The present invention relates to the field of metal forming in general and is concerned more specifically with four-die forging devices; it can be used to forge ingots and blanks of a variety of steels and alloys on forging presses, including hydraulic forging presses. The invention can be employed in machine-building and metallurgical industries for the production of long-sized components like rods, columns, intermediate shafts, torsion bars, mill rollers and also in the production of forged blanks from ingots and rolled stock of carbon steels, medium-alloyed steels, tool steels, high-alloyed steels and alloys and also non-ferrous metals and alloys.
Known in the prior art is a four-die forging device having dies with a working surface of each die generated by a number of planes, top- and bottom dies holders comprising inclined sliding planes and side dies holders formed to have inclined sliding planes corresponding to said sliding planes of top- and bottom die holders and arranged so that they are movable relative to said top- and bottom die holders while being interconnected thereto by means of eight guiding ways of H-shaped cross-section fixed on the holders, internal planes of which guiding ways are formed to enclose the planes of die holders thus creating a clutch-type connection (RU 2282517 C2, MΠκ(2006.01) B21J 1/04, 13/00, 7/16, 27.08.2006).
The present device provides for high output of the forging process and high metal quality of forged parts. However, such design does not ensure high reliability and long service life of the device.
The most similar to the claimed four-die forging device is the embodiment according to the Russian Federation patent (RU 2314175 C2, MΠκ(2006.01) B21J 13/02, 10.01.2008) comprising top- and bottom die holders having inclined planes, two side die holders having inclined planes which correspond to respective inclined planes of the top- and bottom die holders and being operationally interconnected thereto by means of side apart-guiding ways of F-shaped cross-section, centering guideways installed on the inclined planes of the top- and bottom die holders or on the inclined planes of side die holders in one plane or in a plurality of planes which are perpendicular to the longitudinal axis of the device and arranged in the centering grooves formed by groove walls made on the inclined planes respectively of side die holders or top- and bottom die holders and by side planes of antifriction plates arranged on the inclined planes of die holders.
The described embodiment provides for a sufficiently long service life of the device with no need for reconditioning arising from score building on the working surfaces of the antifriction plates. However, the known forging device yields neither high production efficiency nor sufficiently high reliability because of some of its components being damage-prone and vulnerable to increased wearing-out.
It is an object of the present invention to develop a four-die forging device for forging presses wherein by means of design improvements the risk of damage to some components is significantly reduced due to better reliability of components fastening, smooth motion without any jamming, misalignment and score building and reduced wearing-out which would result in longer repair-free service life of the device, better reliability in operation, higher forging output and better quality of forged products.
To achieve the object, proposed herewith is a four-die forging device for forging presses comprising top- and bottom die holders having inclined planes, operationally interconnected thereto side die holders having inclined planes which correspond to respective inclined planes of the top- and bottom die holders and being arranged so that they are movable relative to the top- and bottom die holders while being interconnected thereto by means of apart-guiding ways, antifriction plates arranged on the inclined planes of the die holders and four dies with working surfaces, wherein the side die holders have a longitudinal section shape approximating to that of a truncated pyramid with the centre of mass of the “side die holder-side die” system located within the limits of a side die holder longitudinal section, the apart-guiding ways are arranged either on the side surfaces of the die holders in amount of at least four apart-guiding ways, or on the inclined planes of the die holders in the longitudinal symmetry plane of the device in amount of at least two apart-guiding ways, or on the side surfaces and on the inclined planes of the die holders in the longitudinal symmetry plane of the device in amount of at least six apart-guiding ways, internal planes of said apart-guiding ways being formed to enclose the planes of adjacent die holders or elements rigidly secured on said die holders thus creating a clutch-type connection, while in the bottom part of inclined plane of each side die holder respective ledges are provided, whereagainst the antifriction plates thrust, a working surface of each die at its cross-section consists of a central working zone and two side zones with the maximum width of die working surface (bmax) and the antifriction plate sliding surface length (l) being in a ratio of bmax/l≦1.5. Further contributory for achievement of said technical result are the following provisions aimed to create some specific design features depending upon particular customer's products to be produced in the device and to facilitate its manufacture, assembly and servicing:
The subject-matter of the claimed four-die forging device for forging presses is explained below with reference to attached drawings
Q-Q—longitudinal symmetry plane of the device.
U-U—vertical symmetry plane of the device.
