DE914737C - Tester for teletyping machines - Google Patents

Description

The invention aims to further develop the invention described in patent 911 267, the relates to a teletype transmission system tester, and more particularly to a tester for receivers of teleprinters, for measuring devices, such as reference veraerrungsmessers, or for other facilities that work according to the start-stop system.

The test device according to the main patent uses a rotating camshaft with relative to the Control cam adjustable scanning elements in order to generate distortable telex characters. Here In contrast to the previously known test devices of this type, not only was there a distortion of the combination steps, but also a distortion of the locking step end and thus a shortening or extending a telex symbol. That way you can the telex typewriter or other device to be tested is supplied with characters that also contain such distortions not previously used for testing, of which the teletypewriter Od. Like. Can be influenced in practical operation.

According to the main patent, the control cams are on the rotating camshaft for this purpose individual steps of two complete telex characters arranged, the normal length when scanned the blocking step of one of the two telex characters by postponing his leprosy can be shortened or extended and the normal length of the following telex code is reversed

corresponding temporal postponement of its use can be extended or shortened. It thus follows on that which belongs to the variable locking step is shortened in its total length without reference distortion or extended telex characters a correspondingly extended or extended length in its total length. Abbreviated telex with reference distortion. In practice, this can be done according to the main patent z. B. be carried out in such a way that the in his

ίο Length of adjustable locking step (with single-stream telex characters) or this locking step and also the starting step of the variable in length next character (with double-stream telex characters) on three separately scannable control cams are distributed, one of which is adjustable relative to its scanning element. The total length of both characters is z. B. at the usual telegraph speed of 50 Bd 280 ms.

In contrast, the invention consists essentially in that on the rotating camshaft the control cams of the individual steps are only arranged in a complete telex character are, when they are scanned, the failure of the locking step and the use of the start-up step are timed are displaceable, a relay arrangement being actuated during the scanning of the five combination steps which controls the scanning of the locking step and the start-up step so that each with the first revolution of the camshaft a time shift of the start-up step use and with the second cycle a time shift of the locking step is carried out so that the changed to the Locking step, shortened or lengthened in its total length without reference distortion Teletype a teletype symbol that has been lengthened or shortened accordingly in its overall length with reference distortion follows. The practice of the invention can be advantageous take place in such a way that when generating single stream telex characters the length changeable locking step and also the in its length variable starting step are distributed on four separately scannable control cams, of each of which one control cam has the entire nominal length and the other three control cams only the have half the desired length of the locking or start-up step, each corresponding to the desired Direction of distortion either a first half-length locking step control cam and a first half-length Start-up step control cam together in one direction or a second half-length locking step control cam and a second half-length start-up control cam together adjustable in the other direction relative to their scanning contact members are.

The actuation of the relay arrangement, which controls the scanning of the locking and start-up step, can be done in a simple way by a special control cam, which is on the camshaft in the unwinding zone of the five combination step control cams is arranged.

The main result of the invention is that not only, as in the case of the main patent, are alternately distorted and undistorted telex characters with different character durations, but also continuously Distorted telex characters with the same character duration are generated using the same test device can be. This significantly expands the scope of the device for testing purposes. In this case, too, the total length of two consecutive characters always remains the same and is z. B. at the usual telegraph speed of 50 Bd and a rotation time of the camshaft of 140 ms a total of 280 ms.

