RU2521929C1 - Die for open-type bulk forging - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: die includes upper and lower halves with prints forming a stream, a box and a flash bridge. The bridge is made by connection of a horizontal section to a section formed by a projection on one half of the die by a bore on the other half of the die. The projection is restricted by some part of a circle with radius R1, and the bore is made with radius R2. Centre of bore radius R2 is offset relative to the centre of projection radius R1 to the zone of the stream with larger surface areas of cross sections along the perimeter of the flash bridge and to the side from the zone of the stream with smaller surface areas of cross sections. With that, offset is performed by a value that is variable along the perimeter of the flash bridge and does not exceed 0.8h, where h - design height of the flash on the flash bridge.

EFFECT: reduction of forging force and decrease of distortion of forged pieces, forging inclinations and thickness of the flash.

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Description

The invention relates to the processing of metals by pressure, in particular, to dies for open die forging of forgings with a cross-section variable along the perimeter, containing upper and lower halves with engravings forming a stream, a shop, a lay-in bridge, and can be applied in all engineering industries.

Known stamp for volumetric stamping, containing the upper and lower halves, on one facing the other surfaces of each of which grooves are made, together forming a wave-like annular oblique cavity, the surface of the oblique cavity is grooved, formed by alternating in the radial direction of the protrusions and depressions, the height and width of each the protrusion is 0.1-0.3 of the width of the break-in bridge (A.S. No. 889259, class B21J 13/02, 1981).

A disadvantage of the known stamp is the constant efficiency of braking the flow of metal into the breaker bridge around the perimeter of the stamp stream in places with different cross-sectional areas.

The closest technical solution is a stamp for open volumetric stamping of forgings by upsetting at the end, mainly annular forgings with an inner and outer lining, offset to one or opposite ends of the forging, containing upper and lower halves with engravings forming a stream, a lay bridge and a store with a lay a bridge, made by pairing a horizontal section adjacent directly to the brook of the stamp, the length of which is 0.1-0.3 of the width of the break-in bridge, with a section extending beyond the end face of the forging, o bred by a protrusion on one half of the stamp, a limited part of a circle (arc) of radius R ₁ , the center of which is not higher than the base of the protrusion, and a groove on the other half of the stamp with a radius of R ₂ , the value of which is chosen from the relation

R ₂ = R ₁ + h,

where h is the calculated height of the sheath on the bridge with the center coinciding with the center of the circle of radius R ₁ or with the center of the radius of the groove shifted toward the stream by no more than h / 2 (Patent SU No. 1821286, class B21J 13/02, 1981 )

A disadvantage of the known stamp is the constant efficiency of braking the flow of metal into the breaker bridge around the perimeter of the stamp stream in places with different cross-sectional areas.

The implementation of the known technical solution for open die stamping of predominantly annular forgings by upsetting in the end face in a die with a break-in bridge formed by a protrusion on one half of the stamp and a groove on the other half of the stamp is associated with an increase in the length of the break bridge due to the configuration of the latter and excessive braking of the metal flow to the bridge in the places of smallest cross-sectional areas of the brook of the stamp, which leads to an increase in stamping forces, an increase in stamping slopes and thickness o flea.

The task is to develop a stamp that allows to reduce the stamping force and to obtain forgings with a smaller thickness of the flake, (Akar I.L.Determination of grooved grooves and metal waste during stamping at KGShP - Forging and stamping production No. 10, 1976, p.6-8) , with reduced stamping biases, reducing forging of forgings, metal consumption and the complexity of machining forgings.

