JP6008428B2 - Chain guide - Google Patents

Description

  The present invention relates to a chain guide that includes a guide shoe that slides and guides a traveling chain, and a plate that reinforces the guide shoe along the chain traveling direction.

Conventionally, in order to stabilize a chain traveling between sprockets and properly maintain a tension, it is commonly used to use a chain guide provided with a guide shoe for slidingly guiding the traveling chain.
For example, as shown in FIG. 5, there is an engine timing system for driving a transmission chain CH such as a roller chain suspended endlessly between sprockets S1 and S2 provided on a crankshaft and a camshaft in an engine room E, respectively. The timing chain CH is endlessly suspended between the drive sprocket S1 attached to the crankshaft in the engine room E and the pair of driven sprockets S2 attached to the camshaft, and the timing chain CH swings. A timing system guided by a guide (swing guide) 500 and a chain guide (fixed guide) 600 is known.

In this known timing system, the fixed guide 600 is fixed in the engine room E by two fixing attachment shafts Q, and the swing guide 500 is suspended around the timing chain CH around the swing mounting shaft P. It is mounted in the engine room E so as to be swingable in a plane.
The chain tensioner T presses the swing guide 500 to appropriately maintain the tension of the timing chain CH and suppress vibrations.
The known chain guide (swing guide) 500 and chain guide (fixed guide) 600 used in such a timing system are integrally formed of synthetic resin, so that the rigidity and durability of the chain guide are ensured. Although it is necessary to increase the rigidity of the guide body and improve the rigidity and durability, there is a problem that it becomes an obstacle to designing the engine room E compactly.

  Accordingly, as shown in FIGS. 6 to 8, the chain guide 500 includes a guide shoe 110 that slides and guides the traveling chain, and a plate 520 that reinforces the guide shoe 110 along the chain traveling direction. A slit groove 112 into which the plate 520 can be inserted from below is provided on the back side of the travel guide portion 111 of the guide shoe 110, and a plate 520 having high rigidity and durability is inserted into the slit groove 112, so that the chain guide 500 as a whole is obtained. A device having a small occupied space while ensuring necessary strength, rigidity, and durability is known (see Patent Documents 1, 2, 3, etc.).

Since the plate 520 inserted and fixed in the slit groove 112 of these known chain guides 500 is generally made of a metal plate and manufactured by punching or the like, it is formed by punching or the like as shown in the sectional view of FIG. A flat surface portion 521 by shearing is slightly formed on one side in the width direction on the end surfaces such as the outer periphery and the hole portion, and a fracture surface portion 522 is formed from the flat surface portion 521 toward the opposite side in the width direction.
The flat surface portion 521 is a surface that is perpendicular to the side surface of the plate 520 and has less unevenness, but the fracture surface portion 522 is a surface that is inclined from the flat surface portion 521.

JP 2006-2810 A JP 2003-130156 A JP 2002-266964 A

Since the end surface of the plate 520 of the conventional chain guide 500 has a slight flat surface portion 521, when the plate 520 is inserted to the bottom of the slit groove 112 of the guide shoe 110, as shown in FIG. There is a possibility that the plate 520 and the guide shoe 110 may be inclined along.
Further, even in the portion of the plate 520 that contacts the chain tensioner T, the flat surface portion 521 of the end surface thereof is slight, so that the plate 520 may be inclined when pressed by the chain tensioner T.
When the guide shoe 110 or the plate 520 is tilted, the travel guide unit 111 is tilted with respect to the original travel surface of the chain, and the chain itself is twisted and guided. There was a problem that noise increased.
Further, since the pressing force of the travel guide portion 111 received from the chain is concentrated on one side in the width direction, there is a problem that wear of the guide shoe 110 is promoted and durability is deteriorated or damaged.

