KR100893406B1 - A cold forging device for a reverse taper spurgear and composite forging method and device for a integrated dogbody with a reverse taper spurgear using the same - Google Patents

Abstract

A cold forging device for a reverse taper spurgear and a composite forging method of an integrated dog body with a reverse taper spurgear using the same are provided to remove a product from a lower mold after reverse taper molding and to improve the durability of the border between the dog body and speed gear. A composite forging method of an integrated dog body with a reverse taper spurgear comprises a hot forging step(S1) for placing a molding material on a first lower mold and descending a first upper mold to press the molding material so that a spurgear including spurgear teeth and a speed gear body are integrated to form a first product in which metal flow is maintained in the boundary between the spurgear and the speed gear, a cold forging step(S2) for placing the first product on a second lower mold and descending a second upper mold to press the first product so that a second product, which is improved in precision of spurgear teeth by a spurgear precision forming groove, and a cold forging step(S3) for descending a third upper mold to press the second product so that a third product molded by a reverse taper device.

Description

A cold forging device for a reverse taper spurgear and composite forging method and device for a integrated dogbody with a reverse taper spurgear Using The Same}

The present invention relates to a reverse gradient spur gear cold forging device, and an integrated dog body composite forging device using the same and a method thereof, and more particularly to a molded article in which the reverse gradient spur gear is molded even after the reverse gradient spur gear is formed by cold forging. The present invention relates to a composite forging method for forming an integrated dog body using the reverse gradient spur gear cold forging device and the reverse gradient spur gear cold forging device that can be easily taken out of a mold.

In general, the driving force required to drive the vehicle is greatly changed by the driving environment, so that the vehicle is provided with a transmission that changes torque between the engine and the driving wheel. It is a device to determine the number of shifts according to the vehicle speed and the noise level of the vehicle, and to implement the shift by operating the shift and the clutch, which is a power cutoff device, at the same time as the shift operation.

The dog body provided in the manual transmission is welded after being pressed into the speed gear and used to change the speed of the vehicle while transmitting and blocking engine power at any time. Although it is used in various terms such as gear, gear clutch, engagement clutch, etc., it will be used as a dog body in the present invention. On the other hand, referring to Figure 1, as mentioned above, the dog body (d) is inserted into the main shaft (m) of the vehicle is pressed into the speed gear (s) and welded, in this case the conventional dog The body (d) and the speed gear (s) were each molded separately and used in one piece. That is, the dog body (d) was completed through hot forging, tooth cutting, cold forging, turning, etc., the speed gear (s) was completed through hot forging, tooth cutting, etc. The dog body (d) and the speed gear (s) after the cleaning process was integrated by press-fitting and welding.

   However, as described above, when the dog body and the speed gear are separately formed and then press-fitted and welded to be integrated, there is a problem in that the process becomes too long, and additional personnel and equipment for press-fitting and welding are required. There was a problem that the manufacturing cost is increased. In addition, the two products are connected by welding, there is a problem that the durability of the metal flow is cut off the weld site is reduced.

On the other hand, in order to solve this problem, the present invention is an integral dog body in which the dog body and the speed gear are integrally formed (the integral dog body in the present invention is a speed gear body and a dog body before the tooth molding is formed on the speed gear). It is assumed that the forging method and the apparatus for the composite forging), wherein the integral dog body should be formed a reverse gradient spur gear to prevent the teeth from engaging. In the case of forging, the direction of insertion into the reverse gradient molding groove should be selected so that the reverse gradient after the reverse gradient molding can be easily separated from the reverse gradient molding groove. However, in the case of the integrated dog body, the speed gear body is formed in the direction to be inserted into the back gradient forming groove, so it should be inserted in the opposite direction. In this case, there is a need for a reverse gradient spur gear cold forging device that can easily remove the reverse gradient from the reverse gradient molding groove after reverse gradient molding.

The present invention has been made to meet the above necessity, the present invention allows the diameter of the reverse gradient molding portion can be increased or decreased, the reverse gradient spur gear that can be easily released from the lower mold even after the reverse gradient molding It is an object to provide a cold forging device.

