DE1089563B - Potentiometer recording device with a recording strip moved in a straight line and with? various registration pens - Google Patents

Description

Potentiometer recorder with linearly moving recording strips and with y different registration pins. The invention relates to a potentiometer registration device with linearly moving registration strips and with y different registration pens, which are arranged so that "they generate records for xy points at x locations.

There is already a multiple recorder known with a individual registration pen, which is across the width of a registration strip accordingly the size of an input signal is moved, in which variable measured variables, which are alternately switched or transmitted to the recorder, recorded will. Another registration device has a number of registration pens and an endless or loop-like register strip; thereby the registration strip moved according to the size of an input signal, and the registration pens are alternately selected and time-dependent across the width of the registration strip moved so that for any given variable measurement the same pen records the registration in the same area on the tab and thus passes on a series of amplitude-time diagrams on the recording strip. In such a recording device, the recording strip must either be endless (i.e. a loop), or alternatively there must be the possibility that the recording strip can be moved in both directions, so that records set up. can be carried out, which by the registration pen already have been scanned.

The present invention provides a potentiometer recorder created in which a large number of variable measurands, for example forty-eight, can be recorded on a recording strip that is evenly is continuously moved from one storage drum to another; the record takes place over an extended period of time, and all recordings are in the window of the recorder observable, so that easy comparison options are given are.

According to the invention, a potentiometer recorder is the marked Type set up so that the recording strip is continuously from a storage drum is moved to another and that the registration pins in the direction of movement of the registration strip are arranged at a distance from one another and together transversely can be moved to x different locations for the direction of movement.

The invention is based on the drawings of an exemplary embodiment explained. In the drawings, FIG. 1 is a plan view, FIG. 2 is a sectional view along the section line II-II in Fig. 1, Fig. 3 is an end view in the direction of Arrow III in Fig. 1, Fig. 3a is a sectional view diagram of a detail Fig. 3, Fig. 4 an end view in the direction of the arrow IV from Fig. 1, Fig. 5 a Sectional view of the registration pen holding arm, FIG. 5 a is a sectional view of a Registration pen, Fig. 6 is a sectional view of the electromagnetic arrangement for actuating the registration pins in the holders from FIG. 5, FIG. 7 is a front view and Fig. 8 is a circuit diagram.

1 and 2, the frame 10 is a conventional potentiometer recorder arranged to have nine parallel bus bars 11 and one bus bar 12, a split contact rail 13 and a contact plate 14 receives. The sled of the registration device has a bridge part 15, which the registration pen holding arm 16, sliding contacts 17, 18, nine sliding contacts 19 and associated wiring with a nine-wire. Cable 20, a cable holder 21 and an end clamp 22 carries. A recording strip or diagram drum 36 of the recording device has a Band brake with a brake wheel 23. (The brake is in the details below Referring to Figure 3, described below.) The busbars 11 are held in an insulating layer 24, which is attached to the frame 10 by screws 25 is attached, and are in a fixed position with slide rails 26 and screws 27 held. The busbar 12 and the contact rod 13 are in V-shaped grooves 28 attached; which are formed in an insulating block 29 on angle strips 30, which in turn are fastened to the frame 10 with screws 31. The rail 12 and the sections of the rail 13 are attached to the insulating block 29 by stud bolts 32, which extend into the block 29 and are provided with nuts 33, in the Rails attached. The rail 13 consists of six rods 34, which are separated by insulating spacers 35 are kept at a distance from one another and isolated from one another. The lower side of the block 29 carries the end clamps 37 on which the wires of the rail 12 and the Rods 34 are connected. The slide of the recorder has a endless belt 38 (Fig. 2 and 4), which runs over rollers 39 (of which the one is driven by an alignment motor 137 and the belt 38 and thus the Brings the slide to a calibration point). An anchor block 40 is on the lower part of the belt 38 fastened by bolts and nuts 42. A plate 41 is screwed 44 attached to the block 40, and a rod 43 is attached to the plate 41 with screws 44 attached. The rod 43 runs on running parts 63 and rails 64. The bridge part 15 is carried by rod 43 and held in place by screws 45. The rod 43 also carries two supports 46 and 47 which are held by screws 48,49 will.

The supports 46, 47 carry the sliding contacts 19, and the support 46 has a hole 50 through which a spiral potentiometer wire 51 runs, over which a sliding contact arm 52 fastened to the support 46 in an isolated manner slides. A sliding contact arm 55, which is also fastened to the support 46, moves over a busbar 53, which is seated in a holder 54.

