KR102449669B1 - Idle assembly rotating body and manufacturing method for idle assembly rotating body - Google Patents

Abstract

The present invention comprises an idle pulley forming a belt pulley structure, or an idle drum supporting a conveyor belt by shoulder attachment, and an idle assembly rotating body that supports various belts such as a belt for a pulley or a conveyor belt that are endlessly transferred in an idling structure, and It relates to a method of manufacturing an idle assembly rotating body,
In the present invention, the assembly hole is formed to pass through and a hollow support tube body having a belt support surface formed on the outer diameter; It is configured to include side support caps each concentrically assembled to the assembly holes formed on both sides of the support tube body,
The side support cap includes an assembly rim that circumscribes the inner wall of the assembly hole of the support tube body, and a belt support rim that is formed to extend outside the assembly rim and protrude annularly to the outside of the support tube body to support the belt supported on the belt support surface. It is characterized in that it is composed of the formed plate-shaped molded body.

Description

Idle assembly rotating body, and a method of manufacturing an idle assembly rotating body {Idle assembly rotating body and manufacturing method for idle assembly rotating body}

The present invention relates to an idle assembly rotating body and a method of manufacturing an idle assembly rotating body, and more particularly, to an idle pulley forming a belt pulley structure, or an idle drum for shoulder-attaching a conveyor belt, and a pulley that is infinitely transported It relates to an idle assembly rotating body for supporting various belts such as a belt for a conveyor belt or a conveyor belt in an idling structure, and a method for manufacturing an idle assembly rotating body.

As is well known, the tension pulley, which is a type of idle assembly rotating body, is composed of a shaft bearing fixed at the center of the belt wheel, and the belt wheel of the conventional tension pulley is molded by casting or die casting, It has been manufactured in the form of press-fitting shaft bearings to fix them.

However, a pulley having a belt wheel manufactured through the casting or casting method is heavy and generates a large amount of harmful substances in the manufacturing process, and in particular, a separate mold is required, so it is not suitable for the recent trend that requires a small amount of multi-product production.

Recently, in order to overcome this limitation, in Korean Patent Publication No. 10-1993-0005692, etc., the production of pulleys using the spinning processing method of forming a belt groove by inserting a cutting edge into the outer wall of a rotating metal plate is gradually activated. is becoming

The molding of the pulley through the spinning process is preferable in terms of working conditions and the environment because the initial investment cost is low and light compared to the casting or die casting method, and harmful substances are not generated in the production process.

However, it is difficult for an unskilled worker to directly position and join the shaft bearing in the center of the belt wheel formed by spinning a thin metal disk, and it is difficult to fix the shaft bearing by the thermal deformation generated during the welding process. There may be problems in that the belt wheel is bent or the welded part falls off.

In addition, it is difficult to form a tension pulley having a wide support surface so as to collectively support the surfaces of a plurality of belts formed between the driving pulley and the driven pulley.

US 20-1998-064751 U US 10-1993-0005692 A

An object of the present invention, devised to solve the above problems, is to support a belt that is infinitely fed in one direction in an idling structure. This is secured, and in particular, an idle assembly rotating body that enables improved precision and driving stability including concentricity while securing convenience according to assembly through a unique assembly between each component, and a manufacturing method of an idle assembly rotating body is in providing.

The above object is achieved by the following configuration provided in the present invention.

Idle assembly rotating body according to the present invention,

a hollow support tube body formed to pass through the assembly and having a belt support surface formed on an outer diameter thereof; It is configured to include side support caps each concentrically assembled to the assembly holes formed on both sides of the support tube body,

The side support cap includes an assembly rim that circumscribes the inner wall of the assembly hole of the support tube body, and a belt support rim that is formed to extend outside the assembly rim and protrude annularly to the outside of the support tube body to support the belt supported on the belt support surface. It is characterized in that it is composed of the formed plate-shaped molded body.

Preferably, the side support cap is inserted into the assembly hole of the support tube body in a circumscribed state, and then is configured to be fixed by annular pressing by the shaft tube fixing band formed at the entrance of the support tube body.

More preferably, the shaft tube fixing band expands the belt support rim of the side support cap inserted into the assembly hole of the support tube in a circumscribed state to the outside, thereby preventing interference with the belt support rim expanding outward. The assembly of the support tube body is formed while the annular shaft tube.

