[0001] The present invention concerns a means for transferring information from a pick-up,
said means comprising an electrical measuring pick-up, such as a strain gauge assembly,
a capacitor or equivalent, and electric power means by which power is supplied to
the measuring circuit.
[0002] It is known in prior art to transmit pick-up information in wireless fashion. One
example of a means known in the art is a means for measuring the torsion or the torque
of a shaft, where a large collar is placed around the shaft. Within this collar is
provided a source of d.c. electricity and a bridge circuit in which strain gauges
measuring torsion or torque are incorporated as components. The equilibrium voltage
of said bridge circuit is carried to a modulator which controls a 10.7 MHz transmitting
device. The system furthermore comprises a fixed means external to the shaft under
measurement and comprising a coil antenna, receiver/demodulator means and means for
displaying or recording the measured data. The means of prior art, such as that just
described, are complex in construction and therefore they cannot be used in every
desired application.
[0003] One of the applications of the present invention is a wireless pick-up data transferring
means, i.e., a telemetric means, by which it is possible to measure the temperatures,
moments, pressures, stresses etc. present at various points for instance in a machine,
such as a tractor.
[0004] The object of the present invention is to provide, for the applications discussed,
a new means usable in pick-up data transfer. A particular object of the invention
is to provide a means of which the space requirements are small, so that the means
is also usable in those applications where the use of means of prior art has been
inconvenient or outright impossible owing to their size. It is a particular object
of the invention to provide a means in which the signal/noise ratio can be made sufficiently
high; where the number of components, as well as the power requirement, is small;
and which has minimal temperature dependence.
[0005] In order to attain the aim presented above, and other aims which will become apparent
later on, the invention is mainly characterized in
that the signal obtained from the measuring circuit is supplied to a voltage/frequency
converter to be its input signal;
that the output signal of said converter, its frequency dependent on the state of
the pick-up, is carried to antenna means; and
that said varying frequency is by wireless technique received with an antenna and
with receiving, demodulating and detecting means.
[0006] According to the invention is obtained a simple device which tolerates stress well
and requires minimal space. For central component in the pick-up data transfer means
has been used a voltage/frequency converter, e.g. one of type AD 537. Around this
central component have been disposed the other requisite blocks, which in actual fact
only comprise the bridge circuit with its voltage supply and the antenna coil with
matching transistors.
[0007] In the following, the invention is described in detail with reference to an embodiment
example of the invention, presented in the figures of the attached drawing, but to
the details of which the invention is not narrowly confined.
Fig. 1 presents, in the form of a block diagram, the pick-up transmitter means of
the invention.
Fig. 2 presents more closely the voltage/frequency converter unit applied in the invention.
Fig. 3 presents a mechanical application example of the means of the invention and
its use in connection with a shaft constituting the object of measurement.
[0008] The pick-up/transmitter means depicited in Fig. 1 comprises a voltage/frequency converter
10 (V/f), to the input terminal 2 of which has been connected the bridge circuit 11
containing the pick-up arrangement. The stabilized voltage supply of the bridge circuit
11 is provided through an operation amplifier 12, which buffers the existing reference
voltage U
R derivable from the terminal 4 of the means 10. The branch Rb,Rv of the bridge 11
contains the pick-up resistance Rv (18) or a pair of resistances, e.g. a strain gauge,
a temperature-dependent resistor, or equivalent. The error voltage U
o reflecting the deviation of the bridge is amplified with a differential amplifier
13. The amplifier 13 may also be omitted if the unbalancing of the bridge 11 is powerful,
and in that case it becones possible to control the current take-up of the converter
10 directly. The amplifiers 12,13 are for instance of type LM 258.
[0009] The power source, e.g. a miniature storage battery 20 (9 volts) is connected over
the switch K and the voltage regulator 12 to the terminal 8 of the converter 10. The
frequency output (8)-(9) (f
out) of the converter 10 has been connected over a matching transistor (e.g. 2 N 3704)
to the coil 15 serving as transmitter antenna. The transistor 14 has been connected
to operate as an emitter follower. The band of long-wave transmitting frequency f
out of the circuit of Fig. 1 is for instance between 50 and 150 kHz. The central frequency
f
o of the converter 10 is selected with the aid of a capacitor C connected across its
terminals (6)-(7), and this capacitor must be of high enough quality.
[0010] As shown in Fig. 3, the measuring system includes, in addition to the pick-up/transmitter
means, a receiving antenna 22, a receiver- /modulator combination 23 and an indicator,
printer or other recording means, such as a tape recorder.
[0011] The operation of the means described is as follows. With the bridge circuit 11, the
pick-up datum Rv is converted into a voltage signal, which is amplified and conducted
to the voltage/frequency converter 10, which converts the voltage signal into a radio
frequency signal. It is thus understood that frequency modulation is applied. If for
instance the commercially available micro-circuit AD 537 is used for converter 10,
the central frequency f
o may be calculated as follows, with the notations of Fig. 2:

[0012] The transistor 14 matches the frequency to be appropriate for the antenna 15. The
antenna 15 is, as a rule, a small coil.