A forked component 56 (FIG. 1) is fastened to the bridge part 15 by screws 57. The component 56 is equipped with a pin 58 with a lock nut 59. The registration pen holding arm 16 rotates around this pin 58 and remains in contact with a linear registration strip 60 which runs over the base surface of the contact plate 14. The plate 14 is held by three countersunk screws 61 which are attached in screwed spacers 62. The spacer 62 can be screwed into or out of the frame 10 in order to bring the surface of the contact plate 14 into the correct position. The diagram drum 36 sits on friction on a shaft 65 which is driven via a gear transmission 66, 67, while the gear 67 is driven by a shaft 68.

In FIG. 3, a brake band 69 is shown which runs over the brake wheel 23. The band 69 is tensioned by a spring 70 and anchored at one end by a screw 71 and a nut 72 which cooperate with a fastening clip 73 fastened to the frame 10. At the other end, the band is anchored by screws 74, which lead through an end shoulder 75 and the band 69 into an angle piece 76 which is attached to the frame 10. Screws 77 is attached. The frictional torque acting on the shaft 65 through the brake band 69 is much greater than the torque resulting from the frictional engagement of the drum 36 on the shaft, so that the recording strip can be advanced by hand without play in the drive on the Shaft 65 to be introduced at the gears 66, 67. In the lower part of FIG. 3 (and clearly recognizable in the drawing in FIG. 3 a), a recording strip take-up reel shaft 78 is shown, which has a spur gear 79, which is connected to a corrugated button 80. The wheel 79 and button 80 can rotate within the limits set by a spring 81 on the shaft which is connected to the shaft at one end and the wheel 79 at the other end. The strip take-up drum 82 is also shown (Fig. 3a). The knob 80 can be rotated in advance of the shaft 78 to place the shaft 78 and drum 82 under spring tension and thereby keep the tab 60 under tension. A gear 148 meshes with the gear 79. A pawl 149 and a spring 150 are in turn engaged with the teeth of the wheel 148 so that the manually set tension in the spring 81 is held by the pawl 149.

Fig. 4 shows a further detail of the drive of the diagram drum 36. A shaft 68 is mounted in sockets 83, 84 and angles 85, 86. the Shaft has a gear 87 which meshes with a worm 88 which is through a single-speed motor is driven, by means of a gearbox. with a relatively large reduction ratio.

The register pen holding arm according to FIG. 5 has an upper block 89 and a lower block 90 which are fastened to a U-shaped part 91. Between the blocks 89 and 90 there is a plunger 92 which moves in an upper bush 93 and runs through eight angle arms 94 which are made of insulating material and can be rotated on pins 95. Each angle arm carries an electrode pin 96 (see also FIG. 5 a) with an electrical connection 97 which leads back to the cable 20 via a connecting terminal 98 and a wire 99 along the inner wall of the component 91. A series of springs 100 are mounted between the angle arm 94 and the plunger 92. A miniature size ball bearing ring 101 is provided in the lower block 90. The upper block 89 is bored into a hole 102 which receives the pin 58. The lower block 90 contains a slotted extension piece 106 which is provided with a hole 107 and receives a pin about which a lever which actuates the plunger 92 is rotatable. In FIG. 5 a, the construction of the electrode pins 96 is shown, which mark the recordings by means of electrical discharge through the recording strip 60 to the contact plate 14. A tungsten wire 104 is seated on a socket 103. The wire is fixed rigidly in the socket by pressing in the flanged end of the socket. A bead 105 of silver solder is attached to the end of the wire 104.

In FIG. 6, an electromagnet 108 is shown which has a coil 109 and a copper-plated wrought iron core 110 contained in a brass sleeve 115 is movably arranged. The sleeve 115 has a wrought iron end piece 116 and carries a pole piece 112. The coil has a housing 117 which is held in place by a lock nut 118 which is held by an end piece 111 of the sleeve 115 is screwed through. The electromagnet 108 is raised by an angle 120 a base plate 119 held. The core 110 has extension pieces 113 and 114 on. The piece 114 terminates in a nut 121 with washer 124 and holds a spring 122. The extension piece 113 is drilled out and takes the end of a clutch spring 123 on. The base plate has two angles 125 which carry a lever member 126, which rotates around a pin 127. One arm of the link 126 is with the spring 123 connected, and the other arm is equipped with two rods 128 on which a transmission link 129 having a hole 130 hinged on a pin in the hole 107 (FIG. 5) is mounted and actuates the plunger 92. The inclined surface 131 of the link 129 only requires a small amount of force to move the plunger in one direction so that the registration pen holder arm 16 is held pressed against the registration card 60 will. The ring 101 (Fig. 5) ensures the correct spacing.

