JP2005047416A - Crawler part assembly structure and crawler part assembly method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a crawler part assembly structure and a crawler part assembly method capable of making a bolt hole diameter of a link and a shoe a common and definite diameter in production of a crawler part even when the bolt hole diameter is different for each of construction machinery manufacturers, and capable of solving inconvenience in production of the crawler part. <P>SOLUTION: In the crawler part assembly structure and the assembly method wherein the link 2 and the shoe 6 are fastened by a bolt 7 and a nut 8, at least a bolt hole 11 of the link 2 of the bolt holes 11 and 12 of the link 2 and the shoe 6 is machined to a bolt hole diameter corresponding to the bolt 7 having the maximum diameter in the class. As for the bolt 7 having a diameter smaller than the maximum diameter, a bushing 13 is inserted into at least the bolt hole 11 of the link 2 of the bolt holes 11 and 12 of the link 2 and the shoe 6, and an inside diameter of the bushing 13 is the bolt hole diameter corresponding to the bolt 7 having the smaller diameter. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a crawler belt part assembly structure and a crawler belt part assembly method for a construction machine.

As disclosed in FIG. 19 of JP-A-8-318879 and FIG. 1 of JP-A-57-51583, and as shown in FIGS. The crawler belt 1 is assembled by connecting a link 2 endlessly with a pin 3 and a bushing 4 to form a link assembly 5 and fastening a shoe 6 to the link 2 of the link assembly 5 with bolts 7 and nuts 8.
In the past, the specifications of the bolts 7 and nuts 8 differ depending on the manufacturer of the construction machine. In this case, the crawler parts manufacturer processes the bolt holes 9 and 10 according to the bolts and nuts into links and shoes. is doing.

However, the prior art has the following problems.
1. Since the bolt hole diameters are different for each construction machine manufacturer, each crawler parts manufacturer requires a dedicated processing jig (such as a drill).
2. Therefore, it is necessary to prepare for replacing the processing jig when manufacturing the parts.
3. Even if the shape of the link and shoe is standardized and parts are made common to all construction machine manufacturers, the parts cannot be truly shared because of the difference in bolt hole diameter.
4). It is possible to attach the shoe to the link by machining with a large bolt hole diameter and using a bolt and nut smaller than the bolt corresponding to the hole diameter. There is a risk of adversely affecting durability.
JP-A-8-318879 (FIG. 19) JP-A-57-51583 (FIG. 1)

  The problem to be solved by the present invention is a problem (at least one of the above problems 1 to 4) in the production of crawler belt parts due to the difference in bolt hole diameter for each construction machine manufacturer.

  The object of the present invention is to solve the problem in the production of crawler belt parts by making the bolt hole diameter of the link and the shoe a common constant diameter in the production of the crawler track parts even if the bolt hole diameter is different for each construction machine maker. (1) to (4) of the crawler belt parts, and a method for assembling the crawler belt parts.

The present invention for achieving the above object is as follows.
(1) An assembly structure of a crawler belt part in which a link and a shoe are fastened with bolts and nuts, and at least the bolt hole of the link among the bolt holes of the link and shoe is the bolt hole corresponding to the bolt of the maximum diameter of the class For a bolt having a diameter smaller than that of the maximum diameter bolt, a bushing is inserted into at least the bolt hole of the link among the bolt holes of the link and shoe, and the inner diameter of the bushing is set to the small diameter. Assembly structure of crawler belt parts with bolt hole diameters corresponding to the bolts.
(2) A method for assembling a crawler track part in which a link and a shoe are fastened with bolts and nuts, and at least the bolt hole of the link among the bolt holes of the link and shoe is the bolt hole corresponding to the bolt of the maximum diameter of the class For a bolt having a diameter smaller than the maximum diameter bolt, a bushing is inserted into at least the bolt hole of the link among the bolt holes of the link and the shoe, and the inner diameter of the bushing is set to the small diameter. A method for assembling a crawler belt component, including a step of setting a bolt hole diameter corresponding to the bolt.

