DE548949C - Device for remote display or remote registration of constantly changing measured values from a balloon or kite, especially for meteorological temperature recordings - Google Patents

Description

Device for remote display or remote registration, continuously variable Measurements from a balloon or kite, in particular for meteorological temperature recordings The invention relates to a device for remote display or remote registration continuously variable measurands from a balloon or kite, especially for meteorological Temperature records. There are already devices for remote electrical transmission known of movements in which the electrically conductive pointer is a The measuring instrument is shifted in cyclic order over in several rows opposing electrical contacts moved away and through the contact closures a signal is triggered. The purpose of the invention is that when touching the Pointer with the various rows of contacts evoked signals with the help of a simple switching device to make distinguishable, so that at the transition of the pointer from one contact in a row of contacts to the next contact in the adjacent row Contact series a change in the signal occurs, which occurs at the receiving location of the signals provides information about the movement of the pointer. This purpose becomes in accordance with the invention achieved in that the connecting to the various rows of contacts producing Switch can be closed by a propeller, which by the resistance the air is set in circulation when the kite or balloon rises or falls. The device according to the invention accordingly provides lift or downforce of the kite or balloons advantageously used to change the = the switching device causing the signals to be activated.

The device embodied according to the invention can optionally so be designed that a simultaneous remote display or remote registration of several Measured variables takes place, and this can be done in the case of wireless transmission in the manner happen that the "pointer of every further measuring instrument with a special series of contacts cooperates, by which when touching a contact with the pointer further Measuring device, the wave emitted by the primary instrument is modulated.

The drawing shows schematically an exemplary embodiment a device designed according to the invention for the remote display of temperatures in connection with an air pressure indicator, namely Fig. z is a schematic Overall view and Fig. 2 a side view of an individual part. Fig. 3 shows schematically a transmission circuit which can be used for the purposes of the invention. In in the drawing i is a bimetal strip influenced by the temperature to be measured, which is firmly clamped at one end and a pointer at the other end 2 carries. The tip of the pointer 2 made of electrically conductive metal lies over a number - in the present case four - rows of contacts arranged next to one another 3a, 3 ', 3c, 3d. Each of these rows of contacts appropriately opposed to each other are isolated, carries a number of spaced apart Contacts, and the contacts of the different rows are offset from one another in such a way that that the pointer 2, when moving in the same direction, has one contact one after the other of the four rows of contacts in cyclic order. The pointer 2 is switched by a line 6 into the circuit of an electrical power source 5, which powers any transmitter 4, for wireless signals. The transmitter . is also through a line 7 with a shaft 8 in connection, which a number Kontaletstifte loa, praise, drew, lod carries, which are arranged next to the shaft 8 Contact springs iia, 11b, 11c, lld interact. The last mentioned contact springs are connected by lines 12a, 12b, 12c, i2d to one of the contact rows 3a, 3b, 3c, 3d connected.

The shaft 8 is arranged by a at the upper end of the shaft Propeller 9 constantly rotated. The propeller is useful here trained that he is both in the movement of the device in the ascending direction as well as the descending sense always rotates in the same direction, namely can this can be effected in a manner known per se in that the propeller with to an axis of hinged wings ga is provided, which changes when the direction of movement is reversed the device automatically from the position shown in Fig. i into the position according to Move Fig. 2 and vice versa.

The contacts arranged on the shaft are designed differently from one another, namely the contact pin ioa consists of one, the contact pin lob of two, the contact pin ioc of three and the contact pin iod of four individual contacts. With each revolution of the shaft 8, the contact spring iia is touched once, the contact spring 11b twice, the contact spring iic three times and the contact spring 11d four times by the associated contact of the shaft 8. Since the pointer 2 attached to the bimetallic strip i moves much more slowly than the shaft 8 is set in rotation by the propeller g, but the transmitting circuit, as soon as the pointer - touches a contact of the contact rows 3a, 3l, 3c, 3d, passes through If the contacts io coming into contact with the contact springs ii are closed at relatively short intervals, a single, double or triple will sound at the receiving point of the wireless signals, depending on whether the pointer is on a contact of the contact row 3a or 3b or 3c or 3d or quadruple tone. From the type of tone you can therefore easily see which of the four rows of contacts is touched by the pointer: 2. Since, on the one hand, the temperature at which the device is activated is known, and on the other hand, the sequence of tones can always be used to identify the point in time at which the pointer: 2 changes from the contact of one row of contacts to the next contact of the adjacent row of contacts and such a transition takes place only at relatively longer time intervals due to the relatively slow movement of the pointer 2, the way in which the signals follow one another provides no further information about the number of contacts in the relevant row of contacts the pointer is at for each new signal is located. The sequence of signals therefore allows the temperature profile to be easily recognized after the measuring instrument has been calibrated.

