) during use. There is.

  FIG. 2 is a perspective view showing a state in which the lock ring 4 is fitted in the groove 11 a of the gutter band portion 11. 2 shows a state in which both ends 4a and 4b of the lock ring 4 are loosely fitted to the outer side in the radial direction of the gutter band portion 11 by an attaching / detaching jig (not shown). On the inner peripheral surface of the lock ring 4, a protruding portion 4t that protrudes toward the center is formed continuously in the circumferential direction. Then, the lock ring 4 is moved along the arrow K direction to above the groove 11a of the gutter band portion 11, and the protruding portion 4t is engaged with the groove 11a. Then, an attachment / detachment jig (not shown) is operated to narrow both ends 4a, 4b of the lock ring 4, and when the lock ring 4 is engaged with the groove 11a over the entire circumference, the attachment / detachment jig is removed from the lock ring. In this way, the lock ring 4 fits into the groove 11a and is securely attached by its own elastic repulsive force (spring property).

Next, an example of the structure of a multi-piece rim wheel in which the lock ring 4 according to the embodiment of the present invention is used will be described with reference to FIGS.
In FIG. 3, a multi-piece rim 100J includes a rim base 1 having a gutter band portion 11 provided at one end thereof, side rings 2 disposed at both ends of the rim base 1, and side rings 2 on the gutter band portion 11. A bead seat band 3 supported from the axial end portion side of the rim base 1 is provided. As described above, the lock ring 4 is fitted in the groove 11a of the gutter band portion 11, and supports the bead seat band 3 from the axial end portion side of the rim base 1.
A back flange 12 is formed at the other end of the rim base 1 where the gutter band portion 11 is not provided, and supports the side ring 2 from the axial end side. The “axial end portion side” refers to the outside of the tire 6 when viewed from the axial direction of the multi-piece rim 100J.
When air is injected into the tire 6 and the air pressure of the tire 6 increases, the tire expands toward the axial end (in the direction of arrow Y in FIG. 3), and the side rings 2 on both sides thereof Along with this, the beat seat band 3 also moves toward the end in the axial direction. However, the lock ring 4 restricts further movement of the side ring 2 and the beat seat band 3, and the tire 6 is securely held on the multi-piece rim 100J.

FIG. 4 shows an example of a structure having tires and rims on both the axial vehicle body side and the axial vehicle outer side, a so-called “double wheel”. Double tires are often used on the rear wheel side of large construction machinery or mining equipment vehicles.
In FIG. 4, one multi-piece rim 100 (outer-side multi-piece rim) has a side ring 2, a gutter band portion 11, a bead seat band 3, and a lock ring 4 at both ends of the rim base 1. Therefore, the back flange 12 does not exist outside the axial vehicle. Therefore, in this structure, without removing the rim base 1 of the multi-piece rim 100 from the machine body, the tire 6 on the axial vehicle body side and the tire 6 on the outer side of the axial direction vehicle are attached to the hub 5. It is possible to extract in the direction of the arrow “Y” in FIG.
However, the lock ring 4 according to the embodiment of the present invention has not only the structure of FIG. 4 but also the gutter band portion 11, the bead seat band 3, and the lock ring 4 provided only at one end portion of the rim base 1. The present invention can also be applied to a double tire of a type in which a back flange 12 is provided at the other end.

Next, the configuration of the lock ring 4 which is a characteristic part of the present invention will be described. The lock ring 4 is made of a heat-treated iron-based material having an elastic limit of 260 to 400 N / mm ² .
Here, examples of the iron-based material include rolled steel for general structure defined in JIS-G3101 or carbon steel for machine structure defined in JIS-G4051. Further, as iron-based materials, C: 0.08 to 1.00%, Si: 0.15 to 0.50%, Mn: 0.6% or less, P: 0.03% or less, S: 0.035 % Or less (all mass%) can be used.