According to the assembly structure of the crawler belt part of (1) and the method of assembling the crawler part of (2), at least the bolt hole of the link among the bolt holes of the link and the shoe corresponds to the bolt of the maximum diameter of the class. Since it is processed with the bushing diameter and the bushing responds to changes in the bolt diameter, there is no need to change the bolt hole diameter for each construction machine manufacturer, and a dedicated processing jig ( There is no need to prepare a drill. As a result, the problems of the prior art are as follows. Will be resolved.
Therefore, when manufacturing the crawler belt part, it is not necessary to prepare for replacing the processing jig. As a result, the problem of the prior art 2. Will be resolved.
Moreover, since the diameter of the bolt hole of the link and the shoe can be made the same for any construction machine manufacturer, the shape of the link and the shoe including the bolt hole can be unified. As a result, the problem of the prior art 3. Will be resolved.
Further, since the bushing corresponding to the small diameter bolt is inserted into the bolt hole to cope with the small diameter bolt, there is no possibility of loosening of the bolt and deterioration of durability of the shoe or the link. As a result, the problem of the prior art4. Will be resolved.

A crawler belt part assembly structure and a crawler belt part assembly method according to the present invention will be described with reference to FIGS.
The conventional general structure of the assembly structure of the crawler belt parts of FIGS. 6 to 9 is the same as that of the present invention except that the bolt hole diameter is made common and the bushing is inserted into the bolt hole for the small diameter bolt. The present invention is also applicable.
1 to 5, parts having the same structure as in FIGS. 6 to 9 are denoted by the same reference numerals as those in FIGS. 6 to 9.

  The assembly structure of the crawler belt part of the present invention is an assembly structure of the crawler belt 1 in which the link 2 and the shoe 6 are fastened with bolts 7 and nuts 8, and at least the link 2 among the bolt holes 11 and 12 of the link 2 and the shoe 6. The bolt hole 11 is processed with a bolt hole diameter corresponding to the bolt 7 having the maximum diameter of the class. For the bolt 7 having a diameter smaller than the maximum diameter bolt, the link 2, the bolt hole 11 of the shoe 6, 12, a bushing (also referred to as “collar”) 13 is inserted into at least the bolt hole 11 of the link 2, and the inner diameter of the bushing 13 is set to a bolt hole diameter corresponding to the small-diameter bolt 7. Here, “the bolt hole 11 of at least the link 2 out of the bolt holes 11 and 12 of the link 2 and the shoe 6” means “both the bolt hole 11 of the link 2 and the bolt hole 12 of the shoe 6” and “ The case of “only the bolt hole 11 of the link 2” is included.

The assembly structure of the crawler belt part of the present invention includes the following cases (a), (b), (c), and (d).
(A) As shown in FIG. 3A, both the bolt holes 11 and 12 of the link 2 and the shoe 6 are processed with bolt hole diameters corresponding to the bolts 7 having the maximum diameter of the class, and the maximum diameter For the bolt 7 having a smaller diameter than the bolt, a bushing 13 is inserted into the bolt hole 11 of the link 2 only, and the inner diameter of the bushing 13 is set to a bolt hole diameter corresponding to the small diameter bolt 7.
(B) As shown in FIG. 3 (B), both the bolt holes 11 and 12 of the link 2 and the shoe 6 are processed with bolt hole diameters corresponding to the bolts 7 having the maximum diameter of the class, and the maximum diameter For a bolt 7 having a diameter smaller than that of the first bolt, a single bushing 13 extending over both bolt holes 11 and 12 is inserted into both of the bolt holes 11 and 12 of the link 2 and the shoe 6 so that the inner diameter of the bushing 13 is reduced. A bolt hole diameter corresponding to the small-diameter bolt 7.
(C) As shown in FIG. 3C, both the bolt holes 11 and 12 of the link 2 and the shoe 6 are processed with bolt hole diameters corresponding to the bolts 7 having the maximum diameter of the class, and the maximum diameter For the bolt 7 having a diameter smaller than that of the first bolt, a first bushing 13 is inserted into the bolt hole 11 of the link 2 and a second bushing 13 (separate from the first bushing is inserted into the bolt hole 12 of the shoe 6). A bushing is inserted, and the inner diameter of the first bushing 13 and the inner diameter of the second bushing 13 are set to the bolt hole diameter corresponding to the small-diameter bolt 7.
(D) As shown in FIG. 3D, only the bolt hole 11 of the link 2 out of the bolt holes 11 and 12 of the link 2 and the shoe 6 is the bolt hole diameter corresponding to the bolt 7 of the maximum diameter of the class. (The bolt hole 12 of the shoe 6 is processed with a bolt hole diameter corresponding to the small-diameter bolt 7). For the bolt 7 having a diameter smaller than the maximum-diameter bolt, the bolt hole 11 only for the link 2 is formed. A bushing 13 is inserted so that the inner diameter of the bushing 13 is a bolt hole diameter corresponding to the small-diameter bolt 7.

