[0001] The present invention relates to control apparatus of speed, position and specific
functions for industrial sewing machines.
[0002] To be more precise, the present invention refers to control apparatus of speed, position
and special functions for industrial sewing machines, realized with a digital technique
having an input with variable inductance.
[0003] Functions control apparatus for industrial sewing machines are already known ; however,
in the former, the input (i.e. the transduction of the controlled pressure exerted
by the operator on the machine treadle) is determined by means of disks or rotating
photographic cams.
[0004] The various tracks incised on the photographic cams, acting as so many optic switches,
transmit the various signals to the machine for the speed, position of the needle,
pressure foot, threadcutter, etc.
[0005] Other apparatus achieves the same effect not through an optical effect, but by means
of simple contacts, others adopt potentiometers. In all these cases working set- backs
occur quite frequently, caused by wear of the contacts, exposure to dust, as well
as a limited mechanical endurance of the parts.
[0006] Moreover, in these instruments the brake-clutch unit, which is the principal organ,
is controlled with the same technique according to the characteristics of each embodiment,
for which a tiresome adjustment and line-up of several parts is required.
[0007] Another drawback found in the known apparatus is that the type of synchronizers found
in them, comprising disks or optic switches, or other contact systems, cannot be interchanged,
that is to say, they may not be adopted indiscriminately for sewing machines, the
characteristics of which differ from one to the other : consequently, it is necessary
that each type and/or make of machine be matched with specific cams or contact systems.
Finally, the initial line-up in the known instruments involves a a great deal of time
and does not reach the necessary, lasting precision and the control of maximum speed.
[0008] The present invention solves the above-mentioned problems and drawbacks by conducting
a control on speed, position and specific functions in industrial sewing machines,
through a digital technique with an input having variable inductance.
[0009] The control apparatus of the present invention mainly consists of a spool intersected
by a shaft, activated by a lever connected to the sewing machine treadle by means
of a system of rods and levers.
[0010] The various positions that the shaft or rod, sliding in the spool and activated by
the lever, moves to, as a result of the controlled pressure exerted by the operator
on the treadle, determine the same number of outputs with differentiated inductance.
Said inductance outputs are transmitted to the electrovalves, dedicated to various
service operations, such as stopping of the machine, activation of a threadcutter
or the pressure treadle, reverse gear or positioning of the needle, etc. through :
an electronic computer with numerical display, for the processing of impulses deriving
from the spool itself;
a technical panel and synchronizer forming an integral part of the main camshaft of
the sewing machine;
and an electrovalve power actuator.
[0011] The power actuator sets into motion the various electrovalves dedicated to the various
working stages.
[0012] The advantages obtained from the present invention consist mainly in the fact that
since the input does not necessitate specific optic or contact switches and employs
only differentiated impulses or signals generated from the linear variation of inductance
of a spool intersected by a rod, it gives a high electrical reliability due to an
almost total absence of mechanical wear.
[0013] Moreover, the synchronizer, being provided with a single standard disk, may be applied
to a great number of sewing machine types or makes, even with construction characteristics
different one from the other and permits, moreover, thanks to the digital technique
adopted herein, extremely accurate and lasting controls and adjustments. The present
invention will be better understood from the following detailed description in which
reference is made to the appended drawings which show a preferred embodiment, illustrative
but not limitative of the control equipment of the present invention, wherein :
figure 1 shows a perspective schematic view of the driving device of the spool shaft;
and
figure 2 shows the connection diagram of the parts comprising the control equipment
of the present invention. With reference to figure 2, the control apparatus of speed,
position and specific functions for sewing machines realized using a digital technique,
with variable induction input comprises an input having variable induction 7, a computer
8 with display 9, a technical panel 10, operator panel 11, an electrovalve power actuator
12, a brake-clutch group regulator 14 placed upstream of the brake-clutch group 13
and the motor 15, and a synchronizer 16.
[0014] As shown in figure 1, and according to the present invention, the input with variable
inductance 7 comprises a spool 1 intersected by a shaft 2; a lever 3, activated by
a machine treadle, and which moves said shaft 2 inside the spool 1; a return spring
4 which keeps the lever 3 in the lower downstroke position and an adjustable screw
5 which sets the stroke of the lever 3.
[0015] The screw 5 is blocked by a lock nut 6. In accordance with the present invention,
the position and speed transducer unit, comprising a spool 1 containing a sliding
rod 2, is housed in a casing made of sheet steel or cast aluminium or other material
suitable for the purpose. The lever 3 is activated by the treadle through a system
of rods not shown in the figure. The varying controlled pressure exerted by the operator
on the treadle, forming part of the unit 7 comprises an angular shifting of the lever
3 which then acts on the shaft 2 sliding in the spool 1, causing variations in continuous
inductance inside the same, corresponding to each position that the shaft 2 moves
into.
[0016] The spool 1, linked to a computer 8, preferably placed near a working table but in
such a manner as not to impede sewing operations, transmits to same the differentiated
impulses, caused by the shaft 2 sliding in the spool 1. Said impulses, transduced
in numeral entities, are assimilated by the computer 8 which, depending on the inputs,
establishes the appropriate signals to be sent to an electrovalve power actuator 12.
Once the latter has received the various signals from the computer 8, it activates
the separate electrovalves which control the various service operations, such as the
treadle lifter, the reverse gear, return of the flywheel and the threadcutter.
[0017] The display 9, placed so as to be under the operator's immediate control, permits
a continuous check, in the form of numbers, on the sewing machine camshaft positions.
[0018] The initial setting of the technical panel 10 is carried out just once at the beginning
and subsequently memorized by the computer. This operation is facilitated by appropriate
symbols or reference points present on the same panel 10. This permits setting of
the starting point for all subsequent adjustments, regardless of the type of machine
being used. Use of the computer and digital technique make it possible to set one
or more positions of the machine camshaft and memorization of same ; moreover, it
is used to drive the brake-postion group by means of a regulator 14 and sets accurately
the maximum machine speed, which consequently cannot be exceeded. During sewing operations,
it may be necessary to stop the needle or the treadle in the high or low position
for both at the same time, or first for one and then the other, together with other
operations such as cutting the thread ; all these operations, previously scheduled
and memorized by the computer 8, may be recalled, whenever necessary, according to
an infinity of combinations, through the operator panel 11, equipped with a keyboard
bearing symbols and connected to the computer 8.
1. Control apparatus of speed, position and special functions for industrial sewing
machines, using a digital technique, characterized by the fact that it employs a variable
inductance input and comprises a spool intersected by a shaft, run by a lever connected
to the machine treadle.
2. Apparatus according to claim 1, characterized by the fact that the inductance,
corresponding to each position of the shaft in the spool, is transmitted to the electrovalves,
dedicated to the various working operations, by means of an electronic computer with
numeric display, a technical panel and a synchronizer, forming an intergral part of
the main camshaft of the sewing machine, and an electrovalve power actuator.
3. Apparatus according to claim 2, characterized by the fact that the computer numeric
setters are able to memorize one or more positions of the machine camshaft.
4. Apparatus according to previous claims 2 or 3, characterized by the fact that the
display permits continuous viewing, in the form of numbers, of the sewing machine
camshaft position.
5. Apparatus according to the previous claims 2 to 4, characterized by the fact that
the running of the brake-clutch unit is actuated by means of a digital technique.
6. Apparatus according to the previous claims 2 to 5, characterized by the fact that
setting of the maximum speed which may be reached by the sewing machine is carried
out electronically.