In addition, a bearing pocket of a set depth with an open outside is formed in the central portion of the side support cap, and a shaft bearing is installed in the bearing pocket in a concentric structure.

In addition, a cone-shaped shape retaining rim is formed between the bearing pocket and the assembly rim, so that the occurrence of distortion of the side support cap composed of the annular plate-shaped molded body is suppressed by the cone-shaped shape retaining rim.

On the other hand, the manufacturing method of the idle assembly rotating body according to the present invention,

In the assembly ports formed on both sides of the support tube body, the assembly rim circumscribes the inner wall of the assembly hole of the support tube body, and is formed to extend outside the assembly rim and protrudes annularly to the outside of the support tube body to support the belt supported by the belt support rim an assembly process of inserting a side support cap on which a belt support rim is formed;

By expanding the belt support rim of the side support cap assembled to the support tube, the assembly sphere of the support tube is annularly pressed by interference with the expanded belt support rim, and the assembly rim of the inserted side support cap is annularly pressed. It is characterized in that it is configured to include a shaft tube fixing band forming process for forming a shaft tube fixing band.

As described above, in the idle assembly rotating body according to the present invention, stable durability and lightness are ensured by a support tube made of a metal plate and a side support cap made of a metal plate.

In particular, the present invention relates to the support tube body and the side surface by the shaft tube fixing band formed between the support tube body and the side support cap through the expansion of the belt support rim made in the shape of a truncated cone, and the shaft tube shoulder attachment band formed on the outer edge of the bearing pocket. The standardized assembly of the support cap and the standardized fixation of the shaft bearings housed in the bearing pockets are possible.

1 to 3 show the overall configuration of the idle assembly rotation body proposed as a preferred embodiment in the present invention,
4 to 6 sequentially show the assembly process of the idle assembly rotating body proposed as a preferred embodiment in the present invention.

Hereinafter, with reference to the accompanying drawings, an idle assembly rotation body proposed as a preferred embodiment of the present invention, and a manufacturing method of the idle assembly rotation body will be described in detail.

1 to 3 show the overall configuration of the idle assembly rotation body proposed as a preferred embodiment in the present invention, Figures 4 to 6 are the assembly process of the idle assembly rotation body proposed as a preferred embodiment in the present invention. are shown sequentially.

The idle assembly rotating body (1) proposed as a preferred embodiment in the present invention is a belt pulley that attaches a shoulder-attached belt to a shoulder-attached drive pulley, so that the belt is continuously transferred in one direction while maintaining a set tension. It is used as a driven pulley of the structure or a tension pulley.

The idle assembly rotating body 1, as shown in Figs. 1 to 3, the assembly holes 11 are formed on both sides and the support pipe body 10 of a set length in which the belt support surface 12 is formed on the outer diameter; The side support cap 20 is assembled in a concentric structure with the assembly holes 11 formed on both sides of the support tube body 10, and the bearing pockets 21 of a set depth open to the outside are formed in the center portion of the side support caps 20, and each of the side surfaces and a shaft bearing 30 inserted into the bearing pocket 21 of the support cap 20 .

The support pipe body 10 is formed by manufacturing a metal steel plate in an annular shape, and is processed by cutting to a required length according to the number and area of the belt requiring shoulder support.

In addition, the side support cap 20 is composed of a press-worked product or a spinning-processed product obtained by forming a metal plate into a required shape through press-working or spinning processing.

In addition, the side support cap 20 includes an assembly rim 22 inserted outside the bearing pocket 21 in a circumscribed state on the inner wall of the assembly hole 11 of the support tube body 10 , and the assembly rim 22 . It is formed to extend to the outside of the support tube body 10, protruding annularly to the outside of the belt support surface 12 is composed of an annular plate-shaped molded body formed with an annular belt support rim 23 for supporting the belt supported on the belt support surface (12).

In this embodiment, a cone-shaped shape-retaining rim 24 is integrally formed between the bearing pocket 21 and the assembly rim 22 constituting the side support cap 20 to form the cone-shaped shape-retaining rim 24 . to suppress the occurrence of torsion of the side support cap 20 itself made of an annular plate-shaped molded body.