The four-die forging device for forging device comprises the holder 1 of the top die, the holder 2 of the bottom die, the holders 3, 4 of the side dies, the dies 5-8, the apart-guiding ways 9-18 (
The holders 3, 4 of side dies 5, 7 comprise inclined planes 22-25 corresponding to respective inclined planes 26-29 of the holders 1, 2 of the top die 6 and the bottom die 8 and are operationally connected thereto by means of the apart-guiding ways 9-16 or 42-45 serving to bring side die holders 3, 4 into reciprocating motion (
There exist a number of versions of the apart-guiding ways fastening to the die holders' side surfaces.
The first known version of the apart-guiding ways 9-16 fastening consists in that the guiding ways are fixed-mounted on the top die holder 1 and the bottom die holder 2, while the internal plane of said apart-guiding way is movably contacting the respective enclosed plane formed on the holder 3 or holder 4 of the side dies, or the plane of a part rigidly secured to the side die holder, for example, the plane of the antifriction plate 33, 41 (
Mounted on the inclined planes of the holders 1, 2 may be centering guideways 38, 39 which enter the grooves of rectangular cross-section provided in the holders 3, 4 (
Internal planes of the apart-guiding ways 9-16 mounted on the side surfaces of the die holders, as well as the planes of the die holders—or the planes of the parts rigidly secured to said die holders—enclosed by said internal planes to build a clutch-type connection (with the possibility of relative movement), are oriented—each of them—at an angle of α=0-170° to the plane in which the apart-guiding is fastened to the die holder (
This allows smooth and misalignment-free movement of the side die holders relative to the top- and bottom die holders. However, at the angles of α>170° misalignment and jamming of the side die holders resulting in damage to the apart-guiding ways are likely to occur.
The apart-guiding ways 42-45 can be also formed as H-beams (
Therefore another version for the apart-guiding ways installation can be used consisting in that all the four apart-guiding ways 42-45 are stationary fixed on the holders 3, 4 of the side dies, while internal plane of each apart-guiding way movably contacts the respective enclosed plane of antifriction plate 32 (35) and 31 (36) rigidly fastened on the holder 1 of the top die and on the holder 2 of the bottom die (
Also possible is another version of the apart-guiding ways installation consisting in that all the four apart-guiding ways 42-45 are stationary fixed on holders 3, 4 of the side dies by means of antifriction plates 33 (34) and 30 (37), while internal plane of each apart-guiding way movably contacts respective enclosed plane of antifriction plate 32 (35) and 31 (36) rigidly fastened on the holder 1 of the top die and holder 2 of the bottom die (
There is yet another possible version of the apart-guiding ways installation consisting in that all the four apart-guiding ways 42-45 are stationary fixed on the holder 1 of the top die and the holder 2 of the bottom die, while internal plane of each guiding way movably contacts respective enclosed internal plane of holder 3 of the side die and holder 4 of the side die (not shown). Said version provides for reliable fastening of the apart-guiding ways and their long failure-free operation. However this version of the guiding ways installation is not applicable for all the cases, since it involves manufacture of complicated T-grooves in all the die holders.
There is yet another possible version of the apart-guiding ways installation consisting in that all the four apart-guiding ways 42-45 are stationary fixed on the holder 1 of the top die and the holder 2 of the bottom die, while internal plane of each guiding way movably contacts respective enclosed internal plane of the antifriction plate rigidly fastened to holders 3, 4 of the side dies (
There is yet another possible version of the apart-guiding ways installation consisting in that all the four apart-guiding ways 42-45 are stationary fixed on the holder 1 of the top die with the help of antifriction plates 32 (35) and on the holder 2 of the bottom die with the help of antifriction plates 31 (36), while internal plane of each guiding way movably contacts respective enclosed internal plane of antifriction plates 33 (34) and 30 (37) rigidly fastened to holders 3, 4 of the side dies (
There are yet other possible versions of installation of two H-shaped apart-guiding ways which provide for normal operation of the forging device (
There is yet another possible version of installation of two H-shaped apart-guiding ways consisting in that both apart-guiding ways 42 (43) are stationary fixed on holder 1 of the top die, while internal plane of each apart-guiding way movably contacts respective enclosed internal plane of the holder 3 and the holder 4 of the side die (not shown). This version provides for high reliability of the apart-guiding ways operation. However, it is not applicable for all the cases, since it involves manufacture of complicated T-grooves in all the die holders.