In addition, the present invention is to manufacture the two products of the existing dog body and the speed gear, respectively, the dog body by pressing and welding the dog body to the body instead of forming a one-piece by the hot forging method instead of molding the body and the dog body integrally molded It is then aimed to provide an integrated dog body composite forging method and apparatus having a reverse gradient spur gear that can maintain a constant tooth precision and a reverse gradient precision by improving the tooth precision by cold forging method and forming a reverse gradient. do.

In addition, an object of the present invention is to provide an integrated dog body composite forging method and apparatus having a reverse gradient spur gear that can maintain the flow and tooth strength of the metal of the molding by molding by a composite forging method other than press-fitting and welding. .

It is also an object of the present invention to provide an integrated dog body composite forging method and apparatus having a reverse-gradient spur gear that can achieve innovative process shortening by molding by a composite forging method rather than press-fitting and welding.

In addition, an object of the present invention is to provide an integrated dog body composite forging method and apparatus having a reverse gradient spur gear that can reduce the manufacturing cost by eliminating the need for additional personnel and equipment for indentation and welding.

In addition, an object of the present invention is to provide an integrated dog body composite forging method and apparatus which are formed by hot forging and cold forging while maintaining the flow of metal, thereby improving the durability of the boundary between the dog body and the speed gear.

The present invention is implemented by an embodiment having the following configuration to achieve the above objects.

According to an embodiment of the present invention, the reverse gradient spur gear cold forging device of the present invention is located between the upper mold, the segment outer guide and the segment inner guide, and the segment outer guide and the inner guide, but are arranged adjacent to each other in a circular shape. And a lower mold including a reverse gradient molding segment forming a reverse gradient molding portion, wherein the reverse gradient molding segment slides up and down inclinedly between the segment outer guide and the segment inner guide to increase or decrease the diameter of the reverse gradient molding part. As a result, the molding can be easily separated from the lower mold even after the inverse gradient molding.

According to another embodiment of the present invention, the inverse gradient forming part is characterized in that it comprises a plurality of inverse gradient forming grooves formed by two adjacent inverse gradient forming segments.

According to another embodiment of the present invention, the reverse gradient molding segment is slid inclined downward by the pressurized by the upper mold, thereby reducing the diameter of the reverse gradient molding portion, the molding inserted into the reverse gradient molding groove The denture is characterized in that it is molded into an inverted batch under pressure.

According to another embodiment of the present invention, the spur gear cold forging apparatus further includes an elastic means, so that the reverse gradient molding segment slides obliquely by elasticity when the upper mold is released from pressure against the reverse gradient molding segment. As a result, as the diameter of the reverse gradient molding part increases, the reverse gradient molding groove is expanded to secure a free space between the reverse gradient molding groove inserted into the reverse gradient molding groove and the reverse gradient molding groove so that the reverse gradient molding is performed. It can be easily separated from the back gradient forming groove.

According to another embodiment of the present invention, the elastic means is characterized in that the spring.

According to another embodiment of the present invention, the segment outer guide is provided on the inner circumferential surface having an outer guide surface in contact with the inverse gradient forming segment, the outer guide surface is characterized in that the inclined.

According to another embodiment of the present invention, the segment inner guide has an inner guide groove into which the inversely graded segment is inserted into an outer circumferential surface, and the inner guide groove is inclined.

According to another embodiment of the present invention, the integrated dog body composite forging method having the reverse gradient spur gear of the present invention, by placing the molding material in the first lower mold and the first upper mold is lowered to press the molding material, A spur gear and a speed gear comprising a plurality of teeth by forming a spur gear tooth by a spur gear forming groove of a first lower mold, and by forming a speed gear body by a first gear and a first gear by a first gear. Forming a body integrally and hot forming the primary molded product in which the flow of metal is maintained at the boundary between the spur gear and the speed gear body (S1) and the primary molded through the step (S1) By positioning the molded article in the second lower mold and pressing the primary molded article by lowering the second upper mold, the spur gear precision groove of the second lower mold is fixed. Forming a secondary molded article having an improved degree by cold forging (S2); and placing the secondary molded article formed through the step (S2) in a third lower mold and a third upper mold is lowered to form the secondary molded article. It characterized by including the step (S3) of forming a third molded article formed by the inverse gradient forming groove of the third lower mold by the pressing of the spur gear is formed in the inverse gradient by cold forging.

