Information
-
Patent Grant
-
6685616
-
Patent Number
6,685,616
-
Date Filed
Friday, August 31, 200123 years ago
-
Date Issued
Tuesday, February 3, 200420 years ago
-
Inventors
-
Original Assignees
-
Examiners
- Rada; Rinaldi I.
- Weeks; Gloria R
Agents
- Fasse; W. F.
- Fasse; W. G.
-
CPC
-
US Classifications
Field of Search
US
- 493 917
- 493 186
- 493 243
- 493 267
- 493 454
- 493 442
- 493 429
- 493 450
-
International Classifications
-
Abstract
The invention relates to a method and an apparatus for setting up at least one holding arrangement for a workpiece in relation to format and/or for setting a tool on a tool carrier, selectable positions being provided in particular for the holding arrangement, and an adjustable control element being provided as part of an adjusting and catch arrangement with positions related to the format, by means of which the holding arrangement is adjusted and fixed relative to the tool carrier.The essence of the invention consists in the fact that at least the fixing of the adjusting and/or catch arrangement for the holding arrangement relative to the tool carrier in at least one setting position is effected magnetically.
Description
FIELD OF THE INVENTION
The invention relates to a method and an apparatus for setting up at least one holding arrangement for a workpiece and/or a tool on a tool carrier in relation to a specified format. In particular, a holding arrangement serving to hold an envelope blank and a transverse creasing cylinder, as a tool carrier, may be provided.
BACKGROUND INFORMATION
It is known, for holding envelope blanks during the production of transverse creases, to apply vacuum to suction openings arranged in rows after one or two of several suction hole rows have been selected in each case in relation to the format and with respect to a creasing blade arranged rigidly at the circumference of the transverse creasing cylinder. This is done by means of expensive setting means of complicated design, so that the aim of the invention is to provide an especially simple method and an apparatus of correspondingly simple design for the accurate setting of a holding arrangement and/or of a tool on the tool carrier, i.e., in the present case, specifically on the transverse creasing cylinder.
SUMMARY OF THE INVENTION
To achieve the above stated object, the invention provides for the fixing of the adjustable holding arrangement and/or of the tool relative to the tool carrier in at least one setting position to be effected magnetically.
The magnetic fixing permits not only positioning of the holding arrangement to a highly accurate degree but also an especially easy-to-use adjusting means for the parts adjustable relative to one another. This applies in particular when the magnets belonging to the adjustable parts are in each case opposite one another with like poles.
In a development of the invention, provision is made for in each case one group of magnets to be assigned to each of the parts adjustable relative to one another and movable in each case in a guided manner. Furthermore, it may be expedient here if, in a development of the invention, one of the two groups of magnets has at least a single magnet or two magnets. If need be, it is sufficient for only a single magnet to be provided on one of the two sides.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention is described in more detail below with reference to an exemplary embodiment shown in the drawing, in which:
FIG. 1
shows a schematic side view of the essential parts of a creasing station in an envelope making machine;
FIG. 2
shows, on a different scale, a section through a creasing cylinder and its mounting and the suction air connection;
FIG. 3
shows, again on another scale, a section along line III—III in
FIG. 2
;
FIG. 4
shows a section as in
FIG. 3
along line IV—IV in
FIG. 2
;
FIG. 5
shows a schematic representation of essential parts of the transverse creasing cylinder with an envelope blank;
FIG. 6
shows, again on a larger scale, a truncated section through the creasing cylinder and through the control element with magnets having unlike poles opposite one another;
FIG. 7
shows a representation as in
FIG. 6
with magnets having like poles opposite one another and offset relative to one another;
FIG. 8
shows a view of the back of an envelope with self-adhesive gumming;
FIG. 9
shows an envelope blank for an envelope according to
FIG. 8
;
FIG. 10
shows an envelope blank with a restraightening crease, and
FIG. 11
shows a view of the back of an envelope according to FIG.
