Title of Invention

GRIPPER FOR TUFTING MACHINE

Abstract The new gripper design provides a gripper (3) for tufting machines, said gripper comprising a slider (18) that is supported so as to be movable in longitudinal direction. This slider is arranged in a slider receiving space (17) which, preferably, is configured as a slit. The slit extends from the lower narrow side (12) of the gripper body (4) into said gripper body. Said slit is limited by two thin walls (19, 20) or, alternatively, by only one thin wall (20). A cutting edge insert receiving space 39 is provided above the slider receiving space (17), said receiving space (39) extending from the flat side (9) and being recessed in the gripper body (4). Between the cutting edge insert receiving space (39) and the slider receiving space (17), a strip (40) is provided that preferably extends in longitudinal direction of the gripper body (4) and separates the receiving spaces (39, 17) from each other. This design is suitable for the creation of very narrow grippers (3) that permit a division of less than 1/10 Inch.
Full Text Groz-Beckert KG, Parkweg 2, 72458 Albstadt, Germany
Gripper for Tufting Machine
The invention relates to a gripper for a tufting
machine, in particular a tufting machine which can be used to
selectively produce loop pile or cut pile.
Tufting machines have been known. For example, they are
used in carpet manufacturing. In this case, they comprise a
table over which the carrier material (the so-called backing)
of the future carpet is advanced. A needle bar with needles
is located above the carpet, whereby each of the needles has
an eye through which the pile thread passes. By rhythmic
vertical movement of the bar, this pile thread is repeatedly
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punched through the backing which is advanced between
individual punches. A bar with gripper modules is arranged
underneath the backing. The grippers of said module firmly
hold the forming pile thread loops during the return stroke
of the needle bar. Grippers, which cut open the formed thread
loop, respectively in interaction with a knife during a
subsequent step, have also been known. Regarding this, it has
been known from practical applications to provide a hard-
metal insert on the gripper body, said insert having a
cutting edge interacting with the knife. If, in addition, the
gripper contains a slider in order to selectively switch from
loop pile to cut pile and vice versa, the gripper thickness
becomes relatively large due to the side-by-side arrangement
of the slider and the hard-metal insert. This gripper
thickness cannot be randomly reduced because the hard-metal
insert requires a minimum thickness of clearly greater than 1
mm.
However, the aim is to provide carpets having loop or thread
rows at minimal distances.
Considering this, it is the object of the invention to
provide a gripper and a gripper module which, on the one
hand, permit switching from cut pile to loop pile and which,
on the other hand, permit the production of carpets with rows
of loop pile threads or cut pile threads following each other
closely and exhibiting a long useful life.
This object is achieved with the gripper in accordance
with Claim 1:
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The gripper in accordance with the invention comprises a
gripper body with two separate receiving spaces, namely, one
receiving space for the cutting edge insert and one receiving
space for the slider. Referring to a preferred installation
position of the gripper, in which the backing is advanced
horizontally or essentially horizontally, the receiving space
for the slider and the receiving space for the cutting edge
insert are not arranged next to each other but above each
other. As a result of this, the individual grippers may have
a very slim design. Their thickness needs to be only
minimally greater than the minimum thickness of the cutting
edge insert. As a result of the slim design of the individual
grippers, they can be assembled as a gripper group in
extremely tight arrangement in order form a gripper module.
In particular, the use of a division of less than 1/10 Inch
is possible. A gripper module in accordance with the
invention comprises means for attachment to a state-of-the-
art gripper bar, so that said module can be used in existing
machines.
Furthermore, the separation of the two receiving spaces
ensures that the slider and the cutting edge insert do not
come into contact with each other. Preferably, the slider is
enclosed by the material of the gripper body and is
optionally enclosed by a closing bar. Tolerances of the
cutting insert are not important as regards the guiding
precision of the slider. Preferably, a strip of the gripper
body separates the slider from the cutting edge insert.