According to another embodiment of the present invention, the integrated dog body composite forging device having a reverse gradient spur gear of the present invention is a plurality of by pressing the first lower mold and the molding material located in the first lower mold, the molding material is located And a first upper mold for integrally forming a spur gear and a speed gear body including dentures and forming a primary molded article in which metal flow is maintained at a boundary between the spur gear and the speed gear body.

According to another embodiment of the present invention, the first lower mold has a speed gear body forming groove formed downwardly from an upper surface, a first through hole penetrating downward from an upper surface of the speed gear body forming groove, and the first through mold. It is characterized in that it comprises a spur gear forming portion formed along the circumference of the ball to form a spur gear including a plurality of teeth.

According to still another embodiment of the present invention, the spur gear forming part may include a plurality of spur gear forming grooves formed in a shape corresponding to the tooth shape of the spur gear by being spaced apart at regular intervals and embedded in a predetermined depth to the outside.

According to another embodiment of the present invention, the integrated dog body composite forging device having the reverse gradient spur gear has a second lower mold in which the primary molded product is located and a primary molded product in the second lower mold by pressing the spur. And a second upper mold for molding the secondary molded article having improved tooth precision of the gear.

According to another embodiment of the present invention, the second lower mold has a second through hole penetrated downward from the upper surface, and the spur gear precision molding part formed along the periphery of the through hole to precisely mold the spur gear teeth. It is characterized by including.

According to another embodiment of the present invention, the spur gear precision molding part includes a plurality of spur gear precision molding grooves formed by being spaced apart at regular intervals and embedded in a predetermined depth to correspond to the tooth shape of the precisely molded spur gear. Characterized in that.

According to another embodiment of the present invention, the integrated dog body composite forging device having the reverse gradient spur gear has a third lower mold in which the secondary molded product is located, and a second molded product located in the third lower mold by pressing the spur. It further comprises a third upper mold for molding the teeth of the gear to the inverse arrangement.

According to another embodiment of the present invention, the third lower mold is located between the segment outer guide, the segment inner guide, and the segment outer guide and the segment inner guide, and are arranged adjacently in a circle to form a reverse gradient molding part. And a lower mold including a reverse gradient molding segment, wherein the reverse gradient molding segment slides up and down inclinedly between the segment outer guide and the segment inner guide so that the diameter of the reverse gradient molding part can be increased or decreased, even after reverse gradient molding. Characterized in that the molding can be easily separated from the lower mold.

According to another embodiment of the present invention, the inverse gradient forming part is characterized in that it comprises a plurality of inverse gradient forming groove formed by two adjacent inverse gradient forming segments.

According to another embodiment of the present invention, the inverse gradient molding segment is slid inclined downward by the pressurized by the upper mold, thereby reducing the diameter of the inverse gradient forming part, 2 inserted into the inverse gradient molding groove The tooth of the primary molded product is characterized in that it is molded into an inverted arrangement under pressure.

According to another embodiment of the present invention, the third lower mold further includes an elastic means, so that when the upper mold is released from the upper gradient with respect to the reverse gradient molding segment, the reverse gradient molding segment slides up and down obliquely by elasticity. As the diameter of the reverse gradient molding part increases, the reverse gradient molding groove is expanded to secure a free space between the reverse gradient molding groove inserted into the reverse gradient molding groove and the reverse gradient molding groove so that the reverse gradient molding is performed. It can be easily separated from the back gradient forming groove.

According to another embodiment of the invention, the elastic means is characterized in that the spring.

According to another embodiment of the present invention, the segment outer guide is provided on the inner circumferential surface having an outer guide surface in contact with the inverse gradient forming segment, the outer guide surface is characterized in that the inclined.

According to another embodiment of the present invention, the segment inner guide has an inner guide groove into which the inversely graded segment is inserted into an outer circumferential surface, and the inner guide groove is inclined.

The present invention can achieve the following effects by the above configuration and each step.