7 shows the assembly of electromagnet 108 and its associated components set up for a typical 48-field strip registration. The rods 128 are equipped with a transmission member 132 which is rotatable on angle pieces 133, similar to the lever member 126. The construction of the bridge part 15 is also shown. This consists of two I-shaped components 134 which are held together by two plates 135. The tab strip 60 contains forty-eight tabs 136 registering forty-eight voltages, each of which is turned on every 30 minutes for a 24 hour period. The adjustment motor 137, which drives the belt 38, the bridge part 15 and the registration pen holding arm 16 , is indicated.

A single selector with fifty connections, which has three banks 151, 152 and 153, is shown in FIG. The contacts of bank 151 are in communication with every sixth contact; consequently they represent eight groups of six, H1 ... - H6, dar, wherein a contact in each group of the Schleifkontaktarm 138 swept in the order in which it together with the arms 139, 140 under time-dependent, from Drive motor of the individual selector adjusted pulses given. The bank 152 contacts are linked so that the first six are in common, then the next six, and so on. The two reserve contacts of bank 152 are grounded. Each of the common connections of the bank 152 leads to one of the eight registration pins 96 (Fig. 5) via the busbars 11 (Fig. 1 and 2), the sliding contact arms 19 (Fig. 2) and the cable 20 (Fig. 1 and 2) . The registration pins 96 have the reference symbols P 1 ... P B. Each of the common connections of the bank 151 is led to a resistor in a resistor bank 142, which are connected in series with one another and are also connected in series with fixed standard resistors 143 and sliding wire 51 (see also Fig . 2). A bridge circuit includes these resistors 142 and 143, and the slide wire 51 is powered by a battery 141 through an adjustable resistor 154. A bridge input is formed by the sliding contact arm 52, which feeds the end terminals 155 of the forty-eight voltage points via a standard amplifier and a servo control device 159 of the potentiometer recorder. The end clamps 156 form the other energy supply and are individually coupled via the contact of the bank 153 and the sliding contact arm 140 Resistor 157 is connected and then finally to the loop contact arm 139 via a limiting resistor 158. A record is made on the strip chart 60 every 30 seconds. To do this, the single selector drive motor, the electromagnet 108 and the changeover switches 145 are actuated in the subsequent cycle by cams and contacts that are driven by a single-speed electric motor. At 0.00 seconds the single selector drive motor is activated so that the sliding contact arm 139 is connected to P1, sliding contact arm 140 to terminal 1561 and sliding contact arm 138 to H 1. The recorder then comes to equilibrium on station 1 plus the signal derived from terminal 1561. At 29.00 seconds, the electromagnet 108 comes into action and brings the registration electrodes into contact with the registration strip 60. At 29.50 seconds, the toggle switch 145 is activated so that the capacitor 146 is discharged through P 1 and a record is obtained on the chart 60 at station GO-D. At 29.75 seconds, the electromagnet 108 drops out, the contact 145 is switched over again so that the capacitor 146 is recharged from the battery 147. At 30.00 seconds the single selector drive motor is re-energized, which keeps the contact arm 139 in contact with P 1, but allows the contact arm 140 to reach the terminal 156/2 via the next contact of the bank 152 and leads the contact arm 138 to H2, so that the registration pen moves to station (D- «) and is ready to register again. Assuming that the registration of the forty-eight stations is necessary for a 24-hour period and the individual selector advances one step every 30 seconds, then at a strip length of approximately 36 cm - visible in the observation window of the recorder - the strip movement and consequently the recording length for any one Point (e.g. determined by 1561) 3.8 cm and the card speed 1.5 mm per hour. The forty-eight records each consist of fifty-seven characters spaced approximately 0.69 mm apart. At the end of the 24-hour period, the registration strip has advanced 36 cm and registration of the next day can begin.

Claims (3)

PATENT APPROACH: 1. Potentiometer recording device with linearly moving recording strips and with y different recording pins, which are arranged in such a way that they generate records for xy points at x locations, characterized in that the recording strip is continuously moved from one storage drum to another and that the registration pins are arranged at a distance from one another in the direction of movement of the registration strip and can be moved together at x different points transversely to the direction of movement of the registration strip. 2. Potentiometer registration device according to claim 1, characterized in that that the registration pins on one in the direction of movement of the registration strip extending arm are arranged and the records on the recording strip generated by electrical discharges and that a device is arranged, through which the combined into a unit Registration pens before selecting and activating the individual registration pens for the Generating the markings are brought into contact with the registration strip. 3. Potentiometer registration device according to claim 1, characterized in that the Drum for advancing the recording strip through a drive shaft over a friction clutch is driven and that the shaft with a friction brake cooperates, which counteracts a greater torque than that of the shaft the drum done so that the drum without any effect on the shaft of Is hand adjustable, and that means are arranged which the recording strips keep under tension at all times. Publications considered: German patent specification No. 942,543; U.S. Patent No. 2,639,964.