This invention is related to foam cutting machines using heated wire and auto String pitch adjustment for multi wire cutting machine.
In hotwire machine, the cutting wire often breaks during power/heat on, as it rubs on a static grooved rod. Also tension in the wire drops due to thermal expansion, which is not sufficiently adjusted by the springs, because of high friction force between the rod and the wire.
Hence there is a need to develop a more efficient design which minimizes rubbing and wire breakage and also maintains sufficient tension ALL the time. Often it required to adjust string pitch in multiple string hot wire machine. It is also necessary to oscillate/move the wire to and fro in a ‘sawing’ action (along its length) to increase the cutting speed.
The principal objective of this invention is to develop a mechanism which will avoid rubbing of wires on the grooved rod, thus increasing wire life and string adjustment for multi wire machine.
Another objective is to maintain sufficient tension in the cutting wire ALL the time, even when the wire is heated.
Another objective of the invention is to develop an efficient method of oscillating the multiple cutting wires along its length, the same design should also allow easy automatic string pitch adjustment.
These and other objects of the embodiments herein will be better appreciated and understood when considered in conjunction with the following description and the accompanying drawings. It should be understood, however, that the following descriptions, while indicating preferred embodiments and numerous specific details thereof, are given by way of illustration and not of limitation. Many changes and modifications may be made within the scope of the embodiments herein without departing from the spirit thereof, and the embodiments herein include all such modifications.
This invention is illustrated in the accompanying drawings, throughout which like reference letters indicate corresponding parts in the various figures. The embodiments herein will be better understood from the following description with reference to the drawings, in which:
The embodiments herein and the various features and advantageous details thereof are explained more fully with reference to the non-limiting embodiments that are illustrated in the accompanying drawings and detailed in the following description. Descriptions of well-known components and processing techniques are omitted so as to not unnecessarily obscure the embodiments herein. The examples used herein are intended merely to facilitate an understanding of ways in which the embodiments herein may be practiced and to further enable those of skill in the art to practice the embodiments herein. For example, it should be noted that while some embodiments are explained with respect to cutting of foam with heated wire, any other application like material, tool, may also incorporate the subject matter of the invention with little or no modifications. Accordingly, the examples should not be construed as limiting the scope of the embodiments herein.
The embodiments herein describe an improved hot wire cutting machine for foam cutting applications. Referring now to the drawings, and more particularly to
103, 104 are typically support rods with groove or teeth, in which the wire 101 sits stably.
Power supply is connected between 103 & 104 rods.
When current flows through the wire 101, it expands because of thermal expansion.
T1 is the tension in the wire between the spring 102 & rod 103.
T2 is the tension in the wire between the rods 103 & 104. T2 is typically 3-5 Kg force.
F is the contact force between the wire 101 and rod 103.
It is desirable to have a high contact force F between the string and rod, to ensure good electrical conductivity to ensure smooth flow of current. But high contact force F increases the friction force Ff between the wire and the rod.
When current flows through wire 101, it expands due to thermal expansion.
The spring is supposed to un-stretch and pulls the wire back, so that sufficient tension is maintained in the wire.
Thus, there is sliding contact between the wire and the rod, which can eventually cause the wire to break. Also, T2=T1−Ff. Hence effective tension in the cutting wire T2 is less.
This also means, we need to maintain a high value of T1, in order to achieve a high T2. But due to the nature of NiCr wire used, it has a low yield point and hence, maintaining high tension is not always feasible. In existing machines, a fixed rack plate with teeth is typically used as shown in
In some other existing machines, a circular threaded rod 301, fixed at ends 302 & 303 is typically used.
In both above methods, there is sliding contact between wire and rod, which affects wire life and effective tension in the heated cutting wire.
A novel method of supporting the teethed/grooved rod 401 on bearings 402 & 403, is proposed in this invention as shown in
The rod is also supported along its length by one or more bearings 404, 405 etc. as shown in
Such an arrangement improves wire life by avoiding rubbing of wire on the rod support. It also enables to maintain higher wire tension T2, because now we have rolling friction, so Ff is almost zero.
This also allows us to maintain a higher contact force F, between wire and the rod, thus ensuring good electrical conductivity.
In one embodiment, it is proposed to have periodic grooves on the rod, instead of a helical thread. This prevents small up/down movement of the wire, (sitting on the helical thread), because of rod rotation. (Helix angle zero).
There is a possibility of impurities settling in the grooves of the rod 401. These impurities may come between the cutting wire and the rod, affecting electrical conductivity.
It is proposed to give an option to pass current through the spring and then to the string initially. Once the wire is hot, it will melt any solidified plastics in the groove and make contact with rod 103.
In another embodiment it is proposed to optionally have a scrubber device, to remove impurities from the grooves of the rod.