The reverse gradient spur gear cold forging device of the present invention allows the diameter of the reverse gradient molding part to be increased or decreased, so that the molded product can be easily separated from the lower mold even after the reverse gradient molding.

Integral dog body composite forging method having a reverse gradient spur gear of the present invention and the device is a method of making an integrated body by pressing and welding the dog body to the speed gear after making two products of the existing dog body and the speed gear respectively. Instead, the dog body and the speed gear are integrally molded by hot forging method, and the cold forging method is used to improve the tooth precision and form the inverse gradient, thereby achieving the effect of maintaining a constant tooth precision and the inverse gradient precision.

The integrated dog body composite forging method and the apparatus having the reverse gradient spur gear of the present invention can achieve the effect of maintaining the flow and tooth strength of the metal of the molding by molding in a composite forging method, not by indentation and welding.

The integrated dog body composite forging method and apparatus having the reverse gradient spur gear of the present invention can achieve the effect of innovatively shortening the process by molding the composite forging method rather than press-fitting and welding.

Integral dog body composite forging method and apparatus having a reverse-gradient spur gear of the present invention can achieve the effect of reducing the manufacturing cost by eliminating the need for a separate personnel and equipment for indentation and welding.

Integral dog body composite forging method and apparatus having a reverse gradient spur gear of the present invention is formed by hot forging and cold forging while maintaining the flow of metal, it is possible to achieve the effect of improving the durability of the boundary between the dog body and the speed gear have.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the integrated dog body composite forging apparatus having a reverse gradient spur gear according to the present invention will be described in detail. On the other hand, the integrated dog body composite forging device having the reverse gradient spur gear includes a reverse gradient spur gear cold forging device according to the present invention will be described in detail with respect to the configuration and operation of the reverse gradient spur gear cold forging device.

1 is a view showing a coupling relationship between a conventional dog body and a speed gear.

Figure 2 is a process diagram showing an integrated dog body composite forging method having a reverse gradient spur gear according to an embodiment of the present invention.

3A is a perspective view illustrating a first lower mold and a first upper mold applied to an integrated dog body composite forging method having a reverse gradient spur gear according to an embodiment of the present invention.

3B is a perspective view of the primary molded product.

It is a figure which shows the state before shaping | molding a primary molded article.

4B is a view showing a state of molding a primary molded product.

It is a figure which shows the state after shape | molding a primary molded article.

FIG. 5A is a perspective view illustrating a second lower mold and a second upper mold applied to an integrated dog body complex forging method having a reverse gradient spur gear according to an embodiment of the present invention.

5B is a perspective view of the secondary molded article.

It is a figure which shows the state before shaping | molding a secondary molded article.

It is a figure which shows the state which shape | molds a secondary molded article.

It is a figure which shows the state after shape | molding a secondary molded article.

FIG. 7A is a perspective view illustrating a third lower mold and a third upper mold applied to an integrated dog body complex forging method having a reverse gradient spur gear according to an exemplary embodiment of the present invention. FIG.

7B is a perspective view showing the tertiary molded article.

8 is an exploded perspective view showing a third lower mold.

It is a figure which shows the state before shaping | molding a tertiary molded article.

9B is a view showing a state of molding a tertiary molded article.

9C is another diagram illustrating a state of molding a tertiary molded article.

9D is still another view illustrating a state of molding the tertiary molded article.

It is a figure which shows the state after shape | molding a tertiary molded article.

3A and 3B and FIGS. 4A to 4C, an integrated dog body composite forging device having a reverse gradient spur gear according to an embodiment of the present invention may include a first lower mold for forming a primary molded product 100 ( 1), a first upper mold (2), and a first knockout (5).

The first lower mold 1 has a cylindrical body 11 and a speed gear body forming groove which is formed at the center of the body 11 and has a constant diameter and is recessed downward from the upper surface of the body 11. 12, a plurality of first through holes 13 penetrating downward from an upper surface of the speed gear body shaping groove 12, and a plurality of first formed holes formed around the first through holes 13, And a spur gear forming portion 14 capable of shaping the spur gear 103 including the teeth 1031. In this case, the spur gear forming part 14 includes a plurality of spur gear forming grooves 141 formed in a shape corresponding to the shape of the teeth 1031 of the spur gear 103 by being spaced apart at regular intervals and embedded in a predetermined depth to the outside. .

