1. Field of the Invention
The invention relates to a forging machine, more particularly to a forging machine having rollers between a support and a slide body of a male die assembly.
2. Description of the Related Art
Fasteners, such as screws and nuts, are generally manufactured by feeding a wire material into a forging machine. In the forging machine, the wire material is straightened and cut into workpieces that are conveyed to a female die unit, and a male die unit is forced to move to the female die unit to perform a series of forging operations so as to forge the workpieces.
Referring to
As the forging machine 1 is designed to produce a large number of products within 1 min, the male die assembly 13 has to operate at a high speed. However, since the rolling devices 12 are provided only at the front of the two sides of the support 11 and at the front of the male die assembly 13, during the sliding motion of the male die assembly 13, the rolling movements occur only at the front thereof, and the rear side of the male die assembly 13 is suspended unsupportedly in the receiving space 111. Furthermore, because the length of the male die assembly 13 from a location where it contacts the rollers 121 to its rear end is twice the length from that location to its front end which is assembled with a plurality of punching heads (not shown), in case the male die assembly 13 is tilted slightly, its rear end will vibrate, resulting in positional deviation and reduced stability of the punching heads. As a result, when the male die assembly 13 moves forward to effect forging, particularly, to press the front end punching heads against a female die assembly 14, the male die assembly 13 will strike obliquely the female die assembly 14, thereby adversely affecting the accuracy of the forging operation and the quality of products. Therefore, further improvement relating to the sliding of a male die assembly is desirable.
Therefore, the main object of the present invention is to provide a forging machine with improvements that is to provide a forging machine with improvements that can overcome the aforementioned drawbacks of the prior art.
According to this invention, a forging machine comprises a support including a bottom wall, two sidewalls extending upward from left and right sides of the bottom wall, and two longitudinal track plates attached to the sidewalls, respectively. Each of the sidewalls has a lower portion to which a corresponding one of the track plates is attached, and an upper portion extending above the lower portion. The bottom wall, the sidewalls, and the track plates cooperatively confine a receiving space.
The forging machine further comprises two first rolling devices respectively mounted on the track plates proximate to a front end of the support, and having first rollers exposed from the track plates, respectively; two second rolling devices respectively mounted on the upper portions proximate to a rear end of the support, and having second rollers exposed from the upper portions, respectively; and a die assembly having a slide body slidably mounted within the receiving space. The slide body includes left and right lower side faces respectively confronting the track plates and contacting the first rollers, and left and right upper flanges that project outwardly and respectively above the left and right lower side faces and that are seated slidably and respectively on top ends of the track plates to contact the second rollers.
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiments with reference to the accompanying drawings, of which:
Before the present invention is described in greater detail, it should be noted that like elements are denoted by the same reference numerals throughout the disclosure.
Referring to
The support 2 has a bottom wall 21, two sidewalls 22 extending respectively from left and right sides of the bottom wall 21, and two longitudinal track plates 23 mounted respectively on the sidewalls 22 and elongated in a front-to-rear direction. The bottom wall 21, the sidewalls 22 and the track plates 23 cooperatively confine a receiving space 24. Each sidewall 22 has a lower portion 220 to which a corresponding one of the track plate 23 is attached, and an upper portion 221. The upper portion 221 is stepped and thus has a sidewall shoulder face 222 extending horizontally and longitudinally above a top end of the corresponding track plate 23. A sidewall inner face 224 extends vertically and downwardly from the sidewall shoulder face 222 to the top end of the corresponding track plate 23 and faces the receiving space 24. A cavity 223 is formed in the upper portion 221 proximate to a rear end 227 of the support 2, and opens at the sidewall shoulder face 222 and at the sidewall inner face 224. Each track plate 23 has upper and lower through holes 231 proximate to a front end 229 of the support 2.
Referring to
The first roller holder 311 has a holder inclined face 318 that is proximate to the first packing plate 314 and that is inclined outwardly. And the first packing plate 314 has a complementary packing inclined face 319 in contact with the holder inclined face 318. Each spring 316 provides a biasing force that biases the first roller holder 311 against the first packing plate 314. The first packing plate 314 can move forward or rearward when the adjustment screws 315 are turned and cooperates with the springs 316 to move the first roller holder 311 outward or inward. When the fixing screw 317 is tightened, it abuts against and immobilizes the first packing plate 314.