In the present invention, the iron-based material is heat-treated to form the lock ring 4 having an elastic limit of 260 to 400 N / mm ² . The cross-sectional area of the lock ring 4 is 13 to 14 cm ² , and the width 4w and height (distance between the outer surface and the inner surface) 4z are approximately 59 mm and 35 mm, respectively (see FIG. 10). Heat treatment refers to heat treatment after manufacturing a lock ring formed by bending a steel bar having a predetermined cross-sectional shape using the above-described iron-based material. It does not include strain relief during cold rolling.
The reason why the elastic limit and 260~400N / mm ² is 200 when the elastic limit is less than 260 N / mm ^2, when using the lock ring 4 on the rim of the rim diameter from 51 to 63 inches, both ends 4a, and 4b The distance between both ends due to plastic deformation after 300 mm widening exceeds 40 mm, and the elastic repulsion force of the lock ring 4 is reduced, and the lock ring 4 may protrude from the groove 11a (see FIG. 2) during use. .
On the other hand, when the elastic limit exceeds 400 N / mm ² , it is necessary to add a large amount of alloy components to the material to improve the hardenability and toughness, resulting in an increase in cost. From the viewpoint of manufacturing cost and the reliability of the elastic limit, the elastic limit of the lock ring is preferably about 260 to 320 N / mm ² .

  It should be noted that the interval between the ends 4a and 4b due to the plastic deformation after widening is equal to or less than the wrap amount at the time of initial no-load before widening (for example, if the wrap amount is 30 mm, the plastic deformation amount is 30 mm or less) Since both ends 4a and 4b close (or wrap) after widening, the elastic repulsive force does not decrease, which is preferable. The inner diameter of the lock ring 4 used for the rim having a nominal rim diameter of 51 to 63 inches is about 49 to 61 inches, respectively.

Next, with reference to FIGS. 5-7, an example of the structure of the attachment / detachment jig | tool 40 which attaches to the lock ring 4 of this invention and widens both ends 4a and 4b is demonstrated.
As shown in FIG. 5, the attachment / detachment jig 40 expands and contracts the space between the pair of attachment portions 20 and 30 attached to both ends 4 a and 4 b of the lock ring 4 and the attachment portions 20 and 30. An interval expansion / contraction member (screw bolt) 8 and fixing members 28 and 38 for fixing the mounting portions 20 and 30 to both ends 4a and 4b, respectively, are provided. Further, the mounting portions 20 and 30 are provided with swing mechanisms (trunnions) 25 and 35 that can change the angle θ with respect to the expansion and contraction direction A8L of the interval expansion and contraction member 8, and the interval expansion and contraction member 8 includes the swing mechanisms 25 and 35. It is attached to attachment parts 20 and 30 via. Further, the space expansion / contraction member 8 is coupled to the lock ring 4 at a distance of α outward from the fixing members 28 and 38 in the radial direction.

When the swing mechanism (trunnion) 25, 35 is not provided, if both ends 4a, 4b are widened, an excessive bending force acts on the space expansion / contraction member (screw bolt) 8, and the space expansion / contraction member (screw bolt) 8 is damaged. End up.
The reason for widening in this way is that the swinging mechanisms 25 and 35 are not used, and the space expansion / contraction member 8 is in the same position as the fixing members 28 and 38 in the radial direction (α = 0, the same radial position as the lock ring). When the both ends 4a and 4b of the lock ring 4 are widened, the force of only the expansion / contraction direction A8L of the interval expansion / contraction member 8 of the lock ring works, and the lock ring 4 expands into an ellipse.
When the space expansion / contraction member 8 is separated from the fixing members 28, 38 (both ends 4a, 4b) by α outward (when the swing mechanism 25, 35 can change θ), the space expansion / contraction member 8 has both ends 4a, Assuming that the force to expand 4b is F, it is possible to suppress the moment of Fxα from acting on the entire lock ring 4 and spreading to an ellipse. This effect becomes greater as α is larger, but α = 30 mm to 200 mm is preferable in order to obtain appropriate workability in consideration of limitations on the work space and mass of the jig.

