DEP0010989DA - Compressed air controlled regulator - Google Patents

Description

Indirect regulators that work with compressed air as an auxiliary force are known and are brought onto the market in a large number of designs. Despite the differences in shape and construction, they all have one feature in common, namely the fact that the measuring mechanism is always included in the controller. This creates a self-contained design that provides a corresponding controller design for every normal case - pressure, temperature, volume, etc. control. However, this requires a large number of types, since, for example, the structure of a temperature controller differs considerably from that of a flow controller with regard to the measuring mechanism. Certain disadvantages of an economic and operational nature are associated with this, which always become noticeable when the requirement is raised to convert a measuring system into a control system or, in general, to develop controllers from existing measuring devices.

The present invention is suitable for fundamentally creating change here. According to the invention, the pilot pressure transducer is relocated into the measuring device, while the force amplifier, including a return, forms a special unit separate from the measuring device. It is thus possible, after installing the so-called pilot pressure transmitter in the measuring device, to use it in its old form for control purposes.

The figure shows the basic structure of such a controller - a temperature controller is shown here. The pilot pressure transmitter is located in the display housing of the mercury spring thermometer (2), the sensor (1) of which is installed in the pipe (12) in which the temperature is to be regulated. This essentially consists of the adjustable nozzle (4) and the baffle plate (5) operated by the instrument pointer. Air flows out of the nozzle, the pressure of which is determined by the position of the baffle plate. To the effect of the air pressure on the baffle plate and thus on the measuring mechanism, if possible To keep it small, a pressure of no more than 500 mm WS is used. This pilot pressure is fed through the pipe (3) to the actual regulator, the so-called power switching device (6), where it is increased in the following way! The capsule springs (7) are acted upon by the control pressure and move up or down depending on the magnitude of the pressure. The baffle plate (8) is brought closer or less to the nozzle (9), which changes the control pressure that acts on the diaphragm valve (11). In the power switching device there is also a known feedback (10).

The use of the measuring device as a control pulse generator has the technical advantage that there is feedback which, in cases where the measuring unit is located in the controller, requires further technical effort and is therefore often missing. The pilot pressure transducer, on the other hand, is a relatively simple component that can also be retrofitted into a measuring device. This is of particular importance in the high-pressure area for volume regulators, for which there are only a few special regulators, but which work without feedback. The problem has been solved by adding a pilot pressure transducer to a high pressure ring balance.

Claims (1)

Compressed air-controlled regulator for the automatic regulation of mechanical and electrical measured variables, characterized in that the pilot pressure transducer is moved into the measuring device, while the power amplifier, including a feedback, forms a special unit separate from the measuring device.