The first upper mold 2 has a cylindrical body 21, a cylindrical insertion portion 22 formed in the center of the body 21 and a circular annular groove formed around the insertion portion 22. It includes a pressing unit (23).

The first knockout 5 is formed in a hollow cylindrical shape.

5A and 5B and 6A to 6C, the integrated dog body composite forging device having a reverse gradient spur gear according to an embodiment of the present invention includes a second lower mold (3) for molding the secondary molded product 200. ), A second upper mold 4, and a second knockout 5 '.

The second lower mold 3 has a cylindrical body 31 and a second through hole formed at the center of the body 31 and having a constant diameter and being recessed downward from the upper surface of the body 31 ( 32) and a spur gear 203 formed along a circumference of the second through hole 32 and including a plurality of teeth 2031 formed in the secondary molded product 200, the sputter of the primary molded product 100. The spur gear precision molding part 33 is formed to be more precise than the fish 103. In this case, the spur gear precision molding part 33 includes a plurality of spur gear forming grooves 331 formed by being spaced apart at regular intervals in a shape corresponding to the shape of the teeth 2031 of the spur gear 203 and being embedded in a predetermined depth to the outside. .

The second upper mold 4 has a cylindrical shape but has a shape in which the diameter gradually decreases at a predetermined position, and a cylindrical insert formed at the center of the pressing surface 411 of the body 41. And a circular annular groove pressing portion 43 formed around the insertion portion 42.

The second knockout 5 'is formed in a cylindrical shape.

7A, 7B, 8 and 9A to 9E, an integrated dog body composite forging device having a reverse gradient spur gear according to an embodiment of the present invention may be configured to form a third molded article 300. And a lower mold 6 and a third upper mold 7.

The third lower mold 3 has a cylindrical body 61 having an end, an elastic means 62, a plate 63, a support 64, a segment inner guide 65, and a segment outer side. A guide 66, a backgrading segment 67, and a backgrading section 68.

The body 61 is formed in the center of the body 61 and has a predetermined diameter and the installation groove 611 formed by being recessed downward from the upper surface of the body 61 and the spring groove formed in the installation groove 611 612 and a third through hole 613 formed in the center of the installation groove 611 and having a constant diameter and is recessed downward from the upper surface of the installation groove 611.

The elastic means 62 is preferably a spring, and is inserted into the spring groove 612 to apply elasticity to the plate.

The plate 63 is inserted into the installation groove 611 and is supported by the elastic means 62 to be spaced apart from the bottom surface of the installation groove 611 by a predetermined interval.

The support 64 has a cylindrical insertion groove 641 is formed in the center, it is inserted into the third through hole 613.

The segment inner guide 65 has a shape in which the outer circumferential surface thereof is reduced in diameter, and a plurality of inner guide grooves 651 are formed at the periphery thereof, and an insertion groove 652 is formed at the center thereof.

The segment outer guide 66 has a shape in which the inner circumferential surface thereof is reduced in diameter, and a plurality of outer guide surfaces 661 are formed on the inner circumferential surface.

The inverse gradient forming segment 67 is positioned between the segment outer guide and the inner guide, and arranged adjacently in a circle to form the inverse gradient forming portion 68.

The back gradient forming portion 68 includes a plurality of back gradient forming grooves 681 formed by two adjacent back gradient forming segments.

On the other hand, the inverse gradient molding segment 67 slides up and down inclinedly between the segment outer guide 66 and the segment inner guide 65, and when the inverse gradient molding segment 67 slides down, the inverse gradient The diameter of the back gradient forming portion 68 formed by the forming segment 67 is reduced, so that the back gradient forming groove 681 is narrowed. On the contrary, when the back gradient forming segment 67 slides up and down again, the diameter of the back gradient forming portion 68 formed by the back gradient forming segment 67 increases again, and thus, the back gradient forming groove 681 is widened.