Next, the configuration of the attachment portion 20 will be described with reference to FIG. Note that the configuration of the mounting portion 30 is the same as that of the mounting portion 20, and for example, the symbol “21” in FIG. As shown in FIG. 6, the attachment portion 20 includes a prismatic block portion 24, an arm 21 that is attached to one end of the lock ring 4 while holding the block portion 24, and a fixing that fixes the arm 21 and the lock ring 4. And a member (bolt) 28. A threaded female screw 24s is formed on one side surface of the block portion 24, and a screw bolt 8 that is a male screw meshes with and is inserted into the female screw 24s. Further, columnar protrusions 25 protrude from two surfaces of the block portion 24 that are adjacent to and face each other through the through surface of the female screw 24s.
The arm 21 has a prismatic main body 21g, a pair of sandwiching pieces 21f rising from two opposing side faces of the main body 21g, and a side face on which one sandwiching piece 21f of the main body 21g is provided, opposite to the sandwiching piece 21f. And a ring mounting piece 21h that falls to the side. When viewed from a surface adjacent to the side surface on which the sandwiching piece 21f is provided, the main body 21g and the pair of sandwiching pieces 21f form a U-shape sandwiching the main body 21g, and the main body 21g and the ring attachment piece 21h are formed. It has an inverted L shape. The ring attachment piece 21h is provided with a hole 27 through which a fixing member (bolt) 28 is inserted.

And the block part 24 is clamped between a pair of clamping pieces 21f, and the protrusion 25 is inserted in the circular hole 26 opened to each clamping piece 21f. As a result, the protrusion 25 pivotally supported by the circular hole 26 can rotate (swing) in the radial direction T of the circular hole 26, and the angle θ (see FIG. 5) of the arm 21 with respect to the expansion / contraction direction A8L can be changed. It has become.
The protrusion 25 and the circular hole 26 correspond to a “swing mechanism” in the claims.

On the other hand, a circular bolt hole 27 is opened in the ring mounting piece 21h. Then, through the bolt hole 27, the bolt 28 is screwed to a female screw (not shown) provided on the side surface 4y near both ends of the lock ring 4 (only one end 4a is shown in FIG. 6). As a result, the bolt 28 is attached to the mounting portion 20 (arm 21), the lock ring 4 in a state where the outer surface 4x of the lock ring is in contact with the lower surface (contact surface) 21a of the arm 21 and the ring mounting piece 21h is in contact with the side surface 4y. Can be fixed.
In FIG. 6, if the mounting portion 20 is mounted at a position away from the end portion 4a of the lock ring 4 (left side in FIG. 6), the force applied to the arm 21 and the bolt 28 can be reduced, which is advantageous in terms of strength.

The female screw 34 s of the block portion 34 in the attachment portion 30 and the female screw 24 s of the block portion 24 in the attachment portion 20 are so-called “reverse screws”. Also in the screw bolt 8, a male screw in a region where the block portion 34 is inserted and a male screw in a region where the block portion 24 is inserted are so-called “reverse screws”. Accordingly, when the screw bolt 8 is rotated in one direction, the mounting portions 20 and 30 are moved away from each other, and when the screw bolt 8 is rotated in the opposite direction, the mounting portions 20 and 30 are moved toward each other. Is configured to do.
However, the male screw of the screw bolt 8 is composed only of threads in the same direction, either the block portion 24 or 34 and the axial direction of the screw bolt 8 are fixed, and the female screw is formed only in the other block portion. The block portion can be configured to be movable by screwing with a screw bolt. The screw bolt 8 can be rotated using an impact wrench, hexagon wrench, spanner, or other rotating tool.
Further, as the space expansion / contraction member 8, for example, a cylinder mechanism (for example, a small hydraulic cylinder mechanism) can be used instead of the screw bolt.

