DE1616015A1 - Method and device for the self-control of monitoring devices based on the Doppler effect - Google Patents

Description

BR. ING. ERNST MAIER l

BATENTAITWAtT ~ ■, ■

8MUiTCHIENSS

. 5 ΤΕΙ, ΕΙΌΙί 22 85 00.SO Ol 03

.A 52667 "'■' '■■." ■■■ February 14, 1968 "

EM / Mü / Bx

ETAT PMNCAIS, represented by the Minlstre -des • Arme'es, Delegation Ministerielle pour Γ ^! Ärmernent, Direction Technique des Armements, Terrestres Atelier de Fabrication de Toulouse, 10 rüe Saint Dominique, Paris / FRANCE

Method and device for self-control of monitoring devices based on the Doppler effect "" ...- ■ ..., \ -:

The invention relates to a method and 'a device for devices having a monitoring: make enclosed rooms on the basis of the finding jeglichei · movement, by the display on the Doppler _effect based change in frequency in a material. (solid, liquid, .. 'gaseous) Change of location in the: to be monitored

BATHROOM

Sparkoiii »Sdirambero:

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marriage space.

Such monitoring devices are used for. Safety compliance used and it is used by.beccnderer Meaning, that their serviceability and thus their Functionality is guaranteed at all times.

To date, however, there is no control device, which ensure sufficient safety, i.e. control devices. ,, which indicate any error immediately, be it one Deviation of the supply sources, the connection or. Circuits for the information, the sending or receiving elements or the acoustic characteristics of the environment.

The object of the invention is therefore a method and a Self-control device for monitoring equipment, which is an effective and permanent self-control of on The monitoring devices based on the Doppler effect enable and thus protect the user of the device from dangers. protect, caused by accidental or deliberate damage. . ; . .

The invention also has a device, self-control to the task, the realization of which is easy. and whose.

10 983 3/0247 bad original

-3 - 1016015

"Use no · detrimental effect on effectiveness the associated basic facility ν

In einsr monitoring device on the basis of the Doppler effect, it is possible - assuming "/ - that the ¹ transmitter and receiver elements operate normally, and the movement of the acoustic waves is disturbed by anything, at the various stages of the primary amplifier chain of the receiving section, a signal see below, the frequency of which is equal to the frequency of the signal emitted by the transmitter and the predetermined amplitude of which is essentially constant. , the method and the device according to the invention are now based on. \ ^;: "^;

The invention consists in a method for self-control of a monitoring control based on the Boppler effect direction in which an acoustic wave of predetermined frequency sent out and at the same time 'a first electrical signal of the same Frequency-generated, the reflected acoustic signal is picked up and converted into a second electrical signal of a frequency implemented equal to the frequency of the reflected acoustic signal tmd finally becomes the second electric. signal after amplification, united with the first electrical signal

will, where if the frequencies of the first and second electrical signal are different, a first alarm signal is emitted, and characterized in that that before combining the two electrical signals from Part of the second signal is branched off, the level of this part of the signal determined and then, if the determined level hchc is below a predetermined level height, a second Alarm signal is generated.

According to a "preferred embodiment of the invention Method or the device according to the invention is the branched signal is amplified, regenerated and filtered according to the requirement and then included in a trip circuit lower triggering threshold introduced whose trigger & signal is given after an adaptation and a suitable coupling to an alarm device, which can but does not have to be the original alarm device of the monitoring device.

The method and device of self-control according to the invention thwart countermeasures which consist of * during a period of non-surveillance all around absorbing the acoustic transmitter or the acoustic receiver R. To arrange screens made of acoustic insulation material. .

■. - 5 10983, W0247 BADORfGINAL

The invention thus provides vo ^ eiihtafterweise to increase the safety of these on (ä6m DQppler-based Effefct ^{ÜberwachungseinrichtungenvUnd;} ermSglicht di§se Fashion monitoring has been considered on such came änzxiwenden> V on which their technological security to be too low, it *. is due to the comparatively simple possibility of unintentionally or intentionally putting the possibility of establishing the device out of operation.

With the invention, a new effect is achieved, which consists in the fact that the previously known monitoring input ·. directions are considerably improved and besides _{: in} addition to avoiding unintentional errors, all efforts are thwarted to eliminate the ability of the basic system to act by countermeasures ^ ■ - _: -

Other features, details, and advantages of the invention result from the description, the drawing and the claims. The drawing shows embodiments of the invention for example shown, namely showing '

1 shows a schematic representation of a first embodiment of the invention, and; _:

2 shows a schematic representation of a second embodiment of the invention. ^r : ': ^ ^:::

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- 6 - ΤΒ16Ό15

In the switching arrangement according to the sketch of Fig. 1, an acoustic transmitter, "which consists of a generator 1 and a transmitter 2 , transmits ultrasonic vibrations from" which, after a reflection, are partially picked up again by a receiver 3. These received signals are then successively amplified by a given number of selective amplifier stages suitable pass band, in the present case by three amplifier stages K ₃ 5 and 6, and then combined in stage 7 with signals that have been picked up via a line 19 directly from the transmitter. Any shift in the space under consideration becomes noticeable due to the Doppler effect in a reflection wave, the frequency of which is F + Δ F (where F is the frequency of the emitted - please -), so that stage 7, which is based on the difference ^ Λ F the frequencies responds, -generated a first alarm signal, which is amplified in stage 8 and triggers the noise devices 15a or 15b or both at the same time ^ ', via a suitable transmission line: "'I8" and a coupling device 13 · '.- · --..-.... , ν. - ■. · - ~.