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The receiving space for the slider is preferably
represented by a deep groove which is provided on a narrow
side of the gripper body. The groove guides the slider with
minimal play and thus in a precise manner. The manufacture of
a module does not require any additional measures to ensure
guidance of the slider, such as, for example, the use of
guide plates. The slit width and the gripper body width can
be adapted to existing requirements and conditions.
On its one end, the slider comprises means consistent
with the state of the art, so that said slider can be moved
in longitudinal direction by known actuating elements on
existing machines. Thus, it is possible to install the
gripper or the module in existing machines, without requiring
any modification of the machines.
In order for the slider to form a closed thread space
with one end of the gripper body that has a projection, said
slider being arranged in a receiving space that is vertically
separated from the receiving space of the cutting edge
insert, the slider tip has an offset. In order to achieve
precise covering between the slider tip and the projection of
the gripper body, the slider tip may additionally be curved.
For assembly and disassembly, the slider may be divided
into two parts. As the clutch between the front slider part
that comes into contact with the thread and the rear slider
part that is in contact with an actuating device, for
example, a pneumatic cylinder, any positive-locking means can
be used. For example, the two slider parts are connected to
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each other in a positive-locking manner in that one slider
part is provided with a disk head that is associated with a
recess on the other slider part. The two slider parts may
also be joined by materials. Joining means can be any means
known in the art. Preferably, the clutch is accessible from
outside the receiving space for the slider, so that worn
sliders can be replaced within a module. As a result of the
dual division, a replacement (deinstallation and
reinstallation) of the slider is possible even when the front
slider section is crimped or offset and, in addition, when
the rear slider section is offset. Then the slider is moved
in the receiving space to such an extent that it releases the
clutch. The slider parts can then be separated from each
other and can thus be replaced.
The receiving space for the slider can be covered by a
closing bar. Consequently, the.gripper consisting of the
gripper body, the cutting edge insert, the slider and the
closing bar, can be cast in one module, without having the
casting material enter into the receiving space for the
slider.
The cutting edge insert may consists of a hard metal, a
ceramic material or another suitable material on which a
durable cutting edge can be provided. Its cutting edge
interacts with the cutting edge of a knife in order to
produce the cut pile. In order to fix the cutting edge insert
in place in the receiving space for the cutting edge, the
cutting edge insert may be attached to the gripper body by
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gluing, soldering, welding, caulking, pressing or in another
manner.
Additional details of advantageous embodiments are
obvious from the drawings, the description or the claims. The
figures of the drawings illustrate embodiments of the
inventive gripper and its components. This is restricted to
the explanation of essential aspects of the invention and
other given conditions. It is obvious that modifications are
possible. Less significant, not illustrated, details can be
learned - as usual - from the drawings by the person skilled
in the art, said drawings supplementing the description of
the figures to this extent.
The drawings hereinafter are not consistent with scale;
thus, for clarification, the elements of the gripper in the
drawings may be illustrated in-different sizes. They show in
Fig. 1 a perspective illustration of an inventive gripper
module having several grippers for a gripper bar of
a tufting machine;
Fig. 2 a perspective view of a gripper body of the gripper
module in accordance with Fig. 1;
Fig. 2a a cross-section of the gripper body in accordance
with Fig. 2;
Fig. 3 a perspective view of a slider for the gripper body
in accordance with Fig. 2;
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Fig. 4 a perspective illustration of a closing bar for the
gripper body in accordance with Fig. 2;
Fig. 5 a different perspective illustration and a
different size of the closing bar in accordance
with Fig. 4;
Fig. 6 a side view of a gripper body with the cutting edge
insert and an associate knife;
Fig. 7 a plan view of the gripper body in accordance with
Fig. 6; and,
Fig. 8 a perspective illustration of a modified embodiment
of the gripper body in accordance with Fig. 2.