On the other hand, the third lower mold 6 and the third upper mold 7 described above are themselves configured as the reverse gradient spur gear cold forging device according to the present invention so that the diameter of the reverse gradient molding part can be increased or decreased. Even after the gradient molding, the tertiary molding can be easily separated from the third lower mold 6.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the integrated dog body composite forging method having a reverse gradient spur gear according to the present invention will be described in detail.

Referring to Figure 2, the integrated dog body composite forging method having a reverse gradient spur gear is a step (S1) of forming the primary molded product by hot forging, and the step of forming the secondary molded product by cold forging (S2), 3 And forming a primary molded article by cold forging (S3).

The step S1 is performed by placing the molding material in the first lower mold 1 and lowering the first upper mold 2 to press the molding material 8 as shown in FIGS. 4A to 4C. The teeth 1031 of the spur gear 103 are formed by the spur gear forming grooves 141 of the lower mold 1, and the speed gear body forming grooves 12 and the first upper mold of the first lower mold 1 are formed. The speed gear body 21 is formed by (2), and the spur gear 103 and the speed gear body 101 including a plurality of teeth 1031 are integrally formed, and the spur gear 103 and the speed The flow of metal is maintained at the boundary of the gear body 21, and the flow of metal is maintained even at the boundary between the protrusion 102 and the spur gear 103 extending and protruding from the speed gear body 101. A step of forming the primary molded product 100 in which the flow of metal in the gear 103 is maintained by hot forging. At this time, the primary molded product 100, as shown in Figure 3b and 4c, the flange-shaped speed gear body 101 and the protrusion 102 extending from the speed gear body 101 and protrudes, A through hole 104 formed through the protrusion 102 and the speed gear body 101, and a spur gear 103 formed at a boundary between the speed gear body 101 and the protrusion 102. A flange groove 1011 is formed on the rear surface of the speed gear body 101.

6A to 6, the primary molded product 100 formed through the step S1 is placed in the second lower mold 3 and the second upper mold 4 is illustrated in FIGS. 6A to 6. The secondary molded article () of which the precision of the teeth 2031 of the spur gear 203 is improved by the spur gear precision forming groove 331 of the second lower mold 3 by pressing the primary molded article 100 down. 200) is formed by cold forging.

At this time, the secondary molded product 200, as shown in Figure 5b and 6c, the flange-shaped speed gear body 201 and the protrusion 202 extending from the speed gear body 201 and protrudes, A through hole 204 formed through the protrusion 202 and the speed gear body 201, and a spur gear 203 formed at a boundary between the speed gear body 201 and the protrusion 202. A flange groove 2011 is formed on the rear surface of the speed gear body 201. On the other hand, the teeth 2031 of the spur gear 203 is vertically reduced and laterally enlarged than the teeth 1031 of the spur gear 103 of the primary molded product 100 to have a more precise shape.

9A to 9E, the second molded article 200 formed through the step S2 is placed in the third lower mold 6 and the third upper mold 7 is illustrated in FIGS. ) Is lowered to pressurize the secondary molded product 200, so that the teeth 3031 of the spur gear 303 are molded into the reverse gradient by the reverse gradient forming groove 681 of the third lower mold 6. It is a step of forming the molded article 300 by cold forging. 9B to 9D illustrate relative positions of the outer pressurizing portion 71 and the inner pressurizing portion 72 of the third upper mold 7 as the third upper mold 7 descends, and thus the The movement of the third lower mold 6 is sequentially shown.

At this time, the tertiary molded product 300 is a flange-shaped speed gear body 301 and the protrusion 302 extending from the speed gear body 301, as shown in Figure 7b and 9e, A through hole 304 formed through the protrusion 302 and the speed gear body 301, and a spur gear 303 formed at a boundary between the speed gear body 301 and the protrusion 302. A flange groove 3011 is formed on the rear surface of the speed gear body 301. On the other hand, the teeth 3031 of the spur gear 303 are molded into inversely disposed.