10
.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION
When making envelopes
1
,
101
according to
FIGS. 8 and 11
, respectively, it is necessary for longitudinal creases
3
,
103
and
4
,
104
lying in the longitudinal direction, i.e. in the transport direction (see arrow in
FIG. 9
or
10
), and, transversely thereto, transverse creases
5
,
105
and
6
,
106
to be provided in the still continuous paper web or in the already singularized envelope blanks
2
,
102
according to
FIGS. 9 and 10
, respectively, so that an envelope
1
,
101
can be produced from the envelope blanks
2
,
102
by folding over and adhesively bonding the side parts
7
,
107
and
8
,
108
to the back part
9
,
109
. The envelope
1
according to
FIG. 8
has an additional, third transverse crease
10
for a counter flap
11
, which is turned over to begin with. The envelope
101
according to
FIG. 11
likewise has a third crease for straightening the closing flap
112
again. The transverse crease
10
,
110
is made on a side of the envelope blank
2
,
102
which is opposite the side of the transverse creases
5
,
105
and
6
,
106
, respectively. Except for the closing flaps, the envelopes
1
,
101
largely correspond. Thus the side parts
7
,
107
and
8
,
108
can be folded onto one another about longitudinal creases
3
,
103
and
4
,
104
, and the closing flap
12
,
112
can be folded about the transverse crease
6
,
106
, and the front part
13
,
113
and the back part
9
,
109
can be folded onto one another about the transverse crease
5
,
105
.
To produce the transverse creases
5
,
105
or
6
,
106
and
10
,
110
, a transverse creasing station
21
is provided in an envelope making machine and comprises a plurality of cylinders and rollers, which in the exemplary embodiment shown schematically in
FIG. 1
are a feed cylinder
22
and, in the transport direction, a first transverse creasing cylinder
23
with a counter-cylinder
24
, and a second transverse creasing cylinder
25
with an associated counter-cylinder
26
, and also a transport cylinder
27
, likewise only shown schematically. The envelope blank
102
is shown by a dot-dash line in
FIG. 1
on parts of the circumference of the two transverse creasing cylinders
23
and
25
.
The transverse creasing cylinders
23
and
25
have creasing blades
28
,
29
. It is basically the case here that one creasing blade, such as, for example, the creasing blade
28
on the associated transverse creasing cylinder
25
, is arranged rigidly, whereas the other creasing blade
29
is adjustable in the circumferential direction. This is not shown in detail in FIG.
1
.
The position of the envelope blank, shown schematically by dot-dash line in
FIG. 1
, with regard to the position of the creasing blades
28
,
29
and
30
likewise does not correspond to the actual working position. The two transverse creasing cylinders
23
and
25
, with the creasing blade(s)
28
in each case arranged rigidly, and their holding arrangements
31
and
31
′ still have to be set and fixed compared with the representation in FIG.
1
.
As a rule, the envelope blank
2
,
102
is drawn through the transverse creasing station
21
by the various cylinders and rollers located there. To this end, the holding arrangement
31
′
0
on the first transverse creasing cylinder
23
receives the envelope blank
2
or
102
from the feed cylinder
22
and delivers it during the passage to the second transverse creasing cylinder
25
, for which purpose its holding arrangement
31
′ likewise receives the leading end
32
or
132
of the envelope blank in a synchronized manner. The two holding arrangements
31
and
31
consist of a suction arrangement which is known in principle, works with vacuum and comprises suction hole rows
33
,
33
a
,
33
b
, etc., with suction openings
35
arranged at the circumference
34
of each transverse creasing cylinder
23
,
25
. The suction openings
35
of each suction hole row
33
are connected to one another by bores
36
. The bores
36
each end at an end face
37
of each transverse creasing cylinder
23
or
25
, respectively.
