JP3714597B2 - Forging method and forging apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a forging method in which a spline is formed on the outer peripheral surface of a hollow cylindrical portion on a material in which a hollow cylindrical portion having a narrow hole formed in a bottom is formed at the top end, and at the same time, the expanding head is formed into a gear. And a forging device.
[0002]
[Prior art]
For example, as shown in FIG. 6, from the material 20 in which the bulging head 23 is formed at the top end of the hollow cylindrical portion 22 in which the bottomed narrow hole 21 is formed along the axial direction from the base end as shown in FIG. In order to manufacture the product 30 having the spline 31 on the outer peripheral surface of the hollow cylindrical portion and the bevel gear 32 on the head, since the material 20 and the product 30 are hollow, machining or double-acting press It is necessary to go through multi-stage processing steps such as, and the production efficiency is extremely low.
[0003]
Regarding the processing of pipe-shaped products, Japanese Patent Laid-Open No. 5-7922 discloses a mandrel breakage defect by performing press forging while pressing and fixing a mandrel responsible for forming the inner peripheral surface of a hollow material to a bolster. It is disclosed to extrude a pipe-shaped product by reducing the inner diameter and outer shape of the material while preventing it.
[0004]
This technology is an extruding process of a pipe-shaped product, and when the product 30 having the spline 31 on the outer peripheral surface of the hollow cylindrical portion and the bevel gear 32 on the head is manufactured, the total length and the outer shape are regulated. It is necessary to perform molding. Therefore, in the present situation, when a product whose length and outer shape are regulated is formed, for example, a single-action press-type forging device shown in FIG.
[0005]
That is, the forging device shown in FIG. 7 includes the die 1 and the material 20 for forming the outer peripheral surface of the hollow cylindrical portion 22 in which the bottomed narrow hole 21 is formed from the base end along the axial direction shown in FIG. While restricting the base end, the lower mold 3 provided with the counter punch 2 that pushes out the molded product 30 from the die 1 and the expanding head 23 of the material 20 are molded into the bevel gear 32 and pressed into the die 1. And an upper die 5 having a punch 4 for the purpose.
[0006]
The upper die 5 is moved up and down by a single-acting cylinder (not shown), and when lowered, the lower die 3 and the upper die 5 are concentrically aligned, the material 20 is compressed, and the product 30 is forged.
[0007]
On the other hand, a counter punch 2 is inserted below the die 1 of the lower die 3 so as to be movable in the axial direction of the die 1, and a spline 31 is formed on the outer peripheral surface of the material 20 by the die 1 of the lower die 3. Molding is performed between the punch 4 of the mold 5 and the counter punch 2 of the lower mold 3 to reduce the total length of the material 20 to a specified length.
[0008]
The counter punch 2 includes a sliding portion 2a that moves in the axial direction in the die 1 and a base portion 2b having a diameter larger than that of the sliding portion 2a. The lower end surface of the base portion 2b of the counter punch 2 is formed on the lower die 3. It abuts against the fixed plate 6a and receives the load from the punch 4 of the upper die 5.
[0009]
Moreover, the axial center of the counter punch 2 is hollow, and the mandrel 7 inserted into the narrow hole 21 of the material 20 is inserted into the counter punch 2 so as to be movable in the axial direction. The lower end of the mandrel 7 is The plate 6a is fixed in contact with the central portion of the plate 6b that passes through the hole at the center of the plate 6a and is disposed at the lower stage of the plate 6a.
[0010]
These plates 6a and 6b also serve as support for a plurality of knockout pins 8 that push up the lower end surface of the counter punch 2, and the plates 6a and 6b are provided with holes through which the knockout pins 8 are inserted. An ejector 9 driven by a drive mechanism (not shown) is disposed below the knockout pin 8.
[0011]
That is, the head of the knockout pin 8 is inserted into the plate 6a that is in contact with the lower end surface of the counter punch 2, and the knockout pin 8 is prevented from coming off by the plate 6b. Then, when the upper die 5 is raised after the molding by the lowering of the upper die 5, the ejector 9 is raised together with the upper die 5, and then the counter punch 2 is pushed up via the knockout pin 8, so that the product 30 is pushed out of the die 1. It is.