In the drawing, the invention is in one embodiment illustrates, namely shows

Fig. Ι the circuit arrangement of a test device according to the invention while

Fig. 2 in Figs. A to d each shows two telex characters in the form of current-time diagrams. The test device shown in Fig. 1 consists essentially of a transmitting device in connection with a relay arrangement. The transmitting device has a shaft, not shown in detail, rotating at a constant speed, on which the cam disks for scanning the individual steps of a complete teletype character and a special cam disk for switching on the relay arrangement are seated. All cams are shown developed. The cam disks Ny, Λ ⁷ νΐ, A ^T vii. iVvin and Nix for the scanning of the five combination steps of the telex character are designed in such a way that the temporal onsets and offsets of the individual steps are only determined by a single cam. In contrast, four cam disks Ni, Nn, Ναι, NiY and 2V _x , Νχι, Nχα, Νχηΐ are provided for scanning the start-up and locking step. The cam disks Nu and Λ ⁷ χπ each carry a whole, the cam disks JVi, Nm, Niv, and Νχ, Νχι, Nxiii, however, each carry a cam that determines half the step length. The cam disk iVxiv for switching on the relay arrangement is provided with a cam which appropriately determines the entire step length. The four cam disks Νχ, Nn, A ⁷ IIi and Nw for the scanning of the start-up step are developed in such a way that in the illustrated basic position of the contact spring sets UT ₁ , K ₂ , K ₃ and X ₄ that scan them, the timing of the start-up step from the cam disks Ni and Nn, whereas the temporal lapse is only formed by the cam disk Nn when the switch Si is in the position shown in FIG. In the opposite position of the switch S ¹ , the temporal use of the start-up step is determined by the cam disk Nm, the temporal lapse is determined by the cam disk Νχγ. The four cam disks 2Vx, Νχι, Νχη and Nxm for scanning the locking step have such a development that in the illustrated basic position of the contact spring sets K ₁₀ , K _n , K ₁₂ and K ₁₃ that scan them, the timing of the locking step from the cam disk Νχ, the temporal lapse, however , is formed by the cam disk Νχι when the switch S "assumes the position shown. When the switch S ¹¹ is in the opposite position, the time-

borrowed use of the locking step by the cam disk Λ ^Γ χπ, the temporal lapse determined by the cam disk NXu and Nxm. The contact spring sets K ₁ and A ₁₁ are jointly arranged in the direction of arrow i, the contact spring sets K ₃ and K ₁₃ are jointly adjustable in the direction of arrow 2. All other contact spring sets are in fixed positions relative to the camshaft. The individual contact springs K _{5 scanning the combination steps}

ίο to K ₉ are connected to the movable members of the changeover contacts US ₁ to US ₅ , the mating contacts of which the plus and minus poles are fed to a telegraph battery TB grounded in the middle. The contact springs K ₁ , K ₂ and K ₃ , K ₄ which sense the start-up step are dependent on the switch position S ¹ via the relay contacts a ¹ and b ^l baw. connected to the negative pole of the telegraph battery TB via the relay contact a ¹ . The contact springs K ₁₀ , K ₁₁ and K scanning the locking step

₁₂ , K ₁₃ are connected to the positive terminal of the telegraph battery TB depending on the switch position S "via the relay contact""or via the relay contacts""andδ". The counter springs of the contact spring sets K ₁ to K ₁₃ are connected in parallel and lead to terminal a of the transmission line. Terminal b of the transmission line is earthed. The relay arrangement consists of two switching relays A and B, the latter of which is copper-delayed and has a certain release time. The switching relay A is designed with two windings I and II. The relay arrangement is switched on by switch E when distorted telex characters of varying lengths are to be generated.

