[0001] The present application for a patent of invention relates, as stated in its title,
to an "IMPROVED WATERJET CUTTING DEVICE" which novel manufacturing, conformation and
design features fulfil the purpose to which it has been specifically conceived, with
a maximum safety and effectiveness.
[0002] In high pressure waterjet cutting workstocks are cut or worked by projecting a high
speed water jet coming out of a nozzle. Typical materials in waterjet cutting include
paper, corrugated paperboard, plastics, foam materials, sealing materials, etc.
[0003] Waterjet cutting provides many advantages: health damaging dust is not produced during
cutting, there are no thermal effects on the cutting surface, the existing return
forces are low, mechanical load on the materials is very reduced, there are no deformations
on the material surface, cutting can be performed on any part of the material and
it produces a clear cut with a burr-free finishing removing subsequent mechanizing
operations on the pieces, materials are no heated up, waterjet cutting allows to cut
workstocks having a thickness greater than those cut by laser with a similar finishing
and it allows to cut materials that it would not be possible by using other cutting
systems, as for example aluminium or glass.
[0004] In the waterjet cutting field there exist units to carry out such technique as the
one disclosed in the patent of invention P9901507 which applicant is the same as the
present invention. Said cutting unit comprises, among other parts, a propelling and
intensifying unit provided with a pressure pump acting as a water pressure multiplying
device by means of a motor controlled by integrated circuit systems adjusting all
the system functions. Water is pressurized and forced to pass through a reduced diameter
hole to increase output speed twice and up to three times the speed of sound that,
in terms of kinetic energy, it is enough to cut a wide range of materials of a natural
or synthetic origin as previously disclosed.
[0005] The unit also includes a frame inside of which there is arranged a first working
or cutting table on which a projecting nozzle is acting supplying the water jet, and
a second working table or processing workstock table. Provision of the two tables
allow that, whilst one is working on a workstock, it is possible to process a new
workstock on the other table therefore reducing down times in the cutting operation.
[0006] One of the main concerns raising in the cutting processes using this type of waterjet
cutting units is the one referred to fixing and centring of the workstock on the working
table. Although said operation was conventionally a manual operation, said patent
provided using of a mechanical system including four conical centring members that
were slightly lifted up as the working table had reached the cutting area. In that
moment, the mould containing the workstock was positioned on said conical centring
members and the workstock was three-dimensionally centred.
[0007] The main object of the present invention is to provide an improved waterjet cutting
unit including improved drawing means to draw the cut material that, in turn, cooperate
in retaining the workstock being cut on the cutting table of the unit in position.
[0008] The improved waterjet cutting unit of the present invention basically comprises two
working tables: a cutting table provided inside a cab and onto which a nozzle projects
high speed water on the workstock that is arranged on said table; and a processing
table disposed outside of the cab and that is suitably adapted to put thereon the
piece that is to be subsequently cut. The two working tables of the unit of the present
invention are allowed to rotate relative to the cab to change the positions that they
are taking up, i.e. when cutting operation has finished, both tables are swapping
their positions in such a way that the cutting table is away from the cab and the
processing table is now inside the cab (this being now a cutting table) to start cutting
a new piece.
[0009] The main feature of the unit of the present invention is that both the cutting table
and the processing table are provided, at the lower part thereof, with a drawing conduit
connected to a water and scale material collector conduit arranged at the lower part
of the unit, that is to say, under the conduits of both tables. An air drawing main
conduit, provided at an end thereof with an extractor fan, is disposed, like the water
and scale material collector conduit, at the lower part of the unit in order to obtain
a high drawing performance and preventing scale material from being clogged.
[0010] On the other hand, the ends of the conduit of both working tables are connected to
said water and scale material collector conduit by a rotary collector.