Figure 1 shows a module 1 which comprises several
grippers 3 in a block 2, whereby each of said grippers has
the same configuration. The grippers 3 are set in the block
2, and fixed in position in the body of block 2, for example,
by casting, cementing or by other means. The block 2 is used
to support and hold the gripper and to fix it in position on
a gripper bar of a tufting machine. Said gripper bar consists
of a suitable metal (e.g., aluminum alloy, zinc alloy, tin
alloy) or of a plastic material.
Figures 2, 3 and 4, together, show a perspective
exploded view of the gripper 3. The gripper has, for example,
a gripper body 4 consisting of steel in accordance with
Figure 2, said gripper body being formed by a flat part
having an essentially rectangular cross-section. The flat
part has a rear slim end 5 for its support in the block 2 and
a front, optionally laterally offset, end 6 with a tip 7 that
is disposed to come grasp loops. Between the rear end 5 and
the front end 6, viewed from the side, an approximately
rectangular section 8 is provided, which, as is shown by
Figure 1, partially projects from the block 2 when in use.
The two flat sides 9, 10 and the two narrow sides 11, 12 form
the limits of the section 8. In so doing, the flat sides 9,
10 and the narrow sides 11, 12 define the rectangular cross-
section 13 indicated next to Figure 2a. The flat sides 9, 10
also extend beyond the ends 5, 6 and are preferably largely
planar, optionally apart from an offset at the end 6 or the
tip 7. The narrow sides 11, 12 follow the contour of the
gripper and have flat sections. In the transition region from
the end 6 to the section 8, a step 14 is provided in the
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narrow side 12, so that - as is obvious from Figure 1 - the
section 8 clearly extends farther downward than the
horizontally aligned end 6. This latter end may also be
provided at its tip 7 with a projection 15 that extends
slightly downward.
Extending from its narrow side 12, the section 8 is
provided with a slit 16, which forms a slider receiving space
17 for the slider 18 that is shown separately in Figure 3.
The slider receiving space 17 is limited by two narrow walls
19, 20 that are aligned parallel to each other. The slit 16
formed between them has a width such that the slider 18 can
be easily moved between them. In operative position, the slit
16 has a slit bottom which is at a distance from the lower
narrow side of the end 6. During operation, a thread space 21
is formed between the slider 18 and the end 6 of the gripper
body 4, as is obvious from Figure 1.
The slider 18 preferably consists of two parts. Said
slider has a front slider part 22 and a rear slider part 23,
which are connected with each other via a positive-locking
clutch 24. The front slider part 22 and the rear slider part
23 are preferably flat parts that have the same thickness and
consist of steel or another suitable material. They have a
cross-section having a width that corresponds to the distance
between the walls 19, 20, i.e., to the width of the slider
receiving space 17, and having a height that is slightly less
than the depth of the slit 16. Consequently, the slider 18
has two flat sides 25, 26 and two narrow sides 27, 28, each
extending over almost the entire length of the slider 18. On
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its one end, the slider 18 may be provided with a connector
29 for an actuating element, e.g., an actuating cylinder. The
connector may be configured as a cutout, a hole or the like.
On its other end 30, said connector has an offset tip 31.
This tip may have a double offset, in that it has a section
extending, on the one hand, toward the tip 7 of the gripper
body 4 and, on the other hand, being offset with respect to
the center plane of the remaining slider 18. Due to the
section of the slider tip 31 that extends toward the tip 7 of
the gripper body 4, the narrow side 27 has a step 41. Also,
the tip 7 may be offset accordingly with respect to this
center plane, whereby the tip 31 and the projection 15, as
shown by Figure 1, are closely adjacent to each other or may
abut against each other. The lateral offset of the slider 18
is disposed to adapt to the asymmetrical arrangement of the
tip 7 on the end 3 of the gripper body 4, as is obvious from
Figure 7.
In addition, this gripper 3 is associated with a closing
bar 32 illustrated in Figure 4, whereby said bar has a length
that corresponds approximately to the length of the section 8