The scrubbing mechanism can be a simple hollow shaft motor, with matching thread on the ID of the motor shaft, and scrubbing metallic brushes.
But since pitch of the thread is very fine, this can be a slow process.
In another embodiment, a linear axis parallel to the rod, carries a scrubbing brush and scrubs the grooves, to eliminate impurities.
An optional IR camera can check if all the wires are heating up and warn the operator, if any of the wire is not heating or cut.
Above invention is also applicable for single wire cutting machine, with a shorter rod and bearing on only one side.
Above invention also applicable for manual or semi-automatic foam cutting machine by heated wire.
It is also proposed to use a grooved rod of sufficiently large diameter, such that even small force imbalance will cause the rod to rotate, overcoming static friction in the bearings and because of the power cable connected to the grooved rod, which may provide some hindrance to free rotation.
In one embodiment of the invention: the grooved rod 500 is grooved only on one face 501 of the rod (˜90-180 deg is grooved). The other part/face 502 (remaining ˜180-270 deg) is plain without grooves, as shown in
Alternately a sheet of brass 601 or any other good conducting material can be wrapped/clad on to one face of the grooved rod which we intend to be plain. The clad sheet 601 can be bolted or brazed/welded to the grooved rod after wrapping to achieve a plain face.
To achieve rotation of the rod, it is coupled to a motor with minimal detent torque. After the string adjustment, the motor is disabled, thus allowing the grooved rod 500 on bearings to self-adjust freely based on wire tension variations because of thermal expansion as explained before.
In another embodiment, the motor 504 can optionally help the 401 to rotate, exactly when heat is turned On to the wire, too overcome static friction on the bearings.
In one embodiment, the rod position is maintained such that the plain face of the rod is engaged with the wires when heat is being turned on. After hear is turned on, the rod is rotated by 180 deg to engage the strings to the groove.
As mentioned earlier, often it required to adjust string pitch in multiple string hot wire machine. It is also necessary to oscillate/move the wire to and fro in a ‘sawing’ action (along its length) to increase the cutting speed.
701 is the heating element (NiCr wire typical).
702 is the spring providing tension, 703 is the threaded/grooved rod.
704 is a rigid rod, with one or more keyway 709.
705 is a circular disc, with matching keyway slot to lock to key 709, but free to slide along length of the rod 704.
The disc 705 has a circumferential groove 706, A wire 708 is attached to the disc 705 at point 709 and wound one or more times around the disc 705, along the groove 706. Wire 708 exits the disc 705 at point 710 as shown in
Motor 711 attached to the rod 704, can rotate the rod 704 is a to-fro motion.
There is similar set of objects: 702a, 703a, 704a, 705a etc. on the right side of the machine.
Motors 711 and 711a rotates the rod 704 and 704a to-and-fro resulting in an oscillating “sawing” action motion in the cutting wire along its length.
There can be multiple disc-wire sets on the rod 704, resulting in a multi-string cutting system.
A dedicated computer-controlled motion system can grab the discs 705 and slide them along the rod 704, in a programmed sequence, to achieve the required string pitch.
The rod 703 is free to rotate by the end support bearing, thus it can freely rotate, thus avoiding rubbing between wire 701 and rod 703.
In another embodiment, the rod 703 is controlled by a motor 504. Motors 711 & 504 works in a synchronized way (electronically or mechanically coupled), avoiding rubbing of the wire 701 in the rod 703.
There can be an optional insulating plate between spring 702 and wire 701.
Existing systems in prior art vibrate the entire frame consisting of 703, 703A, 704, 704A etc. resulting in lot of vibrations and need of a very heavy-duty actuator. All that is avoided in this new design.
Carbon brush, slip rings can be used to power the rod 703, allowing it to rotate higher angles.
Disc 705 and rod 703 can be same diameter or different diameter.
The rods 704,704a can be optionally rotated by single motor, so there is perfect synchronization.
Referring to
At pointB (1208), the ends of the wire 1209 and 1201 are looped and joined, as shown in
Optionally wire 1209 and 1201 can be TIG/LASER welded.
Also, material of wire 1209 is chosen to have low electrical resistance and good conductivity, such that it will not heat up, thus maintaining high mechanical strength at all times.
Grooved rod 1203 can optionally be clad with a higher pitch grooved/threaded rod, so that a thicker wire 1209 can be used.
This invention is also applicable to cutting of any other material using one or more wires with oscillation, with auto-string pitch adjustment mechanism.
Specifically This invention is also applicable to cutting of any metal using one or more wires with oscillation, with auto-string pitch adjustment mechanism, using EDM method of material removal.
The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify and/or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the spirit and scope of the embodiments as described herein.
Number | Date | Country | Kind |
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2019 41016991 | Apr 2019 | IN | national |
2019 41023008 | Jun 2019 | IN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IN2020/050387 | 4/28/2020 | WO | 00 |