Similarly, the end surface on the inner periphery of the mounting hole 523 of the plate 520 into which the mounting shaft is inserted similarly has a slight flat surface portion 521 formed by shearing on one side in the width direction, and the opposite side in the width direction from the flat surface portion 521. As shown in FIGS. 11 to 13, the flat surface portion 521 side has a small diameter.
As a result, as shown in FIG. 11, when a displacement occurs with the mounting hole 113 of the guide shoe 110 when inserted into the slit groove 112 of the guide shoe 110, the flat surface portion 521 is positioned on the mounting target side. At the time of attachment, there is a problem that the tip of the attachment shaft P comes into contact with the inner peripheral end face of the attachment hole 523 of the plate 520 and obstructs the work.
In addition, as shown in FIG. 12, when the mounting shaft P is provided on the shoulder bolt and the flat surface portion 521 is positioned on the opposite side of the mounting target when the shoulder bolt is inserted, There was a problem that the tip of the mounting shaft P part contacted the inner peripheral end surface of the mounting hole 523 of the plate 520 and obstructed the work.
Further, as shown in FIG. 13, the fracture surface portion 522 of the inner peripheral end surface of the mounting hole 523 gradually increases in diameter from the flat surface portion 521 side, and the width of the flat surface portion 521 is narrow. There was a risk of tilting.
Further, when the chain guide 500 swings, the flat surface portion 521 having a narrow width is slid by receiving a strong force, which may cause noise and vibration without being stable, or may be worn severely, resulting in reduced durability. Or have been damaged or burned.

In addition, the end surface on the inner periphery of the engagement hole 524 of the plate 520 with which the locking piece 114 provided on the guide shoe 110 is engaged is similarly formed with a slight flat surface portion 521 by shearing on one side in the width direction. Since the fracture surface portion 522 is formed from the flat surface portion 521 toward the opposite side in the width direction, the flat surface portion 521 side has a small diameter and the fracture surface portion 522 side has a large diameter.
Thus, when the locking piece 114 is engaged with the fracture surface 522 side of the inner peripheral end face of the engagement hole 524, the gap D is formed between the locking piece 114 and the engagement hole 524 as shown in FIG. As a result, the guide shoe 110 and the plate 520 cannot be positioned and fixed accurately, and the mounting hole 113 of the guide shoe 110 and the mounting hole 523 of the plate 520 are misaligned. There was a problem that it was an obstacle to work.
Conversely, when the locking piece 114 is engaged with the flat surface portion 521 side of the inner peripheral end surface of the engagement hole 524, a gap is generated between the locking piece 114 and the engagement hole 524 as shown in FIG. Although difficult, when the plate 520 is inserted into the slit groove 112 of the guide shoe 110, the corner of the flat surface portion 521 of the upper end surface abuts and slides on the locking piece 114 to elastically deform the locking piece to the side. There is a problem that the sliding surface of the locking piece 114 is easily damaged.

  The present invention solves the above-described problems, and provides a highly durable chain guide that has a simple configuration, is easy to assemble, has reduced inclination and backlash, has less wear and breakage, and has high durability. It is intended.

The invention according to claim 1 is a chain guide including a guide shoe that slides and guides a traveling chain, and a plate that reinforces the guide shoe along the chain traveling direction.
The guide shoe has a travel guide portion extending in the chain travel direction, and a slit groove into which the plate can be inserted from below on the back side of the travel guide portion, and the end surface of the plate is on one side in the width direction. The width of the flat surface portion at the end surface of the portion that has a flat surface portion and contacts with at least one other member of the plate is larger than the width of the flat surface portion at the end surface of the portion that does not contact any member of the plate. The plate has a mounting hole into which a mounting shaft for mounting to a mounting target is inserted, and the flat surface portion at the end surface of the inner peripheral portion of the mounting hole is a depth in the insertion direction of the mounting shaft. The said subject is solved by being formed in the side .

