DE243461C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

-JV * 243461 CLASS 88 ". GROUP

BRIEGLEB, HANSEN & CO. in GOTHA.

is moved.

Patented in the German Empire on September 19, 1911.

With automatically regulated turbines, which are fed through long, closed pipes are used, one uses free-wheeling valves, which are opened when the inlet member the turbine is closed to prevent dangerous pressure increases in the pipeline. Free-wheeling valves, which from one point of the lever mechanism of the automatic speed controller dragged along or ge ^

ίο controls are known. This drive of the free-wheeling valve from the lever mechanism of the cruise control, however, brings different ones There are disadvantages, one of which is the unavoidable dead gear after a long period of operation in the joints, as well as the permanent risk of breakage for the individual parts of the lever mechanism the most serious are; the latter in particular becomes particularly threatening when that Free-wheeling valve after a long period of operation

as a result of impurities that separate from the water, have become difficult to move is. According to the present invention, these disadvantages in turbine regulators, which use pressure fluid as a driving medium, avoided that the free-wheeling valve receives its own working cylinder, which is connected to the working cylinder of the turbine regulator is connected in series, so that both working pistons are controlled by the control valve of the cruise control at the same time will.

In the figure, the new arrangement is shown schematically, α is the working piston of the turbine regulator (speed regulator), the piston rod of which is connected to the nozzle of the turbine at point δ so that a movement of the piston to the left causes the nozzle to close. c is the centrifugal pendulum, which adjusts the control valve d ; the control valve d is also influenced in a known manner by the return consisting of the tie rod e and the angle lever f , g is the free-wheeling valve, h is the working piston used to move it, i a Loading weight. The pipe socket k is connected to the pressure line of the turbine, the pipe socket I leads into the underwater. The drive medium line (oil line), m leads from the control valve under the working piston of the free-wheeling valve, the line η leads from the other side of the piston h. on the right side of the piston a ; the line 0 finally leads back from the left side of the piston α to the control valve d . In the piston h there is the small bore p and the check valve q, which allows the drive means to pass from top to bottom. The oil inflow to the control valve d and the outflow therefrom are indicated in the figure by arrows.

The operation of the device is as follows: When the turbine is relieved, the piston of the control valve d is lifted by the centrifugal pendulum c , as a result of which pressurized oil enters the line m . Since the small bore j> can only let through a very small amount of oil, but on the other hand the check valve prevents the pressure oil from passing through.

fights back, the working piston h is raised and the free-wheeling valve g is opened. The oil draining from the upper side of the piston h passes through the line η at the same time to the right side of the piston a. Since the line ο is connected to the drain when the control piston is raised, the piston α is driven to the left and the diffuser is closed. After this process has ended, the will then decrease

ίο Free-wheeling valve slowly downwards again under the influence of the load weight i , in that the small hole p slowly lets the oil flow over from the lower side of the piston h to the upper one. In the steady state, the free-wheeling valve is always closed, so that permanent waste of water is avoided. If, conversely, the load on the turbine is increased, the line 0 comes into connection with the pressure oil inflow, the working piston α moves to the right, since the oil flowing out through the line η from the check valve q is released into the line m connected to the drain .

Since for the safety of the entire turbine system it is imperative that the diffuser can never be closed without opening the free-wheeling valve at the same time, the connection between the piston h and the free-wheeling valve g is made so strong that it can withstand the full oil pressure. If, for any reason, the free-wheeling valve is stuck, a rapid closing movement of the diffuser is prevented and thereby a water surge in the turbine inflow line is prevented. The unavoidable increase in the number of revolutions of the turbine is much less dangerous than the bursting of the turbine pipeline, which in such cases would certainly occur in many systems, especially because the machines driven by the turbines are usually built in such a way that they Withstand the runaway speed of the turbines.

The check valve q can also be switched on at any other conveniently accessible point between the lines m and η instead of in the piston k . For greater security against possible failure of the same, two check valves can also be connected in series. The small leakage p can also be switched on at any other point between the two lines m and η .

Claims (1)

Patent claim: Turbine regulator with free-wheeling valve, which is operated by a special working piston is moved, characterized in that the working cylinder of the free-wheeling valve and of the turbine controller are connected in series to a control valve. For this purpose ι sheet of drawings.