and is used to close the slit 16. The closing bar, which is
straight, has a rib-like projection 33 that fits in the slit
16 and closes said slit. The projection 33 is located
opposite the bottom of the slit 16 and guides the slider 18
on its narrow side 28, while the narrow side 27 slides on the
bottom of the slit 16. The thickness of the closing bar 32
preferably corresponds to the distance measured between the
flat side 9 and the flat side 10 of the section 8.
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Figure 5 illustrates that one front end of the closing
bar 32 is provided with a chamfer 34 that deflects the knife.
This chamfer is disposed to keep a knife of an adjacent
gripper away from the gripper body 4 and, in particular, away
from the narrow edges of the slit 16.
A spring, e.g., a leaf spring, may be provided in or on
the projection 33 in order to support the slider 18 in the
slit 18 without play. Alternatively, the slider 18, or also
the slit bottom, may be provided with an appropriate spring.
As is illustrated in Figure 6, the gripper 3 is
associated with a knife 35 that cuts thread loops received by
the thread space 21 in order to produce cut pile. On its end
side, the knife 35 has a cutting edge 36 which interacts with
a cutting edge insert 38. The cutting edge insert 38
preferably consists of a hard metal or of any other suitable
material. On its end, said insert has a cutting edge 37 in
order to improve cutting the thread loops while interacting
with the knife 35 and its cutting edge 36. The cutting edge
insert 38 is received by a cutting edge receiving space 39 of
the gripper body 4. The cutting insert receiving space 39 is
preferably configured as a flat recess in the flat side 9 of
the gripper body 4. This recess is open toward the flat side
9. It extends across the step 14 and receives the
correspondingly formed cutting edge insert 38 with the
cutting edge 37. The cutting edge insert 38 may be fixed in
place in the cutting edge insert receiving space 39 by
cementing or soldering or in another manner.
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As is obvious, the cutting edge insert receiving space
39 and the slider receiving space 17 are accommodated in the
gripper body 4, without being in contact with each other.
Rather, they are separated from each other by a strip 40 and
are superimposed with respect to the vertical mounting
direction. As a result of this, on the one hand, the cutting
edge insert 38 may have a relatively great thickness and, on
the other hand, the gripper body 4 may have a very narrow
configuration. In particular when the cutting edge insert 38
consists of a relatively brittle material, such as, e.g.,
hard metal or ceramic, this insert may easily have the
required minimum thickness of, e.g., 1.3 mm. Also, the
gripper body 4 may be configured narrow enough that divisions
of fewer than 1/10 Inch (2.5 mm) can be easily achieved.
The operation of the gripper and/or module 1 is as
follows:
During the tufting process, the module 1 is used for
grasping the loops formed under the backing. Referring to a
first operating mode, one or more sliders 18 are moved into a
rear position. Therefore, the loops arrive on the end 6 and
ultimately move over the cutting edge 37. Following the
working movement cycle, the knife 35 pushes upward and its
cutting edge 36 moves past the cutting edge 37 of the cutting
edge insert 38. Due to the resultant shearing effect, the
loop seated on the end 6 is cut open. Cut pile is being
produced. In so doing, the knife 35 only slips across the
cutting edge insert 38 and thus over the material, whereby
uniform wear resistance properties prevail. Preferably, said
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knife does slip across the material of the gripper body 4 .
The wear of said material remains minimal.
If loop pile is to be produced, the respective sliders
18 are moved into a forward position. The loops formed under
the backing are now picked up by the tip 31 of the respective
slider and again released during the return stroke of the
module 1. Said loops do not enter into the cutting mechanism
that consists of the knife 35 and of the cutting edge insert
38.
Figure 8 illustrates a modified embodiment of the
gripper 3 with reference to a gripper body 4' and its cutting
edge insert 38. In so far as the above-described gripper 3
corresponds to the latter, reference is made to the above
description using the same reference numbers as the basis.
Different from the former gripper body 4, the gripper