Next, with reference to FIG. 7, the aspect which attaches the attaching part 20 (30) to the lock ring 4 is demonstrated.
Here, the length M1 from the contact surface 21a of the arm 21 to the lower end edge 21b of the ring mounting piece 21h is equal to or less than the width 4z from the outer surface to the inner surface of the lock ring 4. Even when the lock ring 4 is fitted in the groove 11a of the gutter band portion 11, the side surface 4y of the lock ring 4 is exposed from the gutter band portion 11 to the outside. Therefore, by making the length M1 of the ring attachment piece 21h shorter than the width 4z, the ring attachment piece 21h can be disposed on the side surface 4y of the lock ring 4 without interfering with the surface of the gutter band portion 11, and the lock ring 4 The attachment work of the attachment part 20 to the head becomes easy.
On the other hand, when the length M1 is longer than the width 4z, when the lock ring 4 is closely fitted in the groove 11a, a wedge-shaped tool is caused to enter the boundary surface between the lock ring 4 and the gutter band portion 11. The ring attachment piece 21h must be attached while widening the distance between them, and workability is reduced. The distance between the contact surface 21a and the outer surface 4x is preferably as small as possible.

  A ring holding member that falls from the main body 21g and contacts the back surface of the lock ring 4 (the surface opposite to the side surface 4y in FIG. 6) may be formed on the opposite side of the ring mounting piece 21h. In this case, the lock ring 4 is sandwiched between the ring attachment piece 21h and the ring holding member. Accordingly, a female screw penetrating the ring mounting piece 21h is provided, and a male screw (corresponding to a fixing member) fixed to the female screw is advanced and retracted with respect to the ring mounting piece 21h to engage the lock ring 4. Good.

  It goes without saying that the present invention is not limited to the above-described embodiment, and extends to various modifications and equivalents included in the spirit and scope of the present invention.

A lock ring 4 to be attached to a rim base having a rim diameter of 57 inches was manufactured. The lock ring had a sectional area of 13 to 14 cm ² , a width 4w of about 58 mm, and a height (thickness) 4z of about 35 mm. The composition of the lock ring was medium low carbon alloy steel or medium carbon alloy steel, C: 0.25 to 0.40, Mn: 0.60 to 1.50 (all by mass%), the balance Fe and inevitable impurities.
Each lock ring was heat-treated at 170 to 300 ° C. for 15 minutes to 3 hours, and its elastic limit was measured. The elastic limit was measured using a JIS12A test piece according to the metal material tensile test method JIS Z 2241 (1998), and the tensile stress when a permanent elongation of 0.03% occurred.
Also, the attachment / detachment jig 40 shown in FIGS. 5 to 7 is attached to both ends 4a and 4b of each lock ring 4 after the heat treatment, and the distance (widening amount) between both ends 4a and 4b is expanded as shown in Table 1. The attachment / detachment jig 40 was removed with the interval narrowed, and the interval between both ends 4a, 4b of each lock ring 4 in the no-load state was measured. Note that the initial interval between the ends 4a and 4b of each lock ring 4 before the attachment / detachment jig 40 was attached was −30 mm (that is, the ends 4a and 4b overlapped, and the amount of wrapping was 30 mm). Therefore, the difference between the distance between the both ends 4a and 4b after the widening and the initial distance is shown in Table 1 as “plastic deformation amount”. For example, if the distance between both ends 4a and 4b after widening is −15 mm, the amount of plastic deformation is 15 mm (= −15 − (− 30).

  The obtained results are shown in Table 1 and FIGS. For comparison, a lock ring having the same composition as that described above, a heat treatment not performed, and a widened one without using the attachment / detachment jig 40 were subjected to the same test. Further, the lock ring 4 attached to the rim base having rim diameters of 51 and 63 inches was tested in the same manner as described above, and the results are shown in FIGS.

As is clear from Table 1 and FIGS. 8 and 9, in the case of each embodiment in which heat treatment was performed on each lock ring, when widening was performed using the attachment / detachment jig 40 provided with a swing mechanism, compared to a lock ring not subjected to heat treatment. Thus, the amount of plastic deformation could be reduced.
In each of the examples, it was found that the elastic limit was in the range of 260 to 400 N / mm ² , and the widening operation using the attachment / detachment jig 40 could be easily performed.
On the other hand, the swinging mechanisms 25 and 35 of the attaching / detaching jig 40 are fixed, and the space expansion / contraction member 8 is in the same position as the fixing members 28 and 38 in the radial direction (α = 0, the same radial position as the lock ring). In the case of Comparative Example 1 in which both ends 4a and 4b of the lock ring 4 are widened, the width of the lock ring 4 is widened to an ellipse, and a widening amount of 294 mm or more is required in order to secure the clearance with the gutter band portion, and plastic deformation. It was not possible to widen without doing.
Further, in Comparative Examples 2 and 3 in which each lock ring was widened without performing heat treatment, the amount of plastic deformation was larger than that of the heat treated lock ring, and the elastic limit was less than 260 N / mm ² .