[0012]
The forging apparatus having this configuration sets the material 20 on the lower die 3, lowers the punch 4 of the upper die 5, presses the material 20 in the die 1 of the lower die 3, and the punch 4 and the counter punch 2 are used for the entire length. The step of forming the spline 31 and the bevel gear 32 by regulating the above can be performed in one step. At that time, the mandrel 7 is inserted into the narrow hole 21 of the material 20 to prevent the deformation of the narrow hole 21 of the material 20 and the change of the inner diameter thereof.
[0013]
[Problems to be solved by the invention]
However, the mandrel 7 of this forging device has the same amount of material 20 as the material 20 is press-fitted into the die 1 and lowered when the material 20 is compression-molded by aligning the upper die 5 with the lower die 3. It is necessary to provide a space S between the bottom 21a of the hole 21 and the tip of the mandrel 7, so that the mandrel 7 is fixed at a predetermined position via the plate 6b.
[0014]
However, when this space S is present, when the upper die 5 is combined with the lower die 3 and forging is performed, the surrounding material enters the space S, and the vicinity of the bottom 21a of the narrow hole 21 is deformed, resulting in the expected spline. There is a concern that a product having a shape and a fine hole cannot be obtained.
[0015]
Accordingly, an object of the present invention made in view of such a point is to form a spline on the outer peripheral surface of the hollow cylindrical portion on a material in which a swelling head is formed at the top end of the hollow cylindrical portion in which a narrow hole is formed in the axial direction. At the same time, it is an object of the present invention to provide a forging method and a forging device capable of avoiding deformation of splines and narrow holes formed in a hollow cylindrical portion when performing a forging process for forming a swelling head into a gear in one step.
[0016]
[Means for Solving the Problems]
To achieve the above object, the invention of the forging method according to claim 1, the material膨頭portion is formed in a hollow cylindrical portion apex of which forms the bottom of the small holes along the axial direction from the proximal end And a die for forming a spline on the outer peripheral surface of the hollow cylindrical part , and a lower mold having a mandrel inserted into a narrow hole of the hollow cylindrical part , and forming an expanded head of the material on the lower mold It is possible to move along the moving direction of the upper die in the forging method in which the upper die with punch is compressed and the material is compressed and the spline is formed on the outer peripheral surface of the hollow cylindrical part of the material , and at the same time the swelling head is formed into a gear In addition, the narrow hole formed in the material is fitted into the mandrel that is biased toward the upper die, and the tip of the mandrel is inserted to the bottom of the thin hole in the material. Transfer the material with the mandrel tip inserted to the bottom of the Characterized in that to follow the mandrel direction.
[0017]
According to the first aspect of the present invention, the mandrel inserted up to the bottom of the narrow hole in the material is made to follow the movement of the bottom of the narrow hole accompanying the lowering of the material during forging, so that the inside of the narrow hole is always kept during molding of the material. The product filled with mandrel is maintained, and there is no gap for the surrounding material to enter into the narrow hole being formed, and the desired product is formed by press forging in one step while preventing deformation of the narrow hole. Is brought about.
[0018]
The invention of the forging device according to claim 2 is provided on the outer peripheral surface of the hollow cylindrical portion of the material in which the expanded head is formed at the top end of the hollow cylindrical portion in which a bottomed narrow hole is formed along the axial direction from the base end. A die for forming a spline, a lower die having a mandrel inserted into a narrow hole of the hollow cylindrical portion of the material, and an upper die having a punch for forming a swelling head of the material, and the mandrel has the above-mentioned set the material to the lower mold by inserting a small hole of the hollow cylindrical portion of the material, compressing the material by combining the lower mold and the upper mold, splines formed then simultaneously the outer peripheral surface of the hollow cylindrical portion of the material, Rise In the forging device that forms the head into a gear, the mandrel can be moved along the moving direction of the upper mold, and a biasing means for biasing the mandrel toward the upper mold is provided, and the thin mandrel formed in the material. It fitted a hole, the mandrel to the bottom of the small hole of the material Tip and can be inserted, forging during machining, characterized in that to follow the mandrel in the moving direction while the bottom to insert the front end of the mandrel to the material of the small hole of the material.
[0019]
According to the invention of claim 2, the mandrel inserted up to the bottom of the narrow hole of the material can be made to follow the movement of the bottom of the narrow hole accompanying the lowering of the material during forging, while preventing the deformation of the narrow hole. The material can be formed by one-step press forging.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of a forging method and a forging device according to the present invention will be described with reference to FIGS.
