Information
-
Patent Grant
-
6170392
-
Patent Number
6,170,392
-
Date Filed
Wednesday, November 18, 199825 years ago
-
Date Issued
Tuesday, January 9, 200123 years ago
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Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 100 257
- 100 264
- 100 282
- 072 407
- 072 4525
- 074 593
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International Classifications
-
Abstract
A drive rod composed of segments joined together to form a single length for use in a mechanical press. The individual drive rod segments may be separated for ease of assembly into the mechanical press or for servicing the mechanical press. In addition, a split locating collar is used for removably attaching the drive rod to the upper slide of a mechanical press. Drive rod length and slide shutheight may be changed by utilizing spacer elements.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a mechanical press and, in particular, a drive rod that is split at one or more places along its length and coupled together to form a rigid drive rod for motivating a slide or bed.
2. Description of the Related Art
Mechanical presses, for example, stamping presses and drawing presses, include a frame having a crown and a bed and a slide supported within the frame for motion toward and away from the bed. Such presses are widely used for stamping and drawing operations and vary substantially in size and available tonnage depending upon the attended use.
In the container art, the press workpiece or cup is usually formed of steel strip coated with a particular plastic layer. Various types of plastic are utilized to coat the steel. By carefully drawing and stamping the steel strip, containers with an interior plastic coating are created. These plastic liners are attached to the steel so that product contained within the formed can, e.g., liquid, does not touch the steel or metal.
In double action presses, a second slide replaces the bed and reciprocates in opposed relationship to the first slide. Traditional double action presses have slides driven by a plurality of crankshafts having various connecting arrangements connected to the slides. Typically, mechanical presses are fully assembled within the manufacturer's factory. For shipping purposes, the press is subsequently partially disassembled or “un-stacked.” Normally, un-stacking entails removing the crown, upper slide, and drive rod from the base and crankshaft.
One form of current mechanical presses contains a continuous drive rod shaft attached between a crankshaft and an upper slide. The drive rod transfers rotational motion from the crankshaft to reciprocal motion which drives an upper slide upward and downward. To insure necessary tolerances and provide adequate strength, traditional drive rods are formed as a continuous drive rod shaft. Drive rod guide housings are installed around the upper and lower portions of the drive rod to assist in guiding the drive rod.
One problem with the continuous drive rod shaft design is that assembly and disassembly of the drive rod from a mechanical press requires the entire shaft to be handled. For example, when assembling a traditional press, the entire drive rod must be inserting through both the upper and lower guide housings at the same time. A continuous drive rod shaft is heavy and cumbersome making maneuvering of the drive rod difficult. Consequently, assembling and servicing of the press is complicated as a result of having to handle the entire shaft.
Yet another problem with current continuous drive rod shaft design is that the upper and lower guide housings are required to be perfectly in line with one another. Consequently, assembly of the press demands accurate alignment of the upper and lower guide housings.
Another problem with the current design is that replacement of a drive rod guide housing requires the entire drive rod to be removed. Removing the entire drive rod is further complicated by the fact that the upper slide or ram must be removed first. Therefore, if service or maintenance of the drive rod guide is required, both the entire drive rod and the upper slide must be removed. In addition, since current drive rods are composed of a single, continuous shaft, the entire drive rod shaft must be handled when removing the drive rod. Consequently, service or maintenance of the drive rod guide housing or the drive rod, itself, can be intricate and costly due to these limitations.
A further problem with the current continuous drive rod shaft design is that the entire drive rod must also be removed when the press is “un-stacked” for shipping purposes. Since the drive rod is a continuous shaft, the entire drive rod must be removed when “un-stacking” the press. As a result, there is an associated cost included within the cost of manufacturing, shipping, and reassembly of the mechanical press.
SUMMARY OF THE INVENTION
According to the present invention, a drive rod is divided into at least two segments which are coupled together to form a single length drive rod. A split, locating collar is provided for removing the drive rod from the press without removing the slide from the press.
The invention, in one form thereof, is a drive rod for a mechanical press. The drive rod includes at least a first and a second drive rod segment. Coupling means are used for joining the first drive segment to the second drive segment. In a further embodiment, the first and second drive segments include a coupling end. A first and a second flange are located on the coupling end of the first drive rod segment and the second drive rod segment, respectively. Clamping means are used for clamping the first flange to the second flange.