[0011] Arrangement of the above mentioned drawing conduits, i.e. the conduit of each table
and the collector conduit, at a lower position in the cutting unit cab involves a
great technical advantage regarding an effective collection of cutting water and scale
material produced when cutting the pieces. Said arrangement prevents cut material
that usually forms a paste when mixing with cutting water (mostly soft materials o
materials containing glues) from clogging the conduits, since there are no air advancement
vertical sections which could complicate dragging of the scale materials.
[0012] The conduit of each table is provided with a door preferably actuated by a cylinder.
Said door of each conduit has the purpose of enabling or disabling air passing so
as to retain the workstock in position on the table surface or release it therefrom
and, in turn, to void the pieces already cut.
[0013] According to a further aspect of the present invention, the working tables are provided
with respective actuators acting on the corresponding doors of the air conduits in
the tables. There is also provided a sensor outputting a signal according to the position
where said doors are in order to block rotation of both tables if the doors are not
opened.
[0014] The above mentioned rotary collector connects the conduits of each table channelling
the air passage to the collector conduit. Said rotary collector essentially comprises
two cylindrical bodies: an upper cylindrical body and a lower cylindrical body. The
upper cylindrical body is allowed to rotate relative to the lower cylindrical body
and it is provided with a first opening for the air passage from the cutting table
to the collector lower body and a second opening for the air passage from the processing
table to said collector lower body. The lower body is provided with an opening allowing
air passage to the collector conduit.
[0015] Alternatively, the rotary collector is provided with cleaning scoops radially arranged
therein and serving the purpose of preventing solid material from being stuck to the
walls as it is drawn into the collector conduit.
[0016] Preferably, at the end of the collector conduit there is provided a basin intended
to collect the scale material and there is also provided a drawing pump to draw the
cutting water.
[0017] The present invention further provides access trapdoors in the collector conduit
in order to facilitate cleaning and maintenance operations.
[0018] The cutting table and the processing table of the cutting unit of the present invention
are provided with respective sloped trays at the lower part thereof. Said trays allows
to properly collect the water and the scale material produced during the cutting of
the piece and they convey them to the respective air drawing conduit.
[0019] Further details and features of the improved waterjet cutting unit of the present
invention will be apparent from the following description, which refers to the accompanying
drawings that schematically represent the preferred details. These details are given
by way of example, which refer to a possible case of practical embodiment, but it
is not limited to the disclosed details; therefore this description must be considered
from an illustrating point of view and without any type of limitations.
[0020] Fig. 1 is an elevational view that diagrammatically shows the two tables and the
air drawing system;
[0021] Fig. 2 is an elevational view of an embodiment of a unit according to the present
invention;
[0022] Fig. 3 is a plant view of the unit of the above figures.
[0023] A detailed list of the various parts cited in the present patent application is given
below: (1) water injection nozzle, (2) robot, (3) cutting table, (4) cab, (5) centring
members, (6) piece to be cut, (7) processing table, (8) piece to be processed, (9)
pivot axis of the tables relative to the cab, (10) air drawing conduit of the cutting
table, (11) air drawing conduit of the processing table, (12) collector conduit, (13)
air drawing main conduit, (14) fan, (15) rotary collector, (16) upper cylindrical
body, (17) lower cylindrical body, (18) opening for the air passage from the cutting
table conduit to the upper cylindrical body of the rotary collector, (19) opening
for the air passage from the processing table conduit to the upper cylindrical body
of the rotary collector, (20) opening for the air passage from the lower cylindrical
body to the collector conduit, (21) door of the cutting table conduit, (22) door of
the processing table conduit, (21a) actuating cylinder for the door of the cutting
table conduit, (22a) actuating cylinder for the door of the processing table conduit,
(23) washout reservoir, (24, 25) trays to collect the scale material and water from
the working tables, (26) collector conduit access openings, (27) collector conduit
section, (28) fan access opening, (29) fan body, (30) fan grid, (31) fan output conduit,
and (32) extractor fan.
[0024] The waterjet cutting unit shown by way of a no limitative example in figs. 1, 2 and
3 is based upon high speed water jet projection through a water injection nozzle (1)
fitted on a robot (2) for cutting pieces made, for example, of paperboard, plastics,
foam, aluminium, etc.