[0022]
FIG. 1 is a schematic diagram showing a configuration of a forging device according to the present embodiment. In FIG. 1, the same reference numerals are given to the portions corresponding to those in FIG. 7, and detailed description thereof will be omitted, and different portions will be mainly described.
[0023]
The forging device shown in FIG. 1 regulates the die 1 for forming the outer peripheral surface of the material 20 shown in FIG. 5 and the base end of the material 20, and the counter punch 2 that pushes out the product 30 after forming from the die 1. A lower die 3 having an upper die 5 having a punch 4 for pressing the material 20 into the die 1 while forming the expanding head 23 of the material 20 into a bevel gear 32 and a single acting cylinder (see FIG. The upper die 5 is moved up and down by not shown), and when the lower die 3 is lowered, the lower die 3 and the upper die 5 are concentrically aligned to compress the material 20 and forge the product 30.
[0024]
Here, in the hollow formed at the axial center of the counter punch 2, the mandrel 7 to be inserted into the narrow hole 21 of the material 20 is installed so as to be movable along the axial direction, that is, the moving direction of the upper die 5. In the forging device shown in FIG. 7, the lower end portion of the mandrel 7 passes through the hole at the center of the plate 6a and is fixed in contact with the center portion of the plate 6b disposed at the lower stage of the plate 6a.
[0025]
In contrast, the forging device of the present embodiment shown in FIG. 1 includes a lower end portion of the mandrel 7 and an upper end portion of the ejector 9 that pushes up the lower end surface of the counter punch 2 through a plurality of knockout pins 8 after molding. It is characterized in that a spring 10 is disposed as an urging means between them.
[0026]
That is, the lower end portion of the mandrel 7 is urged toward the upper mold 5 through the spring 10, so that the tip of the mandrel 7 is pushed up to the extent that it slightly protrudes from the lower mold 3. The material 20 is set in the lower die 3 by fitting the narrow hole 21 formed in the material 20 to the mandrel 7 slightly protruding from the lower die 3. As shown in FIG. 1, by setting the material 20, the tip of the mandrel 7 is inserted to the bottom 21 a of the narrow hole 21 of the material 20, and the mandrel 7 is maintained in a state in which the mandrel 7 fits in the narrow hole 21 without a gap.
[0027]
Next, a compression force is applied to the material 20 on the lower die 3 on which the material 20 is set by lowering the upper die 5. By the lowering of the upper die 5, the material 20 is forcibly lowered and the base end is pressed against the die 1 of the lower die 3, and the punch 4 of the upper die 5 is pressed against the expanding head 23. When the material 20 descends into the die 1, the mandrel 7 that has been accommodated in the narrow hole 21 of the material 20 descends following the material 20 against the urging force of the spring 10. Forging is continued in a state where the mandrel 7 is stored without a gap, and the spline 31 is formed in a state where the deformation of the narrow hole 21 is prevented by the mandrel 7 filled in the narrow hole 21 as shown in FIG. At the same time, the bevel gear 32 is formed on the expansion head 23.
[0028]
Therefore, since the spline 31 is formed in a state in which the deformation of the fine hole 21 and the change in the inner diameter of the material 20 are prevented by the mandrel 7, an optimum desired spline shape without any dripping can be ensured.
[0029]
After the forging process is completed, the upper die 5 is raised as shown in FIG. 3, and then the ejector 9 is raised as shown in FIG. 4, and then the counter punch 2 is pushed up via the knockout pin 8. The product 30 is extruded from the die 1 and carried out.
[0030]
In addition, when the fine hole 21 of the finally formed product 30 is further subjected to finish cutting with a drill or the like, the fine hole 21 serving as a lower hole is formed with high accuracy, so that the so-called finishing process is performed to expose the hole diameter. There is also an advantage that the drill does not escape and the finishing accuracy can be improved by enabling more precise processing.
[0031]
Therefore, according to the present embodiment, the mandrel 7 inserted up to the bottom 21a of the fine hole 21 of the material 20 is caused to follow the movement of the bottom 21a of the fine hole 21 as the material 20 descends during forging. During molding, the state where the narrow hole 21 is always filled with the mandrel 7 is maintained, and there is no gap for the surrounding material to enter into the narrow hole 21 during molding, thereby preventing deformation of the narrow hole 21. However, a highly accurate desired product 30 having the spline 31 and the bevel gear 32 can be obtained by one-step press forging. As a result, the production efficiency can be improved and the product cost can be expected to be reduced, and since the mandrel 7 is urged upward by an appropriate urging force by the spring 10, the structure of the conventional forging device is slightly changed. By changing, it can be obtained at a low cost, which is extremely advantageous for reducing the manufacturing cost.