The invention in another form thereof, is a mechanical press with a drive rod. The drive rod has two ends and is composed of at least a first and a second drive rod segment. Coupling means joins the first drive rod segment to the second drive rod segment. A crankshaft is connected to one end of the drive rod. A drive mechanism rotates the crankshaft. In a further embodiment, the mechanical press includes a first slide and slide attachment means for removably attaching the other end of the drive rod to the first slide. In yet a further embodiment, the slide attachment means comprises the first slide with a drive rod aperture. The other end of the drive rod is disposed within the drive rod aperture. A split locating collar is annularly disposed along the drive rod below the slide. The split collar contains a plurality of split collar apertures and contains split collar fastening means for removably clamping the split collar to or about the drive rod. In some embodiments, the split collar is not required to be clamped onto the drive rod.
The invention, in another form thereof, is a mechanical press comprising a drive rod having two ends. A slide attachment means removably attaches a first slide to one end of the drive rod. A crankshaft is connected to the other end of the drive rod. A drive mechanism is used to rotate the crankshaft. In a further embodiment, a second slide is disposed in opposed relationship to the other slide. The first slide comprises an upper slide and the second slide comprises a lower slide.
The invention in yet another form thereof, is a mechanical press including an upper slide and a lower slide disposed in opposed relationship to each other. The upper slide contains a drive rod aperture. There is a drive rod having two ends composed of an upper drive rod segment and a lower drive rod segment. The upper and lower drive segments contain a coupling end. A first and a second flange are located on the coupling end of the first drive rod segment and the second drive rod segment, respectively. The first and second flange contain a plurality of flange apertures. A plurality of flange bolts are inserted through the first and second flange apertures for securing the first and second drive rod segments together. The other said end of the drive rod is disposed within the drive rod aperture. A split locating collar is annularly disposed along the drive rod below the slide. The split collar contains a plurality of split collar apertures and contains split collar fastening means for removably attaching the split collar about the drive rod. A split collar is disposed between the other end of the drive rod and the upper slide. The split collar contains a plurality of split collar apertures. A plurality of split collar bolts are disposed within the split collar aperture for removably connecting the split collar about the drive rod. A crankshaft is connected to the other end of the drive rod.
An advantage of the present invention is that the new drive rod can be assembled into a mechanical press more easily than conventional drive rods. Since the drive rod is split at one or more places along its length, only one segment or portion of the drive rod needs to be handled at a time. In addition, the split design allows the lower part of the drive rod to be assembled with the other main press components. The upper part of the drive rod can be installed after the press has been shipped to its final destination.
Another advantage of the present invention is the elimination of the need to have both the upper and lower guide housings installed together. The split drive rod permits the lower part of the drive rod to be assembled along with the lower guide housing. The upper drive rod can then be assembled at a later time.
An additional advantage is that the upper and lower guide housings no longer are required to be perfectly in line with one another. The guide housings can be offset with no effect to the drive. All that is required is that the individual drive rods are centered in their respective housing followed by the upper and lower drive rod flanges being bolted together.
An additional advantage of the present invention is that the guide housings can be replaced by removing the drive rod without removing the upper slide. The split locating collar along the drive rod below the upper slide allows for the separation of the drive rod from the slide. The drive rod can then be pulled up through the upper slide through a clearance hole in the slide which is larger than the drive rod diameter. Consequently, access is gained to the guide housings for their service, removal, or replacement.
A further advantage of the present invention is that the drive rod and upper slide do not need to be removed when un-stacking the press for shipping. Instead, the drive rod can be separated by unbolting the drive rod flanges that connect the drive rod segments together. Once the drive rod segments are separated from one another, the press can be un-stacked.
A yet further advantage of the present invention is that the split collar is designed to distribute the drive rod preload across the bottom surface of the upper slide. The distributed preload reduces the stress created in the slide by the preload. The reduced stress level permits the slide weight to be minimized allowing for improved bearing performance and/or faster running speeds.