[0025] The robot (2) acts on a cutting table (3) provided inside a cab (4) shown in fig.
2 of the drawings enclosed in the present specification. The cutting table (3) is
arranged on centring members (5) which are fitted in such a way that they can move
upwards in the frame of the unit and the piece to be cut (6) is disposed thereon.
[0026] The cutting table (3) is attached to a processing table (7) located outside the cab
(4) on which the piece (8) which is to be subsequently cut by the water jet projected
by the robot (2) is disposed. The cutting table (3) and the processing table (7) are
rotary fitted in the frame of the cab (4) and they are allowed to rotate relative
to the axis (9) shown in fig. 1. Rotation of the tables (3, 7) allows to eliminate
down times in the cutting process since when cutting of the piece (6) has been finished,
the other piece (8) that is being processed for the cutting thereof on the table (7),
enters the cab (4), whilst the table (3) is away from the cab (4) ready to receive
a new piece (8) to be processed to cut.
[0027] According to the embodiment of figures, the cutting table (3) and the processing
table (7) are provided, at the lower part thereof, with respective air drawing conduits
(10, 11) leading to a water and scale material collector conduit (12). Drawing of
such materials is carried out by means of an air drawing main conduit (13) having,
at an end thereof, an extractor fan (14). Said air drawing main conduit (13) is disposed,
like the collector conduit (12), at the lower part of the unit in order to obtain
a high drawing performance avoiding clogging of the scale material which usually forms
a paste on mixing with cutting water. This is made possible by virtue of, as it can
be seen from figures, there are no air advancement vertical sections which could complicate
dragging of material. Furthermore, the fact should be stressed that the drawing sections
are very short, i.e. the path the air follows from, for example, the cutting table
(3) to the collector conduit (12), is very short, therefore reducing the possibility
that the air flow becomes hindered by scale materials and flow thereof becomes hampered
by them through the several conduits of the unit.
[0028] Referring to fig. 1, the ends of each conduit (10, 11) of both working tables (3,
9) are connected to the collector conduit (12) by means of a rotary collector (15)
comprising an upper cylindrical body (16) and a lower cylindrical body (17). The upper
cylindrical body (16) is allowed to rotate relative to the lower cylindrical body
(17) and it is provided with a first opening (18) for the air passage from the cutting
table (3) to the lower body (17) of the collector (15), and with a second opening
(19) for the air passage from the processing table (7) to the lower body (17) of the
collector (15). The lower cylindrical body (17) is provided, in turn, with an opening
(20) through which air passes to the collector conduit (12).
[0029] The conduits (10, 11) of each table (3, 7) are provided with doors (21, 22) actuated
by cylinders (21a, 22a). The doors adjust the air passage through the conduits (10,
11). If for example the door (21) of the conduit (10) of the cutting table (3) is
in the open position, air is then enabled to flow from the table (3) to the conduit
(12) collecting the pieces or remnants and the water produced during cutting and,
at the same time, it causes a negative pressure capable to retain the piece (6) in
position preventing it from being moved during the cutting operation. Closing of the
door (21) allows said piece (6) to be released from the cutting table (3). On the
other hand, air flow through the conduit (11) of the processing table (7) as the door
(22) is in the open position allows to hold the piece (8) that is being processed
to be subsequently cut.
[0030] Coordination between the cutting operation carried out by the robot (2) and rotation
of the tables (3, 7) around the axis (9) is performed by providing a sensor outputting
a signal according to the position where said doors (21, 22) of the conduits (10,
11) are in such a way that rotation of both tables (3, 7) is not possible until said
doors (21, 22) are opened.
[0031] Referring now to fig.3 of the drawings, the collector conduit (12) comprises, at
the end thereof, a washout comprising a reservoir (23) where scale material is collected,
and there is also provided a cutting water drawing pump.