The mode of operation of the test device described above is as follows: As long as the relay arrangement is ineffective due to the open switch E , undistorted telex characters of constant length can initially be generated in the basic position of the camshaft and the contact spring sets K ₁ to K _{13 shown in FIG} regardless of switch positions Si and S ¹¹ . In the position of the switches S ¹ and S ¹¹ shown in FIG. 1, the contact spring _{sets A 3} , K ₄ and UC ₁₂ , K ₁₃ scanning the cam disks Nm, Niv and Νχ \ ι, Νχηι are ineffective for the duration of the broadcast. At the beginning of the revolution of the camshaft in the direction of arrow P, the following steps are sequentially scanned into the output a, b of the transmission line when the switching contacts US ₁ to US ₅ assume the position shown in FIG Step +. second step ■ - ■, third step -J-, fourth step +, fifth step -, locking step +. The temporal start of the start-up step is formed by the cam disks Ni and Nu, whereas the temporal lapse is only formed by the cam disk Nu . The cam disk Nx is decisive for the temporal use of the locking step, whereas the cam disk Nχι is decisive for the temporal lapse. Since all steps are scanned with normal length, distortion-free telex characters appear in the transmission line which have the same character duration among themselves. The same telex characters result when the switches S ¹ and S ^{11 are placed} in the opposite position to that shown in FIG. 1 under otherwise identical operating conditions. The previously active contact spring sets K ₁ , K ₂ and UC ₁₀ , K _{11 are then} separated from the negative pole of the telegraph battery TB by the switches S ^x and S ¹¹ and the cam disks Nm, Niv and Λ for the scanning of the start-up and locking step ^τ χΐΐ, jVxm scanning contact spring sets K ₃ , K ₁ and K ₁₂ , K _{13 switched} on. The temporal use of the start-up step is now determined by the cam disk 2Vin, the temporal delay is determined by the cam disk Ni \ . The timing of the locking step is determined by the cam disk Nxu, while the timing disks are formed ^{by the cam disks A 7} Xn and Νχαι.

One shifts at even switched off relay circuit the contact spring sets Ä'j and A _n to a common amount as shown in Fig. 1 illustrated direction of arrow 1, ie against the direction of rotation P of the camshaft, so are in the position shown in Fig. 1 position of Switches S ¹ and S ¹¹ and the changeover contacts US ₁ to [/ S ₅ in the transmission line keyed the teletype characters illustrated in Figure a of FIG. 2 with trailing reference distortion, which initially still have the same character duration. In the aforementioned position of the switches S ¹ and S ¹¹ , the cam disks Nm, Niv and Nxu, NXUi scanning contact spring sets K ₃ , A ₄ and K ₁₂ , K _{13 are} ineffective for the duration of the broadcast. Due to the shifting of the contact spring sets K ₁ and K ₁₁ , the control cams Ni and 2Vxi are scanned earlier in time. This results in an extension of the start-up step and a corresponding shortening of the locking step by the same amount. The extended start-up step is then followed in sequence by the five combination steps scanned with the desired length, the inserts and loops of which, based on the start of the start-up step, have equal displacements in the trailing direction.

The in fig. B of Fig. 2 shown among themselves equally long teletype character-advanced reference distortion arising when switched relay circuit when the switches S ¹ and S opposite to the ¹¹ are brought to the one shown in Fig. 1 position and the contact spring sets K ₃ and K ₁₃ are displaced by a common amount in the direction of arrow 2, that is, in the direction of rotation P of the camshaft. _{The contact spring sets UC 1} , K ₂ and UC ₁₀ , K ₁₁ that were previously effective for trailing distortion are then separated for the scanning of the start-up and locking step, and the cam disks 2Vin, Niv and 2V _X n, 2V _X in scanning contact spring sets K ₃ , K ₄ and K ₁₂ , K _{13 switched} on. The shifting of the contact spring sets K ₃ and K _{13 has the} effect that the control cams 2Vm and 2Vxiii are scanned later. As a result, the start-up step is shortened and the blocking step is extended by the same amount. The shortened approach step is followed by the five combination steps scanned with the desired length, whose inserts and disengages, based on the use of the approach step, show displacements of the same size in the leading direction.