A further advantage of the invention is that the slide shutheight can be easily set. Spacers are located between the joined drive rod segments. By grinding these spacers or including thicker spacers, the slide shutheight can be adjusted. In addition, slide shutheight can be adjusted by grinding down the split locating collar or replacing the split locating collar with a thicker one.
BRIEF DESCRIPTION OF THE DRAWINGS
The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:
FIG. 1
is a front elevational cut-away view of a double slide press incorporating the present invention depicting the upper slide in the up position (left half) and in the down position (right half);
FIG. 2
is a front elevational cut-away view showing an upper and lower drive rod with split collar depicting the upper slide in the up position (left half) and in the down position (right half);
FIG. 3
shows an upper and lower drive rod;
FIG. 4
shows an upper drive rod and split collar;
FIG. 5
is a top view of upper drive rod flange;
FIG. 6
is a top view of lower drive rod flange; and
FIG. 7
is a top view of a split locating collar.
Corresponding reference characters indicate corresponding parts throughout the several views. The exemplification set out herein illustrates one preferred embodiment of the invention, in one form, and such exemplification is not to be construed as limiting the scope of the invention in any manner.
DETAILED DESCRIPTION OF THE INVENTION
Referring now to the drawings and particularly to
FIGS. 1 and 2
, an underdrive double slide press
10
of the present invention is shown. Press
10
includes a lower linkage mechanism
12
for reciprocating lower slide
14
. Lower linkage mechanism
12
is driven by crankshaft
16
. Upper linkage mechanism
18
is also connected to crankshaft
16
to drive or reciprocate upper slide
20
. Crankshaft
16
is located within a base
22
of press
10
. Attached to base
22
are a pair of uprights
24
. Uprights
24
are split into two sections, so there is an upper upright section
25
and a lower upright section
28
. Crown
26
is connected to uprights
25
. Lower slide
14
and upper slide
20
are oriented opposite each other and during press operation move toward and away from each other.
Upper linkage or drive rod
18
is divided into a plurality of drive rod segments. Drive rod
18
is depicted in
FIGS. 1 and 2
as being divided into two segments, namely, upper drive rod
30
and lower drive rod
32
. Although this invention is described as containing two drive rod segments for ease of description, upper drive rod
30
and lower drive rod
32
, drive rod
18
may be divided into additional drive rod segments.
Upper drive rod housing guide
34
and lower drive rod housing guide
36
guide drive rod
18
during reciprocation of upper slide
20
. Upper and lower drive rod housing guide
34
,
36
are mounted to the stationary frame
37
.
Referring now to
FIGS. 3
,
5
, and
6
upper drive rod segment
30
and lower drive rod segment
32
contain upper drive rod flange
38
and lower drive rod flange
40
respectively. Flanges
38
,
40
are fastened to upper and lower drive rod segments
30
,
32
, respectively, by a plurality of bolts
41
. Bolts
41
are inserted through straight bores
45
and screwed tight into threaded bores
47
.
Flange spacer
42
is disposed between upper and lower drive rod
30
and
32
. Flange spacer
42
contains a plurality of apertures
43
through which a plurality of flange bolts
44
are inserted. The slide shutheight can be set by adjusting the thickness of flange spacer
42
. For example, flange spacer
42
can be ground down to increase shutheight. Alternatively, flange space
42
can be replaced with a thicker flange spacer resulting in a decrease in slide shutheight.
A plurality of flanges bolts
44
are inserted through straight bored aperture
46
of upper drive rod flange
38
and tightened down into threaded aperture
49
of lower drive rod flange
40
. Flange bolts
44
secure upper drive rod
30
to lower drive rod
32
. Upper drive rod
30
and lower drive rod
32
may be easily separated by removing flange bolts
44
and separating upper drive rod flange
38
from lower drive rod flange
40
. Although bolts are disclose and used here as fastening means to fasten upper drive rod flange
38
to lower drive rod flange
40
, other appropriate fastening means may be employed to secure together flanges
38
,
40
.
The means for coupling the upper and lower drive rods
30
,
32
together comprises upper and lower drive rod flanges
38
,
40
and a plurality of bolts
41
,
44
. Alternatively, other suitable means for coupling together upper and lower drive rods
30
,
32
may be utilized.