In the invention according to claim 2, in addition to the structure of the chain guide according to claim 1, the width of the flat surface portion of the end surface of the plate that contacts the bottom of the slit groove is in contact with any member of the plate. The problem is solved by being formed so as to be larger than the width of the flat surface portion at the end surface of the portion not to be processed.
The invention according to the claims 3, example pressurized to the configuration of the chain guide according to claim 1 or claim 2, the width of the flat surface portion at the end face of the inner peripheral portion of the front Symbol mounting hole, any member both of said plate The problem is solved by being formed so as to be larger than the width of the flat surface portion at the end surface of the non-contact portion.
In the invention according to Claim 4 , in addition to the structure of the chain guide according to any one of Claims 1 to 3 , the width of the flat surface portion of the end surface of the plate that contacts the tensioner is any of the plates. The problem is solved by being formed so as to be larger than the width of the flat surface portion at the end surface of the portion that does not contact the member.
The invention according to claim 5 is a chain guide comprising a guide shoe that slides and guides a traveling chain, and a plate that reinforces the guide shoe along the chain traveling direction. A travel guide portion extending in the travel direction; and a slit groove into which the plate can be inserted from below on the back side of the travel guide portion; and an end surface of the plate has a flat surface portion on one side in the width direction; The width of the flat surface portion at the end surface of the plate that comes into contact with at least one other member of the plate is formed to be larger than the width of the flat surface portion at the end surface of the portion that does not come into contact with any member of the plate, The plate has an engagement hole with which an engagement piece provided on the guide shoe is engaged, and the engagement piece provided on the guide shoe is disposed on an end surface of an inner peripheral portion of the engagement hole. By provided so as to enter the flat surface section is intended to solve the above problems.
According to the sixth aspect of the invention, in addition to the structure of the chain guide according to the fifth aspect, the width of the flat surface portion of the end surface of the inner peripheral portion of the engagement hole is the end surface of the portion that does not contact any member of the plate The above-mentioned problem is solved by being formed so as to be larger than the width of the flat surface portion.
In addition to the structure of the chain guide according to claim 5 or 6 , the invention according to claim 7 is an end face of a portion of the plate that abuts against the bottom of the slit groove, and the plate is attached to the guide shoe. An inclined surface portion is formed at a portion through which the locking piece passes during insertion, thereby solving the problem.
In the invention according to claim 8 , in addition to the structure of the chain guide according to any one of claims 1 to 7 , the flat surface portion larger than the width of the flat surface portion at the end surface of the portion not contacting any member of the plate is provided. , All of the above-mentioned problems are solved by being formed on the same surface side.

According to the chain guide according to the claim 1, strength, rigidity, contributing plate durability formed by the guide shoe and another material, the plate slit groove provided on the back side of the traveling guide section of the guide shoe By making it possible to insert from below, it is possible to easily assemble with a simple configuration, and it is possible to reduce the occupied space while ensuring the strength, rigidity, and durability required for the entire chain guide.
Then, the width of the flat surface portion at the end surface of the portion that contacts with at least one other member of the plate is formed to be larger than the width of the flat surface portion at the end surface of the portion that does not contact any member of the plate. Thus, in the portion having the wide flat surface portion, the other members can be in contact with only the flat surface portion and not in contact with the inclined fracture surface portion.
As a result, it is possible to prevent the plate and other members that are in contact with each other from being inclined relatively, and it is possible to prevent the force from being concentrated on the narrow flat surface portion. The backlash is reduced, the occurrence of wear and damage is reduced, and durability is improved.
Further, since the flat surface portion at the end surface of the inner peripheral portion of the mounting hole is formed on the back side in the insertion direction of the mounting shaft, the diameter of the mounting hole of the plate is greatly increased on the front side in the insertion direction of the mounting shaft. It can arrange | position so that it may become a small diameter gradually toward the side.
As a result, even if the mounting hole of the plate and the mounting hole of the guide shoe are misaligned, the tip of the mounting shaft is inserted smoothly without contacting the inner peripheral end surface of the mounting hole of the plate at the time of mounting. It becomes possible.

According to the configuration of the second aspect, the bottom of the slit groove and the plate abut on the wide flat surface portion, so that the travel guide portion does not tilt with respect to the original travel surface of the chain, and the chain itself Is prevented from being twisted and guided, and vibration and noise due to collision with the sprocket can be reduced.
In addition, the pressing force of the travel guide portion received from the chain is not concentrated on one side in the width direction, so that wear of the guide shoe can be prevented, durability can be improved, and damage can be prevented .

According to the third aspect of the present invention, since the pressing force is dispersed and the mounting surface is stable because the end surface of the inner peripheral portion of the mounting hole and the mounting shaft come into contact with the wide flat surface portion, noise and vibration Even when rocking, the occurrence of wear and seizure can be reduced, so that the occurrence of breakage is small and the durability is improved.
According to the configuration described in claim 4, even when the tensioner and the plate are in direct contact, by contact with a wide flat surface section width, without plate tilts when subjected to pressing force from the tensioner, the travel It is possible to prevent the guide portion from being tilted and guided by twisting the chain itself, and to reduce vibration and noise due to collision with the sprocket.
In addition, since the force does not concentrate on a narrow portion of the end surface of the tensioner or the plate, the occurrence of breakage is small and the durability is improved.
According to the chain guide of the fifth aspect , the plate has the engagement hole with which the engagement piece provided on the guide shoe is engaged, and the engagement hole is engaged with the flat surface portion at the end surface of the inner peripheral portion. By providing the stop piece so as to enter, the guide shoe and the plate can be accurately positioned and fixed without generating a gap between the locking piece and the engagement hole.