body 4' comprises a recess as the slider receiving space 17,
said recess being open in the direction of the flat side 9 as
well as toward the narrow side 12. Consequently, the gripper
body 4' has only one wall, i.e., the wall 20, but not the
wall 19. Accordingly, if required, slightly thicker sliders
may be used, these being optionally covered by an L-shaped
angle plate or by equal means at the time said sliders are
poured in the block 2.
The new gripper design provides a gripper 3 for tufting
machines, said gripper comprising a slider 18 that is
supported so as to be movable in longitudinal direction. This
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slider is arranged in a slider receiving space 17 which,
preferably, is configured as a slit. The slit extends from
the lower narrow side 12 of the gripper body 4 into said
gripper body. Said slit is limited by two thin walls 19, 20
or, alternatively, by only one thin wall 20. A cutting edge
insert receiving space 39 is provided above the slider
receiving space 17, said receiving space 39 extending from
the flat side 9 and being recessed in the gripper body 4.
Between the cutting edge insert receiving space 39 and the
slider receiving space 17, a strip 40 is provided that
preferably extends in longitudinal direction of the gripper
body 4 and separates the receiving spaces 39, 17 from each
other. This design is suitable for the creation of very
narrow grippers 3 that permit a division of less than 1/10
Inch.
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List of Reference Numbers:
1 Module
2 Block
3 Gripper
4 Gripper body 4'
5 End
6 End
7 Tip
8 Section
9 Flat side
10 Flat side
11 Narrow side
12 Narrow side
13 Cross-section
14 Step
15 Projection
16 Slit
17 Slider receiving space
18 Slider
19 Wall
20 Wall
21 Thread space
22 Slider part
23 Slider part
24 Clutch
25 Flat side
26 Flat side
27 Narrow side
28 Narrow side
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29 Connector
30 End
31 Tip
32 Closing bar
33 Projection
34 Chamfer
35 Knife
36 Cutting edge
37 Cutting edge
38 Cutting edge insert
39 Cutting edge insert receiving space
40 Strip
41 Step
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Patent Claims:
1. Gripper (3) for a tufting machine, comprising
a gripper body(4, 4') which has a cutting edge insert
receiving space (39) and a slider receiving space (17)
that is separated from the cutting edge insert receiving
space (39),
cutting edge insert (38) that is arranged in the cutting
edge insert receiving space (39), and
a slider (18) that is arranged in the slider receiving
space (17) .
2. Gripper in accordance with Claim 1, characterized in
that the slider receiving.space (17) is separated from
the cutting edge insert receiving space (39) by a strip
(40) of the gripper body (4, 4').
3. Gripper in accordance with Claim 1, characterized in
that the gripper body (4) has two flat sides (9, 10) and
two narrow sides (11, 12) that define a rectangular
cross-section (13) of the gripper body (3).
4. Gripper in accordance with Claim 3, characterized in
that the slider receiving space (17) of the gripper
body (4) is open on the narrow side (12) thereof.
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5. Gripper in accordance with Claim 1, characterized in
that the gripper body (4) is associated with a closing
bar (32) for the slider receiving space (17).
6. Gripper in accordance with Claim 3, characterized in
that the slider receiving space (17) of the gripper body
(4) is open on the flat side (9) thereof.
7. Gripper in accordance with Claim 3, characterized in
that the cutting edge insert receiving space (39) of the
gripper body(4) is open on the flat side (9) thereof.
8. Gripper in accordance with Claim 1, characterized in
that the slider (18) is supported in the slider
receiving space (17) of the gripper body (4) so as to be
movable.
9. Gripper in accordance with Claim 1, characterized in
that the slider (18) and the cutting edge insert (38) are
held in the gripper body (4) without being in contact
with each other.
10. Gripper in accordance with Claim 1, characterized in
that the cutting edge insert (38) consists of a hard
metal.
11. Gripper in accordance with Claim 1, characterized in
that the cutting edge insert (38) consists of ceramic.
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12. Gripper in accordance with Claim 1, characterized in
that the slider (18) is designed in two parts and
comprises a clutch device (24) which, when in operative
position, is preferably arranged in the slider receiving
space (17).