The technical result is in a stamp for open die forgings forging, with a cross-section variable along the perimeter, containing upper and lower halves made with engravings forming a creek with a cross-section variable along the perimeter, a magazine and a break-in bridge made by pairing a horizontal section adjacent to the creek and having a length of 0.1-0.3 of the length of the breakaway bridge, with a section formed by a protrusion on one half of the stamp, bounded by a part of a circle of radius R ₁ , the center of which is not located above the base of the protrusion, and a groove on the other half of the stamp, made with a radius of R ₂ , is achieved by the fact that the center of the radius of the groove R _{2 is} offset from the center of the radius of the protrusion R ₁ towards the stream with large cross-sectional areas around the perimeter of the bridge, with the formation of a narrowing the bridge, and away from the place of the stream with smaller cross-sectional areas around the perimeter of the bridge, with the formation of the expanding bridge, the offset is produced by a value that is variable along imetru obloynogo bridge and no more than 0,8h, where h - the estimated height of the fin on obloynom bridge.

The part of the casing bridge, formed by a protrusion on one half and, correspondingly, a groove on the other half of the punch, gives the casing a shape that provides a sufficient increase in the rigidity of the forging due to caving, and thereby performs an additional function of the casing bridge that reduces the warping of the forging when it is removed from the creek and subsequent transportation. For example, when stamping forgings of KAMAZ synchronizer rings from brass, this design of the bridge bridge made it possible to introduce the technology of stamping synchronizer rings into production.

In the case when the forgings around the perimeter have cross-sectional areas, and the workpiece is of constant cross-section, the conditions for filling the stamp engraving and the effectiveness of braking the outflow of metal into the break-in bridge should be different. For example, in the place of smaller cross-sectional areas of the forgings and, accordingly, the stream, the excess volume of metal is displaced into the breaker bridge, which leads to an increase in the stamping force. In this case, the shift of the center of the radius of the groove R _{1 of} one half of the stamp relative to the center of the radius of the protrusion of the other half of the stamp to the side of the stream implies the flow of metal into the expanding cavity and reduces the braking effect of the outflow of metal into the breaker bridge, while maintaining the rigidity of the spatial structure of the latter. In the place of large areas of cross-sections of the forgings and, accordingly, the stream of the stamp, the volume of metal displaced into the breaker bridge should be minimal. The shift of the center of the radius of the groove R _{1 of} one half of the stamp relative to the center of the radius of the protrusion of the other half of the stamp toward the brook with large cross-sectional areas implies the flow of metal into the narrowing cavity and increases the braking efficiency of the outflow of metal into the break-in bridge. In all cases, the configuration of the breakaway bridge should be such as to ensure high-quality filling of the die stream with a minimum cross section of the workpiece and minimum stamping force. The latter is important to reduce forging of the forgings when removing the forgings from the die stream with finger ejectors. Practice has shown that the force for pushing the forgings out of the stream of the stamp is directly proportional to the force of stamping.

The limitation of the displacement of the center of the radius of the groove R ₁ away from the place of the stream relative to the center of the radius of the protrusion R ₂ no more than 0.8 h is justified by the fact that further displacement leads to a slight decrease in the force of stamping and not filling the stream of the stamp.

The limitation of the displacement of the center of the radius of the groove R ₁ to the side of the stream relative to the center of the radius of the protrusion R _{2 of} not more than 0.8 h is justified by the fact that further displacement leads to a significant increase in the braking efficiency of the outflow of metal from the die of the die into the breaker bridge and increase the stamping force.

A comparative analysis of the proposed technical solution with the prototype shows.

In the prototype stamp, the center of the radius of the groove R ₂ coincides with the center of the circle of the radius of the protrusion R ₁ or the center of the radius of the groove is shifted toward the stream by an amount of no more than h / 2.

In the proposed stamp, the center of the radius of the groove R _{2 is} shifted relative to the center of the radius of the protrusion R ₁ away from the place of the stream with smaller cross-sectional areas and to the place of the stream with large cross-sectional areas by a variable value along the perimeter of the bridge not more than 0.8h and form, respectively , expanding and tapering breakdown bridge.

Thus, this technical solution meets the criterion of "novelty."