Also possible is a version of two apart-guiding ways installation consisting in that the apart guiding ways 42 (43) are stationary fixed on holder 1 of the top die, while internal plane of each apart-guiding ways movably contacts respective enclosed antifriction plate 33 (34) rigidly fastened on the holders 3, 4 of the side dies (
There is yet another possible version of two apart-guiding ways 42 (43) installation consisting in that said guiding ways are stationary fixed on the holders 3, 4 of the side dies, while internal plane of each apart-guiding way movably contacts respective enclosed antifriction plate 32 (35) rigidly fastened on the holder 1 of the top die (not shown). This version also provides for reliable fastening of the apart-guiding ways; however, it is not applicable for all cases because of necessity to manufacture complicated T-grooves in the side die holders.
Also possible is a version of two apart-guiding ways 42 (43) installation consisting in that these apart-guiding ways are stationary fixed on the holder 1 of the top die with the help of antifriction plates 32 (35), while internal plane of each guiding way 42 (43) movably contacts the respective enclosed antifriction plate 33 (34) rigidly fastened on the holder 3, 4 of the side die (
Also possible is a version of two apart-guiding ways 42 (43) installation consisting in that said apart-guiding ways are stationary fixed on the holders 3, 4 of the side dies with the help of antifriction plates 33 (34), while internal plane of each apart-guiding way 42 (43) movably contacts the respective enclosed antifriction plate 32 (35) rigidly fastened on the holder 1 of the top die (not shown). This version of the apart-guiding ways installation is also notable for its simplicity, since it does not involve manufacture of complicated T-grooves in the die holders.
Also possible is a version of six apart-guiding ways 10, 11, 14, 15, 44, 45 installation, consisting in that fastened to side surfaces of the top die holder 1 (or the side die holders 3, 4) are the apart-guiding ways 10, 11, 14, 15, while the apart-guiding ways 44,45 are fastened to the inclined surfaces of the bottom die holder 2 (or the side die holders 3, 4) in the device longitudinal symmetry plane Q-Q (
Also possible is a version of six apart-guiding ways 9, 12, 13, 16, 42, 43 installation consisting in that fastened to side surfaces of the bottom die holder 2 (or the side die holders 3, 4) are the apart-guiding ways 9, 12, 13, 16, while the apart-guiding ways 42, 43 are fastened to the inclined planes of the top die holder 1 (or the side die holders 3, 4) (
Thus in the claimed four-die forging device for forging presses a plurality of versions for the apart-guiding ways installation are possible, said apart-guiding ways being of different design, and minimum quantity of the apart-guiding ways used should be from two to six depending upon particular installation version. Foregoing versions of the apart-guiding ways installation which are not the only ones possible provide for their reliable fastening, long failure-free service life and in some cases also for simplicity of manufacture.
Internal planes of the apart-guiding ways 9-16, 42-45 serving to ensure movable contact in the clutch-type connection can be provided with antifriction coating 46 (
The holders 3, 4 of the side dies 5, 7 in a four-die forging device have in their longitudinal section a shape which approximates that of a truncated pyramid (
Provided in the bottom part of inclined plane 22-25 of each side die holder 3, 4 are the ledges 48, 49 whereagainst the antifriction plates 30-37, 40, 41, 50 thrust (
Working surface of each die at its cross-section consists of a central working zone 52 and two side zones 53, 54 (
bmax/l≦1.5.
In the die structure the ratio between the die central working zone (bc) and die length (L) can be as follows:
b
c
/L=0.2−1.1.