According to the configuration of the sixth aspect of the present invention, the force is concentrated on a narrow portion of the locking piece when the locking piece comes into contact with the wide flat surface portion of the end surface of the inner peripheral portion of the engaging hole. As a result, there is little occurrence of breakage and durability is improved.
According to the configuration of the seventh aspect of the present invention, when the plate is inserted into the slit groove of the guide shoe, the inclined surface portion of the upper end surface abuts and slides on the locking piece. The locking piece can be elastically deformed sideways smoothly without being damaged.
According to the configuration described in claim 8, by which the width is larger than the flat surface portion of the flat surface portion is formed in all the same side of an end face of a portion which does not contact with any member of the plate, for example, shaving, etc. Can be formed by one processing.

Cross-sectional explanatory drawing of the plate of the chain guide which concerns on 1st Embodiment of this invention. Cross-sectional explanatory drawing of the attachment hole part of the chain guide which concerns on 1st Embodiment of this invention. Cross-sectional explanatory drawing of the attachment hole part (when an attachment axis | shaft is provided in the shoulder bolt) of the chain guide which concerns on 1st Embodiment of this invention. Cross-sectional explanatory drawing of the locking hole part of the chain guide which concerns on 1st Embodiment of this invention. Explanatory drawing of the timing system of the conventional engine. The perspective view of the conventional chain guide. The perspective view from the other direction of the chain guide of FIG. The side view of the chain guide of FIG. Cross-sectional explanatory drawing of the plate of the conventional chain guide. FIG. 9 is a cross-sectional explanatory view of the chain guide of FIG. Cross-sectional explanatory drawing at the time of attachment of the BB cross section of the chain guide of FIG. Cross-sectional explanatory drawing at the time of attachment of the BB cross section of the chain guide of FIG. 8 (when an attachment shaft is provided in the shoulder bolt). Cross-sectional explanatory drawing after attachment of the BB cross section of the chain guide of FIG. Cross-sectional explanatory drawing of the locking hole part of the conventional chain guide. Cross-sectional explanatory drawing when the flat surface part of the plate of FIG. 14 is made into the other side.

A chain guide according to the present invention is a chain guide provided with a guide shoe that slides and guides a traveling chain, and a plate that reinforces the guide shoe along the chain traveling direction. It has an extended travel guide part, a slit groove into which the plate can be inserted from below on the back side of the travel guide part, the end surface of the plate has a flat surface part on one side in the width direction, and at least one place on the plate The width of the flat surface portion at the end surface of the portion in contact with the other member is formed to be larger than the width of the flat surface portion at the end surface of the portion not in contact with any member of the plate, (1) the plate is There is a mounting hole into which the mounting shaft for mounting on the mounting target is inserted, and the flat surface portion at the end surface of the inner peripheral portion of the mounting hole is formed on the back side in the insertion direction of the mounting shaft. (2) The plate has an engagement hole with which the engagement piece provided on the guide shoe engages, and the engagement piece provided on the guide shoe is provided on the end surface of the inner peripheral portion of the engagement hole. If it has a simple structure, is easy to assemble, has reduced inclination and backlash, has less wear and breakage, and has high durability, its specific The general configuration may be any.

Plate is a metal material, is particularly preferred that are manufactured from rolled steel plate, as long as the material capable of stamping, rigidity, durability, formability, in accordance with various conditions such as cost known The appropriate one may be selected.
The material of the guide shoe is preferably a synthetic resin, but a known appropriate material may be selected according to various conditions such as friction resistance, rigidity, durability, moldability, and cost.