Referring to
Referring again to
When the slide body 50 is driven to move forward and rearward, the first steel plates 53 are in sliding contact with the respective first rollers 312, and the second steel plates 54 are in sliding contact with the respective second rollers 412. Due to the gapless sliding contact with the first and second rollers 312, 412 near both of the front and rear ends of the support 2, the slide body 50 can be slid smoothly and stably within the receiving space 24.
Referring to
The second roller holder 441 has a holder lateral wall 442 facing the cavity bounding wall part 228 of the sidewall 22. The holder lateral wall 442 has a slide groove 443 that extends in a direction from a top end to a bottom end of the second roller holder 441, and an inclined surface 444 facing the slide groove 443. The second packing plate 481 is inserted into the slide groove 443 and has one side 488 in contact with the cavity bounding wall part 228, and another side 487 opposite to the side 488 and contacting the inclined surface 444 of the holder lateral wall 442. The side 487 of the second packing plate 481 is inclined with respect to the side 488 and the cavity bounding wall part 228. The second packing plate 481 is slidable over the inclined surface 444 and along the slide groove 443 to move the second roller holder 441 in a direction substantially perpendicular to the cavity bounding wall part 228 so that the second roller holder 441 can be moved toward or away from the slide body 50 (see
The retaining plate 482 is fixed to a top end of the second roller holder 441 above the second packing plate 481 by means of screws 489 so as to retain the second packing plate 481 in the slide groove 443. An adjustment screw 483 extends through the retaining plate 482 and is inserted threadedly into the second packing cavity bounding wall part 228 and are inserted threadedly into the second packing plate 481 and the holder lateral wall 442. A biasing member is associated with each fastening bolt 484 to bias the second roller holder 441 to move in a direction toward the cavity bounding wall part 228, or, away from the slide body 50. Each fastening bolt 484 has ahead 4841 extending outwardly of the cavity bounding wall part 228. The biasing member in this embodiment includes three spring discs 485 disposed around each fastening blot 484 between the head 4841 and the cavity bounding wall part 228.
When the adjustment screw 483 is turned relative to the retaining plate 482, the second packing plate 481 can be moved upward or downward. When the second packing plate 481 is moved upward, the second roller holder 441 is pushed toward the slide body 50 so that the position of the second roller 412 is adjusted. When the second packing plate 481 is moved downward, the second roller holder 411 is moved back by the biasing action of the spring discs 485 in a direction away from the slide body 50.
Referring to
Each of the upper and lower plate portions 491, 492 is inserted into one of the upper and lower groove portions 494, 495, and has two opposite sides respectively contacting the cavity bounding wall part 228 and one of the upper and lower surface portions 496, 497. One inclined side 498 of the upper plate portion 491 contacts the upper surface portion 496, whereas one inclined side 499 of the lower plate portion 492 contacts the lower surface portion 497. The upper and lower surface portions 496, 497 are inclined in two different directions so that the upper groove portion 494 tapers downward and the lower groove portion 495 tapers upward. Likewise, the upper plate portion 491 tapers downward, and the lower plate portion 492 tapers upward. An adjustment screw 493 passes through the upper plate portion 491 and is inserted into the lower plate portion 492. When the adjustment screw 493 is rotated, the lower plate portion 492 can be moved upward or downward so that the second roller holder 441 can be moved toward or away from the slide body 50.
Due to the use of the first and second rolling devices 3 and 4 which are provided respectively near the front and rear ends 229, 227 of the support 2, the slide body 50 of the male die assembly 5 can be slid stably without positional deviation, thereby permitting the male die assembly 5 to operate at a high speed while still producing good quality products.
While the present invention has been described in connection with what is considered the most practical and preferred embodiments, it is understood that this invention is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
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3696657 | Maytag | Oct 1972 | A |
4614104 | Straw | Sep 1986 | A |
4866976 | Hinterlechner | Sep 1989 | A |
5138862 | Chasteen et al. | Aug 1992 | A |
5138866 | Hite et al. | Aug 1992 | A |
5263356 | Hite et al. | Nov 1993 | A |
5363686 | Hite et al. | Nov 1994 | A |
5660073 | McBroom et al. | Aug 1997 | A |
6553806 | Reinert et al. | Apr 2003 | B1 |
6715332 | Klingen et al. | Apr 2004 | B2 |
7021111 | Chang | Apr 2006 | B2 |
Number | Date | Country | |
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20070220944 A1 | Sep 2007 | US |