Accordingly, the idle assembly rotating body 1 according to the present invention, including the support pipe body 10 and the side support cap 20 made of a metal plate, has light weight and excellent durability compared to the idle pulley molded through conventional die casting. .

In addition, the idle assembly rotating body 1 inserts the side support caps 20 into the assembly holes 11 formed on both left and right sides of the support tube body 10 , respectively, and bearing pockets formed on the side support caps 20 . It is assembled in the form of charging each of the shaft bearings 30 to (21).

Of course, the shaft bearing 30 is loaded in advance in the bearing pocket 21 of the side support cap 20 , and then the side support cap 20 on which the shaft bearing 30 is mounted is placed on the left and right sides of the support pipe body 10 . It is also possible to insert and install the assembly holes 11 formed on both sides.

In addition, the shaft bearing 30 charged in the bearing pocket 21 may be fixedly fixed to the bearing pocket 21 through a separate snap ring or the like.

Therefore, the idle assembly rotating body 1 is installed in a rotational structure on the support shaft through the shaft bearing 30 mounted on the side support cap 20 , and rotationally supports the belt supported on the belt support surface 12 . .

And, on both sides of the support tube body 10 supporting the belt, the belt support rim 23 of the side support cap 20 is formed to protrude annularly, so that the belt supported on the belt support surface 12 is separated to both sides. prevent the phenomenon.

On the other hand, in the present invention, a unique close fixing structure is provided between the support tube body 10 and the side support caps 20 inserted into the assembly holes 11 of the support tube body 10, so that the side support caps ( 20) is fixed to both sides of the support tube body 10 in a concentric structure, respectively.

As shown in FIGS. 3 to 6 , in the close fixing structure proposed in the present invention, the assembly rim 22 is externally inserted into the assembly hole 11 of the support tube body 10 of the side support cap 20 . In the state, it includes a shaft tube fixing band 13 formed by the outer expansion of the belt support rim 23 constituting the side support cap 20 .

That is, the shaft tube fixing band 13 is formed through the expansion process of the belt support rim 23 formed on the side support cap 20 in which the assembly rim 22 is inserted into the assembly hole 11 of the support tube body 10 . is formed

The expansion of the belt support rim 23 made of the truncated cone shape is a spinning process in which the belt support rim 23 of the side support cap 20 is pressed outwardly through a spinning roller to expand, or the side support cap ( 20) by pressing the belt support rim 23 can be implemented through press working to expand the tube.

As shown in FIGS. 3 and 6, the belt support rim 23 of the side support cap 20 in which the assembly rim 22 is inserted into the assembly port 11 of the support tube body 10 is expanded as shown in FIGS. The assembly hole 11 of the support tube body 10 circumscribed on the inner end of the belt support rim 23 forms a shaft tube fixing band 13 that annularly presses the side support cap 20 inserted while being a shaft tube in a concentric structure, , As a result, the side support cap 20 inserted into the assembly hole 11 of the support tube body 10 by the shaft tube fixing band 13 forms a concentric structure on both sides of the support tube body 10 and is fixed to be standardized. .

At this time, the assembly rim 22 of the side support cap 20 is annularly pressed by the shaft tube fixing band 13 formed by the shaft tube and fixed to both sides of the support tube body 10 to be standardized, and to the support tube body 10 . The assembled side support cap 20 is separated from the support tube body 10, or the fixing state between the support tube body 10 and the side support cap 20 is poor, so that the support tube body 10 idling is prevented, In particular, the side support caps 20 assembled on both sides of the support tube body 10 by inserting the shaft bearing 30 are annularly pressed by the shaft tube fixing band 13 formed by the shaft tube of the support tube body 10, and the support tube body Since it is fixed to the assembly hole formed in the concentric structure, it has a specificity that vibration or vibration generation is suppressed during high-speed rotation.

And, in the process of forming the shaft pipe fixing band 13 through the expansion of the belt support rim 23 formed on the side support cap 20 as shown in FIGS. 3 and 6, the side support cap 20 is a shaft pipe The outer edge of the bearing pocket 21 into which the shaft bearing 30 is inserted is annularly pressed by the support tube body 10, and the outer rim of the bearing pocket 21 is annularly pressed by the annular pressure according to the formation of the shaft tube fixing band 13. A shaft tube shoulder band 21a for supporting the shaft bearing 30 inserted into the bearing pocket 21 by annular shoulder attachment is formed on the edge portion.