A chain guide (swing guide) according to an embodiment of the present invention will be described with reference to the drawings.
The chain guide is applied to the above-described known timing system, and the configuration thereof is the same as that of the conventional chain guide 500 shown in FIGS. (FIGS. 5 to 8 are also cited in the description of the embodiment).
The plate 120 is made of a plate-like member extending in the chain traveling direction, and is given a predetermined curved shape along the chain traveling direction.
This plate 120 has a uniform cross-section in the chain running direction, is manufactured by punching from a rolled steel plate, and as shown in FIG. 1, at the end face of the portion that comes into contact with at least one other member, A wide flat surface part 121 is formed by shaving, and the width of the inclined fracture surface part 122 is narrow.
The wide flat surface portion 121 is not limited to one formed by shaving, and may be formed by grinding, cutting, plastic deformation, or the like after punching. It may be formed as a punching process, and any formation method may be used.

As shown in FIG. 1, a wide flat surface portion 121 is formed on the end surface of the plate 120 in contact with the bottom of the slit groove 112, so that the plate 520, the guide shoe 110, and the like shown in FIG. 10 are formed. Inclination is prevented, and the travel guide portion does not tilt with respect to the original travel surface of the chain.
In addition, the wide flat surface portion 121 is formed on the end surface of the portion of the plate 120 that contacts the tensioner T, so that the plate 120 does not tilt when receiving a pressing force from the tensioner T.

As shown in FIG. 2, the flat surface portion 121 at the end surface of the inner peripheral portion of the mounting hole 123 into which the mounting shaft P of the plate 120 is inserted is disposed so as to be formed on the back side in the insertion direction of the mounting shaft P. Yes.
Thus, even when the mounting hole 123 of the plate 120 and the mounting hole 113 of the guide shoe 110 are misaligned, the tip of the mounting shaft P is attached to the inner periphery of the mounting hole 123 of the plate 120 when mounted on the mounting shaft P. It becomes possible to insert smoothly without contacting the end surface of the.
In the present embodiment shown in FIG. 2, the flat surface portion 121 at the end surface of the inner peripheral portion of the mounting hole 123 is a flat surface portion having a narrow width similar to the conventional one, but a wide flat surface portion is formed here. As a result, the pressing force is dispersed and stable mounting is achieved, so that noise and vibration are reduced, and the occurrence of wear and seizure can be reduced even when rocking.
As shown in FIG. 3, when the mounting shaft P is provided on the shoulder bolt, the mounting shaft P is inserted from the side opposite to that shown in FIG. Located on the opposite side.

The plate 120 has an engagement hole 124 with which the locking piece 114 provided on the guide shoe 110 is engaged. When the plate 120 is inserted into the slit groove 112 of the guide shoe 110, the locking piece 114 is provided. Is configured to engage with the engagement hole 124 to prevent dropping.
As shown in FIG. 4, an inclined surface portion 125 is formed on the end surface of the portion that contacts the bottom portion of the slit groove 112 of the plate 120 where the locking piece 114 passes when the plate 120 is inserted into the slit groove 112 of the guide shoe 110. Is formed.
As a result, the inclined surface portion 125 of the upper end surface slides against the locking piece 114, so that the locking piece 114 can be smoothly elastically deformed laterally without damaging the sliding surface of the locking piece 114. Thus, the plate 120 can be inserted.

In the present embodiment shown in FIG. 4, the flat surface portion 121 at the end surface of the inner peripheral portion of the engagement hole 124 is a flat surface portion having a narrow width as in the conventional case, but a wide flat surface portion is formed here. The engaging piece 114 may be brought into contact with the wide flat surface portion 121 of the end surface of the inner peripheral portion of the engaging hole 124, so that the force is not concentrated on the narrow portion of the engaging piece 114, and the breakage is caused. Can be prevented and durability can be improved.
Also, the wide flat surface portion 121 formed on the plate 120 is all on the same surface side, and when forming by shaving or precision punching, the wide flat surface portion 121 is simultaneously formed at all locations. Can be manufactured easily.
Further, when the mounting shaft P is provided on the shoulder bolt, the flat surface portion 121 on the end surface of the inner peripheral portion of the mounting hole 123 is arranged on the side opposite to that of FIG. By designing 114 to be arranged on the opposite side, all the flat surface portions 121 can be on the same surface side.

  According to the chain guide and the plate 120 according to the present embodiment configured as described above, the overall structure is reduced in size and fixed by being reinforced by the plate 120 made of a metal material that contributes to strength, rigidity, and durability. It is possible to reduce the occupied space in the engine room, and it is easy to assemble by providing a wide flat surface portion 121 on a predetermined outer periphery of the plate 120, an end surface such as a hole portion, and the like. , Tilt and backlash are reduced, and wear and breakage are less likely to occur and durability can be improved.