During the assembly of press
10
, lower drive rod
32
can be assembled into press
10
separate from upper drive rod
30
. Since drive rod
18
is divided into at least two drive rod segments, upper drive rod segment
30
and lower drive rod segment
32
, upper drive rod housing guide
34
does not need to be perfectly in line with lower drive rod housing guide
36
. In other words, upper and lower drive housing
34
,
36
can be unaligned or offset with no effect to the drive. Upper and lower drive rods
30
,
32
need only to be centered in their respective housing followed by flanges
38
,
40
being bolted together.
Since a drive rod is split into multiple pieces and is guided by housings at multiple locations it is only important for each guide housing to be parallel to the other housing and not necessarily inline with the other housing. If the two housings guiding a single drive rod are parallel to one another then any misalignment can be accounted for as an offset between the drive rod flanges.
Referring to
FIG. 4
, upper drive rod
30
extends through a clearance hole or drive rod aperture
55
in upper slide
20
where clamping nut
54
is tightened down on upper drive rod
30
. The diameter of the clearance hole is wider than that of upper drive rod
30
. The wider clearance hole enables one to remove upper drive rod
30
from press
10
without removing slide
20
. Upper drive rod
30
is removed from press
10
by first removing clamping nut
54
followed by pulled upper drive rod
30
up through drive rod aperture
55
.
Split locating collar
48
is disposed annularly around upper drive rod
30
and affixed below slide
20
. Split locating collar
48
sandwiches upper slide
20
between split locating collar
48
and clamping nut
54
. As a result, split locating collar
48
secures upper drive rod
30
to upper slide
20
.
The slide attachment means for removably attaching upper drive rod
30
to upper slide
20
comprises split locating collar
48
and clamping nut
54
. Alternatively, other appropriate attachment means may be employed.
Referring now to
FIG. 7
along with
FIG. 4
, split collar is split into two halves,
56
,
58
along line
51
. Bolts
50
are inserted through split collar aperture
52
and tightened down into threaded aperture
53
for clamping together split collar halves
56
,
58
around upper drive rod
30
. The split collar does not necessarily clamp onto drive rod. Bolts
50
simply hold the two halves together. The split collar is located on the drive rod by a shoulder.
If one wishes to remove upper drive rod
30
from press
10
, upper drive rod
30
can be removed without removing upper slide
20
first. For example, it may be necessary to remove drive rod
30
from press
10
to repair or replace upper drive rod housing guide
34
. In order to remove upper drive rod
30
from upper slide
20
, split locating collar
48
is removed by loosening bolts
50
and removing clamping nut
54
, and upper drive rod flange
38
is unclamped from lower drive rod flange
40
. Upper drive rod
30
may now be pulled up through drive rod aperture
55
.
Drive rod
18
can be removed from press
10
without removing upper slide
20
. Drive rod
18
can be pulled up through slide
20
through drive rod aperture
55
in slide
20
since the diameter of drive rod aperture
55
is wider than the diameter of drive rod
18
. Consequently, access is gained to both the upper and lower guide housing
34
,
36
for replacement, removal or other service as required.
Split locating collar
48
is designed to distribute the drive rod preload across the bottom of slide
20
thus, reducing the stress created in slide
20
by the preload. The reduced stress level permits slide
20
weight to be minimized, allowing for improved bearing performance and/or faster press running speeds.
The split collar is designed to distribute the drive rod preload across the bottom of the slide to reduce the stress created in the slide by the preload. Since the split collar outside diameter is larger than the drive rod outside diameter the preload on the slide is distributed over a larger area on the bottom of the slide. Since an identical amount of preload is spread over a larger area of the slide the resultant stresses are reduced in the slide.
Press
10
is pre-assembled at a manufacture's factory. In order to ship press
10
, press
10
is un-stacked. Un-stacking involves partially disassembling press
10
. As shown in
FIGS. 1 and 2
, press
10
is un-stacked along un-stacking line
60
. The present invention allows press
10
to be un-stacked without removing upper slide
20
nor completely removing drive rod
18
. The un-stacking procedure may involve unclamping upper and lower drive rods
30
,
32
, from one another but not the removal of the entire drive rod
18
nor upper slide
20
.
While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.