[0032]
In addition, this invention is not limited to the said embodiment, A various change is possible in the range which does not deviate from the meaning of invention. For example, in the above embodiment, the spring 10 is used as the urging means of the mandrel 7. However, other elastic members such as cushion rubber can be used, and other types of gears are formed instead of the bevel gears. It is also possible to do.
[0033]
【The invention's effect】
As described above, according to the forging method according to claim 1, since the mandrel inserted up to the bottom of the narrow hole of the material is caused to follow the movement of the bottom of the narrow hole accompanying the lowering of the material during forging pressure, The inside of the narrow hole is always filled with the mandrel, and there is no gap for the surrounding material to enter into the narrow hole during molding. This results in the formation of a product with the expected splines and gears.
[0034]
According to the forging device of claim 2, the mandrel inserted up to the bottom of the narrow hole of the material can be made to follow the movement of the bottom of the narrow hole accompanying the lowering of the material during forging, and deformation of the narrow hole can be performed. The splines and gears can be formed into the raw material by one-step press forging while preventing the production efficiency can be improved and the product cost can be reduced, and the structure of the conventional forging device is slightly changed. Therefore, it is extremely advantageous for reducing the manufacturing cost.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing the configuration of a forging device for explaining an embodiment of the forging method and the forging device of the present invention.
FIG. 2 is a schematic view similarly showing the operation of the forging device.
FIG. 3 is a schematic view similarly showing the operation of the forging device.
FIG. 4 is a schematic view similarly showing the operation of the forging device.
FIG. 5 is a diagram showing the shape of a material.
FIG. 6 is a diagram showing the shape of a product.
FIG. 7 is a schematic view showing a configuration of a conventional forging device.
[Explanation of symbols]
1 Die 2 Counter punch 2a Sliding part 2b Base 3 Lower mold 4 Punch 5 Upper mold 6a, 6b Plate 7 Mandrel 8 Knockout pin 9 Ejector 10 Spring 20 Material 21 Narrow hole 22 Hollow cylindrical part 23 Expansion head 30 Product 31 Spline 32 Bevel gear (gear)

Claims (2)

A die for forming a spline on the outer peripheral surface of a hollow cylindrical portion formed from a material having a swelling head formed at the top end of a hollow cylindrical portion having a bottomed narrow hole formed along the axial direction from the base end , and a hollow Set in the lower mold with a mandrel inserted into the narrow hole of the cylindrical part , and match the upper mold with the punch that molds the expanded head of the material to the lower mold, compress the material , and the hollow cylindrical part of the material In the forging method in which the spout is formed on the outer peripheral surface and at the same time the swollen head is formed into a gear,
A mandrel that can move along the direction of movement of the upper mold and is biased toward the upper mold is fitted with a narrow hole formed in the material, and the tip of the mandrel is inserted to the bottom of the material's narrow hole. And
A forging method characterized by causing the mandrel to follow the moving direction of the material while the tip of the mandrel is inserted to the bottom of the fine hole in the material during forging. A die for forming a spline on the outer peripheral surface of the hollow cylindrical portion of the material having a swelling head formed at the top end of the hollow cylindrical portion having a bottomed narrow hole formed along the axial direction from the base end; and A lower mold having a mandrel inserted into a narrow hole in the hollow cylindrical portion and an upper mold having a punch for forming the expanded head of the material, and inserting the thin hole in the hollow cylindrical portion of the material into the mandrel set the material into the lower mold, and compressing the material by combining the lower mold and the upper mold, splines formed then simultaneously the outer peripheral surface of the hollow cylindrical portion of the material, the forging apparatus for forming a膨頭portion to the gear,
An urging means for urging the mandrel along the moving direction of the upper mold and urging the mandrel toward the upper mold,
By fitting the narrow hole formed in the above material, the tip of the mandrel can be inserted to the bottom of the thin hole of the material, and during the forging process, the tip of the mandrel is inserted to the bottom of the thin hole of the material. A forging device characterized by causing a mandrel to follow in a moving direction .

Images