The new gripper design provides a gripper (3) for
tufting machines, said gripper comprising a slider (18) that
is supported so as to be movable in longitudinal direction.
This slider is arranged in a slider receiving space (17)
which, preferably, is configured as a slit. The slit extends
from the lower narrow side (12) of the gripper body (4) into
said gripper body. Said slit is limited by two thin walls
(19, 20) or, alternatively, by only one thin wall (20). A
cutting edge insert receiving space 39 is provided above the
slider receiving space (17), said receiving space (39)
extending from the flat side (9) and being recessed in the
gripper body (4). Between the cutting edge insert receiving
space (39) and the slider receiving space (17), a strip (40)
is provided that preferably extends in longitudinal direction
of the gripper body (4) and separates the receiving spaces
(39, 17) from each other. This design is suitable for the
creation of very narrow grippers (3) that permit a division
of less than 1/10 Inch.

Documents:

01273-kol-2007-abstract.pdf

01273-kol-2007-claims.pdf

01273-kol-2007-correspondence others 1.1.pdf

01273-kol-2007-correspondence others 1.2.pdf

01273-kol-2007-correspondence others.pdf

01273-kol-2007-description complete.pdf

01273-kol-2007-drawings.pdf

01273-kol-2007-form 1.pdf

01273-kol-2007-form 18.pdf

01273-kol-2007-form 2.pdf

01273-kol-2007-form 3.pdf

01273-kol-2007-form 5.pdf

01273-kol-2007-translated copy of priority document 1.1.pdf

01273-kol-2007-translated copy of priority document.pdf

1273-KOL-2007-(08-05-2012)-ABSTRACT.pdf

1273-KOL-2007-(08-05-2012)-AMANDED CLAIMS.pdf

1273-KOL-2007-(08-05-2012)-CORRESPONDENCE.pdf

1273-KOL-2007-(08-05-2012)-DESCRIPTION (COMPLETE).pdf

1273-KOL-2007-(08-05-2012)-DRAWINGS.pdf

1273-KOL-2007-(08-05-2012)-FORM-1.pdf

1273-KOL-2007-(08-05-2012)-FORM-2.pdf

1273-KOL-2007-(08-05-2012)-OTHERS.pdf

1273-KOL-2007-(08-05-2012)-PA.pdf

1273-KOL-2007-(28-08-2012)CORRESPONDENCE.pdf

1273-KOL-2007-ABSTRACT.pdf

1273-KOL-2007-AMANDED CLAIMS-1.1.pdf

1273-KOL-2007-AMANDED CLAIMS.pdf

1273-KOL-2007-CORRESPONDENCE 1.6.pdf

1273-KOL-2007-CORRESPONDENCE OTHERS 1.3.pdf

1273-KOL-2007-CORRESPONDENCE OTHERS 1.4.pdf

1273-KOL-2007-CORRESPONDENCE-1.4.pdf

1273-KOL-2007-CORRESPONDENCE-1.5.pdf

1273-KOL-2007-DESCRIPTION (COMPLETE).pdf

1273-KOL-2007-DRAWINGS.pdf

1273-KOL-2007-EXAMINATION REPORT.pdf

1273-KOL-2007-FORM 1.pdf

1273-KOL-2007-FORM 13.1.pdf

1273-KOL-2007-FORM 13.pdf

1273-KOL-2007-FORM 18.pdf

1273-KOL-2007-FORM 2.pdf

1273-KOL-2007-FORM 26.pdf

1273-KOL-2007-FORM 3.pdf

1273-KOL-2007-FORM 5.pdf

1273-KOL-2007-GRANTED-ABSTRACT.pdf

1273-KOL-2007-GRANTED-CLAIMS.pdf

1273-KOL-2007-GRANTED-DESCRIPTION (COMPLETE).pdf

1273-KOL-2007-GRANTED-DRAWINGS.pdf

1273-KOL-2007-GRANTED-FORM 1.pdf

1273-KOL-2007-GRANTED-FORM 2.pdf

1273-KOL-2007-GRANTED-LETTER PATENT.pdf

1273-KOL-2007-GRANTED-SPECIFICATION.pdf

1273-KOL-2007-OTHERS 1.1.pdf

1273-KOL-2007-OTHERS.pdf

1273-KOL-2007-PA.pdf

1273-KOL-2007-PRIORITY DOCUMENT.pdf

1273-KOL-2007-REPLY TO EXAMINATION REPORT.pdf

1273-KOL-2007-TRANSLATED COPY OF PRIORITY DOCUMENT.pdf

abstract-01273-kol-2007.jpg


Patent Number 253710
Indian Patent Application Number 1273/KOL/2007
PG Journal Number 33/2012
Publication Date 17-Aug-2012
Grant Date 14-Aug-2012
Date of Filing 11-Sep-2007
Name of Patentee GROZ-BECKERT KG
Applicant Address PARKWEG 2 72458 ALBSTADT
Inventors:
# Inventor's Name Inventor's Address
1 ANDREA MAUTE RIEDSTR. 2371, 72458 ALBSTADT
2 BERND HILLENBRAND HEILIG-BRUNNLE-STRASSE 104, 72461 ALBSTADT
3 KLAUS KIRCHMAIR AN DER RAKENHALDE 3, 72362 NUSPLINGEN
4 TIMO KAAS BRUCKRAIN 24 72336 BALINGEN
PCT International Classification Number D05C15/22; D05C15/08; D05C15/24
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 06021002.8 2006-10-06 EUROPEAN UNION