Claims
- 1. A mechanical press comprising:a drive rod having two ends, said drive rod composed of at least a first and a second drive rod segments; coupling means for joining said first drive rod segment to said second drive rod segment, each said drive rod segment having a coupling end; a first and second flange located on said coupling end of said first drive rod segment and said second drive rod segment, respectively; fastening means for securing together said first segment and said second segment; a crankshaft connected to one said end of said drive rod; and a drive mechanism to rotate said crankshaft.
- 2. A mechanical press according to claim 1 further comprising:a first slide; and slide attachment means for removably attaching the other said end of said drive rod to said first slide.
- 3. A mechanical press according to claim 2 further comprising:a second slide, said first and second slides disposed in opposed relationship to each other; and said first slide comprising an upper slide and said second slide comprising a lower slide.
- 4. A mechanical press according to claim 2, wherein said coupling means further comprises said first and second flanges containing a plurality of apertures.
- 5. A mechanical press according to claim 4 wherein said slide attachment means comprises:said first slide containing a drive rod aperture, the other said end of said drive rod disposed within said drive rod aperture; a split locating collar annularly disposed along said drive rod below said slide, said split collar containing a plurality of split collar apertures; and split collar fastening means for removably clamping said split collar about said drive rod.
- 6. A mechanical press according to claim 5 wherein said split collar fastener means comprises a plurality of bolts disposed within said plurality of split collar apertures.
- 7. A mechanical press according to claim 2 wherein said slide attachment means comprises:said first slide containing a drive rod aperture, the other said end of said drive rod disposed within said drive rod aperture; a split locating collar annularly disposed along said drive rod below said slide said split collar containing a plurality of split collar apertures; and split collar fastening means for removably clamping said split collar about said drive rod.
- 8. A mechanical press according to claim 7 wherein said split collar fastener means comprises a plurality of bolts disposed within said plurality of split collar apertures.
- 9. A mechanical press according to claim 2 wherein a coupling means spacer is disposed between said first drive rod segment and said second drive rod segment.
- 10. A drive rod according to claim 1, wherein said fastening means comprises:said first and said second flanges containing a plurality of apertures; and a plurality of bolts, said bolts inserted through said apertures of said first and said second flanges for securing together said first and second segments.
- 11. A mechanical press according to claim 1 wherein a drive rod segment spacer is disposed between said first drive rod segment and said second drive rod segment.
- 12. A mechanical press comprising:a drive rod having two ends; an upper slide; slide attachment means for removably attaching said drive rod one end to said upper slide; said slide containing a drive rod aperture, the other said end of said drive rod disposed within said drive rod aperture; a split locating collar annularly disposed along said drive rod below said slide, said split collar containing a plurality of split collar apertures; split collar fastening means for removably clamping said split collar about said drive rod; a crankshaft connected to the other said end of said drive rod; and a drive mechanism to rotate said crankshaft.
- 13. A mechanical press according to claim 12 further comprising:a lower slide; and said upper and said lower slides disposed in opposed relationship to each other.
- 14. A mechanical press according to claim 12 wherein said split collar fastener means comprises a plurality of bolts disposed within said plurality of split collar apertures.
- 15. A mechanical press comprising:an upper slide and a lower slide disposed in opposed relationship to each other; a drive rod having two ends, said drive rod composed of an upper drive rod segment and a lower drive rod segment, said upper and lower drive rod segments each containing a coupling end; a first and second flange located on said coupling end of said first drive rod segment and said second drive rod segment, respectively, each said flange containing a plurality of flange apertures; a drive rod segment spacer disposed between said upper and said lower drive rod segments; a plurality of flange bolts, said flange bolts inserted through said flange apertures of said first and said second flanges for securing together said first and second drive rod segments; said upper slide containing a drive rod aperture, an end of said drive rod disposed within said drive rod aperture; a split locating collar annularly disposed along said drive rod below said slide, said split collar containing a plurality of split collar apertures; split collar fastening means for removably clamping said split collar about said drive rod; a plurality of split collar bolts disposed within said plurality of split collar apertures for removably clamping said split collar to said drive rod; and a crankshaft is connected to said other end of said drive rod.
US Referenced Citations (17)