A control valve
38
adjoins the creasing cylinder
23
or
25
, respectively, at the end face and is connected to a vacuum line
39
. A coaxially directed suction air passage
40
and a suction air section
41
extending in the circumferential direction are located in the control valve
38
. The use of such holding arrangements
31
with suction hole rows at the circumference
34
of the transverse creasing cylinders and with control valves
38
which have suction air passages
40
and suction air sections
41
is basically prior art and for this reason needs no further explanation. The control valve
38
does not rotate with the respective transverse creasing cylinder
23
or
25
, which is mounted via a shaft
42
in a machine frame
43
and is set in rotation via a drive element
44
.
In addition, there is also a control element
46
on that end
45
of the transverse creasing cylinder
23
,
25
which has the end face
37
, this control element
46
being adjustable relative to the approximately cylindrical cylinder body
47
of the transverse creasing cylinder
23
,
25
. It is guided or arranged so as to be pivotable on the cylinder body
47
. It serves to open or close the bores
36
which lead to the suction openings
35
at the circumference of the transverse creasing cylinder
23
,
25
.
As can be seen from
FIGS. 1
,
3
and
5
, each transverse creasing cylinder
23
,
25
has a multiplicity of suction hole rows
33
,
33
a
,
33
b
, etc., arranged parallel to one another and on the same radius. A bore
36
belongs to each suction hole row
33
, etc. By means of the control element
46
, the effect is achieved that in each case only one bore
36
or two directly or indirectly adjacent bores
36
are connected to the vacuum in the vacuum line
39
via the control valve
38
. By means of the control element
46
, arranged in an adjustable manner at the front end of the creasing cylinder
23
,
25
, the bore
36
belonging to the one or the other suction hole row
33
,
33
a
, etc., is therefore connected as required to the vacuum in the vacuum line
39
via the control valve
38
. To this end, the control element
46
has at least one bore
48
,
49
, these bores
48
,
49
lying on the same radius as the bores
36
or as the suction air section
41
extending in the circumferential direction in the control valve
38
. On account of the bores
48
and
49
, respectively, the same vacuum prevails in the bores
36
of the connected suction hole rows as along the suction air section
41
or as in the vacuum line
39
.
The suction air section
41
extends only over a limited curved segment up to an intermediate wall. A chamber
50
in which atmospheric pressure prevails is then provided. As soon as the control element
46
passes into the region of the chamber
50
, the vacuum in the bore/bores
36
and thus at the suction hole rows
33
acted upon collapses, with the result that the holding arrangement
31
,
31
′ loses its effect.
The control element
46
, mounted on the cylinder body
47
in a rotatable or pivotable manner, serves on the one hand to select the one or the other suction hole row and on the other hand to at the same time also fix the selected position. This is done by means of magnets
51
on the control element
46
and by means of magnets
52
on the front end
45
of the cylinder body
47
.
According to the exemplary embodiment shown in
FIGS. 3 and 4
, the magnets
51
are arranged on the control element
46
in an annular manner. The same applies in principle to the magnets
52
on the front end
45
of the cylinder body
47
.
The magnets
51
are located in alignment in an annular end face
53
of the control element
46
, which according to the exemplary embodiment is mounted in a rotatable manner with a bore
54
(
FIG. 4
) on an annular end piece
55
of the cylinder body
47
(FIG.
2
). The magnets
52
are likewise located in an annular end face
56
on the free end
45
of the cylinder body
47
in such a way that they lie on the same radius as the magnets
51
of the control element
46
.
The number and position of the magnets
51
and
52
, respectively, is selected in such a way that the desired setting positions can be achieved. To this end, the magnets
51
and
52
may either be opposite one another directly in the setting positions with opposite poles according to
FIG. 6
, or they may also be opposite one another with like poles, i.e. the same poles, and be offset or staggered relative to one another, as shown in FIG.
7
.
If the magnets
51
and
52
are opposite one another with opposite poles (FIG.