[0013] In Fig. 3 has been shown a mechanical embodiment example of the pick-up means of
the invention. The pick-up means has been disposed, for instance, around the power
transmission shaft 25 of a tractor. In this application, too, the pick-up means is
required to consume little space, to draw little power and to present a good signal/noise
ratio. By means of the strain gauge 18, mounted in connection of the shaft 25 in a
manner known in the art, is measured for instance the torque transferred by the shaft
25, on the basis of the torsion of this shaft 25.
[0014] The pick-up/transmitter means 10-14 of the invention has been mounted on an electronic
circuit board 16, and its components have been embedded in an insulating compound
17, e.g. in epoxy resin. To the circuit board 16 is carried the lead from the pick-up
18 and the lead from the miniature storage battery 20. The miniature storage battery
20 is placed, with reference to the electronic circuit board 16, on the opposite side
of the shaft 25 in a holder 19, in conjunction with the latter being further provided
a voltage regulator 12, from which a lead 21 departs to the circuit board 16. With
a placement of components as in Fig. 3, the measuring means does not cause any harmful
mechanical unbalancing of the shaft 25. The simplest way to mount the parts 17, 19
and 20 shown in Fig. 3 in conjunction with the shaft 25 is to wind these parts with
tape. If the means is meant to be a permanent pick-up/transmitter means in conjunction
with the shaft 25, it is possible to dispose the means in a special housing, the parts
of this housing being fixed e.g. by their marginal flanges to each other and around
the shaft 25. The switch K may be arranged to be remote-controlled or to operate e.g.
by centrifugal force so that it will only be closed when the shaft is rotating, or
when otherwise needed.
[0015] The antenna coil 15 is fixed in conjunction with the shaft 25 that is being studied.
The antenna coil 15 emits into its surroundings a long-wave electromagnetic radiation,
the frequency f
out of which is in the range from 50 to 150 kHz mentioned above. The radiation is received
with the antenna 22 and with receiver/demodulator means 23 placed in the vicinity,
and it is detected and if required recorded with means 24, in which the acting signal
is dependent in a known manner on the resistance of the pick-up resistor R
v.
[0016] It is possible to connect a known resistance across and/or in series with the pick-up
resistance R
vs and in its conjunction a switch, whereby a given artificial deviation from equilibrium
of the bridge 11 is effected. This deviation is used to calibrate the system and to
check that the measuring system operates properly. This calibration resistance has
not been depicted in Fig. 1.
[0017] The means just described may be used e.g. for measuring the torque transmitted by
the loaded shaft 25 of a tractor e.g. between the gearbox and the clutch, or its vibrations,
either in product development work or as a pick-up means incorporated in the tractor
and joined to the tractor's electronic control system, or to a load-indicating means
in the tractor cab, for instance an indicating instrument or a lamp array.
[0018] In the following are stated the claims, various details of the invention being allowed
to vary within the scope of the inventive idea thereby defined.
1. A means for transferring pick-up data, said means comprising an electrical measuring
pick-up (18), such as a strain gauge assembly, a capacitor or equivalent, and electric
power supply means (12,20,21) by which power is supplied to the measuring circuit,
characterized in
that the signal obtained from the measuring circuit is supplied to a voltage/frequency
converter (10) to be its input signal (Uin);
that the output signal of said converter (10), the frequency (fout) of which is dependent on the state of the pick-up (18), is supplied to antenna means
(15); and
that said varying frequency (fout) is wirelessly received with an antenna (22) and with receiving, demodulating and
detecting means (23,24).
2. Means according to claim 1, characterized in that the pick-up is a strain gauge
or a pair of strain gauges (Rv) which is a part of a bridge circuit (11), the equilibrium
voltage (Uo) of said bridge circuit (11) being supplied over an amplifier (13) to become the
input signal (U;n) of the voltage/frequency converter (10)
3. Means according to claim 1 or 2, characterized in that said voltageffrequency converter
(10) is a micro-circuit, a capacitor (C) connectable across certain terminals ((6)-(7))
of same being used to set the central frequency (f0) of the converter (10).
4. Means according to any one of claims 1-3, characterized in that the frequency band
of the frequency-modulated measuring signal (fout) to be transmitted by wireless technique is in the range about 50 to 150 kHz.
5. Pick-up means according to any one of claims 1-4, intended for indication and/or
measurement of the load and/or the vibrations of a power transmission shaft (25),
such as a tractor shaft, e.g. to purposes of control, characterized in that the means
comprises an electronic circuit board (16) and a miniature storage battery (20), these
parts being together with a pick-up (18), such as a strain gauge pair, connected in
conjunction with the shaft under measurement.
6. Means according to claim 5, characterized in that the components (10,11,12,13,14)
on said electronic board (16) have been embedded in a protective compound (17) and
that said electronic board unit (16,17) and the miniature storage battery (20) with
bracket (19), if any, have been fixed around the shaft (25) under measurement with
tape and/or with a particular protective housing.
7. Means according to any one of claims 1-6, characterized in that the antenna of
the pick-up/transmitter means is a coil (15) with small dimensions.
8. Means according to any one of claims 1-7, characterized in that across and/or in
series with the pick-up resistance (Rv) incorporated in the bridge circuit has been
connected a known resistance and in its conjunction a switch by which it is possible
to cause a given artificial deviation in the equilibrium of the bridge (11), and that
said deviation has been applied towards calibration of the measuring system and checking
of its operability.