In the case of using the integrated dog body composite forging method having the reverse gradient spur gear and the apparatus of the present invention described above in detail, after manufacturing two products of the existing dog body and the speed gear, and injects the dog body into the speed gear It is possible to maintain constant tooth precision and inverse gradient precision by forming the dog body and the speed gear as an integral type rather than welding and forming them integrally, and then improving the tooth precision and forming the inverse gradient by the cold forging method. It is possible to maintain the flow and tooth strength of the metal of the molding by molding by a composite forging method other than the indentation and welding, the process can be innovatively shortened by molding by a complex forging method other than indentation and welding, Eliminates the need for separate personnel and equipment for welding and welding It is to be closed, and while maintaining the flow of metal being molded into a hot forging and cold forging so an improvement in the durability of the boundary portion of the dog body and a speed gear.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a view showing a coupling relationship between a conventional dog body and a speed gear.

Figure 2 is a process diagram showing an integrated dog body composite forging method having a reverse gradient spur gear in accordance with an embodiment of the present invention.

3A is a perspective view showing a first lower mold and a first upper mold applied to an integrated dog body complex forging method having a reverse gradient spur gear according to an embodiment of the present invention.

Figure 3b is a perspective view of the primary molded product.

4A is a view showing a state before molding a primary molded article.

4B is a view showing a state of molding a primary molded product.

4C is a view showing a state after molding a primary molded product.

5A is a perspective view illustrating a second lower mold and a second upper mold applied to an integrated dog body complex forging method having a reverse gradient spur gear according to an embodiment of the present invention.

5B is a perspective view of a secondary molded article.

6A is a view showing a state before molding a secondary molded article.

6B is a view showing a state of molding a secondary molded article.

6C is a view showing a state after molding a secondary molded article.

Figure 7a is a perspective view showing a third lower mold and a third upper mold applied to the integrated dog body composite forging method having a reverse gradient spur gear according to an embodiment of the present invention.

7B is a perspective view showing a tertiary molded article.

8 is an exploded perspective view showing a third lower mold.

9A is a view showing a state before molding a tertiary molded article.

9B is a view showing a state of molding a tertiary molded article.

9C is another view illustrating a state of forming a tertiary molded article.

9D is yet another view showing a state of forming a tertiary molded article.

9E is a view showing a state after molding a tertiary molded article.

<Description of the symbols for the main parts of the drawings>

1: first lower mold 2: first upper mold

3: second lower mold 4: second upper mold

5: 1st knockout 5´: 2nd knockout

6: 3rd lower mold 7: 3rd upper mold

14: spur gear forming part 141: spur gear forming groove

33: spur gear precision molding part 331: spur gear precision molding groove

65: Segment inner guide 66: Segment outer guide

67: reverse gradient molding segment 68: reverse gradient molding

681: reverse gradient forming groove 661: outer guide surface

Claims (22)