The chain guide of the above embodiment is configured as a swing guide that is swingably mounted on one swing mounting shaft P, but is configured as a fixed guide that is fixed to a plurality of mounting shafts Q. Also good.
In addition, various modifications such as the shape, position, size, and arrangement relationship of each component can be made.
Furthermore, although this embodiment is provided in the engine which has a timing system, it is not limited to this but is applicable to various apparatuses.
Further, the present invention is not limited to a chain transmission mechanism, and may be applied to a similar transmission mechanism such as a belt or a rope, and can be used in various industrial fields.

500 ... Chain guide (swing guide)
600 ... Chain guide (fixed guide)
110 ... guide shoe 111 ... travel guide part 112 ... slit groove 113 ... mounting hole (of the guide shoe)
114 ... locking piece 120, 520 ... plate 121, 521 ... flat surface part 122, 522 ... fracture surface part 123, 523 ... mounting hole (of the guide shoe)
124, 524 ... engaging hole 125 ... inclined surface S1 ... driving sprocket S2 ... driven sprocket CH ... timing chain P ... mounting shaft (for swinging)
Q ... Mounting shaft (for fixing)
T ・ ・ ・ Chain tensioner

Claims (8)

A chain guide comprising a guide shoe for slidingly guiding a traveling chain, and a plate for reinforcing the guide shoe along the chain traveling direction,
The guide shoe has a travel guide portion extending in the chain travel direction, and a slit groove into which the plate can be inserted from below on the back side of the travel guide portion,
The end surface of the plate has a flat surface portion on one side in the width direction,
The width of the flat surface portion at the end surface of the plate that comes into contact with at least one other member of the plate is formed to be larger than the width of the flat surface portion at the end surface of the portion that does not come into contact with any member of the plate,
The plate has a mounting hole into which a mounting shaft for mounting on a mounting target is inserted,
The chain guide according to claim 1, wherein the flat surface portion of the end surface of the inner peripheral portion of the mounting hole is formed on the back side in the insertion direction of the mounting shaft .   The width of the flat surface portion at the end surface of the portion of the plate that contacts the bottom of the slit groove is formed to be larger than the width of the flat surface portion at the end surface of the portion that does not contact any member of the plate. The chain guide according to claim 1. Claim 1, the width of the flat face portion at the end face of the inner peripheral portion of the mounting hole, characterized in that it is formed to be larger than the width of the flat face of an end face of a portion which does not contact with any member of said plate Or the chain guide of Claim 2 . Claim the width of the flat surface portion of an end face of a portion abutting the tensioner of the plate, characterized in that it is formed to be larger than the width of the flat surface portion of an end face of a portion which does not contact with any member of said plate The chain guide according to any one of claims 1 to 3 . A chain guide comprising a guide shoe for slidingly guiding a traveling chain, and a plate for reinforcing the guide shoe along the chain traveling direction,
The guide shoe has a travel guide portion extending in the chain travel direction, and a slit groove into which the plate can be inserted from below on the back side of the travel guide portion,
The end surface of the plate has a flat surface portion on one side in the width direction,
The width of the flat surface portion at the end surface of the plate that comes into contact with at least one other member of the plate is formed to be larger than the width of the flat surface portion at the end surface of the portion that does not come into contact with any member of the plate,
The plate has an engagement hole with which a locking piece provided on the guide shoe is engaged,
The chain guide, wherein the locking piece provided on the guide shoe is provided so as to enter a flat surface portion at an end surface of an inner peripheral portion of the engagement hole. Claim the width of the flat surface portion at the end face of the inner peripheral portion of the engaging hole, characterized in that it is formed to be larger than the width of the flat surface portion of an end face of a portion which does not contact with any member of said plate 5. The chain guide according to 5 . An inclined surface portion is formed in an end surface of a portion of the plate that contacts the bottom of the slit groove and through which the locking piece passes when the plate is inserted into the guide shoe. The chain guide according to claim 5 or 6 . The flat surface part larger than the width of the flat surface part in the end surface of the part which does not contact any member of the said plate is formed in the same surface side in any one of Claim 1 thru | or 7 characterized by the above-mentioned. Chain guide.

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