If you move the contact spring sets K ₁ and K _n in the direction of the arrow i, that is, against the direction of rotation P of the camshaft by a common amount and the switches S ¹ and S ¹¹ assume the position shown in FIG already mentioned, the teletype characters illustrated in FIG. a of FIG. 2 are generated with trailing reference distortion, which initially still have the same character duration among themselves. If one also closes the switch E of the relay circuit in the present operating conditions, then at the beginning of the revolution of the camshaft as a result of the adjusted contact spring set K ₁ , an extended start-up step with an early start is scanned: - TB; aK S *; K ₁ [| Ji, if ₂ ; Transmission line a. The five combination steps scanned with the desired length then follow the lapse of the start-up step determined by the cam disc Nu. Preferably during the scanning of the first Kornbinaao tion step the contact spring set K ₁₁ scanning the control cam closes the circuit for the ^ relay: + TB, E, K ₁₁ , Jm ₁ R ₁ , winding ^, - TB. The contacts of the energized A relay are in the opposite position to the illustration shown in FIG. The energized relay A remains after the contact spring set K _{u has opened} via its own contact a «i (4- TB, E, " i ", R ₁ , winding A 1, - TB) until the next revolution of the camshaft the contact spring set if _{14 is} actuated again. Contact « ^T closes the circuit for relay B: + TB, « v, R ₂ , relay B, - TB. The contacts of the energized B relay are also in the opposite position to that in Fig. 1. The response and release times of the B-relay are, however, dimensioned in such a way that its contacts only switch with certainty when the scanning of the control cam Νχχγ by the contact spring set if _{14 is} complete Then a locking step is scanned with the desired length, the insertion and disengagement of which is determined solely by the cam disk Νχη: + TB, δ ¹¹ , K ₁₂ , transmission line a. At the beginning of the next revolution of the camshaft, the start-up step with normal length is now scanned astet, the insertion and disengagement of which is determined by the cam disc Nu : - TB, δ ¹ , K ₂ , transmission line a. The five combination steps scanned with the desired length then follow. During the scanning of the first combination step, during the second revolution of the camshaft, the contact spring set K _u closes the circuit for the winding II of the A relay: + TB, E, Jf ₁₄ , Ji ", R ₃ , a ^IT , An, - TB. The The fluxes through the windings Ai and Au are directed in opposite directions and are of the same magnitude, so that the resulting flux has the value 0. The A relay drops out immediately and returns its contacts to the position shown in Fig. 1. The copper-delayed B relay drops only from when the contact spring set Jf ₁₄ has reopened. As a result of the adjusted contact spring set K _11, the five combination steps are followed by a shortened locking step with a temporally premature detachment -f- TB; a "; S "; K ₁₀ 11 If ₁₁ ; transmission line a. In this way, in the position shown in FIG. 1, the changeover contacts CZS ₁ to US ₅ , as can be seen from FIG. C of FIG. 2, for two revolutions of the camshaft two telex characters with different character durations, whereby a lagging, distorted and extended telex character is followed by an undistorted and shortened character.

If the contact spring sets K ₃ and K ₁₃ are shifted in the direction of arrow 2, that is to say in the direction of rotation P of the camshaft by a common amount, and the switches S ¹ and S ″ are placed in the position opposite to the representation shown in FIG. so under otherwise identical operating conditions for two revolutions of the camshaft the telex characters shown in fig. d of fig of the first revolution of the camshaft due to the adjusted contact spring set K _3, a shortened start-up step with a delayed start is scanned: - TB; ai; Si; K ₃ || Ji ₄ ; transmission line a. The start-up step determined by the cam disk JViv is followed by the five Combination steps scanned with nominal length sensing contact spring set .K ₁₄ closes the circuit for the yl relay in the manner already described. His contacts turn over in the working position. The B relay is energized and also brings its contacts into the working position. The five combination steps are followed by a locking step scanned with the desired length, the engagement and disengagement of which is again determined solely by the cam disk Nxu: + TB, δ ¹¹ , K ₁₂ , transmission line α. At the beginning of the next following revolution of the camshaft, the starting step is scanned with normal length, the insertion and removal of which is in turn determined by the cam disk iVn: - TB, δι, A ₂ , transmission line a. This is followed by the five combination steps scanned with the desired length. While it is being scanned, the contact spring set If ₁₄ closes the circuit for winding II of the ^ relay during the second revolution of the camshaft. The ^ 4 relay drops out in the manner already described and opens the circuit for the B relay. Both relays place their contacts in the rest position shown in FIG. At the end of the second cycle, due to the adjusted set of contact springs K _13, an extended locking step with a delayed lapse is scanned: -f TB; a ";S"; Jf ₁₃ IIo ", if ₁₂ ; transmission line a.