The device according to the invention for self-control goes from a point "16," the · '' is "" "between the" amplifier- ■ levels 5 and 6 '. Ah this place is a "branch line-:"

BAD ORlGlWAL

10 9 8 ^ 7- ^ 2 4 T-v

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tung and an amplifier 3 forThe the reflective wave corresponding branch signal ^ .rorgesehen. By this · · vs-ohlieSerl to elements for the determination of the level of height of the branched and ■ reinforced biopsies, where this Slemente · judges from Einein and Eq. Filter circuit 10 exist, which emits a series of continuous voltage. The continuous voltage obtained in this way; is given axif elements that are able to generate a second alarm signal, and that consist of a trigger circle with a narrow outer circle (trigger circle) 11, with a structure similar to that of an oGhi ^ itt circle, a circle with unipolar ones Transistors, a bistable circuit, a circuit with a thyristor and / or the like Monitoring device, lceiil · alarm signal is given on a line .1-7, which leads to a coupling element 12 and su Älarmgeräte.-I4.a and 14b. If, on the other hand, the amplitude at point 16 for any reason falls below a level that corresponds to a limit value for which the predetermined operational readiness values are no longer given, SO: the ÄusiÖselcreis 11 changes to a state, with the result that a second alarm signal occurs on the line 17, soft at 12e appears and activates the alarm devices l4a and l4b.

109833/02 ^ 7

Of course, it is not necessary to pick up the signal at point 16 before the last amplifier stage, rather it is also possible to have this signal between stages 4 and 5 or between receiver J and the amplifier 4 branch off. In the meantime, the branch point for the reference signal is mostly used in the processing chain for the information relocated and a larger number of self-controlled stages provided by the specified method. the required reinforcement in level 9 for. Achieving a evaluable signal in stages 10 and 11 will also be of less importance. The selective factors given by the frequency characteristics of the amplifiers will be zero after the receiver J and appear all the more, depending the more one approaches element 7 when passing through the amplifier chain. In any case, it is in the area of self-control the selective characteristics of the amplifiers are by no means indispensable; Characteristics of the recipient are brought out. One will avoid the signal between the amplifier 6 and the mixer 7 decrease because of the functional non-linearity of the the latter is able to change the signal shape, although not But it is also not an insurmountable obstacle.

So that the connection of the circle causing the self-control does not disturb the effectiveness of the entire facility,

- 9 -; BAD .ORIGINAL 1098 ^ - / 0247

- 9-. - ■;.; - 18TBDIS

It is necessary that the impedance characteristics at the input of the amplifier 9 are such that this amplifier is not able to cause any significant charging of the stage preceding it, in the case of FIG a parallel connection is removed, then one will for the: Veiäbarker 9 one. Select input impedance höher.liegt than the Ausgängsimpedanz of the amplifier 5, on the other hand is carried by a branch des'Signals series circuit, the impedance of the amplifier 9 is to lower _to: select seinalsdiejenige of the amplifier ^5:

In the first illustrated in FIG. According to the invention, the connection between the actual device and the alarm devices is made by two signal transmission links IJ and 18, which can be implemented by any technique, such as lines and coded signals, carrier currents, frequency-modulated transmission links and the like there are also two separate signaling devices., 14a, I4b and: 15a * 15b- provided; which same-. zeltig · serve to identify the dangers, namely as a fault in the device or as a danger due to the Doppier effect,; _ '., .. ■ -' ■■, /; '; ■■■ "- ■ /". - ■ .- ^: Λ - ^: > ■ - ■■■ ■ - ■ =.

..-.- For the sake of simplicity, i% 4e'r Bescjhrelbuhg and in ^: - 10 -

109838/0247

the drawing the adaptation clauses of the information in the Transmission paths 17 and 18 not detailed. also because their properties are not the subject of the invention are: .-....-.-_..

In both cases of an alarm due to an operational error or the occurrence of a Doppler effect, the equally important as both cases require immediate human intervention. For this reason it is also rough & - borrowed, .as in Fig. 2 shown, only a single transmission to provide and only a single alarm device, with the alarm generated by device 8 (Doppler effect) or by the Device 11 (self-control) is triggered, is transmitted over the route 20, by means of a logical AND circle ■, which connects the lines 17 and 18 to one another. The route 20 can, as in the previous case, the routes'I7 and 18, may be implemented by any known technique.