The device can of course also be used in a corresponding manner for the display or registration of any other desired meteorological variables, for example the air pressure, the relative humidity, etc. It will be particularly expedient to design the device, as in the embodiment shown, in such a way that, in addition to the display of the temperature, the air pressure prevailing at the point in question is displayed at the same time, from which the altitude at which the device is located. can be determined. Since it is usually sufficient to display the change in air pressure at certain intervals, for example from 5 to 5 mm of mercury or a change in height of 5 to 5 m, only one row of contacts is required in the embodiment shown for displaying or registering the air pressure provided, whose contacts, which are located at certain distances from one another, interact with a pointer 14 arranged on a Bourdon tube 13. - When the pointer 14 and the row of contacts 15 are switched on in the circuit of an electrical transmitting or signaling device, the change in air pressure can then be determined by simply counting the signals. In order to make the device as simple as possible and to enable a distinction between the signals generated by the various measuring instruments despite the arrangement of only one transmitter, it is advisable to make the circuit in such a way that the pointer 14 of the Bourdon tube 13 touches a contact of the contact row 15 does not emit a special signal, but only modulates the wave emitted by the temperature pointer. For this purpose, for example, the transmitting device shown in Fig. 3 and commonly used in wireless telegraphy can be used. In this circuit, three contacts I, 1I and III are provided for connecting the lines supplying the electrical signals. A buzzer S is switched on in the line connected to contact III, which causes a periodic interruption of the current flowing through this line. The contacts I and II are in place of the signaling device q indicated in Fig. I. connected to the line 7 or 6, so that they are closed when contact is formed between the movable contacts ioa and iia or iob and iib or io "and iic or iod and iid of the Bourdon tube 13 cooperating contact row 1 5 to be attached, so that when contact is formed between the pointer 14 and one of the contacts of the contact row 15, the contacts II and III are closed. ii is produced by the propeller 9 contact, the result is a pure tone in which the transmitter wave-receiving receiver. If, however, by coming up with one of the contacts of the contact row 15 in touch pointer 1d. of BourdonrOhres 13, the contact between the contact points II and III closed, the anode current closed via the contact points I and II is periodically interrupted by the buzzer S, so that the waves emerging from the transmitter ei experience ne modulation.

The transmission of signals from the sending point to the receiving point can optionally also be done by wire instead of wireless, where the signals as well as with wireless transmission by display devices or Recording instruments of any kind can be included.

In other respects, too, in the illustrated embodiments various changes are made; for example, in cases in which apart from the distinction between those caused by the various rows of contacts Signals also distinguish the signals within the individual rows of contacts it is desirable to divide each row of contacts into several mutually isolated parts with each part emitting a special signal.

Claims (1)

PATENT CLAIMS: i. Device for remote display or remote registration continuously variable measured variables from a balloon or kite, in particular for meteorological temperature records at which the electrically conductive trained pointers of the measuring instrument in cyclic order over in several Rows of electrical contacts arranged offset from one another are moved away and a signal is triggered by the contact closures, characterized in that the closing of the connection with the various rows of contacts Switch is done by a propeller, which is caused by the resistance of the air when The rise or fall of the kite or balloon is put into circulation. z. contraption according to claim i, 'characterized in that the propeller is known per se Way is provided with an automatic switching device, so that the propeller shaft rotated in the same direction of rotation both when climbing and when falling will. 3. Apparatus according to claim i for simultaneous wireless remote registration several measured quantities, characterized in that the pointer of every further measuring instrument interacts with a special series of contacts, through which when a Contact with the pointer of the further measuring device that of the primary instrument transmitted wave is modulated.