Therefore, the support tube body 10 and the side support cap 20 constituting the idle assembly rotating body 1 according to the present invention are concentric by the shaft tube fixing band 13 formed by the expansion of the belt support rim 23 . It is fixed and assembled in a standardized structure.

In addition, the shaft bearing 30 charged in the bearing pocket 21 of the side support cap 20 is axially formed on the outer edge of the bearing pocket 21 by annular pressure by the shaft tube fixing band 13 . It is annularly shoulder-attached by the shoulder strap 21a, and is assembled and fixed in a standardized state in the bearing pocket 21.

1. Idle assembly rotating body
10. Support pipe body 11. Assembly hole
12. Belt support surface 13. Shaft pipe fixing band
20. Side support caps 21. Bearing pockets
21a. Shaft tube shoulder band 22. Assembly rim
23. Belt support rim 24. Shape retaining rim
30. Shaft bearings

Claims (5)

a hollow support tube body formed to pass through the assembly and having a belt support surface formed on the outer diameter; It is configured to include side support caps each concentrically assembled to the assembly holes formed on both sides of the support tube body,
The side support cap includes an assembly rim that circumscribes the inner wall of the assembly hole of the support tube body, and a belt support rim that is formed to extend outside the assembly rim and protrude annularly to the outside of the support tube body to support the belt supported on the belt support surface. Consists of this formed plate-shaped molded body,
The side support cap is inserted into the assembly hole of the support tube body in a circumscribed state, and then is configured to be fixed by annular pressing by the shaft tube fixing band formed at the entrance of the support tube body,
The shaft tube fixing band expands the belt support rim of the side support cap inserted into the assembly hole of the support tube in a circumscribed state, and assembles the support tube body by interference with the outer belt support rim. The sphere is formed as an annular axial tube,
A bearing pocket of a set depth with an open outside is formed in the central portion of the side support cap, and a shaft bearing is installed in the bearing pocket in a concentric structure,
A shaft tube shoulder band is formed on the outer edge of the bearing pocket by the annular pressure of the shaft tube fixing band to support the shaft bearing inserted into the bearing pocket by annular shoulder attachment,
The support tube body and the side support cap are fixed and fixed in a concentric structure by a shaft tube fixing band formed by the expansion of the belt support rim, and the shaft bearing loaded in the bearing pocket of the side support cap is on the shaft tube fixing band. Idle assembly rotating body, characterized in that it is annularly shoulder-attached by a shaft tube shoulder band formed by axial pipe on the outer edge of the bearing pocket by annular pressure by delete delete delete In the assembly ports formed on both sides of the support tube body, the assembly rim circumscribes the inner wall of the assembly hole of the support tube body, and is formed to extend outside the assembly rim and protrudes annularly to the outside of the support tube body to support the belt supported by the belt support rim an assembling process of inserting a side support cap having a belt support rim formed therein, the outside being opened in the center, and bearing pockets of a set depth installed by inserting the shaft bearing in a concentric structure;
By expanding the belt support rim of the side support cap assembled to the support tube, the assembly sphere of the support tube is annularly pressed by interference with the expanded belt support rim, and the assembly rim of the inserted side support cap is annularly pressed. A shaft pipe fixing band forming process of forming a shaft pipe fixing band, and
A shaft tube shoulder band forming step of forming a shaft tube shoulder strap which is formed on the outer edge of the bearing pocket by an annular compression of the shaft tube fixing band and supports the shaft bearing inserted into the bearing pocket by annular shoulder attachment;
The support tube body and the side support cap are fixed and fixed in a concentric structure by a shaft tube fixing band formed by the expansion of the belt support rim, and the shaft bearing loaded in the bearing pocket of the side support cap is on the shaft tube fixing band. A method of manufacturing an idle assembly rotating body, characterized in that it is annularly shoulder-attached by a shaft pipe shoulder band formed by being axially piped to the outer edge of the bearing pocket by an annular pressure by

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