DESCRIPTION OF SYMBOLS 1 Rim base 2 Side ring 3 Bead seat band 4 Lock ring 4a, 4b Both ends of lock ring 4s Cut 4t Protruding part 4x Outer surface of lock ring 4y Side surface of lock ring 4z Width of lock ring 8 Spacing elastic member 11 Gutter band part 11a In gutter band part Grooves 20 and 30 Mounting portion 21a Contact surface of mounting portion 21h Ring mounting piece 21hs Edges of ring mounting piece 25 and 26 Swing mechanism (protrusion and circular hole)
28 Fixing member 40 Attachment / detachment jig ΔL Distance between attachment / detachment jigs M1 Length from the contact surface to the edge of the ring mounting piece

Claims (5)

A lock ring which is used for a wheel of a multi-piece rim and has one radial cut at one circumferential position,
The wheel of the multi-piece rim includes a rim base having a gutter band portion provided on at least one end thereof, side rings disposed at both ends of the rim base, and the side ring on the gutter band portion as an axis of the rim base. A bead seat band supported from the direction end side,
The lock ring fits into a groove formed in the gutter band portion, can support the bead seat band from the axial end portion side of the rim base, and is heat-treated elastic limit 260 to 260 made of an iron-based material. 400 N / mm ² lock ring.   The rim nominal diameter of the rim base is 51, 57, or 63 inches, and the distance between the both ends of the lock ring due to plastic deformation after widening 200 to 300 mm is 50 mm or less when the rim diameter is 51 inches. 2. The lock ring according to claim 1, wherein the case of 57 inches is 20 mm or less, and the case of a rim diameter of 63 inches is 10 mm or less. A method of mounting the lock ring according to claim 1 or 2,
A jig attaching step for attaching a detachable jig to both ends of the lock ring, and
A perfect circle widening step that widens the gap between the attachment and detachment jigs and widens both ends of the lock ring in a substantially perfect circle,
A lock step having a fitting step of moving the lock ring widened by the perfect circle widening step in the axial direction of the rim base and fitting the lock ring into a groove formed in the gutter band portion of the wheel of the multi-piece rim. A mounting method,
A method for attaching a lock ring, wherein the attachment / detachment jig is provided with an interval expansion / contraction member located on the outer side in the radial direction from the lock ring by widening the interval between the attachment / detachment jigs. A wheel in which the lock ring according to claim 1 or 2 is mounted on a wheel of a multi-piece rim,
The wheel of the multi-piece rim includes a rim base having a gutter band portion provided on at least one end thereof, side rings disposed at both ends of the rim base, and the side ring on the gutter band portion as an axis of the rim base. With a bead seat band that supports from the outside in the direction,
The lock ring is a wheel that fits into a groove formed in the gutter band portion and supports the bead seat band from the axially outer side of the rim base. A mounting part that is attached to both ends of a lock ring that is used in a wheel of a multi-piece rim and has one radial cut in the circumferential direction, and a space expansion / contraction member that joins the mounting parts and expands / contracts the distance between them. And a detachable jig provided with fixing members for fixing the attachment portions to both ends of the lock ring,
The mounting portion has a contact surface that contacts the outer surface of the lock ring, and a ring mounting piece that contacts the side surface of the lock ring while falling from the contact surface, and the angle of the interval expansion / contraction member with respect to the expansion / contraction direction can be changed. It is coupled to the spacing elastic member by a simple swing mechanism,
While the outer surface of the lock ring is in contact with the contact surface and the ring mounting piece is in contact with the side surface of the lock ring, the fixing member fixes the mounting portion and the lock ring,
A detachable jig in which the length from the contact surface to the edge of the ring mounting piece is equal to or less than the width from the outer surface to the inner surface of the lock ring.

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