DE500343C - Device for remote reporting of the status of a reporting body - Google Patents

Description

Device for remote reporting of the status of a display device There are measuring methods, in particular remote measuring methods, known in which the respective position of a display device dependent on the physical or chemical variable to be measured is transmitted to a receiving device in such a way that an electrical contact is immediately mentioned Display organ or by mechanical action of the same is closed to aids. Since the display elements in question usually have to be very easy to move, they cannot be expected to have greater force effects, as are usually required for closing an electrical contact.

According to the invention, a device that means very little Stress on the display organ enables reliable contact, thereby created that the movable indicator by pneumatic action to close the Contact is initiated.

The invention is schematic in some embodiments in the drawing shown.

In front of the pointer Z of a measuring instrument M (Fig. I) there are two semicircular contact segments in, iv. The end of an intake manifold F protrudes into the space between these segments and is continuously rotated in the direction of the arrow by a motor Mo by means of a cord operation S '. The capsule of an impeller pump P is seated on the hollow shaft of the suction pipe F, the impeller of which is set in rapid rotation by the same motor Mo by means of a hollow shaft p and the cord drives S2, S3 which are seated on the shaft i. The axis bore of the shaft i ends between the capsule and the impeller. In this way, a suction effect is generated at the mouth of the intake manifold F located between the contact segments m, n as long as the engine is running. The suction pipe F goes over the pointer Z once with each full revolution; the pointer Z is usually sufficiently flexible that it is sung through the intake manifold F when it is first passed. If the pointer Z is not flexible enough, then it is supported in a flexible manner. As a result, it applies to the contact segments m, n for a very short time and thereby closes a current from a battery B via a line b, the segment in, the pointer Z, the segment n, a line c and a relay R '.

At the same time as the suction pipe F and in a certain position relative to it, a contact roller e rotates. A contact a is arranged in its path in such a way that it is closed by the roller e when the suction tube F is just before the starting point (left) of the pointer scale. Since the location of the contact a. is invariable, the time interval between making contact at a and making contact between in and n depends on the respective position of the pointer Z.

The mode of operation is as follows: When the suction pipe F rotates, before it reaches the start of the scale, the contact a is closed and a relay R 'is temporarily excited by the circuit B, a, R and B as a result. The relay R 'closes a holding current for itself at contact 2, which current runs via the armature break contact 5 of the second relay R2. As the suction pipe F continues to run, the pointer Z is drawn against the contact segments m, it at a certain point in time, whereby the relay R2 is temporarily excited by means of the specified current surge profile via the lines b, c. The relay R 'opens the normally closed contact 5 and thereby switches the relay RI- off again. The relay RI therefore remains energized only for the time that flows during the movement of the suction tube F from the starting point of the scale to the respective position of the pointer. In this embodiment of the device, a current of a certain duration is sent into the line La, Lb by the closing of a contact 4, which is sent to the receiver (not shown) or e.g. B. initially leads to a transmitting device. The recipient, who addresses in an appropriate manner, provides z. B. a pointer in the coincident with the pointer Z position. Instead, a different training m #) possible, wherein the contact a, f EHLT and sent at all, only a single impulse at the pre-transition of the suction tube on a link Z by the relay R2 in the line La, Lb.

Fig..: 2 indicates on an enlarged scale another embodiment of the invention in which a throttle valve D is arranged in the intake manifold F (Fig. I) in such a way that it is usually kept open by the suction flow, as Fig. 2 shows. In doing so, it for its part keeps a contact k open. The opening of the Sangrohr F is so close opposite the pointer Z that when the suction pipe passes on the pointer the latter (which need not be flexible or flexible) throttles the Sangstrom. As a result, the flap D is now erected under the action of a weight h (or a spring) and closes the contact k. The latter then brings about the same effect as the contact m, n in Fig. I.

Instead of a suction air flow, a compressed air flow can also be maintained in the circulating pipe F. In this case, the pointer Z is pressed against contact segments which are to be arranged between the pointer and the scale. The use of suction air has the advantage that the measuring device M to be controlled does not need to be changed for the purpose of adaptation and the entire scanning device, including the segments m, n, is placed in front of the measuring device as a whole. When using compressed air, it is also possible to attach a throttle valve contact similar to Fig. 2. Instead of moving the flexible pointer Z itself through the air stream, you can attach a slightly movable leaf to it, which can more easily follow the air stream. The arrangement of the pump P can be done in many other ways; the throttle valve D (Fig.2) can open a contact like k instead of closing it; contact 4 of relay R11 can be an opening contact instead of a closing contact, etc. The type of receiver or transmitter that is influenced by the contact brought about by tube F is entirely arbitrary. For example, it can be a question of only causing an optical or acoustic signal, for example also with certain positions of the display element, through the contact closure. The receiver can be arranged anywhere near or far.

Claims (4)

PATENT CLAIMS: i. Device for remote reporting of the status of a Display organ, in which the display organ in its respective -gen position by a periodically moving sensor is caused to close a contact, characterized in that the sensor (F) the display element (Z) by pneumatic Action moved in the direction of the axis of the measuring device (M) and closed -of the contact (m, ii) caused. : 2. Device according to claim i, characterized in that the display element (Z) of a measuring device (M) by means of a suction or compressed air flow maintained in a rotating pipe (F) on contact segments (m, u) which are arranged along the path of the display element, is pressed. 3. Device according to claim i, characterized in that a throttle valve (D) is mounted in a circumferential tube (F) leading a suction or compressed air flow in such a way that it folds over and a contact (k) closes or opens as soon as the Indicator element (Z) faces the opening of the pipe (F) and thereby throttles the suction or compressed air flow. 4. Device according to claim i to 3, characterized in that a resilient, the suction or compressed air stream easier following leaf is attached to the display member. (Z).