After a relocation of the objects to be monitored can be determined by observing the indicator lamp 22, whether it is a signal of one or the other origin. The indicator light 22 is preferably in the transmission path of the signal of the self-control is switched on and lights up when such a signal occurs and remains in an enlightened state until it is

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union intervention is deleted .: - ^':::., - - "■: \

Of course, the invention can be applied in a variety of ways Vary may be changed without departing from the scope of the invention; to : leaving. In particular, the device according to the invention even with such overveiling systems on the basis of the Find Boppler-Effeltbs applications in which the direct inclusion of the reference signal emitted by the transmitter not ^ to elelo tric way via ladder, but directly: "on acoustic Viege; In which his case would then be, in the figure :. 1 and 2 the Connecting line 19 superfluous.

-12 -

Claims (8)

Pat ent ans p rü -c.he. 1. Procedure for self-control on the Doppier effect based monitoring device in which an acoustic wave of a predetermined frequency is emitted and at the same time a first electrical signal of the same frequency is generated, the reflected acoustic signal is captured and converted into a second electrical signal of a frequency equal to the frequency of the reflected acoustic signal and finally the second electrical signal after amplification is combined with the first electrical signal, where then, .if the.frequencies of the first and second electrical signal are different, a first alarm signal is emitted is characterized by the fact that before combining the two electrical signals from the second signal a part branched off, the level of this partial signal determined and then, if the determined level is below a predetermined level, a second alarm signal is produced, . . 2.. Method according to claim 1, characterized in that da3 amplified the branched signal and then amplified this _ 1 "2 _ ORJGiNAL 1098Γ - '02 47 1816015 S ignal is directed in the same way and we can _see that a continuous signal voltage arises / whereupon this continuous signal voltage is used to generate the second alarm signal., if the --.-- level "· the signal voltage is below - a given level» '.-- - ■' ■■ '.'' 3- Provision for self-coping of a monitoring device based on the Doppier effect, "with a transmitter" for outputting a first: electrical; signal of a given frequency, k- ν trinche-n 3 signals. into an acoustic wave- the same .. frequency, a second- converter sum- reception of a reflected wave and zu'fli ^: converting the reflected many into one, -second "- electric Gigriiil of a -frequency- equal to that of the -reflected V / elle, at least- a first; Amplifier circuit ": whose input is connected to the svjGiteh limsetsei ¹ " , - a mixing stage for generating a first alarm signal when the first and the second electrical: signal: ink different frequencies, with the mixer stage having two 'Has inputs which are connected to the output of the first amplifier circuit or the output of the transmitter, with a second amplifier circuit, the input of which is connected to the output of the mixer, a first coupling circuit, one first. transmission link, v / hich the input of the first Kop _s plungskreises to the output of second amplifier circuits connects det, and rait first elements to emit an alarm signal, which are placed at the output of the first coupling circuit, characterized by "a branching and amplifying circuit (16, 9), which takes off part of the second signal before the mixer (7) through a circle (10) to determine the level of the negative signal and through another circle (11) for generating a second alarm signal when the level of the branched signal is below a certain level. . - - 4. ■ 'Device according to claim J, characterized in that the first ve rs tär empty circuit consists of three cascade-connected amplifier stages (4, 5, 6), the branching and Amplifier circuit (16, 9) between the second (5) and the third (6) Amplifier stage goes off, and that the level of the branched off Signal detecting circuit (10) connected to the output of the branching »and amplification circuit (9) and off Rectifier and filter circuits are constructed, with a continuous control voltage for the second at "their output Alarm signal is generated and where the continuous control voltage is applied to the input of the circuit (11) generating the second alarm signal. 5. Apparatus according to claim 4, characterized in that däl3 the circuit (11) generating the second alarm signal consists of an - 15 - ■ -. - «AD- ORl, 10983- / 0 2 4 7 1816O15 Tosekrsis ordered with a certain trigger threshold. . 6. Vorrichtimg according to claim. K, indicated by. a second coupling circuit (12), a second transmission path (17) for connecting the input of the second coupling circuit (X?) to the output of the circuit (11) generating the second alarm signal and through a second device (i ^ a, 14-b) _Λ which is connected to the output of the second coupling circuit (12V. 7- device according to claim 4, characterized by a AND circle (21) with two inputs, in polygamy the one from the second Amplifier circuit (8) emitted first alarm signal sorie das from the output of the second signal generating circuit (11) given second alarm signal are set by one single Coupling circuit (13)> a single transmission path. (20) to connect the output of the UNB circuit (21) with the entrance of the single / coupling circuit (lj?).> and through a single alarm device (lga, 15b)> that to the exit of the coupling free ice. (13) and both trigger the alarm Signals is common. ■; 8. Apparatus according to claim 7V characterized by a Display element (2? 5 ^ that with one of the inputs of the UHD Circle (Sl) is connected and indicates which of the "two Alarm signals the only alarm device (15a, 15b) triggered Has, 10 9 H - '0 7. Ly 7 Blank page