The analysis of copyright certificates, patents and scientific and technical information did not reveal the use of new significant features of the invention according to their functional purpose. Thus, the proposed technical solution meets the criterion of "inventive step".

Figure 1 schematically shows a stamp for three-dimensional stamping of forgings, General view, left - at the initial moment of deformation, right - at the extreme lower position of the upper half of the stamp.

Figure 2 shows a view of the breakdown bridge, the center of the radius of the groove of which (R ₂ ) is shifted away from the place of the stream of the stamp relative to the center of the radius of the protrusion of the lower half of the stamp (R ₁ ) by a value of not more than 0.8h, and forms with the protrusion an expanding breakdown bridge, where h is the thickness of the flash.

The stamp for volume stamping of figure 1 contains the upper 1 and lower 2 halves, on which the shaping engravings are made, an expanding break-in bridge 3 and a magazine 4. The break-in bridge 3 is made by mating a section adjacent directly to the die brook, the length of which is 0.1-0 , 3 widths of the breakaway bridge, with a section formed by a protrusion on one half of the stamp, limited by a part of a circle of radius R ₁ and a groove on the other half of the stamp 1. The center of the radius of the groove R _{2 is} offset from the center of the radius of the protrusion R ₁ away from places and streams with smaller cross-sectional areas and to the place of the brook with large cross-sectional areas, by a variable value along the perimeter of the bridge bridge, but not more than 0.8h, and form, respectively, an expanding and narrowing bridge bridge.

The stamp works as follows.

Before starting the cycle, technological lubricant is applied to the surface of the engraving of the stream (Fig. 1). In the working cavity of the stream of the lower half of the stamp 2, a workpiece 5 is heated, heated to a deformation temperature, and the drive of the stamping press is turned on, the slider of which, together with the upper half of the stamp 1, makes a working stroke towards the lower half 2 with the workpiece 5. Under the influence of the press force, the workpiece is deformed, the metal fills the cavity of the stream and is partially forced out through the breaker bridge into the stamp shop, forming a 3.6 lock.

The presence of an expanding casing bridge in areas with the smallest cross section of the die stream contributes to a reduction in the stamping force during the quality filling of the die stream. The presence of a tapering region in areas with the largest cross section of the brook of the stamp contributes to a better filling of the brook of the stamp with a minimum thickness of the flake and the volume of the workpiece.

After removing the deforming force and the removal of the slider press, the ejectors 8 of the lower half of the stamp 2 act on the forging 7 and remove it from the cavity of the stream. Oblite 3.6, formed by a protrusion on the lower half and a groove on the upper half of the stamp, increases the rigidity of the forgings and helps to reduce warping of the latter when removed from the stamp and subsequent transportation.

The specified stamp for volumetric stamping provides a positive effect, which consists in expanding the technological capabilities of stamps to reduce stamping forces, reduce forging of forgings, reduce stamping slopes and reduce the thickness of the flake.

Claims (1)

A stamp for open volumetric stamping of forgings with a cross-section variable along the perimeter, comprising upper and lower halves made with engravings forming a creek with a cross-section variable along the perimeter, a magazine and a break-in bridge made by mating a horizontal section adjacent to the creek and having a length of 0.1-0.3 obloynogo length of the bridge, with a portion formed by a projection on one half of the die, a limited part of a circle of radius R _1, the center of which there is no projection above the base, etc. point in the other half die, the radius R _2, characterized in that the center radius of the grooves R ₂ is displaced with respect to R ₁ protrusion radius center towards the place of the stream with large cross-sectional area along the perimeter obloynogo bridge to form a narrowing obloynogo bridge and away from the stream place with smaller cross-sectional area along the perimeter obloynogo bridge to form expandable obloynogo bridge, with the center bore radius R ₂ R ₁ is displaced relative to the projection center on the radius value that I wish to set up a variable on the perimeter obloynogo bridge and no more than 0,8h, where h - the estimated height of the fin on obloynom bridge.

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