In the above, “bolt hole 11” is a bolt hole formed in the link 2, and “bolt hole 12” is a bolt hole formed in the shoe 6.
The “class” is a class related to the size of construction machinery, such as super-large, large, medium, small, and ultra-small, and “the class” is the class that includes the target track parts. It means that.
The “maximum diameter bolt” means a bolt having the maximum diameter among bolts having different diameters depending on the manufacturer of the construction machine, even if the tracks are of the same class. For example, in the case of a medium-sized crawler belt, if the bolt diameter is 20 mm in the construction machine manufacturer A and the bolt diameter is 18 mm in the company B, the maximum diameter bolt is a bolt having a bolt diameter of 20 mm.
In addition, “the bolt hole diameter corresponding to the bolt with the maximum diameter” means that the bolt hole diameter is slightly larger than the diameter of the bolt because the bolt can be inserted. In this example, when the bolt with the maximum diameter is a bolt with a bolt diameter of 20 mm, the bolt hole diameter is 20.3 mm.

A bushing 13 inserted into at least the bolt hole 11 of the link 2 among the bolt holes 11 and 12 of the link 2 and the shoe 6 with respect to the bolt 7 having a diameter smaller than the maximum diameter bolt,
(A) One bushing 13 may be inserted only into the bolt hole 11 of the link 2 and extend only into the bolt hole 11 (in this case, the length of the bushing 13 protrudes from the bolt hole 11 of the link 2). Not length), or
(B) One bushing 13 may extend over both the bolt hole 11 and the bolt hole 12, or
(C) The bushing 13 is inserted into the bolt hole 11 and the bolt 12, and the bushing 13 inserted into the bolt hole 11 and the bushing 13 inserted into the bolt hole 12 may be separate.
The example of FIG. 2 shows the case (A).

As shown in FIG. 4, the bushing 13 may be a hollow cylinder having no cuts on the circumference, or, as shown in FIG. 5, one cut on the circumference extending along the entire length in the axial direction. It may be a hollow cylinder with a cut having 14.
In order to fix the bushing 13 within the bolt hole 11 of the link 2 and fix it to the link so that it does not jump out of the bolt hole 11, the bushing 13 is made into a hollow cylinder with a slit, and the bolt of the link 2 is given an expanding force. It is good to insert in the hole 11 and to fix to the bolt hole 11 of the link 2 with the expansion force.

Next, an example is shown.
Table 1 shows an example of the current (conventional) specification.

本発明では、リンク、シューのボルト穴加工は最大径のＡ社に合わせる。たとえば、ブッシングのサイズを外径Φ２０ｍｍとすれば、ブッシングを使用した仕様の例は表２に示すようになる。

In the present invention, the bolt hole processing of the link and the shoe is matched with the company A having the maximum diameter. For example, if the bushing size is an outer diameter of Φ20 mm, an example of the specification using the bushing is as shown in Table 2.