delete delete delete delete delete delete delete A spur gear including a plurality of teeth formed along a circumference of the first through hole and a first through hole penetrating downward from an upper surface of the speed gear body forming groove, the speed gear body forming groove formed downward from an upper surface thereof. The molding material is placed in a first lower mold including a plurality of spur gear forming grooves formed by being spaced apart at regular intervals and embedded in a predetermined depth so as to correspond to the tooth shape of the spur gear so that the first upper mold is lowered. By pressurizing the material, teeth of the spur gear are formed in the lower portion of the molding material by the spur gear forming groove of the first lower mold, and teeth of the spur gear body forming groove and the first upper mold of the first lower mold are formed in the upper portion of the molding material. The speed gear body before molding is formed so that the spur gear including the speed gear body and the plurality of teeth is integrally formed, and the spur gear Comprising: a primary molded product that is the flow of metal maintained at a boundary of the speed gear body molded from a hot forging (S1); The first molded article formed through the step (S1) is placed in a second lower mold, and a second upper mold is lowered to press the primary molded article, whereby the spur gear precision molding groove of the second lower mold is pressed. Molding the secondary molded article having improved tooth precision of the gear by cold forging (S2); And The second molded article formed through the step (S2) is placed in a third lower mold, and a third upper mold is lowered to press the secondary molded article, so that the spur gear is formed by the reverse gradient molding groove of the third lower mold. Forming the third molded article to be molded in the inverse gradient of the cold forging (S3); includes, The third lower mold includes a segment outer guide, a segment inner guide, and an inverse gradient molding segment positioned between the segment outer guide and the segment inner guide and arranged adjacently in a circle to form a reverse gradient molding part. The gradient forming part includes a plurality of inverse gradient forming grooves formed by two adjacent inverse gradient forming segments, and the inverse gradient forming segment is slidably lifted up and down between the segment outer guide and the segment inner guide to form the inverse gradient forming groove. Integral dog body composite forging method having a reverse gradient spur gear characterized in that to allow the diameter of the increase or decrease. The first lower mold where the molding material is located, and the spur gear including the speed gear body before the tooth molding formed on the upper part by pressing the molding material located on the first lower mold and the plurality of teeth formed on the lower part are integrally formed. A first upper mold formed to form a primary molded article formed at a boundary between the spur gear and the speed gear body to maintain a flow of metal; A second upper mold for pressing the second lower mold on which the primary molded product is located and a second molded product for improving the precision of the spur gear by pressing the primary molded product positioned on the second lower mold; And a third lower mold in which the secondary molded article is positioned, and a third upper mold for pressing the secondary molded article positioned in the third lower mold to mold teeth of the spur gear into an inverse arrangement. The first lower mold has a speed gear body forming groove formed downwardly from an upper surface thereof, a first through hole penetrated downwardly from an upper surface of the speed gear body forming groove, and formed along a circumference of the first through hole. It includes a plurality of spur gear forming grooves formed to be embedded in a predetermined depth spaced apart at regular intervals in a shape corresponding to the tooth shape of the spur gear to form a spur gear to The second lower mold has a second through hole which penetrates downwardly from an upper surface thereof, and is formed along a circumference of the through hole and spaced apart at regular intervals in a shape corresponding to the tooth shape of the spur gear so as to precisely mold the spur gear teeth. It includes a plurality of spur gear precision forming groove formed by being embedded in a certain depth, The third lower mold includes a segment outer guide, a segment inner guide, and an inverse gradient molding segment positioned between the segment outer guide and the segment inner guide and arranged adjacently in a circle to form a reverse gradient molding part. The inverse gradient molding part includes a plurality of inverse gradient molding grooves formed by two adjacent inverse gradient molding segments, and the inverse gradient molding segment slides downwardly inclined between the segment outer guide and the segment inner guide to inversely slope By allowing the diameter of the forming groove to be increased or decreased, An integrated dog body composite forging device having a reverse gradient spur gear, wherein the molded product can be easily separated from the lower mold even after reverse gradient molding. delete delete delete delete delete delete delete delete The method of claim 9, The reverse gradient molding segment slides downwardly inclined by the pressurization by the upper mold, and accordingly the diameter of the reverse gradient molding part is reduced, so that the secondary molded product inserted into the reverse gradient molding groove is subjected to pressure to reverse the reverse gradient. An integrated dog body composite forging device having a reverse gradient spur gear, characterized in that it is molded into. The method of claim 18, The third lower mold further includes an elastic means, so that when the upper mold is released from the upper gradient molding segment, the reverse gradient molding segment slides up and down obliquely by elasticity, and thus the diameter of the reverse gradient molding portion is increased. By this increase, the inverse gradient forming groove is expanded to secure a free space between the inverse gradient forming groove inserted into the inverse gradient forming groove and the inverse gradient forming groove so that the inverse gradient can be easily separated from the inverse gradient forming groove. An integrated dog body composite forging device having a reverse gradient spur gear. The method of claim 19, The integrated dog body composite forging device having a reverse gradient spur gear, characterized in that the elastic means is a spring. The method of claim 9, The segment outer guide has an inner guide surface on the inner circumferential surface having an outer guide surface in contact with the reverse gradient forming segment, the outer guide surface is integral dog body composite forging device having a reverse gradient spur gear, characterized in that formed inclined. The method of claim 9, The segment inner guide has an inner guide groove into which the reverse gradient molding segment is inserted into an outer circumferential surface, and the inner guide groove has an integral dog body composite forging device having a reverse gradient spur gear.

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