[0032] Referring again to fig. 1, the cutting table (3) and the processing table (7) are
provided with respective sloped trays (24, 25) at the lower part thereof intended
to collect the water and the scale material produced during the cutting of the piece
(6) and to convey them into the collector conduit (12).
[0033] Fig. 3 shows how the upper part of said collector conduit (12) is provided with a
number of openings (26) intended to gain access therein to facilitate cleaning and
maintenance operations of the unit.
[0034] The drawing air flow needed for retaining the pieces to be cut (6, 8) in position
and for voiding the bits of cut material is obtained from the fan (14) causing a drawing
flow through section (27) of the collector conduit. A depression is produced in the
access opening (28) of the fan (14) due to the air flow in the direction shown by
arrows in fig. 2 due to the conical configuration of the body (29) of the fan (14),
in such a way that the air inside the body (29) of the fan (14) follows a rising swirl
path passing through a grid (30) to the output conduit (31) connected to the extractor
fan (32).
[0035] Once having been sufficiently described what the present patent application consists
in accordance to the enclosed drawings, it is understood that any detail modification
can be introduced as appropriate, provided that variations may alter the essence of
the invention as summarised in the appended claims.
1. "IMPROVED WATERJET CUTTING DEVICE" comprising a cutting table (3) provided inside
a cab (4) onto which a nozzle (1) projects high pressure water on a piece to be cut
(6) disposed on said table (3); and a processing table (7) provided outside said cab
(4) adapted to receive thereon the piece (8) that it is to be subsequently cut, said
tables (3, 7) being allowed to rotate relative to said cab (4) to change the positions
they are taking up, characterized in that each table (3, 7) is provided, at the lower part thereof, with an air drawing conduit
(10, 11) connected to a water and scale material collector conduit (12) fitted under
said conduits (11, 12), said conduits (11, 12) of the respective tables (3, 7) being
connected to said collector conduit (12) by a rotary collector (15) connecting the
output thereof.
2. "IMPROVED WATERJET CUTTING DEVICE" according to claim 1, characterized in that said rotary collector (15) comprises an upper cylindrical body (16) and a lower cylindrical
body (17), said upper cylindrical body (16) being provided with a first opening (18)
for the air passage from the cutting table (3) to the lower body (17) of the collector
(15) and a second opening (19) for the air passage from the processing table (7) to
said lower body (17) of the collector (15); and said lower body (17) being provided
with an opening (20) allowing air passage to the collector conduit (12).
3. "IMPROVED WATERJET CUTTING DEVICE" according to claim 2, characterized in that the rotary collector (15) is provided with cleaning scoops serving the purpose of
preventing solid material from being stuck to the inner walls thereof.
4. "IMPROVED WATERJET CUTTING DEVICE" according to claim 1, characterized in that the conduit (10, 11) of each table (3, 7) is provided with respective doors (21,
22) actuated by cylinders (21a, 22a) having the purpose of enabling or disabling air
passing so as to retain the piece (6, 8) in position on the surface of the table (3,
7) or release it therefrom.
5. "IMPROVED WATERJET CUTTING DEVICE" according to claim 4, characterized in that there is provided a sensor outputting a signal according to the position where said
doors (21, 22) are in order to block rotation of both tables (3, 7) if the doors (21,
22) are not opened.
6. "IMPROVED WATERJET CUTTING DEVICE" according to claim 1, characterized in that the end of the collector conduit (12) is provided with a washout comprising a reservoir
(23) where scale material is collected, and a cutting water drawing pump.
7. "IMPROVED WATERJET CUTTING DEVICE" according to claim 1, characterized in that the collector conduit (12) is provided with access openings (26) for cleaning and
maintenance operations.
8. "IMPROVED WATERJET CUTTING DEVICE" according to claim 1, characterized in that the cutting table (3) and the processing table (7) are provided with respective sloped
trays (24, 25) at the lower part thereof to collect the water and the scale material
produced during the cutting of the piece (6) conveying them to the collector conduit
(12).