This invention relates to a billet-rearranging device. More specifically, this invention relates to a billet-rearranging device which rearranges two of the billets fed in a row from a chute in tandem and feeds them to the charger of an automatic multi-step forging press.
Multi-step forging presses are coming into use to raise productivity. They consist of a plurality of steps (for example, four steps), each step provided with a forging die, to do the pressing of all the steps at a stroke. However, because each step has only one forging die and, therefore, only one billet is fed to each step at a time, there is a limit to the improvement of productivity (see page 199, Plastic-Working Technology: Series 4 Forging. Tokyo: Corona. First Edition in August 1995).
Under the circumstances, multi-step forging presses consisting of a plurality of steps, each step provided with more than one die, are being developed. However, billets are fed in a row through a chute; therefore, the same number of billets as the number of dies in each step have to be rearranged in tandem before they are fed to the first step of the press. However, such a billet-rearranging device is not yet available.
Accordingly, the object of the present invention is to provide a billet-rearranging device which rearranges two of the billets fed in a row from a chute in tandem.
According to the first feature of the present invention, there is provided a billet-rearranging device disposed between a chute with an outlet to feed billets in a row to the device and a charger with a holder unit to hold two billets in tandem. The billet-rearranging device has a billet-rearranging mechanism to rearrange two billets in tandem and feed them to the holder unit of the charger.
According to the second feature of the present invention, there is provided the billet-rearranging device according to the first feature. The billet-rearranging mechanism of the billet-rearranging device comprises (i) an upper slide plate positioned below the outlet of the chute, (ii) a lower slide plate positioned below the upper slide plate, and (iii) a fixed plate positioned below the lower slide plate, above the holder unit of the charger. The upper slide plate has the function of rearranging two billets in tandem. The lower slide plate has the function of feeding two billets in tandem one by one to the fixed plate. The fixed plate has the function of guiding two billets in tandem simultaneously to the holder unit of the charger.
According to the third feature of the present invention, there is provided the billet-rearranging device according to the second feature. The holder unit of said charger is provided with a first and a second holder in tandem, the first holder positioned in front of the position (hereinafter “center position”) right under the outlet of said chute and the second holder positioned in the rear of the center position. The fixed plate of the billet-rearranging mechanism of the billet-rearranging device has a first and a second guide hole which are positioned right above the first and second holders, respectively, of the holder unit of the charger. The lower slide plate of the billet-rearranging mechanism of the billet-rearranging device has a first and a second receiving hole, the first receiving hole coming to the center position when the lower slide plate is slid most forward and the first and second receiving holes positioned right above the first and second guide holes, respectively, of the fixed plate when the lower slide plate is slid most backward. The upper slide plate of the billet-rearranging mechanism of the billet-rearranging device has a rearranging hole, the rearranging hole positioned right above the first receiving hole of the lower slide plate when the upper and lower slide plates are slid most backward and forward, respectively, and the rearranging hole positioned right above the second receiving hole of the lower slid plate when the upper and lower slide plates are slid most forward and backward, respectively.
The advantage offered by the first feature of the present invention is as follows. Because the billet-rearranging mechanism rearranges two billets in tandem, two billets in tandem are fed to the holder unit of the charger.
The advantage offered by the second feature of the present invention is as follows. The upper slide plate has the function of rearranging two billets in tandem. The lower slide plate has the function of feeding two billets in tandem one by one to the fixed plate. The fixed plate has the function of guiding two billets in tandem simultaneously to the holder unit of the charger. Thus, two billets in tandem are fed to the holder unit of the charger.
The advantage offered by the third feature of the present invention is as follows. Each of the billets fed in a row from the chute first enter the rearranging hole of the upper slide plate, and a billet is put in each of the first and second receiving holes of the lower slide plate by sliding the upper and lower slide plates. Then, the first and second receiving holes of the lower slide plate are positioned right above the first and second guide holes, respectively, of the fixed plate by sliding the lower slide plate to feed two billets into the two holders in tandem of the holder unit of the charger.
By referring to drawings, an embodiment of the billet-rearranging device according to the present invention will be described below.
Because a pair of dies is provided in each of the steps I, II, III, and IV, the production efficiency is double what it would be if a single die were provided in each step.
In
Next, the billet-rearranging device “A” will be described below.
As shown in
As shown in
The upper slide plate 1 is slid by a cylinder 1s and has the function of rearranging two billets in tandem.
The lower slide plate 2 is slid by a cylinder 2s and has the function of feeding two billets in tandem one by one to the fixed plate 3.
The fixed plate 3 has the function of guiding two billets in tandem simultaneously into the holders “B1” and “B2.”
Next, the construction of the plates 1, 2, and 3 will be described below.
The fixed plate 3 has a first guide hole 31 and a second guide hole 32 which are positioned right above the holders “B1” and “B2,” respectively, when the holder unit “B” is in its billet-receiving position.
The lower slide plate 2 has a first receiving hole 21 and a second receiving hole 22. As shown in
The upper slide plate 1 has a rearranging hole 11. As shown in
Next, the working of the billet-rearranging device “A” will be described below.
As shown in
Next, as shown in
Accordingly, the third billet “b3” falls onto the upper slide plate 1, the first billet “b1” falls from the first receiving hole 21 into the holder “B1” through the first guide hole 31 and the second billet “b2” falls from the rearranging hole 11 into the holder “B2” through the second receiving hole 22 and the second guide hole 32.
As described above, the first and second billets “b1” and “b2” are fed into the holders “B1” and “B2” in tandem. Next, the charger “Cg” moves the holder unit “B” forward to feed the first and second billets “b1” and “b2” to the pre-step 0 of the forging press “P.”
This invention is applicable to a billet-rearranging device which receives billets in a row from a chute and feeds two billets in tandem at a time to the charger of an automatic forging press.
1 Upper slide plate
2 Lower slide plate
3 Fixed plate
11 Rearranging hole
21 First receiving hole
22 Second receiving hole
31 First guide hole
32 Second guide hole
S Chute
B Holder unit
Cg Charger
Number | Date | Country | Kind |
---|---|---|---|
2006-133252 | May 2006 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2007/054652 | 3/9/2007 | WO | 00 | 2/9/2009 |