本発明の履帯部品の組立方法は、リンク２とシュー６とをボルト７、ナット８で締結した履帯部品１の組立方法であって、リンク２、シュー６のボルト穴１１、１２のうち少なくともリンク２のボルト穴１１を、そのクラスの最大径のボルト７に対応するボルト穴径１１、１２で加工する工程と、最大径のボルト７より小径のボルト７に対しては、リンク２、シュー６のボルト穴１１、１２のうち少なくともリンク２のボルト穴１１にブッシング１３を挿入して、該ブッシング１３の内径を、小径のボルト７に対応するボルト穴径とする工程とを、有する。
。

The method of assembling a crawler belt part according to the present invention is an assembling method of the crawler belt part 1 in which the link 2 and the shoe 6 are fastened with bolts 7 and nuts 8, and at least the link 2 and the bolt holes 11 and 12 of the shoe 6 are linked. 2 for the bolt hole 11 corresponding to the maximum diameter bolt 7 of the class, and for the bolt 7 having a diameter smaller than the maximum diameter bolt 7, the link 2 and the shoe 6 The bushing 13 is inserted into at least the bolt hole 11 of the link 2 among the bolt holes 11, 12, and the inner diameter of the bushing 13 is set to a bolt hole diameter corresponding to the small-diameter bolt 7.
.

Next, the operation and effect of the track part assembly structure and the track part assembly method of the present invention will be described.
First, at least the bolt hole 11 of the link 2 out of the bolt holes 11 and 12 of the link 2 and the shoe 6 is processed with a bolt hole diameter corresponding to the bolt 7 having the maximum diameter of the class, and the diameter of the bolt 7 is changed. Therefore, it is not necessary to change the bolt hole diameter for each construction machine manufacturer (Company A, Company B), and a dedicated processing jig (such as a drill) is prepared for each construction machine manufacturer. There is no need to do this. As a result, the problems of the prior art are as follows. Will be resolved.

Therefore, when manufacturing the crawler belt part, it is not necessary to prepare for replacing the processing jig. As a result, the problem of the prior art 2. Will be resolved.
In addition, since the bolt hole diameters of the link 2 and the shoe 6 can be made the same for any construction machine manufacturer, the shapes of the link 2 and the shoe 6 can be unified including the bolt holes 11 and 12. As a result, the problem of the prior art 3. Will be resolved.
For the small-diameter bolt 7, the bushing 13 matched to the small-diameter bolt is inserted into the bolt hole 11 (12), so that the bolt 7 and the nut 8 are loosened, and the durability of the shoe 6 and the link 2 is reduced. The risk of being lost. As a result, the problem of the prior art4. Will be resolved.

It is a side view of the assembly structure of a crawler belt part of this invention. It is sectional drawing of the bolt hole of a link and a shoe, and the bushing attached to it among FIG. (A), (B), (C), (D) is sectional drawing which shows the various form which this invention can take of the bolt hole of a link and a shoe, and the bushing attached to it among FIG. . It is a perspective view of an example of a bushing among FIG. It is a perspective view of another example of a bushing among FIG. It is a top view of the link assembly of the conventional general structure (it can apply also to this invention). FIG. 7 is a side view of a part of a crawler belt in which a shoe is assembled to the link assembly of FIG. 6 with bolts and nuts. It is a top view of a shoe. FIG. 9 is a side view of the shoe of FIG. 8.

Explanation of symbols

1 Crawler Track 2 Link 3 Pin 4 Bushing 5 Link Assembly 6 Shoe 7 Bolt 8 Nut 11 Link Bolt Hole 12 Shoe Bolt Hole 13 Bushing (Color)
14 breaks

Claims (2)

  An assembly structure of crawler belt parts with links and shoes fastened with bolts and nuts, and at least link bolt holes among links and shoe bolt holes are machined with bolt hole diameters corresponding to the largest diameter bolts of the class In addition, for a bolt with a diameter smaller than the maximum diameter bolt, a bushing is inserted into at least the bolt hole of the link or shoe, and the inner diameter of the bushing is changed to the small diameter bolt. Crawler belt assembly structure with corresponding bolt hole diameter.   A method of assembling a crawler track part in which a link and a shoe are fastened with bolts and nuts, and at least one of the bolt holes of the link and shoe is processed with a bolt hole diameter corresponding to the largest diameter bolt of the class. And a step of inserting a bushing into at least a bolt hole of the link among the bolt holes of the link and the shoe, and reducing the inner diameter of the bushing to the bolt with the smaller diameter. A method of assembling the crawler belt component, including the step of setting the corresponding bolt hole diameter.

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