DE886574C - Device for measuring speeds with pneumatic transmission - Google Patents

Description

The present invention is a device that the Transmission of speeds to a display device from the measuring point spatially is separated, allows. * Air is used as the transmission medium, z. B. from a piston pump, a vane pump or a diaphragm pump, proportionally the speed is promoted and passed through a flexible pipe to the display device.

In Fig. I a piston pump is shown schematically as a transmitter. An eccentric 2 is placed on the axis I, the speeds of which are to be measured. The piston 4 is moved back and forth in the pump housing 5 by the connecting rod 3. The air is sucked in through the slot 6 released in the lowest dead center position, through the ball valve 8 loaded with a spring 7 into the flexible pipe connection g pressed in and directed to the display device. This is in a housing I0 housed. With the inlet port 11 is an elastic expansion body 12, the however - by other suitable elements, e.g. B. be replaced by a membrane can, connected. The upper end 13 of the expansion body 12 carries a piece of pipe I4, which expands to a spring plate at the top and a slot in the middle 15 has. When the expansion body 12 moves, this slot moves in the direction of the longitudinal axis. This is firmly connected to the outside of the housing closed pipe I6, which protrudes into the pipe section I4. It has a wedge-shaped Opening 17, however, in order to meet the respective requirements, any can have other shape. On the upper part of the tube 16 there is an adjustable one Spring plate. Located between this and the correspondingly expanded tube 14 A spiral spring 19 is attached to the end plate I3 of the pressure body 20 intended for the display unit.

The movement of the expansion body is transmitted to the lever arm supported in FIG 22 and transferred from this via the segment 23 and the pinion 24 to the pointer 25 and can be read on the scale 26.

The operation of the device is as follows: By the pump air, in its amount proportional to the speed, enters the system through pipe g of the display device promoted.

Since there is initially no exit possibility for the air flowing into the measuring system is present, the expansion body 12 will expand in the direction of the longitudinal axis. As a result, the pipe section 14 moves upwards and with it at the same time the Slot 15. Finally, slot I5 reaches the bottom tip of the solid Tube I6 arranged wedge-shaped opening I7. The pressure is now equalized. With a constant air supply from the pump, i. H. with constant Speed, the pressure hull will maintain its position and thus the display as long as until a change in air flow, d. H. the speed occurs. Will now For example, more air must be conveyed, so that an equalization can occur, the required outlet opening will be larger .. The pressure hull will be so Extend it far until this state is established. In Fig. 2 there is one such State shown. The attached to the pipe section 14 slot 15 has around the Amount a shifted upwards and is thus against the base of the wedge-shaped outlet cross-section I7 postponed. A larger amount of air can now be passed through the released cross-section emerge, whereby the equilibrium is established. Since each speed has a corresponds to a certain amount of conveyed air and any amount of air to a certain one Outlet cross-section. is peculiar to the establishment of equilibrium, becomes a calibration of the scale allows, on which then the changes in the Speed can be read.

PATENT APPEAL: I. Device for measuring speeds with pneumatic Transmission of the measurement result, characterized in that on the to be monitored An air pump is attached to the shaft as a transmitter, which is proportional to the speed a flexible pipe conveys air to the display device.

Claims (1)

2. Device according to claim I, characterized in that this Air pump can be a piston pump, a vane pump or a diaphragm pump. 3. Device according to claim I and 2, characterized in that the conveyed air leave the measuring system through a pressure compensation device and can escape into the open. 4. Device according to claim I to 3, characterized in that the pressure compensation device consists of an elastic expansion body and this expansion body under the influence of the conveyed air an outlet cross-section controls. 5. Device according to claim I to 4, characterized in that A bellows, a membrane or the like is used as the expansion body. 6. Device according to claim I to 5, characterized in that the pressure equalization through two mutually displaceable outlet cross-sections different form is made possible. 7. Device according to claim I to 6, characterized in that an adjustable spring is provided for the purpose of later regulation, the acts against the pressure of the air on the expansion body.