The bottom die holder 2 can have a T-shaped cross-section with its wide portion 55 located at its bearing surface side (
The top die holder 1 can also have a T-shaped cross-section with its wide portion 56 located at its bearing surface side (
The four-die forging device can be additionally equipped with at least two centering guiding columns 57 mounted in the bottom die holder 2 symmetrical with respect to the vertical U-U and longitudinal Q-Q symmetry planes of the device and with a possibility of vertical movement in said guiding columns 57 of the top die holder 1 which is made spring-loaded with respect to the bottom die holder 2 (
Pairs of the apart-guiding ways 9-16 arranged on the side surfaces of the die holders 1-4 symmetrically with respect to the longitudinal symmetry plane Q-Q of the device can be secured in pairs to the side surfaces of the top die holder 1 and the bottom die holder 2 with the help of pins, studs or bolts 58 penetrating through said die holders parallel to the device vertical symmetry plane U-U (
The apart-guiding ways 9-16 arranged on the side surfaces of the die holders 1-4 can be secured with the help of pins, studs or bolts 59 arranged in the plane perpendicular to the device vertical symmetry plane U-U (
The dies 5-8 of the four-die forging device can be fixed on the respective holders 1-4 with the help of pins, studs or bolts 60 penetrating through said holders parallel to the device vertical symmetry plane U-U and with the help of clamps 61 (
The four-die forging device can be equipped with a system designed to supply lubricant to friction surfaces, wherein central ducts 62 serving to feed lubricant to the device run through the side die holders 3, 4 parallel to the sliding planes of the antifriction plates 30-37 (
The four-die forging device can be equipped with a die-cooling system comprising respective hoses (not shown) and ducts 63 arranged in the die holders 1-4 and in the dies 5-8; provided in each die body right under the central working zone 52 thereof is at least one duct 63 running parallel to the die surface (
The antifriction plates 31, 32, 35, 36 mounted on the holders 1, 2 of the top- and the bottom dies can be made of bronze, and the antifriction plates 30, 33, 34, 37 mounted on the side die holders 3, 4 can be made of steel. Used as bronze material can be, for example, bronze grade “” 10-3-1.5; used as a steel can be, for example, steel grade X12M.
Alternatively, the antifriction plates 30-37 or 40, 41 can be made of composite material containing high-temperature polyamide and long-fiber carbon with addition of graphite filler, which is normally used in self-lubricating slider bearing production (
The four-die forging device operates as follows: The four-die forging device shall be fitted into the working space of a forging press so that the holder 2 of the bottom die 8 is rigidly secured on the bottom plate of the press (not shown) (
Function of the four-die forging device comprising the apart-guiding ways arranged on the inclined planes of the die holders is similar to that of the four-die forging device comprising the apart-guiding ways arranged on the side surfaces of the die holders.
Industrial trials of two forging devices one of which has been built according to the present invention, while the other one—according to the prior-art embodiment, proved significant advantages of the claimed design. Used in the four-die forging device according to the present invention were four apart-guiding ways arranged on the side surfaces of top die holder, and two apart-guiding ways of H-shape arranged on the inclined planes of the bottom die holder. Provided in the bottom part of inclined plane of each side die holder were adequate ledges, against which ledges the antifriction plates made of X12M steel thrust. Arranged on the inclined planes of the top- and bottom die holders were antifriction plates made of “” 10-3-1.5 bronze material. The side die holders had a longitudinal section shape approximating to that of a truncated pyramid with the centre of mass of the “side die holder-side die” system located within the limits of a side die holder longitudinal section. Internal planes of all the apart-guiding ways which served to ensure a movable contact in the clutch-type connection were provided with antifriction coating made of “” 10-3-1.5 bronze material.
Besides, the following dimensions ratio was maintained:
b
max
/l=0.9
and
b
c
/L=0.7,
where bmax is the maximum width of the die working surface;
Ingots of structural steels in weights from 5 to 7 ton were forged in said four-die forging devices installed in a 20MN press were.
In the prior-art device, 31800 tons of forged parts were produced before the first repair thereof (breakage of an antifriction plate and one of the apart-guiding ways). Besides, it appeared necessary to replace all the other apart-guiding ways and antifriction plates because of their increased wearing-out.
In the four-die forging device according to the present invention, 75900 tons of forged parts of structural steels in diameters from 240 to 400 mm were produced. Forging tolerances were within the range of ±1 mm. The surface quality of the forged parts were approximating to that of rolled parts. There occurred no breakage of neither antifriction plates, nor apart-guiding ways. Consequently, amount of forged parts produced in the claimed embodiment device appeared to be 2.4 times higher as compared to that produced in the prior-art device.
Moreover, due to the optimized die dimensions ratio, unit-per-hour forging output of the claimed embodiment device was 1.3 times higher as compared to the unit-per-hour output of the prior-art device.
Thus, the claimed design of the four-die forging device for forging presses provides for a longer repair-free service life of the device, a higher reliability of the device in operation and a significantly increased forging process output while producing forged parts of higher quality of accuracy.
Number | Date | Country | Kind |
---|---|---|---|
2010 15141 | Dec 2010 | RU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/UA11/00007 | 1/31/2011 | WO | 00 | 6/10/2013 |