6
), the magnets attract one another and also the parts
46
and
47
, respectively, carrying them. An adjustment of the parts
46
and
47
relative to one another therefore involves a certain expenditure of force. However, if the magnets
51
and
52
are opposite one another with like, i.e. the same, poles according to FIG.
7
and in their respective end faces
53
and
56
, respectively, they repel one another, with the result that the control element
46
can be adjusted relatively easily with respect to the cylinder body
47
, in particular if the magnets
51
and
52
are additionally offset relative to one another in the respective setting and catch positions (FIG.
7
). The control element
46
then jumps from setting position to setting position and is reliably fixed in each of these positions.
According to the representation in
FIG. 5
, vacuum is applied to the suction hole rows
33
and
33
b
. Suction openings
35
located outside the envelope blank
2
are in each case covered with an adhesive strip
57
, so that infiltrated air is not drawn in.
Finally,
FIG. 1
shows a holding arrangement
61
for the control valve
38
, so that it cannot change its position in the machine frame
43
.
Furthermore,
FIG. 1
shows the position of the suction air section
41
, which starts at the transfer point of the feed cylinder
22
and ends just in front of the delivery point to the second creasing cylinder
25
.
According to the exemplary embodiment, the control element
46
is annular and, together with the magnets
51
arranged in alignment on it and with the magnets
52
arranged on the same radius at the end face in the cylinder body
47
, forms an adjusting and catch arrangement
62
. The magnets
51
and
52
are expediently permanent magnets.
The magnets
51
and
52
in each case form a group in the control element
46
and respectively at the end face in the cylinder body
47
of the transverse creasing cylinder
23
or
25
, respectively. One of the two groups may also consist of only two magnets or if need be also of a single magnet.
Finally, the invention is not restricted to use in a creasing station of an envelope making machine. It may also be used in another connection if it is a matter of setting a holding arrangement for a workpiece and/or a tool relative to a tool carrier in selectable positions and of fixing it in the respectively selected position.
Claims
- 1. An envelope making machine comprising:a holding arrangement adapted to hold an envelope blank having a specified format; a tool carrier adapted to carry a tool for processing the envelope blank; and an adjusting and fixing arrangement including an adjustable control element by which a position of said holding arrangement relative to said tool carrier is adjusted and fixed at a selected position related to the specified format among plural available positions, wherein said adjusting and fixing arrangement further includes magnets which magnetically fix said holding arrangement relative to said tool carrier at said selected position.
- 2. The envelope making machine according to claim 1, wherein said magnets are permanent magnets.
- 3. The envelope making machine according to claim 1, wherein said control element has a first end face, wherein said tool carrier comprises a cylinder body having a second end face that faces said first end face, and wherein said magnets include first and second magnets arranged respectively annularly on said first end face of said control element and on said second end face of said cylinder body.
- 4. The envelope making machine according to claim 3, wherein said first and second end faces are respective annular end faces, and wherein said envelope making machine comprises a transverse creasing cylinder that is adapted to transversely crease the envelope blank and that comprises said cylinder body of said tool carrier.
- 5. The envelope making machine according to claim 3, wherein said first and second magnets include at least one said first magnet arranged on said first end face and at least one said second magnet arranged on said second end face.
- 6. The envelope making machine according to claim 3, wherein said first and second magnets include a plurality of said first magnets arranged on said first end face and a plurality of said second magnets arranged on said second end face, and wherein at least a respective one of said first magnets is respectively arranged at each respective one of plural first circumferential locations on said first end face and at least a respective one of said second magnets is respectively arranged at each respective one of plural second circumferential locations on said second end face thereby defining said plural available positions.
- 7. A method of using the envelope making machine according to claim 1, comprising the following steps:dependent on the specified format of the envelope blank, selecting one of said plural available positions as said selected position related to the specified format; adjusting said adjustable control element to said selected position; and fixing said adjustable control element at said selected position by a magnetic force generated by said magnets, whereby said holding arrangement is magnetically fixed relative to said tool carrier at said selected position.
