DE271364C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 271364 CLASS 8Sa. GROUP

in WINTERTHUR, Switzerland.

Cruise control device. Addition to patent 261218.

Patented in the German Empire on May 31, 1913. Longest duration: February 3, 1927.

In the main patent 261218 there is a speed control device for free jet turbines with two regulating devices, each of which has a special one Servo motor are operated, described. The two servomotors are under the indirect influence of a single controller that influences a control valve, which on the one hand in the event of a large change in speed, both servomotors are activated and, on the other hand, by the feedback of the control devices is controlled.

If pressure fluid flows from the control valve to the servomotor that quickly cuts off part of the water jet during such a speed control, part of the pressure fluid supplied to the servomotor flows away at the same time through a manually set discharge nozzle B , which is open at the moment.

The present invention is now a speed control device at which of the regulators influencing the control valve is the outflow opening for the hydraulic fluid, which enters the servomotor, which reduces the amount of impact water at high speed, closes automatically, when this servomotor has the tendency to move part of the water jet through the one Cut off regulating device while the regulator in the fall of the regulating device the discharge opening opens automatically.

Embodiments of the subject matter of the invention are shown in the accompanying drawing. represents, namely shows

Fig. Ι a first embodiment and

Fig. 2 shows a second embodiment of the same.

The _{servomotor is designated by S 2} , which has to take care of the rapid cutting off of part of the water jet. The servomotor S ₁ , which moves an axially displaceable needle located in the nozzle, has been omitted for the purpose of simplifying the drawing. A centrifugal regulator P influences a control valve, a so-called double valve, which is made up of a valve F ₁ and a valve F ₂ and is fed from the pressure line O. A line E ₃ leads from the valve F ₁ to the servomotor S ₁ , while the discharge line E _{1 is provided} for the pressure fluid used in the servomotor ¹ . from

A line E ₄ , in which a check valve R is located, leads to the valve F _{2 to the servomotor S 2} , while an outflow line E ₂ , in which an outflow valve B ' is located, is provided for the used pressure fluid. The movement of the servo motor S ₂ is thus controlled by the valve F ₂ and the movement of the servo motor S _{1 is} controlled by the valve V _1.

ίο The returns of the two control devices are connected to one another by means of a common lever H ₂ . The linkage H ₁ , which is connected to the centrifugal regulator P , engages between the two points of application of the return guides on the lever H ₂ . The control valves F ₁ , F ₂ receive their movements through the linkage H ₃ , to which a double lever H ₄ is attached at one end, while the other end of the double lever affects the discharge valve B. The double lever H ₄ is held stationary and oscillating in L.

_{As soon as the valve F 2} opens during regulation, e.g. due to the occurrence of greater force or speed fluctuations, hydraulic fluid flows from the pressure line O through E ₄ and R to the servomotor S ₂ , but at the same time the double lever H _{4 is} pivoted in such a way that the outflow valve B closes. If H ₃ lowers, so that the valve F ₂ closes, the outflow valve B is opened, so that the pressure fluid from the space behind the large piston of the servo motor S ₂ under the influence of the constant back pressure from the smaller piston of the servo motor S ₂ through the Valve B begins to flow out.

Due to this control of the discharge valve B is obtained the advantage of a quick effect of actuated by the servomotor S ₂ control device by all passes through E ₄ conveyed pressurized fluid to effect and does not flow out part during the Reguliervorganges through valve B and lost the effect is . In addition, the pump delivering the hydraulic fluid can therefore be kept smaller.

The same effect is achieved by the valve shown in Fig. 2 if it is installed in place of the double valve, omitting the double lever H ₄ , the outflow valve B and the check valve R.

On the same spindle M moved by the linkage H ₃ , the valves F ₁ and F ₂ are present. The valve is similar to the valve shown in FIG. 1, with the difference that a chamber K is _{provided above the valve F 2} , which gives access to the 60 · drain line E _2. The effect of the valve F ₁ remains the same as in FIG. 1. The valve F ₂ acts in such a way that as soon as it allows the pressure fluid to flow from the pressure line O to the line E ₄ , the connection between the chamber K and the line ZT _{4 is} completed . If, however, the valve F ₂ moves downwards from its central position, the pressure fluid has the opportunity to pass _{from the line E 4} into the chamber K and from this into the drain line E _2.

The omission of parts H ₄ , L, B and R in FIG. 1 using the "valve according to FIG. 2" results in a very simple construction. In line E ₂ , a closing element can of course be installed to control the outflow rate of the pressure fluid to be able to regulate.

The speed controller according to the present invention also has the advantage that if a sudden load occurs during the regulating process, the _{beam deflector operated by the servomotor S 2} quickly goes back. In previous designs, on the other hand, only the needle actuated by the servomotor S regulates in this case and the regulation is particularly poor in this case.

Claims (3)

Patent-to sayings: ι. Speed control device according to patent 261218, characterized in that that the same regulator, the outflow opening for the hydraulic fluid, which in the the impact water quantity servomotor, which reduces the speed at high speed, closes automatically, when this servo motor tends to pass part of the water jet through Cut off the one control device, while the regulator cuts off the outflow when the control device falls opens automatically. 2. Speed control device according to claim 1, characterized in that the outflow opening (B) of the second servo motor (S ₂ J is closed by a valve which is actuated by the control valve (V ₂ ). 3. Apparatus according to claim 1 and 2, characterized in that the control valve (V ₂ ) and the valve (B) closing the outflow opening are formed into a single double valve (Fig. 2). 1 sheet of drawings.