The invention is not limited to the embodiment described above and shown in the drawing. It is Z. B. easily possible to generate single stream characters. According to the invention, the generally negative pole of the telegraph battery TB must then be disconnected for scanning the start-up step and the five combination steps. With such a checking device, according to the invention, all telex characters of the telex alphabet can also be generated in any sequence. You then only have to ensure that the changeover contacts US during each

keying of the locking and start-up step according to the character combination to be formed. The control of the changeover contacts US can be carried out 2 .. B. by stepping mechanisms or the like that are controlled as a function of the transmitting device.

Claims (6)

Patent claims: ίο ι. Tester for teletype transmission systems, especially for receivers of teleprinters, measuring devices or the like, according to patent 911267, which can be distorted by the relatively displaceable scanning of the control cams of a rotating camshaft and teletype characters which can be changed in their overall length are generated, characterized in that, that on the rotating camshaft the control cams of the individual steps of one single complete telex characters are arranged, when scanned, the leprosy of the Locking step and the use of the start-up step can be shifted in time, with during the scanning of the five combination steps a relay arrangement is actuated, which the scanning of the Locking step and the startup step controls in such a way that each time the first cycle Camshaft a time shift of the start-up step use and one for the second revolution Time shift of the locking step failure takes place, so that on to the changed locking step associated telex characters shortened or lengthened in their overall length without reference distortion a telex character that is lengthened or shortened accordingly in its overall length with reference distortion follows. 2. Testing device according to claim 1, characterized in that when generating single- stream telex characters the length-adjustable locking step and when generating double-stream telex characters also the length-adjustable start-up step on each of four separately scannable control cams (Nx, Νχι, Νχη, Νχια and Ni, Nu, Nm, Ννή are distributed, of which one control cam (N χπ or Nu) has the entire nominal length and the other three control cams (JVx, JVxi, JVxni or TV ₁ , JVm, only half the nominal length of the lock - or start-up step, with either a first half-length locking step control cam (JVxi) and a first half-length start-up step control cam (TVi) together in one direction or a second half- length locking step control cam (Nχοή and a second half-length start-up step control cam (JVm) together in each case, depending on the desired direction of distortion the other direction relative to their scanning contact members adjust are lbar. 3. Testing device according to claim 2, characterized in that the contact members (Jf ₁₁ and Jf ₁ or Ji ₁₃ and Jf ₃ ) which can be adjusted relative to their control cams each together, preferably by means of a bridge connecting them (B ₁ or B ₂ ), are arranged rotatably around the camshaft. 4. Testing device according to one of claims 1 to 3, characterized in that the scanning of the locking and start-up step controlling relay arrangement by one on the camshaft in the Processing zone of the five combination step control cams (TVv to JVix) provided control cams (JVxiv) is operated. 5. Test device according to claim 4, characterized in that the relay arrangement consists of one of the control cam (JVxrv) directly operated relay (A) with two windings (Aj and Au) and one of the relay (A) controlled relay (B) with response - and dropout delay, the relay (.4) is made to respond immediately with the first revolution of the camshaft via its winding (Ai) and the relay (B) with a delay, while the second winding (Au) of the relay is made to respond during the second revolution of the camshaft (A) is switched on, the flow of which compensates for the flow through the first winding (Ai) and thus causes relay (A) to drop out immediately and relay (B) with a delay. 6. Testing device according to claim 1 to 3, characterized in that when adjusting the contact members (Jf ₁₁ and Jf ₁ or Jf ₁₃ and Jf ₃ ) a switch (S) is actuated, which these contact members according to the direction of distortion for the scan effective or ineffective. 1 sheet of drawings © 9526 6.54