- 8. An apparatus for creasing a workpiece, said apparatus comprising:a transverse creasing cylinder that includes a cylinder body serving as a tool carrier, at least one creasing blade carried by said cylinder body, and plural suction hole rows of suction holes penetrating through a circumferential surface of said cylinder body and serving as a holding arrangement adapted to suction-hold the workpiece; an adjustable control element that is adjustable to any selected position among plural available positions relative to said cylinder body so as to correspondingly activate at least a selected one of said suction hole rows to apply suction to the workpiece, dependent on a specified format of the workpiece; and magnets arranged on said control element and said cylinder body and adapted to magnetically fix said control element in said selected one of said positions relative to said cylinder body.
- 9. The apparatus according to claim 8, wherein said magnets are permanent magnets.
- 10. The apparatus according to claim 8, wherein said magnets include first magnets arranged annularly on a first annular end face of said control element, and second magnets arranged annularly on a second annular end face of said cylinder body facing toward said first end face of said control element and aligned on an annular arc with said first magnets.
- 11. The apparatus according to claim 8, wherein said magnets and said suction hole rows are respectively arranged at different radii about a common axis of said cylinder body and said control element.
- 12. A method of using the apparatus according to claim 8, comprising the following steps:dependent on the specified format of the workpiece, selecting one of said plural available positions as said selected position related to the specified format; adjusting said adjustable control element to said selected position; and fixing said adjustable control element at said selected position by a magnetic force generated by said magnets, whereby said holding arrangement is magnetically fixed relative to said tool carrier at said selected position.
- 13. An apparatus for processing a workpiece, said apparatus comprising:a holding arrangement adapted to hold a workpiece having a specified format; a tool carrier adapted to carry a tool for processing the workpiece; and an adjusting and fixing arrangement including an adjustable control element by which a position of said holding arrangement relative to said tool carrier is adjusted and fixed at a selected position related to the specified format among plural available positions; wherein said adjusting and fixing arrangement further includes magnets which magnetically fix said holding arrangement relative to said tool carrier at said selected position; and wherein said magnets include first magnets that are arranged on said control element and second magnets that are arranged on said tool carrier and are offset in a circumferential direction relative to said first magnets when said holding arrangement is fixed at said selected position relative to said tool carrier.
- 14. The apparatus according to claim 13, wherein said first magnets and said second magnets respectively have like magnetic poles facing one another.
- 15. An apparatus for processing a workpiece, said apparatus comprising:a holding arrangement adapted to hold a workpiece having a specified format; a tool carrier adapted to carry a tool for processing the workpiece; and an adjusting and fixing arrangement including an adjustable control element by which a position of said holding arrangement relative to said tool carrier is adjusted and fixed at a selected position related to the specified format among plural available positions; wherein said adjusting and fixing arrangement further includes magnets which magnetically fix said holding arrangement relative to said tool carrier at said selected position; wherein said magnets include first magnets arranged on said control element and second magnets arranged on said tool carrier; and wherein said first and second magnets are arranged respectively opposite one another with like magnetic poles or with opposite magnetic poles facing one another.
- 16. The apparatus according to claim 15, wherein said first and second magnets are arranged respectively opposite one another with like magnetic poles facing one another.
- 17. The apparatus according to claim 15, wherein said first and second magnets are arranged respectively opposite one another with opposite magnetic poles facing one another.
- 18. The apparatus according to claim 15, wherein said control element has a first end face, said tool carrier comprises a cylinder body having a second end face, said first magnets are arranged annularly on said first end face, and said second magnets are arranged annularly on said second end face.
- 19. The apparatus according to claim 15, wherein said magnets are permanent magnets.
Priority Claims (1)
Number |
Date |
Country |
Kind |
100 43 517 |
Sep 2000 |
DE |
|
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
4090433 |
Jardine et al. |
May 1978 |
A |